HomeMy WebLinkAbout0560-22_WSP Plan_July 2022_VersionWestern Snowy Plover Management Plan
for East Balboa Peninsula Beaches
Prepared for:
City of Newport Beach
City Hall – 100 Civic Center Drive, Bay E,
Newport Beach, California 92660
Prepared by:
Glenn Lukos Associates
29 Orchard, Lake Forest California 92630 Contact: Tony Bomkamp Jeff Ahrens
July 2019 [Revised February 2020] [Revised June 2021
July 2022]
Western Snowy Plover Habitat Management Plan
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TABLE OF CONTENTS
Section Page No.
1 OVERVIEW .......................................................................................................................1
1.1 Site Description ....................................................................................................... 2
1.1.1 Critical Habitat Area ................................................................................... 3
1.1.2 Other Balboa Peninsula Habitat .................................................................. 5
1.2 Regulations and Policy ........................................................................................... 5
1.2.1 Federal Endangered Species Act ................................................................ 6
1.2.2 US Fish & Wildlife Service: Western Snowy Plover Recovery Plan ......... 7
1.2.3 California Coastal Act................................................................................. 8
1.2.4 City of Newport Beach: General Plan ........................................................ 8
1.2.5 City of Newport Beach: Coastal Land Use Plan ......................................... 9
1.2.6 City of Newport Beach: Municipal Codes .................................................. 9
2 WESTERN SNOWY PLOVER OVERVIEW ................................................................9
2.1 WSP Life History .................................................................................................... 9
2.2 WSP Nesting and Wintering ................................................................................. 10
2.3 WSP Population status on Balboa Peninsula ........................................................ 11
2.4 Wintering WSP on Balboa Peninsula ................................................................... 11
3 EXISTING CONDITIONS ON BALBOA PENINSULA ............................................13
3.1 Habitat ................................................................................................................... 14
3.1.1 Native Plants ............................................................................................. 15
3.1.2 Non-native Plants ...................................................................................... 15
3.1.3 Delineation – Existing Fence .................................................................... 15
3.2 Predation ............................................................................................................... 16
3.3 Recreational Activity ............................................................................................ 17
3.3.1 Human Activity ......................................................................................... 17
3.3.2 Dogs on Beach .......................................................................................... 18
3.4 Beach Operations .................................................................................................. 19
3.4.1 Marine Operations Division ...................................................................... 19
3.4.2 Municipal Operations Department ............................................................ 19
3.4.3 Animal Control Division........................................................................... 20
3.4.4 Recreation and Senior Services Department............................................. 20
3.4.5 Public Works Department ......................................................................... 20
4 OBJECTIVES OF THE PLAN ......................................................................................21
4.1 Adaptive Management .......................................................................................... 22
5 CONSERVATION MEASURES ....................................................................................23
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5.1 Education and Outreach ........................................................................................ 23
5.1.1 Educational Materials ............................................................................... 24
5.1.2 Education and Outreach Opportunities ..................................................... 24
5.1.3 Community Partners ................................................................................. 25
5.1.4 Recreation and Youth Services ................................................................. 25
5.2 Adaptive Management Implementation ................................................................ 26
5.2.1 Adaptive Management and Monitoring .................................................... 26
5.2.2 Install Temporary Seasonal Fencing ......................................................... 26
5.2.3 Adaptive Management .............................................................................. 28
5.2.4 Restoration ................................................................................................ 28
5.2.5 Dune Habitat Maintenance ....................................................................... 29
5.3 Predator Management ........................................................................................... 30
5.3.1 Non-Lethal Control Measures................................................................... 30
5.3.2 Control Measures When Nests are Present ............................................... 30
5.4 WSP Monitoring ................................................................................................... 31
5.4.1 Wintering and Nesting Window Surveys ................................................. 31
5.4.2 WSP Population Monitoring ..................................................................... 32
5.4.3 WSP Technical Working Group Pilot Program ........................................ 32
6 BEACH OPERATION AND RECREATION MANAGEMENT ...............................33
6.1 Non-Recreational Operations................................................................................ 33
6.1.1 Marine Operations Division ...................................................................... 34
6.1.2 Municipal Operations Division ................................................................. 34
6.1.3 Public Works Department ......................................................................... 37
6.2 Recreational Activities .......................................................................................... 38
6.2.1 Public Access ............................................................................................ 38
6.2.2 Dogs .......................................................................................................... 39
6.3 Critical Habitat and ACA Delineation .................................................................. 40
6.3.1 Visual Indicators/Barriers ..................................................................................... 40
6.3.2 Visual Indicators/Barriers – Adaptive Management Proposal: Phase 1 ............... 41
6.3.3 Visual Indicators/Barriers – Adaptive Management Proposal: Phase 2 ............... 43
6.4 Signage .................................................................................................................. 44
6.4.1 Interpretive and Educational signage ........................................................ 44
6.4.2 Regulatory signage.................................................................................... 45
7 ADAPTIVE MANAGEMENT TRIGGERS AND PERFORMANCE STANDARDS
............................................................................................................................................45
8 REPORTING ...................................................................................................................48
8 LITERATURE CITED ...................................................................................................49
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TABLES
Table 1 Recovery Goal for Western Snowy Plover by Unit ............................................................7
Table 2 Critical Habitat Area MOD Beach Services Schedule ....................................................37
Table 3. G Street to the Wedge MOD Beach Services Schedule .................................................37
TABLE OF CONTENTS (CONTINUED)
EXHIBITS
1 Map of Newport Beach
2 Critical Habitat Unit 48
3 Critical Habitat Areas in Southern California
4 Western Snowy Plover Recovery Plan Location 109 Newport Beach
5 Western Snowy Plover Survey Results
6a-b Current Delineation of Area Protected for WSP Within the Critical Habitat Area
7 Lifeguard Vehicle Access Map
8 Municipal Operations Vehicle Access Map
9 Signage Templates 10 Signage and Icon Templates
11 Signage and Icon Templates
12 Signage and Icon Templates 13 Signage Locations for Critical Habitat 14 Barrier Options 15 Plover Logo
16 Signage Locations
17 Signage Locations
APPENDICES
A Natural Resources Element Goals and Policies
B Western Snowy Plover Policies
C Municipal Codes
D US Fish & Wildlife Service WSP Window Survey Results 2005-2017
E Recovery Plan for the Pacific Coast Population of the Western Snowy Plover
F. Dune Habitat Restoration Plan
Western Snowy Plover Habitat Management Plan
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1 OVERVIEW
This Western Snowy Plover Habitat Management Plan (“Plan”) has been developed to address
management of the western snowy plover (Charadrius alexandrinus nivosus) (“WSP”) within the
eastern portion of the Balboa Peninsula that includes U.S. Fish and Wildlife Service (USFWS)
designated Critical Habitat Unit 481, for the federally listed threatened WSP as well as areas to the
east of Critical Habitat Unit. Although the focus of the Plan is conservation of the WSP,
conservation measures will also benefit other shorebirds. Measures for the restoration and health
of the beach dune habitat, which may be used by the WSP are also included. An earlier version of
this Plan was prepared by Dudek, dated June 20182, which was distributed to the public for review
and comment and a variety of comments were received. This updated version of Plan have been
prepared to be responsive to the comments received, including the comments submitted by the
public in response to a public meeting on May 20, 2019, as well as to further document ongoing
actions by various City of Newport Beach (“City”) departments to protect the WSP on City
beaches. This Plan also responds to letters submitted to the City by the California Coastal
Commission3,4 addressing protection of the WSP and letters from USFWS that provide suggested
measures to enhance WSP protection and conservation5,6. As discussed below in various sections
of this Plan, many of the measures proposed by CCC and USFWS were previously incorporated
into the Plan for the geographic areas of the City addressed in this plan and this version of the Plan
incorporates specific edits and addresses specific comments submitted by USFWS and also
responds to the most recent correspondence from USFWS dated February 23, 2022.7 This Plan
has also been prepared to ensure compliance with the Natural Resources Elements of the City’s
General Plan and the City’s Local Coastal Program and includes an “Adaptive Management”
component, wherein modifications to the Plan would be incorporated where monitoring
demonstrates that measures included in the Plan require modification to ensure adequate protection
for the WSP within the Critical Habitat area and areas to the east of the Critical Habitat area. .
1 U.S. Fish and Wildlife Service. 2012. “Endangered and Threatened Wildlife and Plants; Revised Designation of Critical Habitat for the Pacific Coast Population of the Western Snowy Plover; Final Rule.” Federal Register Volume 77 Number 118; 50 CFR Part 17. June 2012 2 Dudek, 2018. Western Snowy Plover Management Plan for East Balboa Peninsula Beaches, Newport Beach,
California
3 California Coastal Commission. June 26, 2017. Notice of Incomplete Application. Letter addressed to Brenda Wisneski, Deputy Community Development Director.
4 California Coastal Commission. September 11, 2017. Subject: Protection of Snowy Plover and dune habitat in City of Newport Beach. Letter to Dave Kiff, City Manager.
5 USFWS. February 16, 2017. Subject: Protective Measures for Western Snowy Plovers on Beaches in Newport Beach, Orange County, California. Letter to Dave Kiff, City Manager.
6 USFWS. April 10, 2018. Subject: Western Snowy Plover Management in Newport Beach, California. Letter to Dave Kiff, City Manager. 7 U.S. Fish and Wildlife Service. February 23, 2022. Letter from Sandy Vissman (USFWS) to Matthew Schneider (City of Newport Beach) with subject line: Comments on June 2021 revised draft Western Snowy Plover Management Plan for East Balboa Peninsula Beaches
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Following review of the July 2019 GLA Plan, the California Coastal Commission provided
additional recommendations and the City met with USFWS and received comments from USFWS
following the meeting. This updated version of the Plan responds to and incorporates
recommendations of Coastal Commission’s and USFWS, while retaining features of the July 2019
Plan such as the adaptive management approach, which is a key component of the Plan. Finally,
this Plan provides the detailed measures that once approved and adopted can be used as the
framework for other areas in the City where site specific protective measures for WSP require
formal establishment and implementation. As discussed throughout this Plan, various departments
within the City of Newport Beach already incorporate actions during day-to-day operations aimed
at WSP protection; however, additional measures, based on site specific conditions may be
warranted. This Plan provides an important milestone in achieving protection for WSP and dune
habitat throughout the City, through implementation of an adaptive management approach.
1.1 Site Description
Newport Beach is a community of 86,738 people covering 25.4 square miles, including 2.5
square miles of bay and harbor waters [Exhibit 1]. Over 63-percent of the City is in the coastal
zone. The bay and beaches continue to play an important role in the community’s character
and economy. There are over 8 miles of sandy beaches that provide opportunities for
sunbathing, volleyball, swimming, surfing, windsurfing and other recreational activities.
Beach attendance averages 9.4 million people annually and the beach continues to be a major
visitor destination. An oceanfront boardwalk runs along the beach for approximately 3 miles
from 36th Street in West Newport to F Street on the Balboa Peninsula and is popular with
pedestrians, bicyclists, and skaters.
Balboa Peninsula stretches 3 miles long and is a popular summer destination in Newport Beach.
At the center of the Balboa Peninsula is Balboa Village, a historic center for recreational and social
activities on the Peninsula. It has a strong marine heritage and attracts anglers, recreational boaters,
summer residents, and beachgoers. Attractions include the Balboa Fun Zone, Balboa Pier, historic
facilities, live entertainment, restaurants and hotels. The “Wedge” located at the extreme east end
of Balboa Peninsula is also a popular surfing spot and attracts wave riders and spectators during
large summer swells. In addition to recreation and social activities, the beaches in Newport Beach
also support areas of sensitive natural resources.
Portions of Newport Beach’s coastline support areas of coastal dune habitat. The coastal dune
ecosystem is one of the most sensitive and declining habitat types on the West Coast and has
historically been impacted by development, with continuing impacts from invasive, non-native
species. Coastal sand dunes are a dynamic landform that can be affected by wave action, tides,
wind, and trampling and are formed where there is a substantial amount of blown, dry sand.
Plant life generally consists of low-growing species, which often exhibit succulent leaves,
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creeping stems and long fleshy taproots. These adaptations aid the plants in tolerating coastal
conditions in southern California including summer drought, salt stress and periods of intense
sunlight. The coastline also supports unvegetated upper beach habitat above the high tide line,
and below the dunes, that supports numerous invertebrate species, including beach hoppers
(Telitrids), beetles (Coleoptera) and flies (Diptera). These areas provide prey resources as well
as resting habitat for shorebirds, including the WSP.
As discussed throughout this plan, Newport Beach includes area that USFWS has designated as
“Critical Habitat” for the WSP (Critical Habitat Unit 48) [Exhibit 2] that requires special
consideration. WSP also use other City beaches that lie beyond the boundaries of the designated
Critical Habitat, including frequently used beach habitat to the east of Critical Habitat Unit 48, near the
Wedge. In recognition of the importance of frequently used City beach habitat to the WSP, habitat to the
east of CH Unit 48 was recommended for designation as an Avian Conservation Area (“ACA”)8 by
the USFWS. The Project Area for this plan, Critical Habitat Unit 48 and the beach and dune area
to the east of Critical Habitat Unit 48, is used primarily by wintering WSP. This plan does not
address other City beach areas that may be used by WSP, however, the City recognizes the need for
protection of the WSP on all beaches within the City; however, as discussed below, each area
within the City is different, in terms of use intensity, recreational activity and natural resource
value, and requires site-specific measures. Thus, following approval of this Plan, the City plans
to address the other City beach areas with site-specific measures that reflect their unique
characteristics in terms of use intensity, recreational value, and natural resource values. Site
Specific measures would follow the general framework set forth in this Plan.
1.1.1 Critical Habitat Area
Balboa Peninsula is one of seven primary wintering sites for snowy plovers in Orange County,
which historically supported nesting; although due to existing human uses, the current potential for
nesting is low. The Balboa Peninsula also contains three of the four recommended ACAs
identified by USFWS in the City, including Critical Habitat Unit 48. The Project Area includes
the beaches and dunes used by WSP along the eastern segment of the Balboa Peninsula east of B
Street. This stretch of beach is approximately 1.1 mile or about 23-percent of the linear extent of
Newport Beach. It includes Critical Habitat Unit 48, described below, as well as recently
occupied habitat to the east, near the Wedge.
The Pacific Coast population of the WSP was listed as “threatened” pursuant to the federal
Endangered Species Act (“FESA”) by the U.S. Fish and Wildlife Service (USFWS) on March 5,
1993. Final critical habitat for WSP was designated by the USFWS in 2012 [Exhibit 3 depicts
areas of Critical Habitat in southern California]. Critical habitat for the species is designated for
8 Ibid., page 3.
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the following areas within Newport Beach: Southeast of Balboa Pier, from B Street to G Street
(0.4 miles), approximately 25.04 acres of beach (between the boardwalk and the mean tide line).
Site views are provided on Exhibit 2. As noted, USFWS identifies this area as Critical Habitat
Unit 48.
Critical habitat is a designation in the FESA that identifies geographic areas containing
features essential for the conservation of a threatened or endangered species that may require
special management considerations or protection. As defined in the FESA, critical habitat may
also include areas that are not currently occupied by the species but have been determined
essential for the recovery of the species for which critical habitat is designated.
The USFWS initial designation of critical habitat for the WSP was December 7, 1999, with updates
in 2012. Currently, there are 55 critical habitat units (approximately 24,527 acres) in Washington,
Oregon, and California including Unit 48: “Balboa Beach” Peninsula site. When designating
critical habitat biologists consider physical or biological features necessary for life-history
processes essential to the conservation of the species. These include, but are not limited to:
• Space for individual and population growth and for normal behavior
• Food, water, air, light, minerals, or other nutritional or physiological requirements
• Cover or shelter
• Sites for nesting and rearing offspring
• Habitats that are protected from disturbance or are representative of the historic
geographical and ecological distributions of a species
The USFWS designated Critical Habitat Unit 48: “Balboa Beach” on June 9, 2012 as depicted on
Exhibit 2 along with three of the four ACAs in the City. Designation of critical habitat or ACA
does not affect land ownership or establish a wildlife refuge, wilderness area, habitat reserve or
preserve, or other designated conservation area. The critical habitat designation does not affect
accessibility by the public and in this regard would be the same as other stretches of beach on
Balboa Peninsula. The oceanfront boardwalk extends along the critical habitat area from just east
of B Street and ends approximately 200 southeast of F Street. Six street end entrances are located
from A Street to G Street. In addition, C, D, E, and F Streets each have an asphalt or concrete
pathway that extend various lengths from the intersection of the street entrance and boardwalk,
toward the ocean within the designated Critical Habitat. It is important to note that, except for the
concrete path that extends from E Street, which was constructed in 2014, each of the concrete
walkways pre-date the Coastal Act and do not need authorization from the Coastal Commission.
Consistent with the request of USFWS in their February 23, 2022 Letter, The City has determined
that it will not seek after-the-fact authorization for the E Street Walkway and this Plan includes
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removal of this feature and restoration of the area following removal is addressed in a Dune Habitat
Restoration Plan (“DHRP”) that would include the area beneath the concrete walkway as well as
other portion of the Dunes as requested in the July 27, 2021 Letter from the California Coastal
Commission. The DHRP is attached as Appendix F.
1.1.2 Other Balboa Peninsula Habitat
WSP use of Balboa Peninsula beaches is not limited to habitat designated as Critical Habitat. WSP
have been documented using the upper beaches and dunes to the east and west of Critical Habitat
Unit 48 but have been most regularly detected near Critical Habitat Unit 48 and to the east of
Critical Habitat Unit 48 between B Street and the Wedge. WSP surveys provided information
regarding WSP use of the Project Area include monthly surveys (Griswold 2014, 2015; Weinik
20135) and one-day window surveys, which are conducted range wide during a one-week window
in the breeding and non-breeding seasons (available on USFWS website;
https://www.fws.gov/arcata/es/birds/wsp/plover.html).
As already stated, the City recognizes the importance of incorporating conservation measures that
will maximize the protection for wintering WSP at each of the wintering sites across the City’s
beaches. Successful implementation of this Plan could also increase the potential for resumption
of nesting activities on the Balboa peninsula. While successful nesting has not occurred since
2009, with a failed nesting attempt in 2013, it is a goal of this plan to manage the habitat for the
overall benefit of the WSP and dune habitat. This Plan provides the detailed measures that once
approved and adopted can be used as the framework for other areas in the City where site specific
protective measures for WSP require formal establishment and implementation. As discussed
throughout this Plan, various departments within the City of Newport Beach already incorporate
actions during day-to-day operations aimed at WSP protection; however, additional measures,
based on site specific conditions may be warranted. This Plan provides an important milestone in
achieving protection for WSP and dune habitat throughout the City, through implementation of an
adaptive management approach.
1.2 Regulations and Policy
As noted above, the WSP is listed as “threatened” under the FESA and Critical Habitat under the
FESA was revised and updated in 2012. State of California includes the WSP as a “Species of
Special Concern”. This Plan has been developed in a manner that is intended to address a number
of State and federal regulatory programs, addressed below. Under the regulatory programs
discussed below, protective measures for species and habitat vary by location and by the ecology
of the species in the context of site-specific conditions. USFWS coordinates with land managers
on measures to protect listed species and issues permits, where necessary, under section 10 and
section 7 of the FESA to address potential impacts and recovery actions that may affect the species.
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Protective measures for specific species such as WSP are subject to ongoing review by managers
and biologists to ensure they meet the conservation needs of the species while being the least
intrusive as possible for recreation and other uses. The following regulations and policies have
been considered in establishing best management practices, protective measures and conservation
efforts within the City of Newport Beach for this Plan.
1.2.1 Federal Endangered Species Act
The Federal Endangered Species Act (FESA) is a federal law, enacted in 1973, to provide a
program for the conservation of threatened and endangered plants and animals, as well as their
habitats. It is administered by the USFWS and the Commerce Department’s National Marine
Fisheries Service (NMFS). The USFWS’s primary responsibility for terrestrial and freshwater
organisms, while the responsibilities of NMFS are mainly marine wildlife.
Under the FESA, species may be listed as either endangered or threatened. “Endangered” means
a species is in danger of extinction throughout all or a significant portion of its population range.
“Threatened” means a species is likely to become listed as endangered within the foreseeable
future. All species of plants and animals, except pest insects, are eligible for listing as endangered
or threatened. Approximately 2,300 species are currently listed as endangered or threatened under
the FESA, including the threatened WSP.
Section 4 of the FESA requires that listing determinations be based solely on the best scientific
and commercial information available; economic impacts are not considered in making species
listing determinations and are prohibited under the ESA. All endangered or threatened species,
including the WSP, may be listed due to any of the following 5 factors:
1. Present or threatened destruction, modification, or curtailment of its habitat or range;
2. Over-utilization of the species for commercial, recreational, scientific, or educational purposes;
3. Disease or predation;
4. Inadequacy of existing regulatory mechanisms; and
5. Other natural or manmade factors affecting its continued existence.
Pursuant to Section 9, the FESA protects endangered and threatened animal species and their
habitats by prohibiting the “take” or “harm” of listed animals. Take is defined as “to harass, harm,
pursue, hunt, shoot, wound, kill, trap, capture, or collect or attempt to engage in any such conduct.”
The term “harm” is defined as “an act which actually kills or injures wildlife”. Harm may also
include significant modification or degradation of habitat resulting in killing, injuring or impairing
essential behavioral patterns like nesting, feeding, or sheltering. The goal of this Plan is to reduce
or eliminate any potential for take of the WSP on the City’s beaches.
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In addition to preventing further loss of a species, the ESA also requires the Federal Government
to pursue actions to recover species to the point where they are delisted and no longer require
protections (USFWS 2013). To this end, USFWS develops “Recovery Plans” for listed species.
1.2.2 US Fish & Wildlife Service: Western Snowy Plover Recovery Plan
The Western Snowy Plover Recovery Plan (WSPRP) is a guiding document prepared by the
USFWS that identifies priority areas for conservation planning and recovery objectives, criteria
and strategies necessary to achieve recovery for interested parties (USFWS 2007). Parties may
include Federal, State and local agencies, private landowners and the public. A recovery plan is
not a regulatory document and does not obligate cooperating or other parties to undertake specific
tasks or expend funds.
The WSPRP was published in 2007 and includes recommendations and management measures
that aim to protect, recover and delist the species from its threatened status under ESA (USFWS
2007). The WSPRP seeks cooperative management and monitoring, mixed with education and
public participation, to restore the WSP to sustainable numbers. In the WSPRP, the U.S. Range
of the WSP is divided into 6 Recovery Units, each with a numerical WSP population target
(Table 1). Newport Beach lies within Recovery Unit 6 and is identified in Appendix B of the
WSPRP as location CA-109 as depicted on Exhibit 4. The WSP population goal for Recovery
Unit 6 is an average 500 breeding adults for 10 years, and the overall recovery goal is to maintain
an average of 3,000 breeding adults for 10 years across the six recovery units (Table 1) and
annual productivity of at least one fledged chick per male in each recovery unit for the last five
years prior to delisting, In addition to population criteria, the WSPRP identifies management
criteria necessary for recovery of the WSP, including incorporation of management activities
into management plans to ameliorate or eliminate threats, completion of research necessary to
modify management and monitoring actions, development of a post-delisting monitoring plan
and development and implementation of mechanisms to assure long-term protection and
management of breeding, wintering, and migration areas to maintain the subpopulation sizes
and average productivity. If the WSPRP is successful, the species could be delisted by 2047.
Table 1: Recovery Goal for Western Snowy Plover by Unit
Western Snowy Plover Recovery Units Goal: Number of Breeding Adults 1. Washington & Oregon 250
2. CA—Del Norte--Mendocino counties 150
3. CA—San Francisco Bay 500 4. CA—Coast: Sonoma--Monterey counties 400
5. CA—Coast: San Luis Obispo--Ventura counties 1,200
6. CA—Coast: Los Angeles—San Diego counties 500
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1.2.3 California Coastal Act
The California Coastal Act of 1976 (Coastal Act) establishes specific policies (see Division 20 of
the Public Resources Code) that address issues such as shoreline public access and recreation,
lower cost visitor accommodations, terrestrial and marine habitat protection, visual resources,
landform alteration, agricultural lands, commercial fisheries, industrial uses, water quality,
offshore oil and gas development, transportation, development design, power plants, ports, and
public works. The Coastal Act also established the California Coastal Commission (Coastal
Commission). In partnership with coastal cities and counties, the Commission plans, reviews and
regulates the use (“Development”) of land and water in the coastal zone. Development activities,
which are broadly defined by the Coastal Act to include (among others) construction of buildings,
divisions of land, and activities that change the intensity of land use or public access to coastal
waters, generally require a coastal development permit (CDP) from either the Coastal Commission
or the local government through a Local Coastal Program.
Implementation of Coastal Act policies is accomplished primarily through the preparation of a
Local Coastal Program (LCP), prepared by a local government and reviewed and approved by the
Coastal Commission. An LCP typically consists of a land use plan and an implementation plan.
The City of Newport Beach (City) LCP was certified by the Coastal Commission on January 13,
2017. Within the City’s coastal zone, the certified LCP is standard by which both the City and the
Coastal Commission determines a project’s consistency with the Coastal Act. This Plan has been
prepared in a manner that is fully consistent with the provisions of the City’s LCP.
1.2.4 City of Newport Beach: General Plan
The City’s General Plan (“GP”), adopted in 2006 includes 10 elements. Among these elements is
the Natural Resources Element, which contains goals and polices (Appendix A) related to the
protection of biological resources, air quality and visual resources among other.
Specially related to the WSP, Goal NR12 call for the protection of coastal dune habitats and
includes three polices that address the restoration of native vegetation and removal of exotics, dune
habitat protection and beach sand removal. This plan has been designed to be consistent with the
applicable goals and polices set forth in the Natural Resources Element of the GP. As addressed
in more detail below and in the comprehensive DHRP, this Plan identifies areas within Critical
Habitat Unit 48 where non-native invasive species will be removed and re-planted with native
dune vegetation as part of dune restoration as well as areas between G Street and the Wedge where
dune habitat would be enhanced through removal of non-native fig marigold (Carpobrotus edulis).
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1.2.5 City of Newport Beach: Coastal Land Use Plan
The City’s certified LCP consists of Coastal Land Use Plan (CLUP) and an Implementation Plan (IP).
The CLUP sets forth goals, objectives, and policies that govern the use of land and water. The IP
contains the land use and property development regulations that implement CLUP policies.
The CLUP includes policies for the protection of environmentally sensitive habitat areas (ESHA).
ESHAs are areas in which plant or animal life or their habitats are either rare or especially valuable
because of their special nature or role in an ecosystem and which could be easily disturbed or
degraded by human activities and developments. Because the area covered by the critical habitat
designation supports roosting habitat for a threatened species, the federally designated critical habitat
area meets the definition of ESHA in the City’s CLUP. Regulations and procedures for the protection
of ESHA (Appendix B) are contained in IP Chapter 21.30B (Habitat Protection). Other applicable
IP sections include 21.30.100 (Scenic and Visual Quality Protection), Chapter 21.30A (Public
Access and Recreation) and Section 21.48.055 (Public Beaches). This Plan has been prepared in a
manner that is fully consistent with the provisions of the City’s CLUP.
1.2.6 City of Newport Beach: Municipal Codes
Appendix C provides a comprehensive list of municipal codes within City of Newport Beach that
are relevant to City beaches and relate to the protection measures of sensitive habitat areas and the
WSP. Municipal codes may be enforced by the Newport Beach Police Department or other
appointed officers with enforcement authority.
These municipal codes include, but are not restricted to, requirements that dogs are securely
restrained by a leash or chain on beaches and that animals are prohibited on public beaches between
the hours of 10 a.m. and 4:30 p.m. year-round (Chapter 7.04). Chapter 11 addresses areas that may
be relevant to WSP’s including obstructions on public beaches, (Chapter 11.08.010) prohibited
hours (11.08.30) and skimboarding (11.16).
2 WESTERN SNOWY PLOVER OVERVIEW
2.1 WSP Life History
The WSP is a small shorebird distinguished from other plovers by its small size, pale brown back,
dark patches on either side of the upper breast, and dark gray legs. As a small shorebird, their
weight ranges from 34–58 grams (1.2–2 ounces) and length from 15–17 cm (5.9–6.6 inches). Their
lifespan averages three years; however, a banded WSP was discovered to have lived 15 years.
Young WSP fledge between 28–33 days, when they can fly, and begin breeding as adults at one
year or older.
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The interior population is a California Species of Special Concern that breeds in the San Joaquin
Valley, northeastern California, the Owens Valley, the southeastern deserts, and around Lake
Elsinore in western Riverside County (Shuford et al. 2008). The Pacific population is federally
listed as threatened and is also a California Species of Special Concern and breeds along the coast
from Washington State south through California. According to Ryan et al., (2017), in Orange
County, the Pacific population of WSP have historically been documented nesting from Anaheim
Landing to Balboa:
In Orange County, plovers nested at Anaheim Landing, Sunset Beach Bay Fill, Sunset Beach, Bolsa Chica Beach, Bolsa Chica Salt Flats, Newport Beach, and
Balboa Beach prior to 1940 (Page and Stenzel 1981). During their 1979-78
survey, Page and Stenzel (1981) found that OC supported 2% of the pairs on the
mainland coast, all at the Bolsa Chica Oil Fields (previously Bolsa Chica Salt Flats). As in LAC, they concluded that the only other likely nesting location was at the Sunset Aquatic Park and that the lack of nesting plovers elsewhere was due
to beach raking and heavy human use (Page and Stenzel 1981).
The WSP feeds on invertebrates such as crustaceans and mollusks, marine worms, and insects.
They forage on invertebrates in the wet sand and amongst surf-cast kelp within the inter-tidal zone,
in dry, sandy areas above the high tide, on saltpans, on spoil sites, and along the edges of salt
marshes, salt ponds and lagoons. They sometimes probe for prey in the sand and pick insects from
low-growing plants (Defenders of Wildlife 2017). Their foraging behavior is to pause, look, run,
and then seize prey from the surface of the beach or tidal flat.
The adult WSP predators are typically avian species such as hawks and falcons(Page et al. 2009).
Snowy plover nest predators include American crow (Corvus brachyrhychos), common raven (C.
corax), red fox (Vulpes vulpes), raccoon (Procyon lotor), striped skunk (Mephitis mephitis), black
rat (Rattus rattus), and feral cat (Felix catus). Other suspected predators include coyotes (Canis
latrans), mink (Mustela vison), short and long-tailed weasel (Mustela spp.), Virginia opossum
(Didelphis virginiana), gray fox (Urocyon cinereoargenteus), Norway rats (Rattus norvegicus),
spotted skunk (Spilogale putorius), and gulls (Laris spp.) (USFWS 2008).
2.2 WSP Nesting and Wintering
The WSP nesting season is from March 1 through September 30, predominately in May. Nesting
occurs on coastal sandspits, dune-backed beaches, beaches at creek mouths and lagoons, and salt
pans at lagoons and estuaries. WSPs lay eggs on barren to sparsely vegetated sand beaches and
often place nests near a conspicuous feature in the landscape, such as kelp, driftwood or low
growing plants (Page et al. 2009). The male WSP protects the eggs and rears the young for the
first brood. The female may mate again and may help with the last brood of the season. The chicks
can walk within 3 hours of hatching. During this period, chicks are flightless, remain on the beach,
Western Snowy Plover Habitat Management Plan
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and are extremely vulnerable. They learn to feed by following their parent, usually the father, to
wrack (dead seaweed debris that has washed-up on shore). Both adults and juveniles will use wrack
and other natural beach debris as a place to hide from predators and weather.
The non-breeding season is also termed the “wintering” period. This period occurs from September
through February, although non-breeding individuals can sometimes return to their “wintering”
locations earlier- at some sites non-breeding individuals can arrive by late July or August.
Overwintering habitat is very important for WSP and other migratory shorebirds. The habitat
provides connectivity for dispersal between nesting sites and provides resources that allow birds
to build fat reserves necessary for spring migration and the upcoming nesting season. WSP exhibit
strong fidelity to overwintering sites, often returning to the same beaches every year after nesting
elsewhere.
2.3 WSP Population status on Balboa Peninsula
Prior to 1940, WSP nested in Orange County at Anaheim Landing, Sunset Beach Bay Fill, Sunset
Beach, Bolsa Chica Beach, Bolsa Chica Salt Flats, Newport Beach, and Balboa Beach (Page and
Stenzel 1981). Balboa Peninsula is currently a primary wintering habitat for the WSP. Between
2003 and 2010, Balboa Peninsula supported an average wintering flock of 35 WSP (77 FR 36728-
36869). Larger winter roosts have been documented southeast of Balboa Pier to the rock jetty at
the Wedge, with a maximum of 149 individuals. Since 2009, additional year-round surveys have
also been conducted (Weinik during 2013, 2014 and 2015, R. Griswold XXX).9 WSP are
primarily observed during the wintering season, and Balboa Beach supports the largest roost in the
county. Ryan et al. (2014) observed between 12–125 plovers generally between October and
February each year; this represents 42-percent of observations. The Balboa Peninsula beach appears
suitable for WSP nesting, however WSP generally depart from the Project Area near the beginning
of the breeding season (mid-March), and return by mid-July. WSP nested unsuccessfully in the
Project Area as recently as 2013 (cite), and successfully nested within the Project Area in 2009
WSP counts are generally low or absent between mid-March to mid-July as shown in the results
of the window surveys and roosting surveys [Exhibit 5] (USFWS Western Snowy Plover window
survey links on the website: https://www.fws.gov/arcata/es/birds/wsp/plover.html.
2.4 Wintering WSP on Balboa Peninsula
Wintering WSP in Critical Habitat Unit 48 use the upper beach and dune areas; however, the
primary use area occurs on the upper beach areas between the dunes and the high-water line.
Exhibits 6a and 6b depict areas mapped by Ryan et al., in 2015-2016 and 2016-2017 and by GLA
in 2019 which shows use of both the dune areas and the areas between the dunes and surf. Photos
9 Josh Weinik. PowerPoint Presentation provided to Tony Bomkamp June, 2019.
Western Snowy Plover Habitat Management Plan
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from various surveyors posted on eBird show the primary use areas also between the dunes and
the surf, which is consistent with GLA’s observation on March 5, 2019, wherein GLA Biologists
Tony Bomkamp and Jeff Ahrens detected 54 WSP in one survey between the dunes and the surf.
Similarly, the WSP use areas depicted by Ryan et al., (2017) depicts the use areas from 2014-2015,
2015-2016 and 2016-2017 using areas between the dune areas and surf. eBird photographs and
GLA’s observations show WSP using tire tracks and footprint depressions to provide protection
when not foraging. Thus, while the coastal dune areas are important, the areas of open beach -
upper beach between the dune and the mean high tide line for roosting, and intertidal areas for
foraging - appear to exhibit substantial use by the WSP. In addition to these data, observations
during 2013, 2014 and 2015, provide information regarding the dynamic use of the different sites
on the Balboa Peninsula as depicted on Exhibit 7. Wintering WSPs on the peninsula shift from
one location to another during the wintering season as provided on Exhibit 8. As discussed below,
future surveys will seek to confirm the patterns and refine and management measures to address
habitat use within the Project Area.
In early November 2019, Georggia Zhang, a student in the California State University Fullerton
(“CSUF”) Graduate Environmental Studies Program began weekly monitoring of the WSP in
Critical Habitat Unit 48 to record WSP-human interactions, recording all potential stressors within
the Critical Habitat area (discussed in more detail below) to begin accumulating data for the
Adaptive Management components of the plan. Of note, is the patterns of use by WSP within the
Critical Habitat Area. On November 2, 2019, accompanied by Tony Bomkamp, no WSP were
detected in the Critical Habitat Area. On November 10, Ms. Zhang counted over 60 WSP between
D Street and E Street, on November 14, a total of 70, on December 1, 50 WSP, on December 5,
five WPS. On December 9, Tony Bomkamp found five WSP at the same location and 37 in the
ACA. Monitoring was suspended in March 2020 due to Covid 19-related restrictions and have
not been reinitiated.
GLA has also noted strong tendency by WSPs to use depressions while roosting as this presumably
provides additional protection and shelter. The depressions consist of two types, footprints left by
beachgoers as well as tire ruts left by vehicles. This is particularly noteworthy within the Critical
Habitat Area due to the regular travel by lifeguard vehicles through this area. As discussed under
the Adaptive Management approaches below and proposals for temporary fencing, the use of such
depressions may be important in development of protections for WSP within Critical Habitat Unit
48 as well as the ACA between G Street and the Wedge. Specifically, the dynamic character of
the WSP within these roosting sites may prove to be an important factor in identifying practical
measures for WSP protection and the types of fencing employed.
Western Snowy Plover Habitat Management Plan
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3 EXISTING CONDITIONS ON BALBOA PENINSULA
The USFWS Recovery Plan (USFWS 2007) for WSP states that habitat loss and degradation
attributed to human disturbance, urban development, introduced beachgrass (Ammophila spp.),
and expanding predator populations is the main cause for the species’ decline; however, Ryan et
al. (2017b) have identified other specific threats. Observations in 2019 and 2020 confirm point 1
below. As discussed in more detail below, the early results of the monitoring confirm points 1 and
4 below, while the City has already implemented (or committed to implementing) policies and
practices relative to points 2, 3, 5, 6 and 7. Each of these are addressed in various sections of the
Plan below. Points 1 and 4, are the primary focus of the adaptive management components subject
to substantial detail below.
These include:
1. A lack of public awareness of the presence of WSP roosts and a lack of information about
how to avoid disturbing the plovers while enjoying the beach;
2. Lack of training and information on locations of WSP roosts among some staff that drive
and operate equipment on the beaches;
3. Regular disturbance, removal of foraging resources, and occasional mortality resulting
from beach grooming, operation of heavy equipment, and regular vehicular traffic;
4. Regular disturbance and occasional mortality from off-leash dogs;
5. Beach management practices that remove kelp and associated arthropods;
6. Recreational activities and occasional large events that flush WSP from roosts and leave
large amounts of refuse near roosts; and
7. Native and non-native predators drawn in unusually large concentrations to human refuse
on and near the beach and pet food placed outside at nearby residences.
USFWS recommends establishment of Avian Conservation Areas (“ACAs”), to reduce the
potential for unauthorized take of WSP and would include delineation of sensitive areas requiring
protection, measures for vehicle operation within sensitive areas, measures for beach cleanup and
maintenance, and measures relative to recreation within sensitive areas.10 Many of these measures
are currently practiced by the City departments that have responsibilities within the Critical Habitat
area as well as areas to the east where WSP roosts in winter. As noted, the measures that implement
the recommendations by USFWS are addressed in the Sections throughout the rest of this Plan. In
setting forth recommendations that focus on WSP protection, the concern with impacts from dogs
10 USFWS. February 16, 2017. Subject: Protective Measures for Western Snowy Plovers on Beaches in Newport Beach, Orange County, California. Letter to Dave Kiff, City Manager.
Western Snowy Plover Habitat Management Plan
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on the beach, particularly off-leash dogs are recognized by the City as one of the “existing
conditions” that requires remediation or mitigation. As discussed below, this iteration of the Plan,
incorporates additional measures aimed at reducing the potential dog-WSP interactions in the
context of the Adaptive Management approaches set forth below.
The following section provides an overview of the existing habitat conditions within the critical
habitat area. In addition to habitat conditions, this section also identifies existing conditions and
ongoing activities that may pose as threats to the WSP.
3.1 Habitat
The Project Area includes open stretches of sandy beach and areas of low coastal dune habitat that
exhibits sparse vegetation. Within Critical Habitat Unit 48, vegetated dune habitat begins
approximately 200 feet east of B Street (extended) and extends to the F Street pathway. The dune
areas extend from near the boardwalk toward the water, leaving an unvegetated strip of beach that
ranges from approximately 175- to 250-feet wide between the edge of the dunes and the surf. The
vegetated areas of dunes are separated by paths and walkways that are intended to provide for
directed or controlled beach access that limits potential impacts to the dunes. Ornamental
vegetation occurs in patches adjacent to some residences on the ocean side of the boardwalk
extending at a maximum just over 50 feet from the oceanfront homes into the Critical Habitat.
Other than the areas of ornamental vegetation along the boardwalk and areas of fig marigold (ice
plant) mats, the dunes within the Critical Habitat are in remarkably good condition and almost
entirely free of non-native invasive vegetation, which is restricted to two small patches of fig
marigold immediately west of F Street and one other small patch between F and G Streets.
In habitat east of Critical Habitat Unit 48 (proposed Avian Conservation Area), using portions of
beach from G Street to the Wedge. The portion of the Project Area east of Critical Habitat Unit 48
(east of the F Street pathway); provides suitable conditions for WSP for winter roosting and
foraging and is seasonally occupied by WSP. Thus, where applicable, the management actions set
forth in this Plan will be implemented in this segment of beach to ensure protection of WSP.
The City recognizes that the WSP has been observed on the Balboa Peninsula east of Critical
Habitat Unit 48 (proposed Avian Conservation Area), using portions of beach from G Street to the
Wedge. This area is not designated as Critical Habitat by USFWS; nevertheless, it does provide
suitable conditions for WSP for winter roosting and foraging and thus, where applicable, the
management actions set forth in this Plan will be implemented in this segment of beach to ensure
protection of WSP. As noted above, USFWS recommends that this area be designated as an ACA.
Western Snowy Plover Habitat Management Plan
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3.1.1 Native Plants
Coastal dunes support a suite of native plants which are adapted to the unique conditions of coastal
dunes. Efforts to restore native dune species within the area between B Street and F Street has
been extensive but slow. The following native dune species have been detected in the coastal dune
habitat within the Balboa Beach Critical Habitat Unit 48:
• Coast Wooly Heads (Nemacaulis denudata var. denudata)
• Beach Morning Glory (Calystegia soldanella)
• Pink Sand Verbena (Abronia umbellata)11
• Beach Evening Primrose (Camissoniopsis cheiranthifolia)
• Beach Bur (Ambrosia chamissonis)
• Coast Cryptantha (Cryptantha leiocarpa)
3.1.2 Non-native Plants
Within Critical Habitat Unit 48, non-native species are common and locally dominant in some
areas that also support native, dune species; however, as noted above, the dunes support a
predominance of the native dune species noted above. Non-native species include crystalline ice
plant (Mesembryanthemum crystallinum), sea rocket (Cakile maritima), fig marigold
(Carpobrotus edulis), and buttercup oxalis (Oxalis pes-caprae), the vast majority of which occur
between the dunes and the boardwalk as depicted on the vegetation map included as Exhibit 9.
Over the last five years, City staff and volunteers have made efforts to remove some of the non-
native plants, primarily focusing on the habitat area between D Street and F Street, inside of the
erosion fencing. Between C and G Streets along the boardwalk, degradation of the dunes is
associated with planting of non-native, ornamental species in areas which have also been subject
to soil amendment just south of the boardwalk.
3.1.3 Delineation – Existing Fence
Within the 25-acre Critical Habitat Unit 48, two areas of coastal dune habitat are delineated by 4-
foot-high barrier consisting of metal T-Bar posts with either strands of Parachord. In June 2011,
the City installed approximately 1,300 linear feet of fencing around approximately 2.1 acres of
habitat between the walkway fingers of D and E Streets. In January 2017, approximately 1,400
11 In their letter dated July 6, 2018, the Orange County Chapter of the California Native Plant Society stated that red sand verbena (Abronia maritima) has been observed in the Balboa Dunes. This is not supported by Josh Weinik who reported only A. umbellata from the Balboa Dunes, which is consistent with the observations of Tony Bomkamp in March of 2019; however, Mr. Bomkamp did not perform a comprehensive survey of all the dunes within the Critical Habitat area.
Western Snowy Plover Habitat Management Plan
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linear feet of additional fencing was installed around approximately 2.4 acres of coastal dune
habitat between the walkway fingers E and F Street. The fencing installed in 2011 was replaced
in 2018 with the T-Bar and Paracord strands. This delineates approximately 4.5 acres of coastal
dune habitat within the critical habitat area (25.04 acres). The current T-Bar posts with Paracord
are staggered and not fully enclosed to provide limited public access while discouraging beach
activities, foot traffic and dogs in the coastal dunes. A-frame signage is also present indicating the
presence of sensitive ecological habitat within the fenced area. The City concurs with USFWS
and Coastal Commission staff that the current fencing; while it discourages beachgoers from
entering the dunes, does little to prevent unleashed dogs from entering the dunes and as such
additional measures are needed to protect the dunes.
3.2 Predation
As noted below, corvids (crows and ravens) are the most problematic predator of WSP eggs and
chicks. Predators on adults include both mammalian and avian species. Mammalian predators
include coyotes (Canis latrans), foxes (Urocyon cinereoargenteus and Vulpes Vulpes), raccoons
(Procyon lotor), skunks (Mephitis spp.), weasels (Mustela spp.) and feral cats (Felis domesticus).
Avian predators include peregrine falcons (Falco peregrinus), northern harriers (Circus
cyaneus), merlins (Falco columbarius), great horned owls (Bubo virginianus), burrowing owls
(Speotyto cunicularia), great blue herons (Ardea herodias). Suitable cover for many of the
mammalian species such as dune grass, does not occur on the Balboa Peninsula; therefore,
species such as foxes, skunks, weasels are not expected to pose a threat. Certain avian species,
such as the burrowing owl, great horned owl, and merlins are uncommon at best, with northern
harrier, peregrine falcon and great blue herons more likely. However, as part of the data
collection for the Adaptive Management Program, observations of predators will be recorded.
Corvids (crows) have documented as the most likely predator on the WSP relative to chicks and
eggs. Corvids benefit from human activities, especially increased access to food. Highly adaptable,
these predators seek out locations with available trash (litter, exposed trash cans, etc.). Corvids
prey on WSP chicks and eggs but generally are not a major predator on adults (Page et al. 2009).
Based on studies conducted by the USFWS, the dominant source of predation on WSP resulting
in nesting failure is from corvids although other sources of nest failure include abandonment and
unidentified predation. Because Balboa Peninsula is currently a wintering site, with no
documented nesting attempts since 2011, the corvid predator impact on the local WSP population
is minimal. Thus, the major predation threat is associated with unleashed dogs discussed below.
Western Snowy Plover Habitat Management Plan
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3.3 Recreational Activity
3.3.1 Human Activity
Human activity on the Balboa Peninsula is year-round, with a majority of beach activity occurring
between Memorial Day and Labor Day. The highest concentrations of beachgoers is likely to be
found adjacent to Balboa Pier where parking and beach amenities (fire pits, restrooms, etc.) are
more available. A parking lot lies approximately 10 feet north of Critical Habitat Unit 48;
however, the parking area is located over 600 feet from the areas, most commonly used by
wintering WSP.
Walking, biking, and rollerblading are popular recreational activities occurring along the boardwalk.
While the boardwalk extends to F Street (adjacent to the critical habitat), more boardwalk activity is
generally observed closer to Balboa businesses and restaurants. Higher concentrations of human activity
occur at the Wedge, predominantly during large, summer swells.
WSP are easily disturbed when approached by humans and typically do not significantly acclimate
to high levels of disturbance. Wintering WSP at beach areas near the Devereux Slough in Santa
Barbara County have been documented to be sensitive to disturbance from recreational activities,
including walking and jogging (Lafferty 2001). This may result in negative impacts to survivorship
or cause plovers to abandon a wintering site (Lafferty 2001). GLA has noted during surveys that
the somewhat cryptic coloring of the WSP make them difficult to see under certain lighting
conditions (e.g., in early morning when walkers or joggers are moving in an eastward direction
toward the rising sun) and thus, reducing potential for avoidance. The need for temporary fencing
of some configuration to ensure avoidance is necessary to protect roosting sites that also remains
functional as WSP shift roosting areas.
It is likely that WSP within the Project Area are periodically exposed to foot traffic from
recreation. WSP are likely to run or fly in response to approaching pedestrians. They typically do
not significantly acclimate to high levels of disturbance (Lafferty 2001). Repeated disturbance
may result in negative impacts to survivorship or cause WSP to abandon a wintering site (Lafferty
2001). Conversely, WSP appear to respond to localized protection from foot and vehicle traffic
if the protected area is of adequate size (Sandoval 2009, and Ryan 2017 and have been re-
established on some beaches in California.
Limited, on street parking for beach access minimizes recreation activities in the Critical Habitat
area. Nevertheless, walking and jogging on the sand, between Balboa Pier and the Wedge, through
the Critical Habitat area is a commonly observed activity and as noted above, exhibits potential
for disturbing roost sites, depending on location. Passive beach activities, like sunbathing and
swimming, still occur and are most common. Two public volleyball courts are located within the
Western Snowy Plover Habitat Management Plan
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critical habitat. With one west of D Street and one area near G Street (and as discussed below, will
be removed).
3.3.2 Dogs on Beach
Dogs are natural predators and can also have an impact on the WSP. Dogs can directly prey upon,
disturb, causing flushing behaviors, or in some cases kill WSP. Within the Project Area, dogs are
allowed on the beach if maintained on a leash between the hours of 7:00 to 10:00 a.m. and after
4:30 p.m. Referring to the Critical Habitat Area, Ryan (2017) noted: “Off-leash dogs we reported
here from every survey, including dogs flushing the plovers.” Even dogs on leash passing in
proximity to WSP can cause flushing behaviors. Dog walkers on the Balboa Peninsula have been
observed walking dogs on the beach, along the water’s edge and on the boardwalk; although the
areas between the dunes and the water’s, edge where WSP often use are used by dog walkers. The
Newport Beach Municipal Code does not allow dogs on the beach or beachfront sidewalk between
the hours of 10:00 am and 4:30 pm. Outside of these times, dogs are permitted on the beach but it
is required that dogs are under the control of owners on leashes (or chains) not exceeding six feet
in length at all times (Appendix C). Based on preliminary monitoring conducted by Ms. Zhang,
the majority of dogs are on leashes for at least part of their time on the beach; however, dogs have
been observed off-leash on a regular basis. Final data collected by Ms. Zhang indicates that
approximately 50-percent of the dogs observed are off-leash for at least part of the period they are
on the beach, to allow them to run. GLA has interviewed dog owners with unleashed dogs and
responses vary. While most are aware of the City code requiring leashes on the beach, many are
not aware of the presence of the WSP. Thus, additional efforts to increase public awareness are
necessary, and as discussed below represent a significant opportunity to substantially reduce
stressors on the wintering WSP. As discussed in more detail below, ensuring public awareness of
the winter roost for WSP with the use of, low profile fencing, symbolic fencing and signage will
be the initial focus of the adaptive management efforts.
Signage stipulating allowable beach uses and dog-related codes are posted along the boardwalk
and at street access points; however, the current signage has not resulted in an adequate public
awareness and/or response. Signage to further increase awareness of the WSP and sensitive coastal
dune habitat will be strategically placed within the Critical Habitat area. The current T-Bar with
Paracord does not, as noted, prevent access by unleashed dogs. Enforcement of permissible hours
and leash laws by Animal Control Division is necessary to limit violations and provide protection
for the WSP and sensitive coastal dune habitat. Nevertheless, violations of the permitted times and
particularly of the leash laws are not uncommon, in the absence of adequate enforcement. The City
is committed to enforcing the restrictions regarding dogs on the beach and intends to increase
enforcement and Animal Control presence as well as issuance of citations for violations. The City
is also exploring the possibility of increasing the fines associated with violations for the areas of
Critical Habitat and the ACA between the Critical Habitat and the Wedge.
Western Snowy Plover Habitat Management Plan
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Based on early data collection, observations, and interviews with dog walkers, with concurrence
of USFWS the City proposes to install temporary seasonal fencing to provide protection of
roosting sites from beachgoers and dogs (leashed and/or unleashed) within the Critical Habitat
area as well as the ACA between G Street and the Wedge. The proposed fencing would be installed
at the beginning of the first full wintering season following approval of this Plan with the beginning
of the wintering season defined for purposes of this plan as October 1. As discussed below,
because of the dynamic character of the roosts, alternative approaches for the temporary seasonal
fencing have been considered and are discussed below. Selected alternatives (concepts) for the
temporary seasonal fencing would be subject to the adaptive management components of the Plan.
USFWS has expressed support for the concept proposed below as an initial starting point within
the adaptive management framework.
3.4 Beach Operations
The City of Newport Beach is a full-service City and provides its residents with a variety of public
services. Year-round service and operations are provided the City’s beaches can impact the WSP
and sensitive coastal dune habitat. The following are City departments and associated activities
that operate within or adjacent to the Critical Habitat area.
3.4.1 Marine Operations Division
The Marine Operations Division operates under the Newport Beach Fire Department. Ocean
lifeguards ensure safety and provide service to the visitors on the beach, boardwalk, piers, and in
the ocean/surf year-round. Lifeguard vehicles traverse the beach for routine patrol and emergency
response. GLA met with Lifeguard staff and discussed vehicle use on the beaches by City
lifeguards and it is the practice to maintain very low speed levels when WSP are present. GLA
biologists have observed lifeguard vehicles on the beach, traversing areas occupied by wintering
WSP. While the vehicles move slowly, GLA observed a reduction in speed as the flock of WSP
was approached by a lifeguard vehicle. WSP in the path of the vehicle moved to avoid collision;
however, the movement was very “casual” and did not result in major “flushing” of the flock;
rather, only the WSP in the path of the vehicle moved and the movement was only a few feet,
necessary to avoid collision. The observed movements suggest some level of habituation to the
lifeguard vehicle movements. By comparison, leashed dogs, within 10 feet of the WSP resulted
in evident flushing behavior of the flock, though not abandonment of the specific roosting area.
3.4.2 Municipal Operations Department
The Public Works, Municipal Operations Division (MOD) provides clean, safe, and responsive
utility and infrastructure maintenance services to the community of Newport Beach through a
combination of in-house staff and contractors. These services include beach maintenance along
Western Snowy Plover Habitat Management Plan
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Newport Beach’s shorelines and boardwalks. Year-round trash pickup and beach grooming occur
on a weekly basis. Sand berm construction may occur during high tides and large surf to mitigate
flooding but occurs outside of the Critical Habitat area. GLA has met staff from the MOD and
discussed specific activities by the MOD that could affect WSP winter roosting in the Critical
Habitat area as addressed below.
3.4.3 Animal Control Division
The Animal Control Division operates under the Newport Beach Police Department and routinely
patrols beaches, parks and neighborhoods to enforce local, state and federal laws. This includes
the City’s leash regulations and permissible hours for dogs on the beach. As discussed below, this
is an important area of focus of the measures proposed to protect WSP winter roosting within the
Critical Habitat area.
3.4.4 Recreation and Senior Services Department
The Recreation and Senior Services (RSS) Department provides a wide range of educational,
recreational, cultural and social programs for all ages and has implemented the existing educational
and protection efforts for Critical Habitat Unit 48 and the wintering WSP. Because the RSS
Department also oversees the use of the City’s 79 parks, beaches, marine habitats and recreational
facilities it is responsible for review and authorization of activities and special events proposed for
the City’s beaches, including the Critical Habitat area.
3.4.5 Public Works Department
The Public Works Department provides design and construction management services to enhance
the City of Newport Beach’s infrastructure. This includes implementation of the City’s Capital
Improvement Program (CIP), which serves as a plan for the provision of public improvements,
special projects, on-going maintenance programs and implementation of the City's master plan.
Public Works Department coordinates with other State and Federal Agencies for sand management
and replenishment efforts for Balboa Peninsula, which may occasionally extend near and within
the boundaries of Critical Habitat Unit 48. GLA has met with representatives of the Public Works
Department to discuss activities that could affect WSP winter roosting within the Critical Habitat
area.
3.4.6 Status of Enforcement/Baseline for Education, Signage, and
Enforcement,
Objectives of the Plan set forth below include education, signage, and enforcement the specifics
of which are intended to collectively increase protection for the WSP and associated habitat.
Because of the adaptive management approach set forth below, it is necessary to establish a
Western Snowy Plover Habitat Management Plan
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baseline for each of these with initial implementation of the plan such that it is possible to measure
changes as the adaptive management programs moves forward. Currently baseline conditions for
each of these Plan components have not been established and the components for each of these as
set forth in the Plan provide the baseline as the Plan is implemented.
4 OBJECTIVES OF THE PLAN
This Plan has been prepared to ensure compliance for the Critical Habitat Unit 48 area and
proposed ACA east to the Wedge, with the Natural Resources Element of the GP and with the
provisions of the City’s CLUP. Although the primary focus of this plan is conservation,
management and education related directly to the designated Critical Habitat, this plan documents
ongoing conservation measures and operational practices already incorporated by various City
departments for the areas east of the designated Critical Habitat that extend to the Wedge in order
to protect potential WSP at winter roost locations to the east of B Street. This Plan also ensures
compliance with the FESA and as such incorporates guidance from USFWS (2007, 2022) and
letters cited above, as well as Ryan et al. (2017b). In addressing Critical Habitat Unit 48 and the
area east of the Critical Habitat on the Balboa Peninsula used by the wintering population of the
WSP this Plan provides a template for future site-specific plans for other WSP wintering sites in
the City. It is important to note that conditions vary among the various areas used by wintering
WSP and that a generic “one-size-fits-all” plan is not appropriate for all WSP wintering areas in
the City. The goal of this Plan is to provide management actions that will ensure the ongoing
protection of existing biological resources within Critical Habitat Unit 48 (and areas to the east),
while also setting forth the management and operational activities to be implemented for other
areas within the City used by wintering WSP. As appropriate, this Plan incorporates comments
and suggestions by public interest groups (e.g., Orange County Chapter of the California Native
Plant Society (CNPS)), and agencies such as the California Coastal Commission and USFWS.
More importantly, this plan has been informed by early data collection as part of a CSUF graduate
project and associated monitoring and observations by GLA biologists. These early data
collection and observations also have informed specific data needs that will need to be developed
to implement the adaptive management components, which are also set forth below.
Specifically, Sections 5 and 6 detail the proposed actions and management practices within
an Adaptive Management framework, detailed in Section 4 to achieve the following
objectives:
1. Protect, maintain, enhance and/or restore designated environmentally sensitive coastal
dune habitat between B Street and G Street, include preparation of a DHRP (Appendix F;
2. Enhance conditions within the Critical Habitat Unit 48 and east of the Critical Habitat Unit that
could provide for potential nesting of the WSP, which would also require that predator
Western Snowy Plover Habitat Management Plan
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populations are discouraged/managed and measures are implemented to minimize and ultimately
limit impacts from un-leashed dogs;
3. Monitor the WSP population in conjunction with human activities that result in stressors
for the WSP on the Balboa Peninsula within the guidelines of the WSP recovery plan to
augment ongoing “Window Surveys”;
4. Establish a consistent and unified set of activities and associated behaviors for beach
operations to reduce disturbances in Critical Habitat Unit 48 and beach and dune areas east
of the Critical Habit to the Wedge;
5. Maintain access to recreation and resources while improving compliance with existing
regulations, such as the City’s leash laws;
6. Establish an effective suite of visual Indicators/barriers to clearly identify boundaries that
define and create an awareness of the Critical Habitat Unit 48 area and areas east of the
Critical Habit to the Wedge, including permanent low-profile fencing along the walkways
associated with C, D, and F streets, temporary seasonal fencing and symbolic fencing
during the wintering period to ensure protection of wintering WSP;
7. Develop a program that instills greater public awareness, education and need for
compliance with existing laws and codes through diverse and effective signage adjacent to
and within Critical Habitat Unit 48 and proposed ACA near the Wedge;
8. Generate awareness of importance and sensitivity of the WSP wintering population to the
public through a diverse approach adjacent to and within Critical Habitat Unit 48 and
proposed ACA near the Wedge; and
9. Develop a Dune Habitat Restoration Plan (DHRP) that would include removal of the E
Street concrete walkway as part of a larger dune restoration effort within Critical Habitat
Unit 48.
4.1 Adaptive Management
To ensure that the goals of the Plan are achieved, an “Adaptive Management” approach will be
implemented for the Critical Habitat area and the proposed ACA between the Critical Habitat Area
and the Wedge. Implementation of an Adaptive Management approach will require that the City
develop a dataset to make management decisions in response to specific stressors identified during
data collection. As noted above, data collection was initiated at the beginning of November 2019
by a graduate student in the CSUF Graduate Environmental Studies Program that includes such
activities (i.e., potential stressors) as occurrences of walking, jogging, dog walking (leashed and
unleashed), vehicles, etc., as well as the numbers and locations of WSP during each monitoring
visit.
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This version of the Plan outlines the starting point for management actions, which are set forth
below, which have been designed/developed to achieve the above-referenced goals. Where the
data show that certain management activities are not providing necessary protection for WSP, then
modifications to the management actions would be made. For example, if it is determined that the
educational outreach and associated signage is not preventing beachgoers or dogs from entering
the dunes, then additional measures as determined appropriate would be implemented.
As noted, data collection will be critical as appropriate management decisions can only be made
where there is adequate information to inform the decision makers. The importance of data
collection has become even more important in the light of the early data collection associated with
the CSUF graduate project and observations by GLA. Review of data would include a WSP
Technical Working Group Pilot Program (“WSPTWGPP”) discussed in detail in Section 5.3.3
below. As such, data collection will be a focus of the Plan and will incorporate a diversity of
sources, including both existing/ongoing and new efforts that would include:
• Awareness by the dog-walking beach uses of the WSP roosting areas on the peninsula and
associated threat posed by unleashed dogs, and
• Awareness of beach users regarding the sensitivity of the coastal dune habitat.
5 CONSERVATION MEASURES
5.1 Education and Outreach
Objective 1: Develop a program that instills greater public awareness, education and need for
compliance with existing laws and codes through diverse and effective signage
adjacent to and within Critical Habitat Unit 48, and Avian Conservation Area.
Objective 2: Generate awareness of importance and sensitivity of the WSP wintering
population to the public through a diverse approach adjacent to and within
Critical Habitat Unit 48 and Avian Conservation Area.
Education and awareness are essential to the conservation and recovery of WSP at Balboa
Peninsula. Interviews with dog owners with unleashed dogs on the beach indicate an overall lack
of awareness of the presence of WSP and its status as a federally listed species, the presence and
location of potential winter roosting sites on the peninsula, the sensitivity of the roosting sites, and
the potential threat posed by unleashed dogs. Increased awareness will be critical to ensure the
protection of the WSP roosting sites. Thus, education is the critical first step in the adaptive
management program and is expected to lead to greater acceptance and compliance with
management measures. Increased awareness is also expected to inspire advocates and volunteers
to assist with monitoring and habitat restoration. The City will provide the public with the
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necessary information to develop an understanding and appreciation for the WSP population,
habitat, and natural resources present at Balboa Peninsula.
5.1.1 Educational Materials
The Recreation and Senior Services Department will continue to develop educational materials in
cooperation with a pilot educational program that will be implemented through a cooperative Orange
County Coastkeeper (“OC Coastkeeper”) to support the City’s overall management plan. Material may
include flyers, posters, brochures, monitoring reports, or correspondence. Material will highlight the
WSP, the Critical Habitat area designation, best management practices, regulations and protection
efforts.
5.1.2 Education and Outreach Opportunities
The City’s WSP outreach and education strategy will focus Balboa Peninsula residents, with a
focus on residents who regularly walk dogs on the beach, beachgoing visitor populations, and
youth, however dissemination will also target the general-public. The key to increased public
understanding and awareness will include adoption of a variety of communication techniques
and methods of distribution. To this end, OC Coastkeeper proposes a pilot program that would
include an educational community outreach program that would provide a booth run by Coastkeeper
staff and trained volunteer docents. At the booth, the public could speak with knowledgeable docents,
obtain an informational brochure on the Western Snowy Plover (and California Least Tern), and
learn how to protect the birds while in the area. The booth will also provide fliers with a map and
rules for the specific locale and doggie bags for dog owners. The booth will be active two days each
week on alternating days and locations to reach as many beachgoers as possible.
An additional platform for educational efforts to the public will be through the City’s website
and social media platforms. Materials may also be distributed to the public through mail and
email, as well as the Newport Mesa Unified School District to reach school age children. The
City may also consider other techniques such as videos, programming, presentations, and news
releases for outreach. Information about WSP conservation efforts will also be shared through
the City Manager’s Newsletter and email to improve interdepartmental outreach efforts.
Signage at points of access will remain a critical tool in educating the public regarding
stewardship of the WSP roost sites.
As an example of expanded educational efforts, the City will establish a program for the Junior
Lifeguard Program that would entail presentations by a City naturalist (or other knowledgeable
staff, such as OC Coastkeeper) for the Junior Lifeguards. This is noteworthy because the Junior
Lifeguard program has approximately 1400 participants ranging from 9-15 years old, annually.
Western Snowy Plover Habitat Management Plan
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As a component of the Adaptive Management Program, the City will conduct four public meetings
in conjunction with quarterly posting of the OC Coastkeeper pilot study monitoring results in the
first year following approval of this Plan, with the first meeting to occur six months after initiation
of the OC Coastkeeper pilot study. Noticing would be through the platforms noted above, that
would include direct mailings to Balboa Peninsula residents. The meetings would focus on the
WSP wintering population, management actions to protect the roosts and the potential threats
posed by unleased dogs and/or leashed dogs in proximity to occupied roost sites.
5.1.4 Community Partners
Cooperation between the City and researchers interest groups (particularly OC Coastkeeper), and
private individuals can increase effectiveness of outreach efforts and provide expertise and
financial resources money for conservation efforts. The City may seek out additional partnerships
to achieve the plans of the objective. The City also encourages educational and outreach efforts
through the mission and objectives of local organizations and individual advocates.
5.1.5 Recreation and Youth Services
Activities to educate youth participants on the Western Snowy Plover will be incorporated into the following City run programs:
• The Fostering interest in Nature (FiiN) program is a four day, three-night science camp that explores Newport Back Bay and surrounding ecosystems and serves up to 400 Title 1 students from Orange County
• Active Kids After School program at Mariners Elementary School, Newport Elementary
School and Community Youth Center serves up to 450 kids during the school year from Newport Mesa Unified School District
• Summer Day Camp program at Newport Elementary School/15th Street Beach and Community Youth Center/Corona del Mar State Beach serves up to 1,200 kids during the
summertime.
• Preschool 101 program at Mariners Park and Newport Coast Community center serves 100 preschool age kids during the school year.
• Pint Size Campers summer camp at Newport Coast Elementary serves up to 130
preschool age kids during the summer The City’s Mayor’s Youth Council engages 15 high school students each year to increase awareness and civic mindedness on local issues and will include protection efforts on the Western Snowy Plover as one of the monthly, open forum topics.
The City can also provide information of the WSP at special events geared for youth (aggregate
attendance of up to 5,000). These are City events that recreation puts on where they have a booth
with informational materials about park programs.
Western Snowy Plover Habitat Management Plan
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5.1.6 Prepare WSP Public Education Plan
The City will prepare a “WSP Public Education Plan” that will include the educational materials
proposed for use in educating the public regarding the WSP, Critical Habitat Unit 48, City codes
and regulations, and a particular focus on dogs and leash laws. The WSP Public Education Plan
will include goals and specific requirements for outreach including measurable performance
standards, as set forth in the section below.
5.2 Adaptive Management Implementation
5.2.1 Adaptive Management and Monitoring
To establish the efficacy of the broad-based educational program as set forth in the Public
Education Plan, the City will retain the services of OC Coastkeeper’s to implement a
comprehensive monitoring program to determine the efficacy of the program. Monitoring reports
will be posted publicly on a quarterly basis with an annual report provided summarizing the
monitoring data to date. The monitoring will consist of all human activities, including beach
recreation, lifeguard and beach maintenance activity, dogs on and off leash and bird presence.
Monitoring will occur seven days a week on a random schedule. All monitors will undergo
classroom and field training before conducting surveys that are consistent with the window survey
methodology prescribed in this plan (Section 5.4.1: Wintering and Nesting Window Surveys). A
minimum of 200 surveys will be completed annually in addition to the OC Coastkeeper efforts, a
graduate student from California State University Fullerton, as part of a Master’s graduate project,
has developed a questionnaire for determining the extent of public awareness regarding the WSP
and associated stressors and will be implementing her study has been completed. Dog walkers
observed during weekly monitoring will be interviewed to determine level of awareness regarding
the WSP roosting sites, sensitive nature of the roosting sites, and the threats posed by unleashed
dogs. Specific performance standards and adaptive management “triggers” are discussed below in
the discussion of performance standards.
Objective 3: Protect, maintain, and restore designated environmentally sensitive coastal dune
habitat and WSP Winter Roosts between B Street and the Wedge
5.2.2 Install Temporary Seasonal Fencing
Exhibit 6 depicts the locations where wintering WSPs have roosted between 2015 and 2019 within
the Critical Habitat Unit 48 area and areas east of the Critical Habit to the Wedge between 2012
and 2019. Following approval of this plan. temporary seasonal fencing would be installed during
the first wintering period, beginning October 1 to ensure protection of wintering WSP. Exhibit 6
depicts areas where temporary seasonal fencing would be installed to protect the winter roost
locations. As depicted on Exhibit 6, winter roost locations occur in roughly the same areas with
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variation not only from year to year but variations from day to day and even hour to hour based on
monitoring results during 2019, 2020, and 2022. GLA has observed the winter roosting WSP
move between roost sites in the Critical Habitat and the and areas east of the Critical Habit to the
Wedge. Exhibit 6 depicts alternative fencing locations. Concept 1 provides a concept for a
complete enclosure of the WSP, based on historic locations, but which would be subject to seasonal
modifications where WSP returning for the wintering season congregate in a different location.
As depicted, Concept 1 includes a narrow corridor for lifeguard vehicles and beachgoers moving
from east to west and west to east. Concept 2 provides “staggered” fencing that would allow for
movement of beachgoers and vehicles and would ensure that both are fully aware of the potential
presence of WSP roosting sites due to location of the temporary seasonal fencing that will include
signage.
Advantages and disadvantages for each of the concepts are addressed below; however, in
considering the alternative concepts it is important to note that the WSP often use the depressions
made by the vehicles that traverse the beach as well as footprints made by walkers and joggers.
The depressions provide shelter for the WSP from the wind and thus, installation of temporary
fencing must account for this behavior as discussed below under Concepts 1 and 2.
Concept 1 provides temporary seasonal fencing that would enclose the winter roost sites, thereby
preventing human or canine intrusion into areas occupied by WSP. The advantage of this concept
is that it would exhibit the highest potential for preventing direct human or canine intrusion into
roost sites. This disadvantage is that it would result in a very narrow travel corridor for beachgoers
and vehicles and more importantly, it would be the prevent ongoing creation of new tire ruts and
footprints in the fenced area while creating such features outside the fenced area that could attract
WSP, which would then be encouraged to move outside of the enclosed roost areas to the narrow
unprotected sites. Such narrow sites would be subject to concentrated vehicle and beachgoer
traffic within areas occupied by WSP, which could increase the potential for harm. Under this
scenario, remediation would consist of regular shifting of the temporary fencing during the winter
season to coincide with shifts in the roosting area, which itself exhibits potential for disturbing the
WSP.
Concept 2 would incorporate staggered fencing, perpendicular to the water line east and west of
the Critical Habitat Unit 48 area and of the ACA near the Wedge. The staggered fencing would
include signage warning beachgoers of the presence of WSP roosts and would direct beachgoers
to maintain maximum distance from roosting WSP. This concept would allow for continued
creation of tire ruts and footprints for use by WSP but would also require careful monitoring by
vehicle operators to ensure that WSP are avoided or are allowed to move out of the path of vehicles,
which is also the case for Concept 1.
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5.2.3 Adaptive Management
Because of the disadvantages of Concept 1 and advantages of Concept 2, the Plan will implement
Concept 2 – Staggered Seasonal Fencing, as depicted in concept on Exhibit 6 and 6a which would
be installed and in place at the beginning of the first wintering season, which for purposes of this
Plan is defined as October 1. Weekly monitoring would be implemented within the first week of
October and be conducted through the wintering period, which for purposes of this plan is defined
as March 31. Monitoring will record all activities that represent potential WSP stressors including
walking, jogging, dogs on leash, dogs off leash and vehicles. Monitoring would also include the
number of the above categories of beach users that pass through the staggered fencing and those
who avoid staggered fence which would inform the need to adjust locations or add additional
fencing and associated signage.
5.2.4 Restoration
Restoration of areas of degraded coastal dune habitat is potentially important for reestablishing
high-quality habitat coastal sand dune habitat which could also be suitable WSP wintering habitat.
The primary efforts necessary for coastal sand dune restoration in Critical Habitat Unit 48 will be
removal of non-native and invasive vegetation with reestablishment of coastal sand dune species
native to the Newport Beach ecosystem. As noted above, such an effort would be focused on the
areas between the dunes and the boardwalk and would include areas of fig marigold (ice plant)
and small pockets of ornamental vegetation immediately adjacent to the boardwalk as depicted on
Exhibit 9. Areas of dune habitat between G Street and the Wedge include areas of undisturbed
dune habitat supporting only native vegetation mixed with areas of dune that supports areas of
non-native fig marigold which exhibits low densities ranging from an estimated ten-percent cover
to approximately 40-percent cover in the areas with highest density. Native vegetation occurs
throughout these areas.
As detailed in the DHRP prepared for the project restoration efforts will be conducted in compliance
with all applicable federal, state and local polices and regulations, including a Coastal
Development Permit as applicable. Restoration implementation would focus on a variety of measures
to minimize impacts to the WSP and the existing habitat (USFWS 2007a). Restoration will emphasize
protecting existing native species, establishing buffers between native and non-native species and
minimizing dune grading and sand movement. The implementation schedule will avoid planting
during the WSP nesting season and prevent excessive disturbance to wintering WSP. Appropriate
buffers will be established between work areas and documented nests, if necessary. Restoration efforts
will also be incorporated into signage to educate beach visitors.
Removal of non-native species may be initiated concurrently with restoration activities and
will focus on reducing the density of non-native species to allow for expansion of existing
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native dune vegetation along with reestablishment of natives through use of seed and/or
container stock. Non-native species will be removed manually or in some instances will be
sprayed and allowed to decompose to provide protection from blowing sand. The target
invasive species in the critical habitat area will include crystalline ice plant
(Mesembryanthemum crystallinum), fig marigold (Carpobrotus edulis) sea rocket (Cakile
maritima), and buttercup oxalis (Oxalis pes-caprae).
The proposed native plant palette for future dune restoration in the Critical Habitat Unit 48 includes
species native to Newport Beach dune habitat and include Beach burweed (Ambrosia
chamissonis), Beach sand verbena (Abronia umbellata), beach evening primrose (Camissoniopsis
cheiranthifolia), coast woolly heads (Nemacaulis dendudata var. dendudata), beach cryptantha
(Cryptantha leiocarpa), and beach morning glory Calystegia soldanella). This native pallet is
consistent with the recommendations of CNPS based on the Masters’ Project of Josh Weinik from
California State University Fullerton (Weinik, 2015).12
As a component of the DHRP, the E Street concrete walkway will be removed by the City, as the
City has determined that an after-the-fact CDP would not be sought for this walkway. The DHRP
includes the methods for removing the concrete, including types of equipment, disposal sites for
the concrete removed, and measures implemented to ensure protection of the adjacent dune habitat
during removal efforts along with restoration of the area following concrete removal.
5.2.5 Dune Habitat Maintenance
City staff will evaluate/monitor conditions within areas subject to vegetation reestablishment as
set forth in the DHRP and implement appropriate maintenance efforts on a year-to-year basis based
on site inspections as provided in the DHRP following initial vegetation reestablishment. As set
forth in the DHRP, maintenance activities may include continued removal of invasive species,
watering of container stock during the establishment period and for up to two years following
establishment, installation of additional and/or replacement plants, erosion control and sand
stabilization measures. Ongoing habitat maintenance will eliminate invasive species by manually
removing non-native plants within the areas subject to vegetation reestablishment. In general, areas
that have been restored as described in the DHRP and in which the non-native species have been
removed will show recruitment by native dune species, provided that the non-natives are controlled
and there is limited soil disturbance during the non-native species removal activities.
12 Josh Brett Weinik. Fall 2015. A Comparative Study on the Vegetation of Western Snowy Plover Habitat within Urban and Natural Coastal Dune Systems of Southern California. A Project Present to the Faculty of Calfiornia State
University, Fullerton.
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5.3 Predator Management
Objective 4: Enhance conditions within Critical Habitat Unit 48 and east of the Critical
Habitat to reduce predator presence in beach and dune habitat
Potential predators of WSP identified within the Project Area include native and non-native
predator species. The structural changes to the Peninsula associated with urbanization and human
uses include an increase in perch availability for avian predators such as hawks, falcons, corvids;
an increase in non-native species such as rats and cats.
The last documented nesting attempt on the Balboa Peninsula occurred in 2013 with successful
nesting occurring in 2008 and 2009. Successful implementation of this Plan would result in
protection of the wintering WSP while enhancing the beach and dune habitat used by the WSP.
Predators primarily prey on WSP nests and chicks. The WSP habitat on the Balboa Peninsula is
primarily a wintering habitat and nesting has not occurred since 2013. However, conservation
measures (Section 5) and operation and recreation management (Section 6) will support predator
management strategies and contribute to minimizing predation threats to the WSP should nesting
occur. As noted, Corvids are unlikely to prey on adult plovers; nevertheless, implementation of
the proposed measures also would reduce or eliminate other species which could harm plovers
during the wintering period.
5.3.1 Non-Lethal Control Measures
An efficient method of non-lethal control is litter control. Controlling litter on the beaches reduces the
presence of potential predators, including covered trash containers. Municipal Operations Department
beach operations schedule (Section 6.1.2) outlines best management practices to effectively manage
trash on the beach. Expansion of native coastal dune vegetation as well as limiting removal of
driftwood and wrack deposited during high tides and storms also provide shelter for WSP from
airborne predators such as hawks and falcons during the wintering season and from crows and gulls
during the breeding season.
5.3.2 Control Measures When Nests are Present
Nest success appears to rely on various environmental factors, as well as effective recreation and
predator management. Nest success is supported by lethal and non-lethal predator management
combined with effective use of exclosures (use of exclosures would be coordinated with USFWS
prior to use as discussed below). People recreating in or near a nesting area have the potential to
impact nest success. This may occur when beachgoers move to close to nest sites, as well as from
illegal fireworks, off-leash dogs and beachgoers flying kites. Environmental factors can affect the
suitability of a site for nesting where non-native vegetation encroaches into an otherwise suitable
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nesting area. Vegetation that is not native to the coastal dunes can provide cover for predators
causing direct impacts on nesting success. When nests are observed in designated sensitive habitat
areas, an exclusion cage may be required. A qualified biologist who holds a recovery permit for
this activity with respect to WSP must install the exclusion cage.
Exclosures allow passage of adult snowy plovers but exclude larger predators from gaining access
to nests. It should be noted, however, that an exclosure can increase the predation on adult plovers,
thus careful consideration of the site characteristics must be implemented, and a qualified biologist
will need to consult with the USFWS. For example, at Bandon State Natural Area (Oregon Parks
and Recreation Department 2012), nest success of exclosed nests was much higher than for non-
exclosed nests. However, when nest success of non-exclosed nests is within the expected range,
using the exclosure may not increase the overall productivity of WSP.
5.4 WSP Monitoring
Objective 5: Monitor the WSP population on Balboa Peninsula within the guidelines of the
WSP recovery plan
As discussed above, there are a variety of data sources that describe the WSP population within
the Critical Habitat Unit as well as the ACA to the east and in general, the data report a consistent
picture of the wintering WSP population. Nevertheless, to ensure that the Adaptive Management
Program has sufficient information on which to base management decisions, the City will be
seeking to expand the data base and collect additional data that addresses WSP-human interactions
such that potentially negative interactions could be eliminated. OC Coastkeeper will be
implementing a pilot monitoring and educational program in cooperation with the City and is
proposed to start within three months of issuance of the Coastal Development Permit.
Population monitoring of WSP would include wintering WSP that would record number of
individuals and primary use areas as this information would inform adaptive management
decisions with regard to wintering WSP. Monitoring would also include documentation any
observed nesting behaviors that would trigger site-specific management actions for the Critical
Habitat Areas and/or areas east of the Critical Habitat. Monitoring data regarding WSP wintering
individuals and locations would be collected and correlated with other information (e.g., animal
enforcement contacts, citations issued, and most importantly, the education program) to determine
whether the initial adaptive management measures set forth in Section 6 below require
modification. As already noted, activities that represent potential stressors would also be recorded
during weekly monitoring.
5.4.1 Wintering and Nesting Window Surveys
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One source of population data will be collected during two, range wide “window surveys,”
conducted annually by USFWS. The purpose of a window survey is to obtain an estimate of the
number of wintering and nesting snowy plovers within a longitudinal study that includes collection
of banding information. The nesting season window survey occur between late May and mid-June
and the wintering season window survey will take place between December 1 and January 31. A
repository for survey data has been established by the USFWS for the entire WSP Population.
Access to the window survey data will be provided on the City website. The current survey
protocol and standard field survey form for the nesting season window survey are outlined in the
WSPRP: Monitoring Guidelines.
5.4.2 WSP Population Monitoring
Year-round monitoring of the Balboa Peninsula would also occur between Balboa Pier and the
Wedge by the “WSP Partners”, specifically, OC Coastkeeper or other suitable groups or
organizations to document WSP use. Support of such local organizations will be established to
expand monitoring efforts on the City’s behalf. Monitoring protocols and the field survey form
would be developed, drawing upon expanding the methodology as prescribed by the WSP
Recovery Plan (Appendix E). Collaboration with other agencies, such as USFWS, may provide
additional data on the WSP Balboa Peninsula population to inform the City’s adaptive
management efforts. The City recognizes the need for establishing a reliable, consistent and robust
data set that will be needed to inform adaptive management decisions. To ensure that robust data
is obtained, the City will prepare a WSP Monitoring Plan that will include qualification of
monitors, methods of monitoring including frequency and duration, data collection, and reporting
requirements. The WSP Monitoring Plan would be submitted to USFWS for approval prior to
implementation.
5.4.3 WSP Technical Working Group Pilot Program
To effectively implement that Adaptive Management program for the wintering WSP associated
with Critical Habitat Unit 48 and proposed ACA to the east, the City will establish a WSP
Technical Working Group Pilot Program (“WSPTWGPP”) that would meet quarterly to review
the WSP data in conjunction with other data and information provided by the City regarding the
various activities (e.g., animal control, dune restoration, etc.) as well as data that informs the
Adaptive Management Program. The WSPTWGPP would initially be convened for a three-year
period at which time, the program would be subject to refinements as determined appropriate
during the initial three-year pilot period. The Working Group would include representatives from
the City Departments who operate or participate in beach management. The effort would be led by
the Natural Resources Supervisor from the Recreation and Senior Services Department. The
Working Group would also include two residents living in the area, USFWS, and a representative
from OC Coastkeeper. The California Department of Fish and Wildlife (CDFW) and Coastal
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Commission staff would also be invited to serve on the working group but their participation would
not be required if they are unable to participate The Working Group would be responsible for
making management recommendations regarding implementation of the adaptive management
measures in response to the monitoring data and ongoing management actions.
Upon completion of the three-year pilot program, the WSP Technical Working Group would re-
evaluate the effectiveness of the plan and either recommend changes or the continuation of
management efforts proven to be effective. It is also envisioned by the City that the WSP
Technical Working Group would review and recommend management efforts of the WSP in other
areas of the City as subsequent site-specific plans are prepared for other areas in the City used by
wintering WSP.
6 BEACH OPERATION AND RECREATION MANAGEMENT
6.1 Non-Recreational Operations
Objective 6: Establish a consistent and unified set of activities and associated behaviors for
beach operations to reduce disturbances in the Project Area, including Critical
Habitat Unit 48 and beach and dune areas east of the Critical Habit to the Wedge
The City of Newport Beach provides thorough, efficient and effective services for residents and
visitors to the City’s beaches. City Departments that coordinate and execute beach-related
operations and services within Critical Habitat Unit 48 will expand interdepartmental
communication and coordination and adapt best management practices to reduce disturbances and
minimize potential take of the WSP. The City notes the comment by Ryan (2017) that “This roost
had the highest numbers of speeding vehicles in 2015-16, a City of Newport Fire Department
vehicle was observed in September and two City of Newport trucks in October”. It is the City’s
goal to ensure protection of WSP while still ensuring the public’s safety. Thus, management
practices will be conducted within an Adaptive Management Framework and would incorporate
the Beach Ecology Coalition recommendation for “Basic Beach Driving”13 For all pertinent City
departments.
The Adaptive Management framework begins with a suite of measures targeted to protect
wintering WSP as well as nesting WSP should such occur. The Adaptive Management framework
also includes additional conservation actions and/or measures that would be implemented should
it be determined that certain actions or measures are not adequate based on monitoring data or
other site-specific data presented to the City.
13 www.BeachEcologyCoalition.org
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6.1.1 Marine Operations Division
Under the Marine Operations Division, Newport Beach Lifeguards will continue to engage in
and prioritize lifesaving services, prevention and preparedness and provide a safe, effective
and expeditious response to requests for assistance. All Lifeguard personnel that operate a
motorized vehicle that may travel through the Project Area will receive an annual training to
increase awareness of the WSP and reinforce best management practices while exercising
responsibilities within areas occupied by WSP.
Lifeguard personnel shall travel through the critical habitat area with vehicles during essential trips
only and take non-essential trips along surface streets when possible. During the wintering period
of the WSP, lifeguard vehicles shall travel on or within close-proximity to the wet sand, when
possible, to reduce the potential of striking a WSP. Lifeguard vehicles shall refrain from driving
on the coastal dune habitat, as noted above, except for emergency purposes. When responding to
emergencies, lifeguard’s vehicles will respond with lights. When traveling through the Project
Area, vehicle operators should be mindful of WSP activity, limit speed to no more than 5 MPH,
and when possible, safely alter routes to avoid flushing or incidental harm. All lifeguard vehicles
will be equipped with a list of best management practices that would implement snowy WSP
protection in the Project Area [Exhibit 10]. Finally, Basic Lifeguard academy for new lifeguards
will include information about the Western Snowy Plover (WSP) Habitat Management Plan.
Lifeguards will include information about the WSP Habitat plan in our training for Lifeguard
Certification and Recertification classes for our new and returning vehicle operators. Lifeguards
will continue to monitor the beach area for dogs off leash or on the beach during the restricted
hours of 10 am to 4:30 pm, where they provide important protection for areas occupied by the
WSP.14
6.1.2 Municipal Operations Division
Municipal Operations Division (MOD) staff and contracted service providers perform most beach
maintenance and cleaning related services. City staff will receive annual training to increase
awareness of the WSP and to reinforce best management practices. These BMPs will also be
communicated and reinforced with contracted maintenance staff. City staff and contractors will be
provided a map of the Project Area [Exhibit 11]. It is important to note that MOD staff have been
and continue to be engaged in WSP protection and attend a variety of environmental seminars that
address a wide range of environmental issues. For example, MOD staff regularly attend meetings
of the Beach Ecology Coalition, which has the mission: “To enhance ecosystem conservation and
beach management to balance natural resource protection and recreational use.”
14 In 2018, The Newport Beach Lifeguards made 124 animal warnings and 64 Code enforcement contacts in the WSP habitat areas between B Street and G Street.
Western Snowy Plover Habitat Management Plan
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Tables 2 summarizes best management practices for the Project Area to mitigate the potential to
attract predators, reduce vehicular traffic during the WSP wintering season and eliminate
destruction and degradation of coastal dune habitat. Vehicular traffic traveling through the Critical
Habitat area and the area east of the Critical Habitat will be extremely limited [Exhibit 11]. If
traveling through the Critical Habitat area, vehicle operators shall be mindful of WSP activity,
limit speed to no more than 5 MPH, and when possible, safely alter routes to avoid flushing or
incidental harm. It may also be necessary to have additional staff walk in front of vehicles within
areas occupied by wintering WSP including with the Project Area, if determined appropriated as
part of the Adaptive Management program. No vehicles are authorized to drive on or through
coastal dunes or dune vegetation. No trash trucks will be allowed to drive within Critical Habitat
Unit 48. Where feasible, trash containers will be manually retrieved. During the winter months,
trash container pickup will be limited to only two days per week and will be performed manually.
Trash collection in the summer months will be five times a week because of high visitor numbers
and to ensure that trash does not accumulate on the beach as an attractant to potential predators of
the WSP.
Litter in the Critical Habitat area will be collected manually along the wrack line and throughout
the coastal dune plants seven days a week in the summer and two days a week, or as needed, in
the winter. Beach cleaning equipment will not be utilized and wrack will remain along the
shoreline in the Critical Habitat area, which is also a benefit to grunion, to the extent that they
breed on the peninsula and is consistent with grunion grooming protocols.15 Table 3 summarizes
best management practices in the area east of the Critical Habitat, from G Street to the Wedge.
Maintenance within the Project Area may occur on the boardwalks, pathways and hardscape, when
necessary, but will be limited to those areas.
In extenuating scenarios where health, safety and protection from loss of life and of property
is necessary and work is unavoidable in the Project Area, (e.g. berm construction to prevent
flooding, berm removal, sand grooming, sand removal), the area will be surveyed for WSP and
measures will be incorporated to reduce disruption of WSP roosting and foraging. City staff
will assist with coordination to reduce potential for disturbance and avoid degradation and
destruction of coastal dune habitat.
In the event that WSP nesting occurs in the Project Area, the beach service schedule can be
modified to minimize disturbances and continued until fledging occurs. Exclosures may be used
as described in Section 5.2.2.
15 (http://grunion.pepperdine.edu/beachecologycoalition/bmp.htm
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As noted in Tables 2 and 3, beach wrack will not be removed from the Critical Habitat and will
only be removed, with monitoring during summer from areas between G Street and the Wedge.
As explained on a University of California Santa Barbara website, Beach wrack
(“Wrack”) is the term for seaweed, surfgrass, driftwood, and other organic
materials produced by coastal ecosystems that wash ashore on the beach. In
Southern California, giant kelp is an important component of wrack. Coastal storm
waves tear giant kelp off the rocky seafloor and wash it ashore where it fuels the
beach food web. Piles of slippery wrack are delicious buffets and key food
resources for many creatures that live on the beach. Wrack provides food and
shelter for a variety of beach inhabitants. Recently, biologists found that about 40%
of the invertebrate species living on sandy beaches depend on wrack. Common
wrack-dependent species include sand-dwelling invertebrates, such as beach
hoppers, roly polies, kelp flies, and predatory rove beetles. These little creatures
are also food for a variety of birds including shorebirds, flycatchers, sparrows and
pipits. Many shorebirds feast on the abundant invertebrate animals associated with
kelp wrack, including snowy plovers, black-bellied plovers, sanderlings, marbled
godwits, whimbrels, and willets.16
16 http://explorebeaches.msi.ucsb.edu/sandy-beach-life/wrack-community.
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Table 2
Critical Habitat Area MOD
Beach Services Schedule
Summer Winter
Trash pickup Five days per week Two Days per week
Beach cleaning (equipment)* None None
Beach cleaning (hand pick) Seven days a week Two days per week or as needed
Wrack removal* None None
Berm construction Limited to emergencies** Limited to emergencies
* Beach cleaning and wrack removal may be necessary periodically (once or twice per summer months) to maintain the historic recreational uses between B and C streets. If wrack removal is necessary between B and C Street, it
will be done manually, and wrack will be moved to the CH between C and D street, any maintenance efforts in this area will avoid the dune vegetation and be done with appropriate monitoring.
** Berm Construction is limited to the beach access walkways and at the B Street Parking lot as the existing dunes provide sufficient protection in other areas. Access points would normally be at B Street, F Street or the Wedge. At no time would the equipment impact the adjacent dune habitat.
Table 3.
G Street to the Wedge
MOD Beach Services Schedule
Summer Winter
Trash pickup (mechanized on designated route only)
Five days per week Two Days per week
Beach cleaning (equipment)*** Monthly with monitoring Monthly with monitoring
Beach cleaning (hand pick) Seven days a week Two days per week or as needed
Wrack removal Limited with monitoring Limited to emergencies
Berm construction Limited with monitoring**** Limited to emergencies
*** Beach cleaning would be limited to areas above the wrack line as identified by the biological monitor. **** Berm Construction is limited to the beach access walkways and at the B Street Parking lot as the existing dunes provide sufficient protection in other areas. Access points would normally be at B Street, F Street or the Wedge. At no time would the equipment impact the adjacent dune habitat.
6.1.3 Public Works Department
To date, there are no capital improvement projects scheduled by Public Works Department within
the WSP habitat areas including both Critical Habitat Unit 48 and the area east of the Critical
Habitat. Future project planning for improvements and/or additions to sidewalks, boardwalks or
other beach infrastructure on the Balboa Peninsula will identify the Critical Habitat area. In
addition, project planning should consider subsequent impacts to habitat and WSP. Buffers may
Western Snowy Plover Habitat Management Plan
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be required to protect areas used by WSP within the Critical Habitat area and areas east of the
Critical Habitat Area.
6.2 Recreational Activities
Objective 7: Maintain access to recreation and resources while improving compliance with existing
regulations, such as the City’s leash laws;
As noted, it is a goal of this Plan to ensure protection of the WSP while also maintaining access to
recreation in conjunction with beach and marine resources while enhancing adherence to existing
regulations.
6.2.1 Public Access
In accordance with the Coastal Act, Section 30001.5, the City of Newport Beach will continue to
“maximize public access to and along the coast and maximize public recreational opportunities”
… “consistent with sound resources conservation principles and constitutionally protected
rights of private property owners.” Public accessibility to the beach will remain open, however
passive uses that are consistent with WSP conservation will be encouraged within CH Unit 48
and the ACA to the east of the CH unit. Any means of delineation for designating or protecting
the habitat shall not impede public access to and along the coast.
Through the educational efforts set forth in Section 5 above, the City will discourage pedestrian
traffic on the upper beach habitat within the CH Unit 48 and ACAs to maintain habitat value for
WSP, but will encourage passive beach recreation activities in these areas to utilize areas below
the mean high tide line. No new recreational amenities will be placed within the Critical Habitat
or the ACA. The volleyball court within the Critical Habitat area between F Street and G Street
will be removed and the court located between C Street and D Street will also be removed. To
minimize beach activities that could disturb WSP in the Critical Habitat area, special event
applications requesting permitted use of areas within the boundaries of the Critical Habitat area
will not be allowed in the Critical Habitat or ACA. Unpermitted special events observed within
the Critical Habitat area will be ordered to cease and subject to potential citation.
Newport Beach Police Department will continue to take enforceable actions for violations related
to conduct (NBMC 11.04.110), obstruction (NMBC 11.08.010) and prohibited hours (NBMC
11.08.030). No new restrictions or municipal codes regarding public access or public recreational
opportunities are needed at this time.
Western Snowy Plover Habitat Management Plan
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6.2.2 Dogs
The City has demonstrated commitment to provision of protection for WSP from dogs that are off
leash or that are present in the Critical Habitat area and ACA between G Street and the Wedge, during
prohibited hours through warnings and citations. As described above, interviews with owners of
unleashed dogs, indicates a significant lack of awareness regarding the WSP wintering roost areas on
the Balboa Peninsula and the threat that unleased dogs pose to WSP. Therefore. as outlined in Section
5 above, education will be the first component of the Adaptive Management Program as education of
residents will be critical in limiting and ultimately eliminating unleashed dogs from the Critical Habitat
and ACA areas. To this end, the City will prepare a WSP Public Education Plan. In conjunction with
the education efforts, the City will be increasing the enforcement to expand this protection. Newport
Beach Animal Control Division will continue to provide a presence and enforce leash laws and
prohibited hours. Lifeguards will issue warnings and can issue citations as well. The patrol schedule
will continue to vary in times of the day and during the week. Increased visits within routine patrol to
the designated sensitive habitat areas will include early morning and evenings. This aligns with hours
dogs are permitted to be on the beach and more likely to be off-leash. Patrol efforts may also be focused
during peak visitation times including weekends, holidays and the summer season. Additional signage,
education and outreach efforts regarding City codes related to dogs on the beach will be emphasized
within the surrounding Balboa Peninsula environs. As part of the Adaptive Management approach, if
the data indicate that compliance with leash laws is not occurring, then fines could be increased for
non-compliance. If non-compliance continues, additional measures could be implemented such as
expanded signage, modifications to temporary seasonal fencing, and expanded educational efforts,
and/or increased patrols. In order to document Animal Control and Lifeguard enforcement, each
citation or other enforcement action will be documented and will be included in annual reports included
as an appendix to the WSP Monitoring Reports to allow for year-to-year comparison of the efficacy of
the enforcement program in the light of the WSP Public Education Plan that would provide trends
in enforcement that could be correlated with decreased off-leash dogs within Critical Habitat Until
48 and the ACA near the Wedge.
In addition, signage, temporary seasonal fencing, permanent low-profile fencing along the C, D
and F Street walkways, and other visual indicators that delineate sensitive areas (Section 6.3) will
ensure more effective protection for the Critical Habitat and ACA areas necessary to deter, legal
or illegal, dog-related activity. Expansion and modification of the existing signage that educate the
public regarding dog-related municipal codes (See Section 5.4) will serve to improve compliance
when enforcement is not on site. Signage with a regulatory message will educate the public
regarding the serious nature of the illegal act of “taking” of a protected species, as defined by the
FESA, and the penalties for a FESA violation. Interpretative and educational signage in the Critical
Habitat area will complement the regulatory signage by reinforcing the importance of compliance
Western Snowy Plover Habitat Management Plan
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and educating the public regarding the importance of protecting the WSP when present on the
beach. Examples of interpretive, educational, and regulatory signage are depicted on Exhibit 12.
6.3 Critical Habitat and ACA Delineation
Objective 8: Establish an effective suite of visual Indicators/barriers to clearly identify
boundaries that define and create an awareness of the Critical Habitat Unit 48
dunes, and Avian Conservation Area
As noted in the introduction, this Plan includes an “Adaptive Management” framework that would
include modifications to the City’s actions that are outlined in the Plan if the initial measures
proposed and implemented are determined by the WSP Technical Committee to need
modifications to provide better protection of the WSP and associated roosting areas. The proposed
measures seek to balance protection of the WSP wintering sites and sensitive dune habitat with the
potential stressors addressed in Sections 6.1 and 6.2 above as well as the delineation of areas
subject to the protections outlined in this plan. Thus, this section of the Plan identifies the suite of
approaches for delineating WSP use areas, including the boundaries of Critical Habitat Unit 48,
the boundaries of the coastal sand dunes, and other areas used by wintering WSP.
6.3.1 Visual Indicators/Barriers
Visual indicators are critical for delineating area that are sensitive, such as beach areas that are
heavily used by WSP as well as the coastal sand dunes. Visual indicators can include various
types of traditional fencing that provides a physical barrier. Common examples include chain link,
post and cable, split rail, T-bar and Paracord, or other types of physical barriers. Visual indicators
can also include different types of bollards, posts with signs (educational signage is discussed in
Section 6.4 below), or other features which provide “symbolic fencing”, by creating a “do-not-
cross” line in the absence of a physical barrier as depicted on Exhibit 13. Visual indicators can
also include painted lines and other cues on sidewalks, which, like the “symbolic fencing” defines
a clear “do-not-cross” line for the beachgoing public, which can be further enhanced by uses of
low fencing such as depicted on Exhibit 14. USFWS recommended use of symbolic fencing in a
letter to California Department of Parks and Recreation dated January 19, 2016 as an effective way
for the public and beach operations to visualize when crossing into sensitive habitat. Such
symbolic fencing to delineate boundary lines for sensitive areas without impeding appropriate
access.
In addition to symbolic fencing, stenciled signage (“icons”) identifying WSP Critical Habitat areas
will be painted on the boardwalk and public pathways at potential entry points into the Critical
Habitat area or areas used by WSP east of the Critical Habitat [Exhibit 15]. Icons will be located
such that the beachgoing public would be aware of sensitive resources and spacing would be
determined based on potential entry points to sensitive areas [Exhibits 16 and 17]. As an Adaptive
Western Snowy Plover Habitat Management Plan
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Management measure, icons could be added as necessary where entry points were not previously
recognized. Finally, the City will install low-profile post-and-cable fencing along the entire length
and on both sides of each of the C, D, and F streets walkways. The fence will be 24 inches in
height as depicted on Exhibit 14.
As an initial component of the Adaptive Management program, the existing T-Bar with Paracord
would be removed and would be replaced as addressed below for the initial phase of the Adaptive
Management proposal. Identified WSP roost sites in Critical Habitat Unit 48 along with roost sites
in the ACA between G Street and the Wedge would be protected during the wintering season
(October 1 through March 31) with temporary seasonal fencing, utilizing Concepts 2 described
above. Any temporary seasonal fencing approach implemented would be subject to review in
accordance with the Adaptive Management provisions of the Plan and therefore modified as
determined by the WSPTWGPP.
6.3.2 Visual Indicators/Barriers – Adaptive Management Proposal: Phase 1
a. As noted at various points above, the City has already implemented various measures to
protect WSP wintering areas in the Project Area. The following measures would be
implemented as the first phase of the Adaptive Management approach: It will be necessary
to establish standards or triggers for when measures would be modified or expanded.
However, it will require collection and assembly of baseline conditions in order to establish
such standards or triggers. Seasonal signage would be placed along the eastern and western
boundaries of the critical habitat to notify beachgoers of the limits of Critical Habitat Unit
48 and associated restrictions. The locations of signage are depicted on Exhibits 16 and
17. Temporary seasonal fencing as described for Concept 2 would be installed prior to
October 1 of each year and maintained in place through the winter roosting season (March
31). The location of the temporary seasonal fencing is depicted on Exhibits 6 and 6a. A-
Frame signage is also proposed seasonally to augment the temporary seasonal fencing. The
seasonal signage would be maintained during the peak of the wintering season for the WSP
(October – March). An example of the A-Frame seasonal sign is depicted on Exhibit 14.
The Concept 2 temporary seasonal fencing depicted on Exhibit 6a and 6b would consist of
T-Bar or similar material with three strands of cord or wire that includes flagging or other
material to enhance visibility. The temporary seasonal fencing would be a minimum of 36
inches high and each segment would include signage that would include the following
information: “Use caution – entering winter roost area of federally listed threatened
western snowy plover. Dogs must be on a leash at all times and roosting areas should be
avoided by a minimum of 30 feet”. Photographs of WSP in footprints and tire ruts would
also be included to show the public what to look for and what they need to avoid.
Western Snowy Plover Habitat Management Plan
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b. Permanent signage with information and beach regulations (including dog rules) regarding
the WSP, WSP Critical Habitat, and sensitive coastal sand dunes would be located at the
beach access points at B, C, D, and F Streets as well as at the eastern edge of the Balboa
Peninsula Park parking area, which demarcates the edge of Critical Habitat at this location.
Exhibits 16 and 17 depicts the location of the various signage types.
c. Permanent “icons” would be stenciled along the boardwalk to indicate that the northern
limit of the Critical Habitat begins immediately adjacent to the boardwalk. A variety of
icons would include information regarding the WSP, fragile nature of the coastal sand
dunes, prohibited activities with a focus on leash laws and associated penalties for lack of
compliance.
d. The “finger” walkways extending from C, D, and F Streets would have similar icons at the
intersection of each walkway with the boardwalk and the shoreward end of each walkway.
In addition, portions of each walkway, where it is adjacent to coastal sand dune habitat
would have post-and-cable fencing along the length of each walkways associated with C,
D, and F Streets with intermittent signage indicating the presence of adjacent sensitive sand
dune habitat that is off-limits to the beach-going public. Finally, as discussed further
below, approximately midpoint between the boardwalk and end of each walkway would
be an educational sign explaining the sensitive nature of the dune habitat and the
importance of precluding human and dog access.
The symbolic fencing and post-and-cable fencing and icons along the boardwalk and finger
walkways are expected to enhance protection for the coastal sand dune habitat on three sides
because beachgoers accessing the beach from the boardwalk and/or walkways would receive clear
notice regarding the sensitive nature of the dunes. Nevertheless, as data regarding the effectiveness
of the symbolic fencing and post-and-cable fencing, and icons becomes available, additional
measures would be added if determined necessary.
e. For beachgoers entering from the east and west of the Critical Habitat, permanent signage
would be placed at the first dune formation accessible from the east and west, respectively
alerting the beachgoer to the characteristics of the sensitive dune habitat and associated
access restrictions. This would ensure that access from any direction toward the coastal
dune habitat would include symbolic fencing and appropriate signage/notifications. The
locations for this signage are depicted on Exhibits 16 and 17.
In addition, the finger walkways extending from C, D, and F Streets end beyond the dune,
and in the upper beach habitat of CH Unit 48. To discourage pedestrian traffic from
traversing the upper beach where WSP frequently roost, markers will be placed on the sand
Western Snowy Plover Habitat Management Plan
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to encourage pedestrians to travel toward the water in a consistent, rather than dispersed
fashion.
In order to ensure protection of WSP winter roosts within the Critical Habitat and ACA between
G Street and the Wedge, temporary seasonal fencing would be installed in accordance with the
descriptions set forth in Section 5.1.1 above.
f. As noted in Section 5.1.1, seasonal temporary fencing Concepts 1 and 2 each have
advantages and disadvantages and based on the advantages, Concept 2 will be the initial
approach. It will be necessary to monitor the following factors to determine effectiveness
and possible modifications to the alternative fencing concepts to increase effectiveness.
• Establish importance of microhabitat features such as tire ruts and footprints for
WSP and whether WSP will relocate roost sites to maintain access to such features.
• Establish use patterns within roost sites and between roost sites to determine
effectiveness of the selected fencing (e.g., should Concept 1 be selected, will WSP
remain within the fenced area or are roosting areas sufficiently dynamic to render
this alternative ineffective).
• Establish human reactions to fencing and whether fencing is protecting WSP roost
sites from both human and canine intrusion (e.g., should Concept 2 be selected, do
walking and jogging beachgoers follow the directions on the signage so as to avoid
WSP and do dog walkers similarly follow the directions, maintaining dogs on leash
and avoiding WSP sufficiently to minimize disturbance to WSP.
• Monitor effects of vehicle traffic on WSP roost sites associated with selected
Concept.
6.3.3 Visual Indicators/Barriers – Adaptive Management Proposal: Phase 2
Should it be determined that modification of or additional measures, relative to installation of
visual and/or physical barriers need to be implemented to ensure protection of the wintering WSP,
such measures would include the following as determined suitable by the WSP Technical Working
Group.
1. Installation of additional signage to delineate the boundaries of the Critical Habitat and
inform the public of the sensitive nature of the Critical Habitat and wintering WSP.
2. Modify temporary fencing for selected Alternative or change Concept/Alternative if it is
determined that the Concept/Alternative initially selected is not effective.
Western Snowy Plover Habitat Management Plan
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3. Enhancement of the symbolic fencing which could include the following as determined
necessary the WSP Technical Working Group:
a. Installation of bollards to delineate the boundaries of the Critical Habitat;
b. Installation of bollards to delineate the boundaries of the coastal sand dune habitat;
and
c. Installation of low (e.g., 24-inch high) post and cable fence to delineate the
shoreward boundaries of the sand dune habitat. An example of the post and cable
fence is depicted on Exhibit 18.
4. Other measures determined necessary by the WSP Technical Working Group.
The delineation of the area with visual indicators and removal of the existing fence are consistent
with other proposed conservation measures and will provide for a full delineation of the Critical
Habitat, including all 25.04 acres of within the “sensitive area”. These efforts will also pose
minimal direct threat to the existing population of WSP. Generally, WSP are observed closer to
the shore, between the shore and the edge of the coastal sand dune, and near wrack.
6.4 Signage
The adaptive management principles that are foundational for this Plan will be applied to the
signage and icons intended to educate beachgoers regarding the WSP and Critical Habitat. Thus,
educational and regulatory signage will be placed at strategic access points and along high traffic
routes within and adjacent to the Critical Habitat area to inform the public of the presence of the
wintering WSP, the Critical Habitat boundaries and associated regulations. As noted, in Section
5.1.1, for Alternative 2 (if implemented), signage on the fencing will be important to direct
beachgoers to avoid WSP at roost sites. Signage will be consistent with visual resource policies
of the Coastal Act and WSPRP: Information and Education Plan. New signage will be compatible
with existing signage in the vicinity, relative to size and appearance, and will be located to avoid
obstruction of existing views or significant degradation the scenic views of the beach. As
appropriate (e.g., within the Critical Habitat area) the design of the signage will consider size and
placement that would minimize potential perching opportunities for WSP predators. Because of
the adaptive management approach, signage may be adjusted, augmented, or potentially removed
or relocated, based on effectiveness.
6.4.1 Interpretive and Educational signage
Interpretive and educational signs and or sidewalk icons will be permanently installed along the
hardscape in areas adjacent to the Critical Habitat area. Potential placement for signs depicted on
Exhibits 16 and 17 would be:
Western Snowy Plover Habitat Management Plan
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1. At the boardwalk entry point at B Street
2. At each finger entry, adjacent to the boardwalk, at C, D and E Street
3. Along each finger at C, D, E, and F Street
4. At each beach access entry between G Street and Channel Road.
Signs will be a limited in height and size to ensure that view sheds are not adversely impacted.
Sign content will include text, photos and diagrams related to the characteristics, life history and
population status of the WSP. Educational signage will also highlight human activities that impact
wintering WSP, recovery efforts, coastal dune habitat and the designated boundaries of the Critical
Habitat area. If determined to be necessary, based on observed effectiveness, additional seasonal
(i.e., during the WSP wintering season), seasonal fencing and/or educational signs may be placed
immediately above the high tide line if the above-referenced signage is not sufficient for the
necessary protection of the wintering WSP.
6.4.2 Regulatory signage
As appropriated, regulatory signage will be included with educational sign. Regulatory sign
content may include but is not limited to dog-related rules (including Newport Beach Municipal
Code references), Federal regulations related to the harm and take of a protected species,
designation of Critical Habitat area and noticing of sensitive wildlife and closed areas. Regulatory
signs will be of sufficient size to be effective as with the educational signage but will be limited in
height and width to prevent obstruction of views. Regulatory signs may also be incorporated into
seasonal signage referenced above. The locations of regulatory signage are depicted on Exhibits
16 and 17.
7 ADAPTIVE MANAGEMENT TRIGGERS AND PERFORMANCE STANDARDS
The Adaptive Management Program is a dynamic process which is highly dependent on data to
inform appropriate actions necessary to protect the WSP winter roosting areas within the Critical
Habitat and the ACA between the Critical Habitat Area and the Wedge. The Triggers and
Performance Standards set forth below are therefore provisional and may be subject to
modification based on efficacy of the various components of this Plan set forth above.
As set forth at the beginning of Section 3 above, many of the concerns identified by Ryan et
al.(2017), regarding activities within the Critical Habitat and the ACA between the Critical Habitat
Area and the Wedge have already been addressed or will be addressed with implementation of this
Plan. The issues of concern, addressed in Section 3 are set forth below, with proposed monitoring
and where appropriate, triggers and/or performance standards proposed for the Plan.
Western Snowy Plover Habitat Management Plan
46
1. A lack of public awareness of the presence of WSP roosts and a lack of information
about how to avoid disturbing the plovers while enjoying the beach
As discussed in Section 5.1 interviews with the owners of unleashed dogs indicate a lack of
awareness regarding the presence, sensitivity and locations for the WSP in the Critical Habitat and
the ACA areas. Thus, this factor alone exhibits significant potential for reducing the number of
unleashed dogs on the beach and associated potential impacts on the WSP. Based on preliminary
data collected weekly between November 1, 2019 and January 25, 2020, approximately 25-percent
of dogs observed are unleashed.
Goal: Achieve no more than 10-percent unleashed dogs within three years
Performance Standard: By end of the initial monitoring season (March 31 is end of winter
monitoring season), achieve no more than 15-percent unleashed
dogs.
By end of 202second monitoring season (March 31 is end of winter
monitoring season), achieve no more than 10-percent unleashed
dogs.
Adaptive Management Measures
If 10-percent standard is not achieved by the end of second
monitoring season, one or more of the following measures as
determined in consultation with the WSP Technical Working
Group:
• Expand and/or retarget educational efforts;
• Modify, including relocation and/or expansion of temporary
seasonal fencing;
• Modify, including relocation and/or expansion of signage.
Performance Standard: By end of third monitoring season (March 31 is end of winter
monitoring season), achieve no more than 10-percent unleashed dogs.
By end of fourth monitoring season (March 31 is end of winter monitoring season), maintain no
more than 5-percent unleashed dogs.
Adaptive Management Measures
If the 10-percent standard is not achieved by the end of fourth
monitoring season, one or more of the following measures as
determined in consultation with the WSP Technical Working
Group:
Western Snowy Plover Habitat Management Plan
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• Expand and/or retarget educational efforts;
• Modify, including relocation and/or expansion of temporary
seasonal fencing;
• Modify, including relocation and/or expansion of signage.
2. Lack of training and information on locations of WSP roosts among some staff that
drive and operate equipment on the beaches
As discussed in Section 6 above, this Plan includes a commitment for significant training for city
staff, which is already ongoing, relative to activities on the beaches that could affect WSO roosting
areas, including but not limited to lifeguards, maintenance personnel, animal control, and
recreation.
3. Regular disturbance, removal of foraging resources, and occasional mortality
resulting from beach grooming, operation of heavy equipment, and regular vehicular
traffic
As summarized in Tables 2 and 3, beach grooming with heavy equipment has been eliminated
from the Critical Habitat area and for the areas between the Critical Habitat and the Wedge, limited
to monthly with monitoring and with no heavy equipment below the wrack line as summarized in
Table 2. Thus, this concern is addressed. Similarly, vehicle traffic in the Critical Habitat is limited
to lifeguard vehicles with maximum speed limits of 5 MPH and trash trucks entering the Critical
Habitat from F Street as depicted on Exhibit 6a. Trash trucks would be limited during winter
roosting season between the Critical Habitat and the Wedge to two days per week as set forth in
Table 2.
4. Regular disturbance and occasional mortality from off-leash dogs
As discussed in “Concern 1” above, potential harm through flushing or occasional mortality
associated with unleashed dogs is one of the major concerns and is appropriately, the major focus
of the initial efforts of this Plan. As noted, interviews with owners of unleashed dogs indicate a
lack of awareness regarding the presence of the WSP roosts, the designation of WSP Critical
Habitat, and the sensitive nature of roosting WSP. Thus, a substantial expansion of the education
program, which is in part addressed through the signage that will be installed on the boardwalk,
vertical walkways and street entrances as depicted on Exhibits 13 and 14. The Performance
Standards and associated Adaptive Management Measures are set forth in Concern 1 above.
5. Recreational activities and occasional large events that flush WSP from roosts and
leave large amounts of refuse near roosts
Western Snowy Plover Habitat Management Plan
48
The City has committed to eliminating organized recreational activities such as lifeguard exercises
from the Critical Habitat and areas between the Critical Habitat and the Wedge during the winter
roost season. Volleyball courts will be removed from the Critical Habitat as well.
Native and non-native predators drawn in unusually large concentrations to human refuse on and
near the beach and pet food placed outside at nearby residences. With the elimination of
recreational activities, the potential source of refuse would be eliminated along with associated
impacts to the WSP roosts.
8 REPORTING
To ensure that the Adaptive Management approach is providing adequate protection for the WSP,
annual reports will be submitted to the CCC for five years following implementation of the
program. The initial report will include all baseline and pertinent data collected on the WSP and
activities within the Critical Habitat Area as well as the proposed ACA between the Critical Habitat
Area and the Wedge. The initial report will include, at a minimum, monthly counts of WSP at
both locations, potential stressors observed (e.g., off-leash dogs, human incursion into the dunes,
etc.). The data in the initial report will provide the baseline conditions from which future adaptive
management decisions will be determined.
Subsequent reports for years 2 – 5 will include all data collected along with any Adaptive
Management Measures previous adopted and an evaluation of their effectiveness. The first annual
report will be submitted within one year of issuance of the Coastal Development Permit and
subsequent reports will be submitted annually on the same date as the initial report.
Western Snowy Plover Habitat Management Plan
49
8 LITERATURE CITED
77 FR 36728-36869. Endangered and Threatened Wildlife and Plants; Revised Designation
of Critical Habitat for the Pacific Coast Population of the Western Snowy Plover.
June 19, 2012.
CDFW (California Department of Fish and Wildlife). 2017. Element Occurrence Query.
California Natural Diversity Database (CNDDB). Rarefind, Version 5.2.14 (Commercial
Subscription). Sacramento, California: CDFW, Biogeographic Data Branch. August
2017. https://map.dfg.ca.gov/rarefind/view/RareFind.aspx#
City of Newport Beach. 2017. Western Snowy Plover Critical Habitat Area Proposal 2017
(revised2). Document provided via email from M. Clemente (City) to A. Hayworth
(Dudek). July 6.
Defenders of Wildlife. Basic facts about snowy plovers. Accessed 2017.
http://www.defenders.org/western-snowy-plover/basic-facts.
Hatch, D.A., 1996. Western snowy plover (a federally threatened species) wintering population
and interaction with human activity on Ocean Beach, San Francisco, Golden Gate
National Recreation Area, 1988 through 1996. Report, Golden Gate National Recreation
Area. National Park Service, San Francisco, California.
Lafferty, Kevin D., 2001. Disturbance to wintering western snowy plovers. Biological
Conservation 101, 315–325.
Oregon Parks and Recreation Department. 2012. Western Snowy Plover Site Management Plan
Bandon State Natural Area. Oregon Parks and Recreation Department Salem, Oregon.
Page, G. W., And L. E. Stenzel (eds.). 1981. The breeding status of the Snowy Plover in
California. Western Birds 12:1-40.
Page, Gary W., Lynne E. Stenzel, J. S. Warriner, J. C. Warriner and P. W. Paton. (2009).Snowy
Plover (Charadrius nivosus), The Birds of North America (P. G. Rodewald, Ed.). Ithaca:
Cornell Lab of Ornithology; Retrieved from the Birds of North America:
https://birdsna.org/Species-Account/bna/species/snoplo5
Ryan, T. P., S. Vigallon, R. Griswold, and J. Gummerman. 2014. The Western Snowy Plover in
Los Angeles and Orange Counties, California: September 2012 to June 2014. California
Department of Fish and Wildlife, Wildlife Management, Nongame Wildlife Unit Report,
2014. Sacramento, California 30 pp + Appendices.
Western Snowy Plover Habitat Management Plan
50
Ryan, T., S. Vigallon, C. Egger, S. Sheakley, R. Griswold. 2017a. Western Snowy Plover Survey
Volunteer Survey Protocol 2017. Prepared by the Orange County Western Snowy Plover
Study Group.
Ryan, T., S. Vigallon, L. Plauzoles, C. Egger, S. Sheakley, R. Griswold and B. Eastman. 2017b.
Western snowy plover in Los Angeles and Orange Counties California: September 2014
to February 2017. California Department of Fish and Wildlife, Wildlife Branch,
Nongame Wildlife Program Report, 2017. Sacramento, California. 55 pp + appendices
Shuford, W.D., and T. Gardali, eds. 2008. California Bird Species of Special Concern: A Ranked
Assessment of Species, Subspecies, and Distinct Populations of Birds of Immediate
Conservation Concern in California. Studies in Western Birds, no. 1. Camarillo, California:
Western Field Ornithologists; Sacramento: California Department of Fish and Game.
USFWS (U.S. Fish and Wildlife Service). 2007a. Final Recovery Plan for the Western Snowy
Plover. August 13. Accessed at: https://www.fws.gov/arcata/es/birds/WSP/documents/
RecoveryPlanWebRelease_09242007/9.24.07_final_draftQ&A_WSP_finalRP.pdf
USFWS. 2007b. Newport Field Office Western Snowy Plover Predator Management. June 25,
2008.Accessed at: https://www.fws.gov/oregonfwo/FieldOffices/Newport/
WesternSnowyPlover/PredatorManagement.asp.
USFWS. 2012a. “Endangered and Threatened Wildlife and Plants; Revised Designation of
Critical Habitat for the Pacific Coast Population of the Western Snowy Plover; Final
Rule.” Federal Register Volume 77 Number 118; 50 CFR Part 17. June 2012
USFWS. 2012b. Critical Habitat for the Pacific Coast Population of the Western Snowy Plover.
Questions and Answers. June, 2012. Accessed at: https://www.fws.gov/arcata/es/birds/
WSP/documents/WSPCH_June2012/Final_Revised_CH_Western_Snowy_Plover_
FAQs_051745_6-15-12.pdf
USFWS. 2013. ESA Basics 40 Years of Conserving Endangered Species. January 2013.
Accessed at: https://www.fws.gov/endangered/esa-library/pdf/ESA_basics.pdf
EXHIBITS
1 - 15
APPENDIX A
Natural Resources Element Goals and Policies
APPENDIX B
Western Snowy Plover Policies
APPENDIX C
Municipal Codes
APPENDIX D
US Fish & Wildlife Service
WSP Window Survey Results
2005-2017
APPENDIX E
Recovery Plan for the
Pacific Coast Population of the
Western Snowy Plover
design officeRabben/Herman
Landscape Architecture Master Planning Urban Design833 Dover Drive, Suite 9 Newport Beach, CA 92663
P: 949.548.3459 F: 949.548.5743 www.rhdo.comDate: May 03, 2019
Newport Beach: Western Snowy Plover Critical Habitat
Sample Interpretive Signage Templates
Interpretative Signage Template (Draft)
Cor-Ten Educational
Signage Template (Draft)
Reference Image
3’ to 3½’ Tall
Reference Image
3’ Tall
Reference Image
3’ to 3½‘ Tall
Cor-Ten Regulation
Signage Template (Draft)
Western Snowy Plover
The Western Snowy Plover is a shorebird distinguished
by its small size (between 6-7 inches long), pale brown
back, dark patches on either side of the upper breast,
and dark gray legs. The Western Snowy Plover feeds on
invertebrates such as crustaceans, mollusks, marine
worms, and insects. They utilize the run, stop and peck
method in order to gather their food from the sand and
wrack.
The breeding season for the Western Snowy Plovers is
from March to September. Western Snowy Plovers are
less common on the Balboa Peninsula during this time,
and are more common during the wintering season,
when the plovers actively build fat reserves required for
migration and breeding.
Wrack is the organic material, like kelp and sea grass, that is left on the
shore by surf, tides, and wind. The Western Snowy Plover finds its food
among the wrack, which is why it is important to not remove this naturally
occurring plover buffet!
The average lifespan of a Western Snowy Plover is 3 years. However some
have been found to live as long as 15 years!
Did you know that the Western Snowy Plover is on the Federal List of
Endangered and Threatened Species and is protected under the
Endangered Species Act?
Image
Image
3’
2’
Did You Know?
Image
1) Plover chicks are unable to fly for approximately
four weeks after hatching and are most vulnerable
to predators during this time.
2) Western Snowy Plovers generally “fledge” (leave
their nest) 28 to 33 days after they are born, when
they are able to fly. Western Snowy Plovers are
considered an adult when they are about are 1
year old.
1’
1.5’
BEACH REGULATIONS
No Dogs
10am-4:30pm
Dogs are not permitted from 10am-430pm. When allowed, dogs must remain on a
leash at all times.
Please stay on the path and protect sensitive habitat area boundaries.
Please use caution when accessing the beach. This is a federally designated habitat
area protected for the Western Snowy Plover.
The WSP and coastal dune habitat in this area is protected by the Endangered Species
Act. Harassment or harm to Western Snowy Plovers or destruction of coastal dune
plants and habitat is prohibited.
Harm or harassment of the Western Snowy Plover is a violation of the
Endangered Species Act and may be subject to civil or criminal penalties.
No Littering
No Harassment
of Wild Animals
No Plant
Removal
Stay Out of
Dune Habitat
1.5’
2’
Exhibit 12
design officeRabben/Herman
Landscape Architecture Master Planning Urban Design833 Dover Drive, Suite 9 Newport Beach, CA 92663
P: 949.548.3459 F: 949.548.5743 www.rhdo.comDate: May 03, 2019
Newport Beach: Western Snowy Plover Critical Habitat
WSP Site Rehabilitation Proposal
“No Access” Marking atPerimeter of Walkways
Short EducationalSignage
Cor-Ten Regulation Sinage
Exhibit 13
design officeRabben/Herman
Landscape Architecture Master Planning Urban Design833 Dover Drive, Suite 9 Newport Beach, CA 92663
P: 949.548.3459 F: 949.548.5743 www.rhdo.comDate: May 03, 2019
Newport Beach: Western Snowy Plover Critical Habitat
Sign & Fence Options
A-Frame Seasonal Sign Corten Steel Post/Cable Fence - 24 inches
Exhibit 14
design officeRabben/Herman
Landscape Architecture Master Planning Urban Design833 Dover Drive, Suite 9 Newport Beach, CA 92663
P: 949.548.3459 F: 949.548.5743 www.rhdo.comDate: May 03, 2019
Newport Beach: Western Snowy Plover Critical Habitat
Plover Logo and/or Concrete Stencil Suggestion
Stencil to be Stained & Sandblasted into Concrete
“Finger Walkway” Intersection w/ Bike Path
“Finger Walkway” End at Beach
W
e
s
t
e
r
n Snowy Plov e r C r i t i c a l H abitat
NE W P O R T BEAC
H
Crossing
Snowy Plover
Crossing
Snowy Plover
Exhibit 15
APPENDIX A
Natural Resources Element Goals and Policies
APPENDIX A
Natural Resources Element Goals and Policies
10502 A-1 April 2018
GOAL NR 10 PROTECTION OF SENSITIVE AND RARE TERRESTRIAL
AND MARINE RESOURCES FROM URBAN DEVELOPMENT.
Policy NR 10.1 Terrestrial and Marine Resource Protection
Cooperate with the state and federal resource protection agencies and private organizations to
protect terrestrial and marine resources. (Imp 14.7, 14.11, 14.12, 14.16
Policy NR 10.3 Analysis of Environmental Study Areas
Require a site-specific survey and analysis prepared by a qualified biologist as a filing
requirement for any development permit applications where development would occur within or
contiguous to areas identified as ESAs. (Imp 2.1, 6.1,
Policy NR 10.5 Development in Areas Containing Significant or Rare Biological Resources
Limit uses within an area containing any significant or rare biological resources to only those uses
that are dependent on such resources, except where application of such a limitation would result in a
taking of private property. If application of this policy would likely constitute a taking of private
property, then a non-resource-dependent use shall be allowed on the property, provided development
is limited to the minimum amount necessary to avoid a taking and the development is consistent with
all other applicable resource protection Natural Resources Element Newport Beach General Plan 10-
27 policies. Public access improvements and educational, interpretative and research facilities are
considered resource dependent uses. (Imp 2.1)
Policy NR 10.6 Use of Buffers
Maintain a buffer of sufficient size around significant or rare biological resources, if present, to
ensure the protection of these resources. Require the use of native vegetation and prohibit
invasive plant species within these buffer areas. (Imp 2.1)
GOAL NR 12 PROTECTION OF COASTAL DUNE HABITATS
Policy NR 12.1 Exotic Vegetation Removal and Native Vegetation Restoration
Require the removal of exotic vegetation and the restoration of native vegetation in dune habitat.
(Imp 2.1)
APPENDIX A (Continued)
10502 A-2 April 2018
Policy NR 12.2 Dune Habitat Protection
Design and site recreation areas to avoid impacts to dune habitat areas, and direct public access
away from these resources through methods such as well defined footpaths, boardwalks,
protective fencing, and signage. (Imp 23.1, 23.2
Policy NR 12.3 Beach Sand Removal
Limit earthmoving of beach sand in dune habitat areas to projects necessary for the protection of
coastal resources and existing development. (Imp 6.1)
APPENDIX B
Western Snowy Plover Policies
APPENDIX B
Western Snowy Plover Policies
10502 B-1 April 2018
3.1.1-3. Develop and implement a uniform coastal access signing program to assist the public in
locating, recognizing, and utilizing public access trails. Where appropriate, include information
advising the public of environmentally sensitive habitats, safety hazards, and to respect adjacent
private property.
3.1.1-5. Allow public access improvements in environmentally sensitive habitat areas (ESHA)
when sited, designed, and maintained in a manner to avoid or minimize impacts to the ESHA.
4.1.1-1. Define any area in which plant or animal life or their habitats are either rare or especially
valuable because of their special nature or role in an ecosystem and which could be easily disturbed
or degraded by human activities and developments as an environmentally sensitive habitat area
(ESHA). Using a site-specific survey and analysis by a qualified biologist, evaluate the following
attributes when determining whether a habitat area meets the definition of an ESHA:
4.1.1-2. Require a site-specific survey and analysis prepared by a qualified biologist as a filing
requirement for coastal development permit applications where development would occur within or
adjacent to areas identified as a potential ESHA. Identify ESHA as habitats or natural communities
listed in Section 4.1.1 that possess any of the attributes listed in Policy 4.1.1-1. The ESA’s depicted
on Map 4-1 shall represent a preliminary mapping of areas containing potential ESHA.
4.1.1-4. Protect ESHAs against any significant disruption of habitat values.
4.1.1-6. Require development in areas adjacent to environmentally sensitive habitat areas to be
sited and designed to prevent impacts that would significantly degrade those areas, and to be
compatible with the continuance of those habitat areas.
4.1.1-7. Limit uses within ESHAs to only those uses that are dependent on such resources.
4.1.1-8. Limited public access improvements and minor educational, interpretative and research
activities and development may be considered resource dependent uses. Measures, including, but
not limited to, trail creation, signage, placement of boardwalks, and fencing, shall be
implemented as necessary to protect ESHA.
4.1.1-9. Where feasible, confine development adjacent to ESHAs to low impact land uses, such
as open space and passive recreation.
4.1.1-10. Require buffer areas of sufficient size to ensure the biological integrity and
preservation of the habitat they are designed to protect. Terrestrial ESHA shall have a
minimum buffer width of 50 feet wherever possible. Smaller ESHA buffers may be allowed
only where it can be demonstrated that 1) a 50-foot wide buffer is not possible due to site-
APPENDIX B (Continued)
10502 B-2 April 2018
specific constraints, and 2) the proposed narrower buffer would be amply protective of the
biological integrity of the ESHA given the site-specific characteristics of the resource and of
the type and intensity of disturbance.
4.1.1-11. Provide buffer areas around ESHAs and maintain with exclusively native vegetation to
serve as transitional habitat and provide distance and physical barriers to human and domestic
pet intrusion.
4.1.1-12. Require the use of native vegetation and prohibit invasive plant species within ESHAs
and ESHA buffer areas.
4.1.1-13. Shield and direct exterior lighting away from ESHAs to minimize impacts to wildlife.
4.1.5-1. Require the removal of exotic vegetation and the restoration of native vegetation in
dune habitat.
4.1.5-2. Direct public access away from dune habitat areas through the use of well-defined
footpaths, boardwalks, protective fencing, signage, and similar methods.
4.1.5-3. Design and site recreation areas to avoid impacts to dune habitat areas.
4.1.5-4. Require a coastal development permit for earthmoving beach sand in dune habitat areas.
4.1.5-5. Limit earthmoving of beach sand in dune habitat areas to projects necessary for the
protection of coastal resources and existing development.
APPENDIX C
Municipal Codes
APPENDIX C
Newport Beach Municipal Codes
10502 C-1 April 2018
CHAPTER 6
6.04.060 Disposal on Public Property Prohibited.
No person shall throw, deposit or leave any solid waste, or, being in possession and control of
any solid waste, shall permit the same to be thrown, deposited, or left in or upon any street,
public beach or other public place, or on the shore, or in the waters of Newport Bay within the
City. (Ord. 2014-7 § 9, 2014: Ord. 1403 § 1 (part), 1971
CHAPTER 7.04 DOGS
7.04.020 Leash Required.
No person having the care, charge or control of any dog shall cause or allow, either willfully or
through failure to exercise due care or control, such dog to be present upon any beach, street,
alley, or public place, or upon any private property or premises other than his or her own without
written consent of the owner or lessee of such land unless such dog is securely restrained by a
substantial leash or chain not exceeding six feet in length and controlled by a person competent
to restrain such dog. This section shall not be construed as allowing dogs on leashes in the areas
from which dogs are prohibited as designated by Sections 7.04.025, 7.04.030, and 7.04.050.
(Ord. 89-8 § 1, 1989: Ord. 1230 § 1, 1967: Ord. 796 (part), 1956: 1949 Code § 4107)
7.04.030 Animals Prohibited on Public Beaches.
A. No person having the care, custody, charge or control of any animal shall permit or allow that
animal to be on any ocean front beach or ocean front sidewalk between the hours 10:00 a.m.
to 4:30 p.m. year-round.
B. No person having the care, custody, charge or control of any animal shall permit or allow that
animal to be on any harbor/bay front beach between the hours 9:00 a.m. to 5:00 p.m. year-round.
C. No person having the care, custody, charge or control of any animal shall permit or allow that
animal to be on any ocean front beach, ocean front sidewalk, harbor/bay front beach or
harbor/bay front sidewalk unless that person has, in his or her possession, an implement or
device capable of removing any feces deposited by the animal.
D. The provisions of this section shall not be applicable to:
1. Any animal enrolled and participating in obedience classes offered by the Recreation and
Senior Services Department of the City or in any show for which the City has issued a
special event permit;
APPENDIX C (Continued)
10502 C-2 April 2018
2. Any service dog, as defined by the Americans with Disabilities Act (“ADA”), or any dog
being trained to be a service dog as defined by the ADA pursuant to a recognized
program of training, provided the dog is on a leash and the person in charge has an
official identification card issued for such purposes. (Ord. 2010-25 § 1, 2010: Ord. 96-29
§ 1, 1996; Ord. 95-41 § 1, 1995: Ord. 89-8 § 3, 1989: Ord. 1410 § 1, 1971: Ord. 1386 § 1,
1971: Ord. 796 (part), 1956: Ord. 662: 1949 Code § 4107.1)
7.04.055 Penalty.
It shall be unlawful for any person to violate or fail to comply with the provisions of Sections
7.04.020, 7.04.030, or 7.04.050 of this Code. Any person violating or failing to comply with any
of the provisions of said sections shall be guilty of an infraction.
Any person convicted of violating or failing to comply with any of the provisions of said sections
shall be punishable by the fines as is specified in the currently adopted Uniform Infraction Bail
Schedule used by the Orange County Municipal Courts. (Ord. 89-8 § 5, 1989: Ord. 88-9 § 1,
1988: Ord. 1659 § 1, 1976)
7.06.010 Horses Prohibited on Beaches and Parks.
No person having the care, charge or control of any horse, mule or donkey shall permit or allow
such animal to be present upon any beach or public park in the City. (Ord. 89-8 § 7, 1989: Ord.
1337 § 1, 1970)
7.06.020 Penalty.
It shall be unlawful for any person to violate or fail to comply with the provisions of Section
7.06.010 of this Code. Any person violating or failing to comply with any of the provisions of
said section shall be guilty of an infraction.
Any person convicted of violating or failing to comply with any of the provisions of said section
shall be punishable by the fines as is specified in the currently adopted Uniform Infraction Bail
Schedule used by the Orange County Municipal Courts. (Ord. 89-15 § 1, 1989)
CHAPTER 11.03 SPECIAL EVENTS
11.03.020 General Provisions.
A. Permit Required. No person shall conduct, operate, maintain, or organize any special event
regulated by this chapter and no person shall allow the use of their premises for such a
special event without first obtaining a special event permit in accordance with this chapter
and paying the required fee.
APPENDIX C (Continued)
10502 C-3 April 2018
B. Applicability. These regulations shall apply to the following special events:
1. Outdoor concerts and other entertainment, public or semi-public dance, recreation, or
sporting events
2. Circuses, carnivals, fairs and festivals.
3. Swap meets.
4. Walks, runs, athletic events, bicycle and vehicle races not exempted under subsection
(C) of this section.
5. Organized/sponsored vehicle and boat shows.
6. Sales events outside the normal sales area of a business, such as sidewalk and parking
lot sales and other special promotions.
7. Auto dealer sales events involving promotional attractions such as barbecues, tents,
canopies, special signage, and similar facilities.
8. Fireworks displays
9. Outdoor weddings and picnics with attendance of one hundred fifty (150) or more
persons, within guidelines established by City Council Policy B-16.
10. Assemblies, conferences or meetings in a designated reserved area outdoors, with
attendance of one hundred fifty (150) or more persons.
11. Street fair or craft show on a residential or commercial right-of-way which is likely to
obstruct or delay or interfere with normal flow of pedestrian or vehicular traffic.
12. Other events with potential attendance of one hundred fifty (150) or more persons, as
determined by the Director, which are not exempted per subsection (C) of this section.
13. Car washes whereby the public is encouraged/invited to attend.
14. Parades or motorcades.
CHAPTER 11.04 PARKS, PARK FACILITIES, AND BEACHES
11.04.010 Intent and Purpose.
It is the policy of the City of Newport Beach to allow maximum public use of the City’s public
parks, park facilities and beaches subject to rules and regulations necessary for administration
and maintenance of the City’s public parks, park facilities and beaches. The City Council finds
that these rules and regulations are necessary to preserve and protect the public health, safety and
welfare. All persons using the City’s public parks, park facilities and beaches shall comply with
the provisions of this chapter, in addition to any other provisions contained within this code.
APPENDIX C (Continued)
10502 C-4 April 2018
Consistent with the provisions of this chapter, the Director shall be responsible for administering
the use of the City’s public parks, park facilities and beaches and shall be authorized to enforce
this chapter and establish and enforce policies, rules and regulations regarding the use and
administration of the City’s public parks, park facilities and beaches. (Ord. 2012-6 § 1 (part),
2012: Ord. 2004-26 § 3 (part), 2004)
11.04.070 Prohibited Conduct.
It is unlawful for any person to conduct, perform or participate in any of the following activities
at any park, park facility, beach or oceanfront boardwalk unless otherwise authorized to do so by
the Director:
F. Drive, propel, ride or park or leave standing any vehicle propelled by a motor except in areas
designated for such purposes, except, this section shall not apply to an employee of the City
acting in the course and scope of his or her employment, or to activities authorized by a
special event permit issued pursuant to the provisions of Chapter 11.03. This section does not
permit public parking of event attendees.
G. Camp or lodge except in places designated for such purposes and with specific permission
from the City to do so.
H. Continuing to conduct or perform any event, activity, behavior or conduct that is determined
to be unsafe, a nuisance, or a disturbance to the public by the Director, a park patrol officer,
code enforcement officer, lifeguard or peace officer after the person or group of people
conducting or performing the event, activity, behavior or conduct has been issued a verbal or
written warning that said event, activity, behavior or conduct has been determined to be
unsafe, a nuisance, or a disturbance to the public. (Ord. 2012-6 § 1 (part), 2012: Ord. 2004-
26 § 3 (part), 2004. Formerly 11.04.080)
CHAPTER 11.08 CONDUCT ON BEACHES AND PIERS
11.04.100 Violation of Rules and Policies of Department.
No person shall disobey or violate any of the written rules, policies or regulations issued by the
Director governing the use and enjoyment by the public of any park, park facility, or beach.
(Ord. 2012-6 § 1 (part), 2012: Ord. 2004-26 § 3 (part), 2004. Formerly 11.04.090)
11.04.110 Ejection.
Any person who violates any of the prohibited conduct provisions in this chapter shall be guilty
of disorderly conduct and may be ejected from the park, park facility, or beach by the Director, a
APPENDIX C (Continued)
10502 C-5 April 2018
park patrol officer, a code enforcement officer, a lifeguard, or a peace officer. (Ord. 2012-6 § 1
(part), 2012. Formerly 11.04.100)
11.08.010 Obstructions on Public Beaches Prohibited.
No person shall install, erect, or place any sign, recreational equipment (such as volleyball or
badminton pole/net, portable play apparatus, and trampoline), fence, fire pit or barbecue, or
similar encroachment on any public bay beach, ocean beach, tideland or park unless authorized
or permitted to do so by formal action of the City Council, the written consent of the City
Manager, or the provisions of this Code. Except as provided in Section 11.08.020, the provisions
of this section shall not prohibit the placement of a shade covering including, but not limited to,
umbrellas, canopies, tents or similar objects, on any ocean beach, bay beach or tideland. (Ord.
2009-18 § 1, 2009: Ord. 99-23 § 1, 1999)
11.08.030 Use of Beaches at Night.
A. Prohibited Hours. Except as provided in subsection (B) of this section, no person shall be
allowed or permitted on any public bay, beach nor any ocean front beach between the hours
of 10:00 p.m. and 6:00 a.m. of the following day;
APPENDIX D
US Fish & Wildlife Service WSP Window Survey
Results 2005-2017
APPENDIX D
US Fish & Wildlife Service WSP Window Survey Results 2005-2017
10502 D-1 April 2018
APPENDIX E
Recovery Plan for the Pacific Coast Population of
the Western Snowy Plover
ii
PRIMARY AUTHORS
This final recovery plan was prepared by Kelly Hornaday, Ina Pisani, and Betty
Warne of our Sacramento Fish and Wildlife Office. Ruth Pratt of the Sacramento
Fish and Wildlife Office coordinated preparation of the draft recovery plan and
acted as Recovery Team Manager.
We gratefully acknowledge the efforts of the Pacific Coast Western Snowy Plover
Recovery Team in preparing this recovery plan. Special acknowledgment is also
given to Nadav Nur, Point Reyes Bird Observatory, Stinson Beach, California, for
his work on the population viability analysis.
iii
DISCLAIMER
Recovery plans delineate reasonable actions that are believed to be required to
recover and/or protect listed species. We, the U.S. Fish and Wildlife Service,
publish recovery plans, sometimes preparing them with the assistance of recovery
teams, contractors, State agencies, and others. Recovery teams serve as
independent advisors to the U.S. Fish and Wildlife Service. Objectives of the
recovery plan will be attained and necessary funds made available subject to
budgetary and other constraints affecting the parties involved, as well as the need
to address other priorities. Recovery plans do not obligate other parties to
undertake specific actions, and may not represent the views or the official
positions or approval of any individuals or agencies involved in the recovery plan
formulation other than our own. They represent our official position only after
they have been signed by the Director, Regional Director, or Operations Manager
as approved. Approved recovery plans are subject to modification as dictated by
new findings, changes in species status, and the completion of recovery actions.
Literature Citation Should Read As Follows:
U.S. Fish and Wildlife Service. 2007. Recovery Plan for the Pacific Coast
Population of the Western Snowy Plover (Charadrius alexandrinus nivosus). In
2 volumes. Sacramento, California. xiv + 751 pages.
An electronic version of this recovery plan also will be made available at
http://www.fws.gov/cno/es/recoveryplans.html and
http://endangered.fws.gov/recovery/index.html#plans
iv
ACKNOWLEDGMENTS
The following U.S. Fish and Wildlife Service staff provided valuable review and
comments on the recovery plan: John Grettenberger and Martha Jensen, Western
Washington Office, Lacey, Washington; Carrie Phillips, Elizabeth Kelly, and Fred
Seavey, Newport Fish and Wildlife Office, Newport, Oregon; Jim Watkins,
Arcata Fish and Wildlife Office, Arcata, California; Kevin Clark and Gjon
Hazard, Carlsbad Fish and Wildlife Office, Carlsbad, California; Steve Henry,
Steve Kirkland, and David Pereksta, Ventura Fish and Wildlife Office; Diane
Elam, California/Nevada Operations Office, Sacramento, California; and Grant
Canterbury, Pacific Regional Office, Portland, Oregon. Robert Mesta, Bureau of
Land Management Region 2 Office, Tucson, Arizona also provided valuable
review and comments on the recovery plan.
Jennifer Bain, Valary Bloom, Don Hankins, Larry Host, Harry McQuillen,
Caroline Prose, Caralee Stevens, Glen Tarr, Kim Turner, Betty Warne, and Dan
Welsh of the Sacramento Fish and Wildlife Office, Sacramento, California also
assisted in preparation of the final recovery plan.
Maps of snowy plover sites in Appendix L were prepared by Brian Cordone,
Cheryl Hickam, and Joni Mitchell, Sacramento Fish and Wildlife Office,
Sacramento, California.
The cover illustrations for the front cover and Appendix K are used courtesy of
Carleton R. Eyster, Santa Cruz, California.
v
PACIFIC COAST WESTERN SNOWY PLOVER RECOVERY TEAM
Sarah Allen Sean Morton
National Park Service County of Santa Barbara
Point Reyes, California Santa Barbara, California
Tim Burr Martin Nugent
U.S. Department of the Navy Oregon Department of Fish and Wildlife
San Diego, California Portland, Oregon
Jeff Chastain Gary Page
C & M Stables Point Reyes Bird Observatory
Florence, Oregon Stinson Beach, California
Janet Didion Kerrie Palermo
California Dept. of Parks and Recreation U.S. Bureau of Land Management
Sacramento, California North Bend, Oregon
David Dixon Daniel Pearson
California Dept. of Parks and Recreation Southern California Edison
Monterey, California Rosemead, California
Ivette Loredo John Phillips (deceased)
San Francisco Bay National Wildlife Refuge Oregon Parks and Recreation Dept.
Newark, California Coos Bay, Oregon
Richard Griffiths Abby Powell
U.S. Marine Corps U.S.G.S., Biological Resources Division
Camp Pendleton, California Fairbanks, Alaska
Jim Heaney Jim Raives
U.S. Bureau of Land Management California Coastal Commission
North Bend, Oregon San Francisco, California
William Hornbrook Nancy R. Francine
Fish Phone U.S. Department of the Air Force
Eureka, California Vandenberg Air Force Base, California
Tim Jensen Chris Regan
Monterey Peninsula Regional Park District Washington State Parks and Recreation
Carmel Valley, California Olympia, Washington
Ron Jurek Scott Richardson (Max Bahn, alternate)
California Department of Fish and Game Washington Department of Fish and Wildlife
Sacramento, California Olympia, Washington
Don Klusman Mark Stern
California Assoc. of 4 Wheel Drive Clubs, Inc. Oregon Natural Heritage Program
Yuba City, California Portland, Oregon
vi
EXECUTIVE SUMMARY
CURRENT SPECIES STATUS: The Pacific coast population of the western
snowy plover (Charadrius alexandrinus nivosus) (western snowy plover) is
federally listed as threatened. The current Pacific coast breeding population
extends from Damon Point, Washington, south to Bahia Magdalena, Baja
California, Mexico (including both Pacific and Gulf of California coasts). The
western snowy plover winters mainly in coastal areas from southern Washington
to Central America.
HABITAT REQUIREMENTS AND LIMITING FACTORS: The Pacific
coast population of the western snowy plover breeds primarily above the high tide
line on coastal beaches, sand spits, dune-backed beaches, sparsely-vegetated
dunes, beaches at creek and river mouths, and salt pans at lagoons and estuaries.
Less common nesting habitats include bluff-backed beaches, dredged material
disposal sites, salt pond levees, dry salt ponds, and river bars. In winter, western
snowy plovers are found on many of the beaches used for nesting as well as on
beaches where they do not nest, in man-made salt ponds, and on estuarine sand
and mud flats.
Habitat degradation caused by human disturbance, urban development, introduced
beachgrass (Ammophila spp.), and expanding predator populations have resulted
in a decline in active nesting areas and in the size of the breeding and wintering
populations.
RECOVERY OBJECTIVE: The primary objective of this recovery plan is to
remove the Pacific coast population of the western snowy plover from the List of
Endangered and Threatened Wildlife and Plants by: (1) increasing population
numbers distributed across the range of the Pacific coast population of the western
snowy plover; (2) conducting intensive ongoing management for the species and
its habitat and developing mechanisms to ensure management in perpetuity; and
(3) monitoring western snowy plover populations and threats to determine success
of recovery actions and refine management actions.
vii
RECOVERY PRIORITY: 3C, per criteria published by Federal Register Notice
(U.S. Fish and Wildlife Service 1983).
RECOVERY CRITERIA: The Pacific coast population of the western snowy
plover will be considered for delisting when the following criteria have been met:
1. An average of 3,000 breeding adults has been maintained for 10 years,
distributed among 6 recovery units as follows: Washington and Oregon, 250
breeding adults; Del Norte to Mendocino Counties, California, 150 breeding
adults; San Francisco Bay, California, 500 breeding adults; Sonoma to Monterey
Counties, California, 400 breeding adults; San Luis Obispo to Ventura Counties,
California, 1,200 breeding adults; and Los Angeles to San Diego Counties,
California, 500 breeding adults. This criterion also includes implementing
monitoring of site-specific threats, incorporation of management activities into
management plans to ameliorate or eliminate those threats, completion of research
necessary to modify management and monitoring actions, and development of a
post-delisting monitoring plan.
2. A yearly average productivity of at least one (1.0) fledged chick per male has
been maintained in each recovery unit in the last 5 years prior to delisting.
3. Mechanisms have been developed and implemented to assure long-term
protection and management of breeding, wintering, and migration areas to
maintain the subpopulation sizes and average productivity specified in Criteria 1
and 2. These mechanisms include establishment of recovery unit working groups,
development and implementation of participation plans, development and
implementation of management plans for Federal and State lands, protection and
management of private lands, and public outreach and education.
ACTIONS NEEDED:
1. Monitor breeding and wintering populations and habitats of the Pacific coast
population of the western snowy plover to determine progress of recovery actions
to maximize survival and productivity.
viii
2. Manage breeding and wintering habitat of the Pacific coast population of the
western snowy plover to ameliorate or eliminate threats and maximize survival
and productivity.
3. Develop mechanisms for long-term management and protection of western
snowy plovers and their breeding and wintering habitat.
4. Conduct scientific investigations that facilitate the recovery of the western
snowy plover.
5. Conduct public information and education programs about the western snowy
plover.
6. Review progress towards recovery of the western snowy plover and revise
recovery efforts, as appropriate.
7. Dedicate U.S. Fish and Wildlife Service staff to allow the Arcata Fish and
Wildlife Office to coordinate western snowy plover recovery implementation.
8. Establish an international conservation program with the government of
Mexico to protect western snowy plovers and their breeding and wintering
locations in Mexico.
Appendices B and C address Actions 1 and 2, providing site-specific
recommendations for breeding numbers and management actions. Appendix J
addresses Action 1, providing guidelines for monitoring western snowy plovers
during the breeding and wintering seasons. Appendix K addresses Action 5,
providing a public information and education plan.
ESTIMATED COST OF RECOVERY: $149,946,000 plus additional costs
that cannot be estimated at this time.
DATE OF RECOVERY: Delisting could occur by 2047 if the recovery criteria
above have been met.
ix
x
TABLE OF CONTENTS
I. INTRODUCTION ...............................................1
A. DESCRIPTION AND TAXONOMY .........................4
B. LIFE HISTORY AND ECOLOGY ...........................7
1. Breeding ..........................................7
a. Population Size and Distribution .................8
b. Arrival and Courtship .........................10
c. Duration of Breeding Season ...................11
d. Nests and Nest Sites ..........................11
e. Egg Laying, Clutch Size, and Incubation ..........12
f. Clutch Hatching Success .......................14
g. Brood-rearing ...............................14
h. Fledging success .............................15
i. Productivity .................................16
j. Survival ....................................17
2. Feeding Habitat and Habits ...........................17
3. Migration .........................................18
4. Wintering ........................................19
a. Distribution and Abundance ....................19
b. Site Fidelity .................................20
c. Behavior ...................................20
C. POPULATION STATUS AND TRENDS .....................21
1. Historical Trends ...................................21
a. Washington Coast ............................21
i. Grays Harbor County ....................21
ii. Pacific County .........................22
b. Oregon Coast ...............................24
c. California Coast .............................27
i. Coastwide Perspective ...................27
ii. Regional Perspective ...................29
2. Current Breeding Distribution ........................32
3. Habitat Carrying Capacity ............................32
D. REASONS FOR DECLINE AND CONTINUING THREATS ....33
xi
1. The Present or Threatened Destruction, Modification, or
Curtailment of Habitat or Range ...................33
a. Shoreline Stabilization and Development ..........33
b. Resource Extraction ..........................34
i. Sand Removal and Beach Nourishment .....34
ii. Dredging and Disposal of Dredged
Materials .........................36
iii. Driftwood Removal ....................36
iv. Beach Fires and Camping ...............37
v. Watercourse Diversion, Impoundment, or
Stabilization .......................37
vi. Operation of Salt Ponds .................38
c. Encroachment of Introduced Beachgrass and Other
Nonnative Vegetation .....................38
d. Habitat Conversion for Other Special Status
Species .................................42
2. Overutilization for Commercial, Recreational, Scientific, or
Education Purposes .............................45
3. Disease or Predation ................................47
4. The Inadequacy of Existing Regulatory Mechanisms .......55
5. Other Natural or Manmade Factors Affecting Their
Continued Existence ............................56
a. Natural Events ...............................56
b. Disturbance of Breeding Plovers by Humans and
Domestic Animals ........................57
i. Pedestrians ............................58
ii. Dogs ................................63
iii. Motorized Vehicles ....................65
iv. Beach Cleaning .......................67
v. Equestrian Traffic ......................67
vi. Fishing ..............................68
vii. Fireworks ...........................69
viii. Kite Flying and Model Airplanes ........70
ix. Aircraft Overflights ....................70
x. Special Events .........................71
xii
xi. Coastal Access ........................72
xii. Livestock Grazing .....................72
c. Oil Spills ...................................72
d. Contaminants ...............................75
e. Litter, Garbage, and Debris .....................76
f. Water Quality and Urban Run-off ................77
g. Management for Other Special Status Species ......78
E. IMPLICATIONS FOR THE COASTAL BEACH-DUNE
ECOSYSTEM .......................................78
1. Description of Coastal Beach-Dune Ecosystem ...........79
2. Sensitive Species of the Coastal Beach-Dune Ecosystem ...81
F. CONSERVATION EFFORTS ..............................83
1. Conservation Planning on Federal and State Lands ........84
2. Conservation Efforts on Federal and State Lands ..........87
a. Exclosures, Symbolic Fencing, and Signs ..........87
b. Law Enforcement ............................90
c. Predator Control .............................90
d. European Beachgrass Control ...................93
e. Off-Road Vehicle Restrictions and Management ....99
f. Population Monitoring ........................101
g. Salt Pond Management .......................102
h. Habitat Acquisition ..........................103
i. Use of Volunteers ...........................103
j. Public Outreach and Education .................104
k. Section 6 Cooperative Agreements ..............105
3. Conservation Efforts on Private Lands .................106
4. Federal Regulatory Program .........................106
a. Critical Habitat .............................106
b. Section 9 Take Prohibitions ...................110
c. Section 10 Permits ...........................111
d. Section 7 Requirements and Consultations ........112
e. Other Federal Regulations, Executive Orders, and
Agreements ............................112
5. State Regulatory Protection, Policies, and Agreements ....115
xiii
6. Consultations, Habitat Conservation Plans, and Other
Regulatory Actions ............................119
7. Regulatory Protection and Policies of Local Governments
............................................125
8. Interagency Coordination ...........................126
II. RECOVERY .................................................129
A. RECOVERY STRATEGY ...............................129
1. Recovery Strategy Components ......................129
2. Roles of Federal, State, Local, and Private Sectors .......132
a. Role of Federal Lands ........................132
b. Role of State Lands ..........................133
c. Roles of State and Local Governments ...........133
d. Role of Municipal Lands ......................134
e. Role of Private Lands ........................134
3. Conservation Tools and Strategies ....................134
4. Funding Sources ..................................134
5. Coordination, Participation, and Working Groups ........136
B. RECOVERY UNITS ....................................137
C. RECOVERY GOALS AND OBJECTIVES ..................140
D. RECOVERY CRITERIA .................................141
E. RELATIONSHIP OF RECOVERY ACTIONS AND CRITERIA
TO THREATS ......................................147
III. NARRATIVE OUTLINE OF RECOVERY ACTIONS ...............155
IV. IMPLEMENTATION SCHEDULE ..............................213
V. REFERENCES ...............................................239
A. Literature Cited ........................................239
B. Personal Communications ................................266
C. In Litt. References ......................................268
xiv
LIST OF APPENDICES
(See Volume 2)
Appendix A. Locations of Current or Historical Snowy Plover Breeding and
Wintering Areas ....................................A-1
Appendix B.Information on Snowy Plover Breeding and Wintering Locations
..................................................B-1
Appendix C. Summary of Current and Additional Needed Management
Activities for Snowy Plover Breeding and Wintering Locations
..................................................C-1
Appendix D. Population Viability Analysis for Pacific Coast Snowy Plovers D-1
Appendix E. Associated Sensitive Species of the Coastal Beach-Dune
Ecosystem and Adjacent Habitats .......................E-1
Appendix F.U.S. Fish and Wildlife Service Exclosure Protocols for Snowy
Plover Nests, July 1999 ...............................F-1
Appendix G. Priorities for Recovery of Threatened and Endangered Species G-1
Appendix H. Conservation Tools and Strategies ......................H-1
Appendix I.Summary of Potential Funding Sources for Recovery Actions . I-1
Appendix J.Monitoring Guidelines for the Western Snowy Plover, U.S. Pacific
Coast Population ....................................J-1
Appendix K. Information and Education Plan for the Western Snowy Plover,
U.S. Pacific Coast Population .........................K-1
Appendix L.Maps of Snowy Plover Sites ...........................L-1
Appendix M.Summary of Public Comments on Draft Recovery Plan and Service
Responses .........................................M-1
xv
LIST OF TABLES
Table 1.Status of western snowy plovers at three nesting sites in
Washington (1993-2006)...............................24
Table 2. Number of adult western snowy plovers on window surveys of
the Oregon coast during the breeding season (1978-2006).....25
Table 3.Comparison of breeding-season population estimates of adult
western snowy plovers on the Oregon coast (1993-2006) based
on three different measures of abundance ..................26
Table 4. Number of adult snowy plovers during breeding season window
surveys on the California coast ..........................28
Table 5. Breeding season surveys of snowy plover adults at selected sites
along the coast of San Luis Obispo, Santa Barbara, and Ventura
Counties ............................................31
Table 6. Total number of nests at habitat restoration areas on the Oregon
Coast 1994-2004 .....................................96
Table 7. Total number of fledged young at habitat restoration areas on the
Oregon Coast 1994-2004 ...............................96
Table 8.Threats to the Pacific coast population of the western snowy
plover and steps within the recovery plan to reduce or eliminate
threats ............................................149
xvi
LIST OF FIGURES
Figure 1.Map of known breeding and wintering distribution of Pacific Coast
population of western snowy plover (Charadrius alexandrinus
nivosus).............................................2
Figure 2. Adult male snowy plover ................................5
Figure 3. Oregon Dunes National Recreation Area ....................8
Figure 4. Western snowy plover clutch ............................13
Figure 5.New housing development next to beach at Monterey Bay,
California ...........................................35
Figure 6.Recreationists at Salt Creek Beach, California ..............58
Figure 7. Equestrians on beach ..................................68
Figure 8. Erecting western snowy plover exclosure ..................88
Figure 9.Symbolic fencing on beach at Monterey Bay, California ......89
Figure 10. Banding western snowy plover chick ....................102
Figure 11.High school students removing European beachgrass ........104
Figure 12.Chart of recovery planning and implementation efforts ......190
xvii
1
I. INTRODUCTION
On March 5, 1993, the Pacific coast population of the western snowy plover
(Charadrius alexandrinus nivosus) (western snowy plover) was listed as
threatened under provisions of the Endangered Species Act of 1973, as amended
(16 U.S.C. 1531 et seq.). The Pacific coast population is defined as those
individuals that nest within 50 miles of the Pacific Ocean on the mainland coast,
peninsulas, offshore islands, bays, estuaries, or rivers of the United States and
Baja California, Mexico (U.S. Fish and Wildlife Service 1993a) (Figure 1).
General locations of the western snowy plover’s breeding and wintering locations
in the United States are shown in Appendix A. Surveys, status reviews, and
literature searches have identified 159 current or historical western snowy plover
breeding or wintering locations on the U.S. Pacific coast. These localities include
6 in Washington, 19 in Oregon, and 134 in California (Appendix B). In Baja
California, breeding western snowy plovers concentrate at coastal wetland
complexes as far south as Bahia Magdalena, Mexico (Palacios et al. 1994). The
locations listed in Appendix B are important for the recovery of the United States
Pacific coast population of the western snowy plover because they represent
important breeding, feeding, and sheltering habitat for the species.
In Washington, the western snowy plover was listed as endangered under
Washington Department of Fish and Wildlife Policy #402 in 1981. In 1990 the
Washington Fish and Wildlife Commission (Washington Administrative Code
232-12-014) reaffirmed the endangered status. In 1975, the Oregon Fish and
Wildlife Commission listed the western snowy plover as threatened. Its
threatened status was reaffirmed in 1989 under the Oregon Endangered Species
Act and again in 1993 and 1998 by the Oregon Fish and Wildlife Commission as
part of its periodic review process. Since 1978, the California Department of Fish
and Game has classified both the inland and coastal population of western snowy
plover as a “species of special concern.” (Remsen 1978, California Natural
Diversity Database 2001).
In August 2002, we received a petition from the Surf Ocean Beach Commission
of Lompoc, California to delist the Pacific Coast population of the western snowy
2
Figure 1.Map of known breeding and wintering distribution of the Pacific
coast population of the western snowy plover.
3
plover. The City of Morro Bay, California submitted substantially the same
petition dated May 30, 2003. On March 22, 2004, we published a notice that the
petition presented substantial information to indicate that the delisting may be
warranted (U.S. Fish and Wildlife Service 2004a). This notice also announced
our initiation of a 5-year status review for the Pacific coast population of western
snowy plover.
Under sections 4(b)(3)(B) and 4(c)(2) of the Endangered Species Act, we
conducted a 5-year status review and evaluated whether the petitioned action was
warranted. On April 21, 2006, we published a 12-month finding that concluded
the petitioned action was not warranted (U.S. Fish and Wildlife Service 2006a).
We also proposed a special rule pursuant to section 4(d) of the Endangered
Species Act (U.S. Fish and Wildlife Service 2006b), which would exempt
counties that have met western snowy plover recovery goals from most
prohibitions on take as long as populations remain above recovery goals. The
5-year status review was completed on June 8, 2006.
Section 4 of the Endangered Species Act of 1973, as amended, requires us to
develop a recovery plan for the conservation and survival of a species after it is
federally listed as threatened or endangered, unless it is determined that such a
plan will not promote the conservation of the species. Recovery is the process of
reversing the decline of a listed species, eliminating threats, and ensuring the
species’ long-term survival. This recovery plan recommends actions necessary to
satisfy the biological needs and assure recovery of the Pacific coast population of
the western snowy plover. These actions include protection, enhancement, and
restoration of all habitats deemed important for recovery; monitoring; research;
and public outreach.
This recovery plan will serve as a guidance document for interested parties
including Federal, State, and local agencies; private landowners; and the general
public. It includes recommendations for western snowy plover management
measures for all known breeding and wintering locations (Appendix C). These
locations have been divided into six recovery units, as follows: (1) Oregon and
Washington; (2) northern California (Del Norte, Humboldt, and Mendocino
Counties); (3) San Francisco Bay (locations within Napa, Alameda, Santa Clara,
4
and San Mateo Counties); (4) Monterey Bay (including coastal areas along
Monterey, Santa Cruz, San Mateo, San Francisco, Marin, and Sonoma Counties);
(5) San Luis Obispo, Santa Barbara, and Ventura Counties; and (6) Los Angeles,
Orange, and San Diego Counties. Designation of these locations and recovery
units assists in identifying priority areas for conservation planning across the
western snowy plover’s breeding and wintering range.
This recovery plan emphasizes management on Federal and State lands, including
opportunities to improve or expand upon current efforts. Because of this
emphasis on public lands, the cost associated with this emphasis, and potential
restrictions of public use on these lands, public support and involvement will be
crucial to the recovery of the western snowy plover. Opportunities for public
participation in recovery efforts are emphasized in Appendix K (Information and
Education Plan).
A. DESCRIPTION AND TAXONOMY
The western snowy plover, a small shorebird in the family Charadriidae, weighs
from 34 to 58 grams (1.2 to 2 ounces) and ranges in length from 15 to 17
centimeters (5.9 to 6.6 inches) (Page et al. 1995a). It is pale gray-brown above
and white below, with a white hindneck collar and dark lateral breast patches,
forehead bar, and eye patches (Figure 2). The bill and legs are blackish. In
breeding plumage, males usually have black markings on the head and breast; in
females, usually one or more of these markings are dark brown. Early in the
breeding season a rufous crown may be evident on breeding males, but it is not
typically seen on females. In non-breeding plumage, sexes cannot be
distinguished because the breeding markings disappear. Fledged juveniles have
buffy edges on their upper parts and can be distinguished from adults until
approximately July through October, depending on when in the nesting season
they hatched. After this period, molt and feather wear makes fledged juveniles
indistinguishable from adults. Individual birds 1 year or older are considered to
be breeding adults. The mean annual life span of western snowy plovers is
estimated at about 3 years, but at least one individual was at least 15 years old
when last seen (Page et al. 1995a).
5
Figure 2.Adult male western snowy plover (photo by Peter Knapp, with
permission).
The species was first described in 1758 by Linnaeus (American Ornithologists’
Union 1957). Two subspecies of the snowy plover have been recognized in North
America (American Ornithologists’ Union 1957): the western snowy plover
(Charadrius alexandrinus nivosus) and the Cuban snowy plover (C. a.
tenuirostris). The Pacific coast population of the western snowy plover breeds on
the Pacific coast from southern Washington to southern Baja California, Mexico.
Wintering birds may remain at their breeding sites or move north or south to other
wintering sites along the Pacific coast. The interior population of the western
snowy plover breeds in interior areas of Oregon, California, Nevada, Utah, New
Mexico, Colorado, Kansas, Oklahoma, and north-central Texas, as well as coastal
areas of extreme southern Texas, and possibly extreme northeastern Mexico
(American Ornithologists’ Union 1957). Although previously observed only as a
migrant in Arizona, small numbers have bred there in recent years (Monson and
Phillips 1981, Davis and Russell 1984). Interior population birds breeding east of
the Rockies generally winter along the Gulf coast, while most interior population
birds breeding west of the Rockies winter in coastal California and Baja
6
California, often intermingling with birds from the Pacific coast breeding
population. The Cuban snowy plover breeds along the Gulf coast from Louisiana
to western Florida and south through the Caribbean (American Ornithologists’
Union 1957). More recent works recognize only subspecies C. a. nivosus for
North America (Hayman et al. 1986, Binford 1989, Sibley and Monroe 1990).
A large amount of breeding data indicates that the Pacific coast population of the
western snowy plover is distinct from western snowy plovers breeding in the
interior (U.S. Fish and Wildlife Service 1993a, 2006a). A study conducted
between 1977 and 1982 reported that western snowy plovers tend to exhibit
breeding site fidelity (Warriner et. al. 1986). Banding and resighting data show
that the Pacific Coast breeding populations and the western interior breeding
populations experience limited or rare reproductive interchange (G. Page in litt.
2004a). Between 1984 and 1995, the period with the most extensive banding
studies and search efforts, 907 plovers color-banded in coastal and interior
populations were subsequently resighted (excluding birds banded on the coast
during winter and birds resighted in their original region without evidence of
nesting). Of these, 894 birds (98.6 percent) were observed during the breeding
season using the same breeding range in which they were originally banded.
Twelve birds (1.3 percent) were banded on the coast and later observed in the
interior, only one of which was known to nest in the interior. Only one male (0.1
percent) was banded in the interior (without evidence of nesting) and later found
nesting on the coast. Moreover, data from a period of less intensive surveys and
banding from 1977 to 1983 corroborate this pattern (G. Page in litt. 2004a, U.S.
Fish and Wildlife Service 2006a). During this period, of 400 birds banded in the
interior, none were observed on the coast during breeding season, and of 599 birds
banded on the coast only one was found nesting in the interior. Finally, 304
retrievals of numbered metal bands reported between 1969 and 2002 show no
evidence of movement from interior to coast and only one bird (G. Goldsmith in
litt. 2004, U.S. Fish and Wildlife Service 2006a) that moved from coast to interior
(the dates being consistent with a bird from the interior population having been
banded on the coast during the non-breeding season).
Thus, intensive banding and monitoring studies have documented only two clear
instances of interbreeding between coastal and interior populations, and a few
7
cases of inter-population movement without confirmed breeding, among
thousands of birds observed. These results illustrate that the amount of
interchange between coastal and interior populations is likely to be extremely low,
though not zero. Movement of birds from coastal to interior populations has been
documented more often than the reverse (see also U.S. Fish and Wildlife Service
2006a).
Genetic studies using mitochondrial DNA and microsatellite DNA markers
(Gorman 2000, Funk et al. 2006) have found no significant genetic differentiation
between the Pacific coast and interior populations of the western snowy plover.
However, because a small number of dispersing individuals per generation is
sufficient to prevent genetic differentiation between two semi-isolated populations
(Mills and Allendorf 1996, Funk et al. 2006), this result is consistent with the
banding data reported above. Because the small number of dispersing individuals
indicated by banding data appear insufficient to substantially affect rates of
population growth or decline in either population, the two populations evidently
function demographically as largely independent of one another. Moreover, the
infrequency of observed dispersal from coast to interior further indicates that any
declines in the coastal population are not likely to be effectively offset by
immigration of interior birds to the coast. Consequently there is no evidence that
existing unoccupied habitat along the Pacific coast is currently being or in future
would be naturally colonized by birds from the interior population (Funk et al.
2006).
B. LIFE HISTORY AND ECOLOGY
1. Breeding
The Pacific coast population of the western snowy plover breeds primarily on
coastal beaches from southern Washington to southern Baja California, Mexico
(e.g., Figure 3). Sand spits, dune-backed beaches, beaches at creek and river
mouths, and salt pans at lagoons and estuaries are the main coastal habitats for
nesting (Stenzel et al. 1981, Wilson 1980). This habitat is unstable because of
8
Figure 3.Coastal beach in Oregon Dunes National Recreational Area (photo
by Ruth Pratt, with permission)
unconsolidated soils, high winds, storms, wave action, and colonization by plants.
Less common nesting habitats include bluff-backed beaches, dredged material
disposal sites, salt pond levees, dry salt ponds, and river bars (Wilson 1980, Page
and Stenzel 1981, Powell et al. 1996, Tuttle et al. 1997).
a. Population Size and Distribution
Population estimates referenced below are based on window surveys as well as on
more intensive studies involving repeated surveys of populations with individually
identifiable color-banded birds. Window surveys are a one-time pass of a
surveyor, or team of surveyors, through potential western snowy plover nesting
habitat during May or June (see survey protocol in Appendix J). The surveyor
counts all adult western snowy plovers in the habitat and identifies the adults as
male or female, when possible. Because window surveys may not detect all birds,
they are not directly comparable to more intensive studies. A correction factor
can be estimated by comparing window survey data with concurrent population
estimates from detailed studies of color-banded populations; currently the best
9
rangewide estimate of the correction factor is 1.3 (U.S. Fish and Wildlife Service
2006a), but it is preferable to determine corrections on a more specific regional or
site basis if possible due to differences in survey efficiency in different habitats
(see action 4.3.1).
Western snowy plovers concentrate in suitable habitat, with the number of adults
at coastal breeding locations ranging from 1 to 315, depending in part, on the size
of the area (Appendix B). The largest number of breeding birds occurs from south
San Francisco Bay to southern Baja California (Page and Stenzel 1981, Palacios et
al. 1994).
The locations of the following parenthetical references to western snowy plover
breeding and wintering locations in Washington, Oregon, and California are
shown in Figures A-1 through A-7 of Appendix A, and mapped in greater detail in
Appendix L. Information on the numbers of breeding and wintering western
snowy plovers at these locations is described in Appendix B.
Four breeding areas currently exist in southern Washington: Damon Point
(Washington location 2 [WA-2]) in Grays Harbor; Midway Beach (WA-4); and
Leadbetter Point (WA-5) and Graveyard Spit (discovered in 2006) in Willapa
Bay. Prior to the 1998 breeding season, fewer than 25 western snowy plovers and
12 nests were found in Washington during regular, standardized surveys.
However, surveys from 1998 through 2006 (Sundstrom 2003, 2005; Brennan and
Fernandez 2004a, 2006; Pearson et al. 2006; Washington Department of Fish and
Wildlife unpub. data) indicate greater numbers of western snowy plovers are
nesting at Leadbetter Point (WA-5) and Midway Beach (WA-4), with a maximum
estimated population of 70 western snowy plovers statewide in 2006.
In Oregon, nesting birds have been recorded at 14 sites since 1990 (Castelein et
al. 2002, Lauten et al. 2006a, 2006b). Nesting has occurred most frequently at 9
sites, including Sutton (OR-8), Siltcoos (OR-10), Dunes Overlook (OR-10),
Tahkenitch (OR-10), Tenmile Spits (OR-12), Coos Bay North Spit (OR-13),
Bandon (OR-15), New River (OR-15), and Floras Lake (OR-15). An estimated
177-179 adult western snowy plovers were observed at Oregon sites during the
2006 breeding season. A total of 135 individuals were known to have nested in
10
2006, with 147 nests located. Individual nests have also been found between
1990 and 2002 at several other Oregon sites, including Necanicum (OR-1);
Bayocean Spit (OR-3); North Siuslaw (OR-8); Threemile-Umpqua River (OR-
11); and Menasha Spoils, North Bend.
Western snowy plover populations in California have fluctuated between roughly
one thousand and two thousand birds over the past 30 years, as detailed in section
I.C.1.c below. Eight geographic areas support over three-quarters of the
California coastal breeding population: San Francisco Bay (CA-27 to CA-47),
Monterey Bay (CA-63 to CA-65), Morro Bay (CA-79 to CA-81), the Callendar-
Mussel Rock Dunes area (CA-83), the Point Sal to Point Conception area (CA-84
to CA-88), the Oxnard lowland (CA-96 to CA-99), Santa Rosa Island (CA-93),
and San Nicolas Island (CA-100) (Page et al. 1991, G. Page in litt. 2005a).
A survey of breeding western snowy plovers along the Pacific coast of Baja
California, Mexico between 1991 to 1992 found 1,344 adults, mostly at four
coastal wetland complexes: Bahia San Quintin, Lagunas Ojo de Liebre and
Guerrero Negro, Laguna San Ignacio, and Bahia Magdalena (Palacios et al. 1994).
b. Arrival and Courtship
Nesting western snowy plovers at coastal locations consist of both year-round
residents and migrants (Warriner et al. 1986). Migrants begin arriving at breeding
areas in southern Washington in early March (Widrig 1980) and in central
California as early as January, although the main arrival is from early March to
late April (Page et al. 1995a). Since some individuals nest at multiple locations
during the same year, birds may continue arriving through June (Stenzel et al.
1994).
Mated birds from the previous breeding season frequently reunite. Pair bonds are
associated with territorial defense by males and nest scraping behavior, but early
in the season birds begin to associate with one another in pairs within and apart
from roosting flocks before nest scraping activity is observed, suggesting that pair
bonds can be established prior to overt displays (Warriner et al. 1986). A scrape
is a depression in the sand or substrate that a male constructs by leaning forward
11
on his breast and scratching his feet while rotating his body axis (Page et al.
1995a). Copulations are associated with scraping behavior (Warriner et al. 1986).
Females choose which scrape becomes the nest site by laying eggs in one of them.
In California, pre-nesting bonds and courtship activities are observed as early as
mid-February. Similar activities begin by March in Oregon. During courtship,
males defend territories and usually make multiple scrapes.
c. Duration of Breeding Season
Along the west coast of the United States, the nesting season of the western snowy
plover extends from early March through late September. Generally, the breeding
season may be 2 to 4 weeks earlier in southern California than in Oregon and
Washington. Fledging (reaching flying age) of late-season broods may extend
into the third week of September throughout the breeding range.
The earliest nests on the California coast occur during the first week of March in
some years and by the third week of March in most years (Page et al. 1995a).
Peak initiation of nesting is from mid-April to mid-June (Warriner et al. 1986;
Powell et al. 1997). Hatching lasts from early April through mid-August, with
chicks reaching fledging age approximately 1 month after hatching (Powell et al.
1997). On the Oregon coast nesting may begin as early as mid-March, but most
nests are initiated from mid-April through mid-July (Wilson-Jacobs and Meslow
1984); peak nest initiation occurs from mid-May to early July (Stern et al. 1990).
In Oregon, hatching occurs from mid-April through mid-August, with chicks
reaching fledging age as early as mid- to late May. Peak hatching occurs from
May through July, and most fledging occurs from June through August. On the
Washington coast, most adults arrive during late April, with maximum numbers
present from mid-May to late June. Fledging occurs from late June through
August (Washington Department of Fish and Wildlife 1995).
d. Nests and Nest Sites
Nests typically occur in flat, open areas with sandy or saline substrates; vegetation
and driftwood are usually sparse or absent (Widrig 1980, Wilson 1980, Stenzel et
al. 1981). Western snowy plovers also regularly nest on the gravel bars along the
12
Eel River in northern California. In southern California, western snowy plovers
nest in areas with 6 to 18 percent vegetative cover and 1 to 14 percent inorganic
cover; vegetation height is usually less than six centimeters (2.3 inches) (Powell et
al. 1995, 1996). Nests consist of a shallow scrape or depression, sometimes lined
with beach debris (e.g., small pebbles, shell fragments, plant debris, and mud
chips); nest lining increases as incubation progresses. Driftwood, kelp, and dune
plants provide cover for chicks that crouch near objects to hide from predators.
Invertebrates are often found near debris, so driftwood and kelp are also important
for harboring western snowy plover food sources (Page et al. 1995a). Page and
Stenzel (1981) found that nests were usually within 100 meters (328 feet) of
water, but could be several hundred meters away when there was no vegetative
barrier between the nest and water. They believed the absence of such a barrier is
probably important for newly-hatched chicks to have access to the shore. Powell
et al. (1995, 1996) also reported that nests from southern California were usually
located within 100 meters (328 feet) of water, which could be either ocean,
lagoon, or river mouth. Although the majority of western snowy plovers are site-
faithful, returning to the same breeding area in subsequent breeding seasons, some
also disperse within and between years (Warriner et al. 1986, Stenzel et al. 1994).
Western snowy plovers occasionally nest in exactly the same location as the
previous year (Warriner et al. 1986).
e. Egg Laying, Clutch Size, and Incubation
Initiation (eggs and laying) occurs from mid-February/early March through the
third week of July (Wilson 1980, Warriner et al. 1986). The approximate periods
required for nesting events are: scrape construction (in conjunction with courtship
and mating), 3 days to more than a month; egg laying, usually 4 to 5 days; and
incubation, 26 to 31 days (mean 27 days) (Warriner et al. 1986). The usual clutch
size (e.g., number of eggs in one nest) is three (Figure 4) with a range from two to
six. (Warriner et al. 1986, Page et al. 1995a). Both sexes incubate the eggs, with
the female tending to incubate during the day and the male at night (Warriner
et al. 1986). Adult western snowy plovers frequently will attempt to lure people
and predators from hatching eggs with alarm calls and distraction displays.
Occasionally, adults behave similarly during the egg-laying period or
13
Figure 4.Western snowy plover clutch (photo by Bruce Casler, with
permission).
incubation of completed clutches. More typical, however, is for the incubating
adult to run away from the eggs without being seen. Incomplete clutches are those
in which all eggs have not been laid. Partly-incubated clutches are those clutches
having some degree (in days) of incubation.
Western snowy plovers will re-nest after loss of their eggs (Wilson 1980,
Warriner et al. 1986). Re-nesting occurs 2 to 14 days after failure of a clutch, and
up to five re-nesting attempts have been observed for a pair (Warriner et al. 1986).
Double brooding with polyandry (meaning the female successfully hatches more
than one brood [i.e. sibling chicks of a hatched nest] in a nesting season with
different mates) is common in coastal California (Warriner et al. 1986) and
Oregon (Wilson-Jacobs and Meslow 1984). On the California coast, the breeding
season is long enough for some females to triple brood and for some males to
double brood (Page et al. 1995a). Triple brooding in a male has, on rare occasion,
been recorded; a male triple brooded at Moss Landing salt ponds in 2001 (D.
George in litt. 2001). After losing a clutch or brood or successfully hatching a
14
nest, western snowy plovers may re-nest at the same site or move up to several
hundred kilometers to nest at other sites (Stenzel et al. 1994, Powell et al. 1997 ).
f. Clutch Hatching Success
Widely varying clutch hatching success (percent of clutches hatching at least one
egg) is reported in the literature. Clutch hatching success ranging from 0 to 90
percent has been recorded for coastal western snowy plovers (Widrig 1980,
Wilson 1980, Saul 1982, Wilson-Jacobs and Dorsey 1985, Warriner et al. 1986,
Wickham unpubl. data in Jacobs 1986). Low clutch hatching success has been
attributed to a variety of factors, including predation, human disturbance, high
tides, and inclement weather. Heavy recreational beach use coincides with the
peak hatching period for western snowy plover eggs (Powell 2001), adding
additional pressures to western snowy plover adults and chicks that are more
exposed to human disturbance. Observed clutch hatching success ranged from
12.5 to 86.8 percent and averaged 50.6 percent in eight studies of coastal breeding
western snowy plovers (Page et al. 1995a). In San Diego County, estimated
nesting success ranged from 43 to 68 percent between 1994 and 1998, averaging
54 percent (Powell et al. 2002); nesting western snowy plovers in San Diego
County likely benefitted from predator management efforts for snowy plovers and
California least terns (Sternula antillarum browni) (A. Powell, U.S. Geological
Survey, pers. comm. 1998). In Monterey Bay, hatching rate was significantly
increased from 43 percent (during 1984-1990) to 68 percent (during 1991-1999)
by intensive control of mammalian predators and use of nest exclosures (Neuman
et al. 2004).
g. Brood-rearing
The first chick hatched remains in or near the nest until other eggs (or at least the
second egg) hatch. The adult western snowy plover, while incubating the eggs,
also broods the first chick. The non-incubating adult also may brood the first-
born chick a short distance from the nest. If the third egg of a clutch is 24 to 48
hours behind the others in hatching, it may be deserted. Western snowy plover
chicks are precocial, leaving the nest within hours after hatching to search for
food. They are not able to fly (fledge) for approximately 1 month after hatching;
15
fledging requires 28 to 33 days (Warriner et al. 1986). Broods rarely remain in
the nesting area until fledging (Warriner et al. 1986, Stern et al. 1990). Western
snowy plover broods may travel along the beach as far as 6.4 kilometers (4 miles)
from their natal area (Casler et al. 1993).
Adult western snowy plovers do not feed their chicks, but lead them to suitable
feeding areas. Adults use distraction displays to lure predators and people away
from chicks. With vocalizations, adult western snowy plovers signal the chicks to
crouch as another way to protect them (Page et al. 1995a). They also may lead
chicks, especially larger ones, away from predators. Warriner et al. (1986)
reported that most chick mortality occurs within 6 days after hatching.
Females generally desert mates and broods by the sixth day after hatching and
thereafter the chicks are typically accompanied by only the male. While males
rear broods, females obtain new mates and initiate new nests (Page et al. 1995a).
Females typically help rear the last brood of the season.
h. Fledging success
The fledging success of western snowy plovers (percentage of hatched young that
reach flying age) varies greatly by location and year. Even western snowy plovers
nesting on neighboring beach segments may exhibit quite different success in the
same year. For example, the percentage of chicks fledged on different beach
segments of Monterey Bay in 1997 varied from 11 to 59 percent (average 24
percent) (Page et al. 1997). During the prior 13 years, fledging success on
Monterey Bay beaches averaged 39 percent (Page et al. 1997). From the former
Moss Landing salt ponds (now known as the Moss Landing Wildlife Area) in
Monterey Bay (CA-64), fledging success ranged from 13.2 percent to 57.1 percent
from 1988 to 1997. In San Diego County, fledging success ranged from 32.6 to
51.4 percent (Powell et al. 1997). In Oregon, annual fledging success for 1992 to
2006, for all coastal sites combined, ranged from 26 to 55 percent (Lauten et al.
2006a, 2006b). As in California, there is considerable variation among sites
within years. For example, in 2005, the fledging success ranged from 24 percent
at New River (OR-15) to 70 percent at Coos Bay South Beach (OR-13). There
also is variation at individual sites among years. At the Coos Bay North Spit
16
(OR-13), one of the larger nesting areas in coastal Oregon, annual fledging
success for 1992 to 2006 ranged from 38 to 74 percent.
i. Productivity
The productivity information most useful for this recovery plan is reproductive
success (the annual number of young fledged per adult male). For the population
viability analysis (Appendix D), males were used in the model because their
population parameters can be estimated with greater certainty than for females. In
addition, it is reasonable to consider that the availability of males is limiting
reproductive success because they are responsible for post-hatching parental care,
and females can lay clutches for more than one male (Warriner et al. 1986).
Chicks are considered fledged at 28 to 33 days after hatching. Estimates of the
number of young fledged per adult male are available for Oregon; northern
California from Mendocino to Del Norte Counties; Monterey Bay, California; and
San Diego County, California. Along the Oregon coast, the average number of
young annually fledged per male during the period between 1992 and the
initiation of predator management (2002 to 2004 depending on site) was estimated
as 0.87 (Lauten et al. 2006b); this fledging success significantly increased to 1.44
since implementation of predator management. Male fledging success in Oregon
has annually ranged between 0.70 and 1.64 (Lauten et al. 2006a). In northern
California, fledging success ranged from 0.8 to 1.7 fledglings per male between
2001-2005, with birds nesting on river gravel bars consistently achieving greater
success than those nesting on beaches (Colwell et al. 2005). At Monterey Bay,
California, from 1984 to 1990, when little effort was made to protect chicks from
predators and people, males averaged 0.86 fledglings annually. When intensive
efforts were undertaken to control mammalian predators from 1993 to 1999, the
number of young fledged per adult male initially increased above 1.1, then
declined sharply as avian predation on chicks became increasingly significant
(Neuman et al. 2004). After live trapping and removal of avian predators was
initiated, fledging success again increased in target areas (G. Page in litt. 2004b).
Over 16 years of study at Monterey Bay, the annual number of young fledged
ranged from 0.32 to 1.23 per male (Neuman et al. 2004). In San Diego County
from 1994 to 1998, an average of 0.15 to 0.44 young were fledged per male
17
(Powell et al. 2002). Fledging success in Washington cannot be accurately
estimated due to lack of banded chicks and adults and variable monitoring effort
prior to 2006 (S. Pearson in litt. 2006); however it was roughly estimated at
between 0.76 and 1.45 young fledged per male in 2006, excluding Leadbetter
Point which was insufficiently surveyed but may have had poorer fledging success
(Pearson et al. 2006).
j. Survival
Annual survival rates for adult and juvenile western snowy plovers have been
calculated from studies of color banded birds from the coast of Oregon (M. Stern
unpubl. data), the shoreline of Monterey Bay, California (Point Reyes Bird
Observatory unpublished data), and the coast of San Diego County, California (A.
Powell and J. Terp unpublished data) using the program SURGE (Lebreton et al.
1992, Cooch et al. 1996). Annual juvenile survival rates for fledged young
average 48.5 percent (1992-2002) from the Oregon coast, 45 percent from
Monterey Bay, and 45 percent from the San Diego coast. Annual survival rates
for adult females and males, respectively, averaged 75 and 75 percent from the
Oregon coast, 69 and 75 percent from Monterey Bay, and 72 and 71 percent from
the San Diego coast. Differences between males and females were statistically
significant only for the Monterey Bay area. Appendix D explains how these
survival rates were incorporated into the population viability analysis.
2. Feeding Habitat and Habits
Western snowy plovers are primarily visual foragers, using the run-stop-peck
method of feeding typical of Charadrius species. They forage on invertebrates in
the wet sand and amongst surf-cast kelp within the intertidal zone, in dry sand
areas above the high tide, on salt pans, on spoil sites, and along the edges of salt
marshes, salt ponds, and lagoons. They sometimes probe for prey in the sand and
pick insects from low-growing plants. At the Bolsa Chica wetlands in California,
western snowy plovers have been observed pecking small, flying insects from
mid-air and shaking one foot in very shallow water to agitate potential prey
(Fancher et al. 1998). Western snowy plover food consists of immature and adult
forms of aquatic and terrestrial invertebrates. Little quantitative information is
18
available on food habits. In San Diego, California, invertebrates found in western
snowy plover feces during the breeding season included rove beetles
(Staphylinidae), long-legged flies (Dolichopodidae), shore flies (Ephydridae),
water bugs (Saldidae), hymenopterans (Braconidae), and unidentified insect larvae
(Tucker and Powell 1999). During the breeding season, Jacobs (1986) observed
adult western snowy plovers feeding on sand hoppers (Orchestoidea) and small
fish on the Oregon coast. Other food items reported for coastal western snowy
plovers include Pacific mole crabs (Emerita analoga), striped shore crabs
(Pachygrapsus crassipes), polychaetes (Neridae, Lumbrineris zonata, Polydora
socialis, Scoloplos acmaceps), amphipods (Corophium ssp., Ampithoe spp.,
Allorchestes angustus), tanadacians (Leptochelia dubia), shore flies (Ephydridae),
beetles (Carabidae, Buprestidae, Tenebrionidae), clams (Transenella sp.), and
ostracods (Page et al. 1995a). In salt evaporation ponds in San Francisco Bay,
California, the following prey have been recorded: brine flies (Ephydra cinerea),
beetles (Tanarthrus occidentalis, Bembidion sp.), moths (Perizoma custodiata),
and lepidopteran caterpillars (Feeney and Maffei 1991). Opportunities for
foraging are directly dependent on salinity levels. Specifically, salt ponds of
medium salinity seem to provide the best quality foraging habitat (M. Kolar, San
Francisco Bay National Wildlife Refuge, pers. comm. 2004).
3. Migration
While some western snowy plovers remain in their coastal breeding areas year-
round, others migrate south or north for winter (Warriner et al. 1986, Page et al.
1995a, Powell et al. 1997). In Monterey Bay, California, 41 percent of nesting
males and 24 percent of the females were consistent year-round residents
(Warriner et al. 1986). At Marine Corps Base Camp Pendleton in San Diego
County, California, about 30 percent of nesting birds stayed during winter (Powell
et al. 1995, 1996, 1997). The migrants vacate California coastal nesting areas
primarily from late June to late October (Page et al. 1995a). There is evidence of
a late-summer (August/September) influx of western snowy plovers into
Washington; it is suspected that these wandering birds are migrants (S.
Richardson, Washington Department of Fish and Wildlife, pers. comm. 1998).
19
Most western snowy plovers that nest inland migrate to the coast for the winter
(Page et al. 1986, 1995b). Thus, the flocks of non-breeding birds that begin
forming along the U.S. Pacific coast in early July are a mixture of adult and
hatching-year birds from both coastal and interior nesting areas. During migration
and winter, these flocks range in size from a few individuals to up to 300 birds
(Appendix B).
4. Wintering
a. Distribution and Abundance
In western North America, the western snowy plover winters (here defined as late
October to mid-February) mainly in coastal areas from southern Washington to
Central America (Page et al. 1995a). Both coastal and interior populations use
coastal locations in winter. Small numbers of western snowy plovers occur at two
locations on the Washington coast: Midway Beach (WA-4) (S. Richardson, pers.
comm. 1998, J. Grettenberger, U.S. Fish and Wildlife Service, pers. comm. 2004),
and Leadbetter Point (WA-5), Willapa Bay (Washington Department of Fish and
Wildlife 1995), both in Pacific County. Increasing numbers of wintering western
snowy plovers are being documented along the Washington coast, with 32
counted in 2005 (L. Kelly in litt. 2005). As many as 97 western snowy plovers
were observed wintering on the Oregon coast in 2005 (L. Kelly in litt. 2005).
During the survey period between 1990 and 2005, at least 9 Oregon locations
(Appendix B) have been used by wintering plovers. Probably as many as 2,500
plovers overwinter along the mainland California coast, and hundreds more at San
Francisco Bay and in the Channel Islands (Appendix B, Page et al. 1986). The
majority of wintering western snowy plovers on the California coast are found
from Bodega Bay, Sonoma County, southward (Page et al. 1986). Appendix B
gives the range of years over which each state’s data was collected as well as the
minimum and maximum number of western snowy plovers inventoried.
Nesting western snowy plovers from the Oregon coast have wintered as far south
as Monterey Bay, California; those from Monterey Bay in central California have
wintered north to Bandon, Oregon, and south to Laguna Ojo de Liebre, Baja
California, Mexico (Page et al. 1995a); and those from San Diego in southern
20
California have wintered north to Vandenberg Air Force Base in Santa Barbara
County and south to Laguna Ojo de Liebre, Baja California, Mexico (Powell et al.
1995, 1996, 1997).
In winter, western snowy plovers are found on many of the beaches used for
nesting, as well as some beaches where they do not nest (Appendix B). They also
occur in man-made salt ponds and on estuarine sand and mud flats. In California,
the majority of wintering western snowy plovers concentrate on sand spits and
dune-backed beaches. Some also occur on urban and bluff-backed beaches, which
are rarely used for nesting (Page et al. 1986). Pocket beaches at the mouths of
creeks and rivers on otherwise rocky shorelines are used by wintering western
snowy plovers south, but not north, of San Mateo County, California.
b. Site Fidelity
Western snowy plovers that breed on the coast and inland are very site faithful in
winter (Point Reyes Bird Observatory unpublished data). For example, after 166
adults and 204 chicks were banded at Lake Abert, Oregon during summer, many
were subsequently found along the California and Baja California, Mexico coasts.
Of those for which a wintering location was identified, 67 percent of the adult
males, 73 percent of the adult females, and 60 percent of the birds banded as
chicks (immatures) were found at the same winter location in at least 2
consecutive years; and 33 percent of the males, 32 percent of the females, and 35
percent of the immatures for at least 3 years (Page et al. 1995b).
c. Behavior
Western snowy plovers are typically gregarious in winter. Although some
individuals defend territories on beaches, most usually roost in loose flocks;
frequently western snowy plovers also are observed foraging in loose flocks (Page
et al. 1995a). Roosting western snowy plovers usually sit in small depressions in
the sand, or in the lee of kelp, other debris, or small dunes (Page et al. 1995a).
Sitting behind debris or in depressions provides some shelter from the wind and
probably makes the birds more difficult for predators to detect. When roosting
western snowy plovers are disturbed, they frequently run a few meters to a new
21
spot where they sometimes displace other individuals. Alternatively, the whole
flock may fly to a new location.
C. POPULATION STATUS AND TRENDS
1. Historical Trends
Historical records indicate that nesting western snowy plovers were once more
widely distributed and abundant in coastal Washington, Oregon, and California.
a. Washington Coast
In Washington, western snowy plovers formerly nested at five coastal locations
(Washington Department of Fish and Wildlife 1995). Three of these sites have
had active nesting in recent years, as summarized in Table 1. One new site was
also recently discovered in 2006. Populations appear to have increased overall
since the early 1990s, although consistent, intensive surveys have been conducted
only since the mid-1990s. Quantitative comparisons prior to that are not possible
because of the inconsistency in surveys. Estimated numbers of breeding adults
(Table 1) substantially exceed window survey data (M. Jensen in litt. 2006),
partially because of adverse weather during window survey periods in recent
years.
i. Grays Harbor County
Copalis Spit (WA-1) held 6 to 12 western snowy plover pairs in the late 1950s or
early 1960s (Washington Department of Fish and Wildlife 1995). No other
information on breeding at Copalis Spit is available. Suitable habitat was judged
capable of supporting four pairs in 1984 (Washington Department of Fish and
Wildlife 1995). Periodic surveys since 1983 have revealed just a single western
snowy plover (Washington Department of Fish and Wildlife unpubl. data). Two
post season juvenile western snowy plovers were observed at Copalis Spit in 2001
(Sundstrom 2002a). There is no longer vehicle access to the site since the road
washed out several years ago, which has reduced the potential for disturbance
from recreational activities. Erosion caused by the northward shift of Connor
22
Creek has reduced the amount of habitat, but some suitable habitat remains at the
end of the spit and the area has potential as a nesting site with habitat restoration
and public education (U.S. Fish and Wildlife Service 2005, M. Jensen in litt.
2006).
Damon Point and Oyhut Wildlife Area (WA-2) lack western snowy plover records
prior to 1971, but this is likely due to limited visitation rather than western snowy
plover absence. Between 1971 and 1983, birders reported up to six western
snowy plovers during infrequent visits-to Damon Point (Washington Department
of Fish and Wildlife 1995). Western snowy plover research in 1985 and 1986
revealed up to 20 western snowy plovers and 8 nests at Damon Point (Anthony
1987). Although most of the locality is suitable habitat, increasing levels of
public use have reduced the secure nesting areas to a small portion of the site that
is difficult to access, and the breeding population has declined over the last two
decades (M. Jensen in litt. 2006). From 1993 to 2006 the number of adults at
Damon Point has ranged from 2 to 10 (Table 1). Only one nest was found in 2006
(Pearson et al. 2006).
Westport Spit (WA-3) held low numbers of western snowy plovers from before
1915 until at least 1968, and scientific collecting was concentrated there through
1934 (Washington Department of Fish and Wildlife 1995). A single nest, poorly
documented, was reported in 1983 (Washington Department of Fish and Wildlife
unpublished data). No other quantitative information on abundance or nesting is
available for this site. Erosion of the site has rendered the beach too narrow to
support successful nesting, and there is little opportunity for habitat restoration
through beachgrass removal due to private ownership of upland dune habitat (M.
Jensen in litt. 2006). Recreational use is also substantial. This location is no
longer being surveyed due to lack of suitable habitat.
ii. Pacific County
Midway Beach (WA-4) and Cape Shoalwater once contained several hundred
acres of suitable western snowy plover habitat, but the area lacks historical
records of these birds except for specimens collected in 1914 and 1960 and
labeled “Tokeland” (Washington Department of Fish and Wildlife 1995). In
23
recent years, Midway Beach has been accreting sand and creating high quality
habitat. Recent nesting was first documented in 1998 (Richardson et al. 2000).
Numbers of breeding adults have increased since 1998, and during 2003-2006 the
numbers of adults during the breeding season have ranged from 23-33, with a
peak number of 30 nests (M. Jensen in litt. 2006; Pearson et al. 2006).
Approximately one third of the habitat is on State Park land with controlled
access; on the privately owned land recreational disturbance is fairly high and
contributes to high rates of nest failure.
In 2006, western snowy plovers were discovered nesting on Graveyard Spit in
northern Willapa Bay, which is primarily on the Shoalwater Indian Reservation
and State lands (M. Jensen in litt. 2006; Pearson et al. 2006). Three pairs of
plovers used the spit in 2006 and produced three fledglings.
Leadbetter Point (WA-5) was rarely visited by western snowy plover observers
prior to 1964. In the 1960s and 1970s, birders reported up to 35 western snowy
plovers, with nesting confirmed in 1967 by the sighting of two chicks
(Washington Department of Fish and Wildlife 1995). Western snowy plover
numbers were estimated at up to 24 individuals and between 7 and 11 nests during
surveys done between 1978 to 1997 (Widrig 1980, 1981; Willapa National
Wildlife Refuge unpublished data; Williamson 1995, 1996, 1997). Numbers
increased slightly from 1998-2006, with numbers ranging from 24 to 45 adults
present (Table 1). The distribution of nesting by western snowy plovers has
changed, however, with recent habitat loss from erosion on the tip of Leadbetter
Point and shifting of nesting southwards. Since 2002 the refuge has cleared 25
hectares (63 acres) of non-native beachgrass and the habitat restoration site has
been consistently used by nesting plovers. Western snowy plovers are also
nesting in Leadbetter State Park and State-owned lands south of the Park. Use of
predator exclosures at the refuge since 2004 has greatly improved hatching
success in the habitat restoration area and outer beach. Gunpowder Sands Island
became intertidal in 2001 and no longer is suitable for nesting western snowy
plovers (K. Brennan in litt. 2006).
24
Table 1. Status of western snowy plovers at four nesting sites in Washington
(Sundstrom-Bagley et. al. 2000; Jaques 2001; Sundstrom 2001, 2002a, 2002b,
2003, 2004, 2005; Brennan and Jaques 2002; Brennan 2003; Brennan and
Fernandez 2004a, 2004b, 2006; Pearson et al. 2006).
Year Estimated Number of Adults Present
Leadbetter
Point
Midway
Beach
Damon
Point
Graveyar
d Spit
Total
1993 16 -7 -23
1994 13 -6 -19
1995 25 0 9 -34
1996 19 0 4 -23
1997 21 0 3 -24
1998 45 6 5 -56
1999 26 12 5 -43
2000 25 21 4 -50
2001 27 14 4 -45
2002 32 23 4 -59
2003 30 33 5 -68
2004 24 19 10 -53
2005 38 25 5 -68
2006 39 23 2 6 70
b. Oregon Coast
In Oregon, western snowy plovers historically nested at over 20 sites on the coast.
At present only seven core nesting sites are consistently used, with a few
additional areas occupied during some years (Lauten et al. 2006a, 2006b).
Annual window surveys of western snowy plovers in Oregon (Table 2), including
both adults and young of the year, began in 1978, with counts ranging from a high
of 139 at 13 sites (1981) to a low of 30 observed at 9 sites (1992). Populations
reached a low from 1991 to 1993 with a mean of 33 individuals recorded
annually. From 1994 to 2006 western snowy plover numbers have generally
25
Table 2. Number of adult western snowy plovers observed on window surveys of
the Oregon coast during the breeding season (1978-2006). Window surveys
record the number of birds seen during 1-day censuses in May to June (Lauten et
al. 2006a, 2006b).
Year Number Year Number
1978 93 1993 45
1979 100 1994 51
1980 80 1995 64
1981 139 1996 85
1982 78 1997 73
1983 52 1998 57
1984 46 1999 49
1985 48 2000 no surveys conducted
1986 73 2001 71
1987 61 2002 71
1988 53 2003 63
1989 58 2004 82
1990 59 2005 100
1991 35 2006 91
1992 30
increased, with an average of 71 plovers observed. The increase in the numbers
of plovers observed in recent years is believed to be related to intensive
management that began at the time of Federal listing.
Since 1993, the population on the Oregon coast has been intensively monitored,
with many of the adults and chicks being uniquely color-banded. The presence of
marked birds has allowed for the development of two other means of estimating
the population (Table 3, Lauten et al. 2006b). The number of western snowy
plovers, as indicated by the three indices in Table 3, has increased between 1993
and 1997, declined in 1998/1999, then increased again through 2006. The trends
26
Table 3. Comparison of population estimates of adult western snowy plovers on
the Oregon coast during the breeding season (1993 to 2005) based on three
different measures of abundance (Lauten et al. 2006a, 2006b).
Year Estimates
A B C
1993 45 55 to 61 72
1994 51 67 83
1995 64 94 120
1996 85 110 to 113 134 to 137
1997 73 106 to 110 141
1998 57 75 97
1999 45 77 95 to 96
2000 no survey 89 109
2001 71 79 to 80 111 to 113
2002 71 80 99 to 102
2003 63 93 102 to 107
2004 82 120 136 to 142
2005 100 104 153 to 158
2006 91 135 177 to 179
A = Window census.
B = Estimated number of breeding adults. This number is lower than those in column C because
it is an estimate of the number of individual birds thought to be breeding birds.
C = Total number of individual adults present during breeding season (includes depredated
adults).
for all three indices remained relatively consistent throughout that measurement
period.
Management measures (Lauten et al. 2006a, 2006b) have included the use of
exclosures to reduce predation, predator control measures, restoration of breeding
habitat by removing European beachgrass (Ammophila arenaria), increased
presence of law enforcement personnel, additional and improved signs, additional
symbolic fencing (consisting of one or two strands of light-weight string or cable
27
tied between posts to delineate areas where pedestrians and vehicles should not
enter), and increased efforts on public information and education.
c. California Coast
i. Coastwide Perspective
In California, there also has been a significant decline in breeding locations,
especially in southern California. By the late 1970s, nesting western snowy
plovers were absent from 33 of 53 locations with breeding records prior to 1970
(Page and Stenzel 1981). The first quantitative data on the abundance of western
snowy plovers along the California coast came from window surveys conducted
during the 1977 to 1980 breeding seasons by Point Reyes Bird Observatory (Page
and Stenzel 1981). An estimated 1,593 adult western snowy plovers were seen on
these pioneer surveys (Table 4). The surveys suggested that the western snowy
plover had disappeared from significant parts of its coastal California breeding
range by 1980. It no longer bred along the beach at Mission Bay or at Buena
Vista Lagoon in San Diego County. In Orange County, the only remaining
breeding location was the Bolsa Chica wetlands; historically, the western snowy
plover was known to breed along the beach from Upper Newport Bay to Anaheim
Bay. It was absent from Los Angeles County where it formerly nested along the
shores of Santa Monica Bay. In Ventura County, it had ceased breeding on
Ventura Beach (San Buenaventura Beach), and in Santa Barbara County on
Carpinteria, Santa Barbara (East Beach), and Goleta Beaches. Nesting no longer
occurred along the northernmost portion of Monterey Bay in Santa Cruz County
or on Doran Beach at Bodega Harbor in Sonoma County.
Subsequent coast-wide surveys by Point Reyes Bird Observatory in 1989 and
1991 indicated a further decline in numbers of breeding adult western snowy
plovers during the decade after the 1977 to 1980 survey. Along the mainland
coast, including the shores of the Channel Islands, western snowy plover
populations had declined by about 5 percent, and in San Francisco Bay by about
44 percent (Table 4).
28
Table 4. Number of adult western snowy plovers observed during breeding season
window surveys of the California coast.
Location 1977/80 1989 1991 1995 2000 2002 2003 2004 2005 2006
Del Norte County 11 8 3 0 0 0 0 0 0 0
Humboldt County 54 32 30 19 39 49 38 37 32 49
Mendocino County 15 2 0 - 1 0 1 3 9 3
Sonoma County 0 10 9 3 0 0 0 0 5 0
Marin County 40 24 25 8 21 25 17 26 22 16
San Mateo County
(incl. SF beaches)
4 8 1 - 4 3 4 17 3 7
Northern Santa Cruz
County
25 19 22 26 19 9 2 2 3 4
Monterey Bay 146 146 119 125 120 270 279 331 297 317
Point Sur 3 4 - - 8 5 6 5 7 13
Northern San Luis
Obispo County
9 - 1 3 0 3 12 15
Morro Bay Area 80 126 87 85 113 150 172 268 259 167
Pismo Beach/Santa
Maria River
45 123 246 124 81 170 137 167 200 211
Vandenberg AFB 119 115 242 213 106 179 256 420 259 245
Jalama Beach 0 1 1 0 0 0 0 0 0 0
Hollister Ranch 8 - - - - - - -
Coal Oil Point
(Devereaux) vicinity
- - - 8 26 30 30 39
Oxnard Lowland 136 175 105 69 107 164 80 119 110 125
Channel Islands (288)1 217 200 196 89 79 90 82 99 115
Orange County 19 21 5 9 27 38 31 31 66 62
Northern San Diego
County
160 72 48 49 63 80 145 159 107 141
Mission Beach - - - - - 1 0 -
San Diego Bay 60 36 31 33 73 61 76 76 30 81
Tijuana Estuary 37 21 4 10 8 16 12 14 6 14
Subtotal 1,242 1,160 1,195 969 880 1,309 1,372 1,791 1,556 1,624
S San Francisco Bay 351 216 176 -96 78 72 113 124 99
Total 1,593 1,376 1,371 -976 1,387 1,444 1,904 1,680 1,723
1 260 adults during the survey; 28 additional adults extrapolated for unsurveyed portions of Santa Rosa Island.
29
The more recent coast-wide surveys, during the summers of 1995, 2000, and 2002-
2006, were accomplished through the collaboration of researchers studying western
snowy plovers along the California coast. Between the 1977 to 1980 surveys and
the 1995 survey, western snowy plovers apparently ceased nesting at Los
Penasquitos, and Agua Hedionda Lagoons in northern San Diego County (A.
Powell, pers. comm. 1998). Nesting has been absent or sporadic at San Elijo
Lagoon; Año Nuevo State Beach and Pescadero State Beach in San Mateo County;
Bolinas Lagoon in Marin County; the south and north spits of Humboldt Bay and
Big Lagoon in Humboldt County; and the Lake Talawa region of Del Norte County
(Point Reyes Bird Observatory, unpublished data).
By 2000 populations had declined further to 71 percent of the 1977-1980 levels
along the California coast and 27 percent of the 1977-1980 levels in San Francisco
Bay. However, since then populations have grown substantially, roughly doubling
along the coast while fluctuating irregularly in San Francisco Bay (Table 4). Recent
population increases along the coast have been associated with implementation of
management actions for the benefit of western snowy plovers and California least
terns, including predator management and protection and restoration of habitat.
ii. Regional Perspective
Del Norte, Humboldt, and Mendocino Counties - Numbers of western snowy
plover breeding adults declined and then somewhat rebounded in this northern
California region since the initial Point Reyes Bird Observatory survey in 1977. In
this region where there were 80 adults counted in 1977, a low of 19 were found in
1995 and 52 in 2006. In 1996, breeding was documented on the gravel bars of the
Eel River, Humboldt County, and this area has continued to be a successful nesting
site for western snowy plover breeding (Colwell et al. 2002, 2005). Even with the
nest success at the gravel bars there is still a reduction in western snowy plovers
from 1977; Del Norte County has no breeding birds, and Mendocino County has
very few.
San Francisco Bay - As indicated in Table 4, western snowy plover numbers in
San Francisco Bay declined markedly between the initial survey in 1978 and follow-
up surveys. Western snowy plover numbers steadily declined over 26 years,
30
reaching a low of 72 in 2003, followed by a moderate but irregular increase (124 in
2005 surveys; 99 in 2006).
Recent surveys in South San Francisco Bay (Strong and Dakin 2004, Strong et al.
2004, Tucci et al. 2006) indicate that the largest breeding populations are
concentrated at Eden Landing Ecological Reserve/Baumberg North (CA-33),
managed by California Department of Fish and Game. Other population centers
occur at Oliver Salt Ponds (CA-31), managed by Hayward Area Recreation District
and East Bay Regional Parks District; and at Dumbarton (CA-36), Warm Springs
(CA-39), Alviso (CA-41), and Ravenswood (CA-44), managed by Don Edwards
San Francisco Bay National Wildlife Refuge. Foraging and nesting activities are
concentrated in specific salt ponds within these areas. Small numbers of western
snowy plovers have been observed at Ponds 7 and 7A in Napa County (CA-25 and
vicinity), the only currently known nesting site in the North Bay.
Sonoma, Marin, San Francisco, San Mateo, Santa Cruz, and Monterey
Counties - Along the segment of coastline from Sonoma County to Monterey Bay,
numbers of western snowy plover adults during window surveys declined from 215
in 1977 to 162 in 1995, and subsequently increased to a maximum of 376 in 2004.
The numbers of adults breeding on the beaches and salt ponds of Monterey Bay, and
the beaches of northern Santa Cruz County, has increased dramatically since
management actions have been undertaken to increase nesting success (Neuman et
al. 2004; G. Page in litt. 2004b)
San Luis Obispo, Santa Barbara, and Ventura Counties, including Channel
Islands - There is no clear evidence of an overall decline in the number of breeding
western snowy plovers for this region from 1978/1980 to the present. Numbers of
adults fluctuated between a high of 1089 and a low of 497 between 1978 and 2006.
While numbers for the region may not have changed overall, there have been
definite changes at specific locations (Table 5). Most notable are the decline and
loss of the population on San Miguel Island from 1978 /1980 to 2000, the decline at
Santa Rosa Island from 1991 to 2006, and the sudden increase in numbers at
Vandenberg Air Force Base between 2000 and 2004 and at Coal Oil Point Reserve
between 2002 and 2006 (Table 4).
31
Table 5. Breeding season window surveys of western snowy plover adults at
selected sites along the coast of San Luis Obispo, Santa Barbara, and Ventura
Counties.
Location Year
1978
-80
1989 1991 1995 1996 1997 1998 2000 2002 2003 2004 2005 2006
Atascadero
Beach
0 17 2 38 28 23 26 5 19 23 21 21 24
Morro Bay
Spit
80 94 69 34 40 39 55 87 93 114 203 205 120
Vandenberg
AFB 1
119 115 242 213 230 238 130 106 179 256 420 259 245
Ormond
Beach
25 24 34 20 19 34 19 10 35 19 28 21 22
Naval Base
Ventura
County
(Pt. Mugu)
82 81 59 40 49 26 47 81 85 51 75 83 79
Santa Rosa
Island 2
84 91 103 71 78 79 76 17 10 ------37 19
San Miguel
Island 2
133 36 19 9 3 5 1 0 0 0 0 ---0
San Nicolas
Island 3
71 90 78 116 104 91 90 72 69 90 79 62 96
Total 594 548 606 541 551 535 444 378 490 553 826 688 605
Unless footnoted, the source of all data is Point Reyes Bird Observatory.
1 The source of this data is the U.S. Air Force (Phil Persons)
2 The source of this data is the National Park Service
3 The source of this data is the U.S. Navy
32
Los Angeles, Orange, and San Diego Counties - Western snowy plover numbers
detected during window surveys declined from the 276 adults tallied during the
1978 Point Reyes Bird Observatory survey to 88 during the 1991 survey.
Subsequently the population has increased to 298 in 2006.
2. Current Breeding Distribution
The current Pacific coast breeding range of the western snowy plover extends from
Damon Point, Washington, to Bahia Magdelena, Baja California, Mexico. The
population is sparse in Washington, Oregon, and northern California. In 2006,
estimated populations were 70 adults along the Washington coast (Pearson et al.
2006), 177-179 adults along coastal Oregon (Lauten et al. 2006b), and 2,231 adults
in coastal California and San Francisco Bay (window survey including correction
factor: G. Page in litt. 2006, U.S. Fish and Wildlife Service 2006a). Approximately
7 percent of the California population was observed in San Francisco Bay, and 4
percent in northern California north of the Golden Gate bridge. Along the coast of
Baja California, Mexico, most nesting western snowy plovers are associated with
the largest wetlands, especially Bahia San Quintin, Laguna Ojo de Liebre, and Bahia
Magdelena (Palacios et al. 1994). No recent quantitative data exist on the western
snowy plover population in Baja California, but it is probably roughly similar in
size to the U.S. Pacific coast population.
3. Habitat Carrying Capacity
There is no quantitative information on carrying capacity of beaches for western
snowy plovers. Determining carrying capacity of beaches is confounded by human
use that affects the numbers of snowy plovers using the beaches. Beaches vary
substantially in their structure, width, vegetation, and level of human use,
complicating such a measurement.
The maximum reported breeding density of western snowy plovers is associated
with the Moss Landing Wildlife Area, where since 1995 Point Reyes Bird
Observatory staff have conducted intensive management specifically for western
snowy plovers. These measures include predator control, removal of excessive
vegetation, and operation of water control structures to maintain desired water
33
levels. With extensive management of approximately 55 hectares (138 acres) of
mostly dried ponds in the Moss Landing Wildlife Area, 25 active nests, 3 pairs
within 5 days of initiating nests, and 10 broods have been documented
simultaneously; thus a peak of 76 nesting adults was accommodated simultaneously
by 55 hectares (138 acres) of playa, or 1.4 hectares (3.6 acres) per functional pair
(some of the broods were only being cared for by males) (D. George, Point Reyes
Bird Observatory, pers. comm.). However, the numbers of nesting western snowy
plovers at the Moss Landing Wildlife Area cannot be applied to beach areas because
of the physical differences between salt pond and beach habitats and because beach
habitats are typically subject to much more human disturbance. Neither can these
numbers necessarily be applied to other salt ponds (e.g., San Francisco Bay)
because habitat and management opportunities differ.
D. REASONS FOR DECLINE AND CONTINUING THREATS
Overall, western snowy plover numbers have declined on the U.S. Pacific coast
over the past century (see Population Status and Trends section). The subspecies
faces multiple threats throughout its Pacific coast range. The reasons for decline
and degree of threats vary by geographic location; however, the primary threat is
habitat destruction and degradation. Habitat loss and degradation can be primarily
attributed to human disturbance, urban development, introduced beachgrass
(Ammophila spp.), and expanding predator populations. Natural factors, such as
inclement weather, have also affected the quality and quantity of western snowy
plover habitat (U.S. Fish and Wildlife Service 1993a). The following discussion is
organized according to the five listing criteria under section 4(a)(1) of the
Endangered Species Act.
1. The Present or Threatened Destruction, Modification, or Curtailment of
Habitat or Range
a. Shoreline Stabilization and Development
The wide, flat, sparsely-vegetated beach strands preferred by western snowy plovers
are an unstable habitat, subject to the dynamic processes of accretion and erosion of
sand, and dependent on natural forces for replenishment and renewal. These
34
habitats are highly susceptible to degradation by construction of seawalls,
breakwaters, jetties, piers, homes, hotels, parking lots, access roads, trails, bike
paths, day-use parks, marinas, ferry terminals, recreational facilities, and support
services that may cause direct and indirect losses of breeding and wintering habitat
for the western snowy plover.
Beach stabilization efforts may interfere with coastal dune formation and cause
beach erosion and loss of western snowy plover nesting and wintering habitat.
Shoreline stabilization features such as jetties and groins may cause significant
habitat degradation by robbing sand from the downdrift shoreline (U.S. Fish and
Wildlife Service 1996a). However, jetties also can redirect sand deposition,
causing an increase in available habitat. Construction of homes, resorts, and
parking lots on coastal sand dunes constitutes irrevocable loss of habitat for western
snowy plovers. Urban development has permanently eliminated valuable nesting
habitat on beaches in southern Washington (Brittell et al. 1976), Oregon (Oregon
Department of Fish and Wildlife 1994), and California (Page and Stenzel 1981). In
addition to causing direct loss of habitat, there are additional potential adverse
impacts to western snowy plovers from urban development (Figure 5). Increased
development increases human use of the beach, thereby increasing disturbance to
nesting plovers. When urban areas interface with natural habitat areas, the value of
breeding and wintering habitat to native species may be diminished by increased
levels of illumination at night (e.g., building and parking lot lights); increased sound
and vibration levels; and pollution drift (e.g., pesticides) (Kelly and Rotenberry
1996/1997). Beach raking removes habitat features for both plovers and their prey,
and precludes nests from being established. Also, construction of residential
development in or near western snowy plover habitat attracts predators, including
domestic cats.
b. Resource Extraction
i. Sand Removal and Beach Nourishment
Sand is mined in coastal areas such as Monterey Bay. Mining sand from the coastal
mid-dunes and surf zone can cause erosion and loss of western snowy plover
breeding and wintering habitat. Sand removal by heavy machinery can disturb
35
Figure 5.New housing development next to beach at Monterey Bay, California
(photo by Peter Baye, with permission).
incubating western snowy plovers, destroy their nests or chicks, and result in the
loss of invertebrates and natural wave-cast kelp and other debris that western snowy
plovers use for foraging. Mining of surface sand from the 1930s through the 1970s
at Spanish Bay in Monterey County degraded a network of dunes by lowering the
surface elevations, removing sand to granite bedrock in many locations, and
creating impervious surfaces that supported little to no native vegetation (Guinon
1988).
Beach nourishment with sand can be beneficial for the western snowy plover if it
results in an increase in habitat. However, unless beach nourishment projects are
properly designed, they can result in changes to beach slope from redeposition of
sediments by storm waves, and result in the loss of western snowy plover breeding
and wintering habitat. For example, if an inappropriate size class of sand (e.g.,
coarser-grained sand) and range of minerals are introduced that are different from
the current composition of native sand on a beach, it can alter dune slope (making it
steeper or narrower), affect mobility and color of sand, decrease the abundance of
beach invertebrates, and facilitate establishment of invasive exotic plants that may
36
have a competitive advantage over native plants. Feeney and Maffei (1991)
investigated the color hues of the ground surface within San Francisco Bay salt
ponds used as western snowy plover nesting habitat. Predominant soils were silty
clay with varying amounts of humus, salt crystals, and shell fragments. They found
a strong similarity between the color of the substrate in habitat preferred by western
snowy plovers and the color of western snowy plover mantles (upper parts).
ii. Dredging and Disposal of Dredged Materials
Dredging is detrimental to western snowy plovers when it eliminates habitat or
alters natural patterns of beach erosion and deposition that maintain habitat.
Disturbances associated with dredging, such as placement of pipes, disposal of
dredged materials, or noise, also may negatively affect breeding and wintering
western snowy plovers. Dredging also is detrimental when it promotes water-
oriented developments that increase recreational access to western snowy plover
habitat (e.g., marinas, boat ramps, or other facilities to support water-based
recreation). In some cases, however, dredged materials may provide important
nesting habitat for western snowy plovers such as those at Coos Bay, Oregon
(Wilson-Jacobs and Dorsey 1985). Western snowy plovers also have been observed
using dredged material during the winter; however, these areas are not used nearly
as often as the adjacent ocean beach (E.Y. Zielinski and R.W. Williams in litt.
1999).
iii. Driftwood Removal
Driftwood can be an important component of western snowy plover breeding and
wintering habitat. Driftwood contributes to dune-building and adds organic matter
to the sand as it decays (Washington Department of Fish and Wildlife 1995).
Additionally, driftwood provides western snowy plovers with year-round protection
from wind and blowing sand. Often, western snowy plovers build nests beside
driftwood, so its removal may reduce the number of suitable nesting sites.
Driftwood removed for firewood or decorative items can result in destruction of
nests and newly-hatched chicks that frequently crouch by driftwood to hide from
predators and people. Chainsaw noise may disrupt nesting, and vehicles used to
37
haul wood may crush nests and chicks. Removal of driftwood has been documented
as a source of nest destruction at Vandenberg Air Force Base where two nests were
crushed beneath driftwood dragged to beach fire sites (Persons 1994). Also,
driftwood beach structures built by visitors are used by avian predators of western
snowy plover chicks such as loggerhead shrikes (Lanius ludovicianus) and
American kestrels (Falco sparverius), and predators of adults such as merlins
(Falco columbarius) and peregrine falcons (Falco peregrinus).
Although driftwood is an important component of western snowy plover habitat, too
much driftwood on a beach, which may occur after frequent and prolonged storm
events, can be detrimental if there is not sufficient open habitat to induce the birds
to nest.
iv. Beach Fires and Camping
Beach fires and camping may be harmful to nesting western snowy plovers when
valuable driftwood is destroyed, as described above. Camping near breeding
locations can cause greater impacts due to the prolonged disturbance and increased
chance for possible direct mortality from associated dogs and children
(S. Richardson in litt. 2001). Nighttime collecting of wood increases the risk of
stepping on nests and chicks, which are difficult to see even during daylight hours.
Fires near a western snowy plover nest could cause nest abandonment due to
disturbance from human activities, light, and smoke. Fires have the potential to
attract large groups of people and result in an increase of garbage, which attracts
scavengers such as gulls (Larus spp.) and predators such as coyotes (Canis latrans),
American crows (Corvus brachyrhynchos), and common ravens (Corvus corax).
Also, after fires are abandoned, predators such as coyotes may be attracted into the
area by odors lingering from the fire, particularly if it was used for cooking.
Occasionally fires escape into nearby driftwood; fire suppression activities may
disturb and threaten western snowy plover nests and chicks.
v. Watercourse Diversion, Impoundment, or Stabilization
Water diversion and impoundment of creeks and rivers may negatively affect
western snowy plover habitat by reducing sand delivery to beaches and degrading
38
water quality. Water diversions are a major threat to western snowy plovers when
they impair hydrologic processes (such as migration of creek and river mouths) that
maintain open habitat at river and creek mouths by retarding the spread of
introduced beachgrass (Ammophila spp.) and other vegetation. Water diversion,
impoundment, or stabilization activities could include construction of dams and
irrigation, flood control, and municipal water development projects (Powell et al.
2002).
vi. Operation of Salt Ponds
Salt ponds of San Francisco Bay and San Diego Bay, which are filled and drained as
part of the salt production process, provide breeding and wintering habitat for
western snowy plovers. Dry salt ponds and unvegetated salt pond levees are used as
western snowy plover nesting habitat. Ponds with shallow water provide important
foraging habitat for western snowy plovers, with ponds of low and medium salinity
providing the highest invertebrate densities. Ponds of high salinity have reduced
invertebrate densities and therefore provide lower quality foraging habitat. Nesting
western snowy plovers can be attracted to an area when ponds are drained during
the breeding season, but flooding can then destroy the nests when the ponds are
refilled. Also, human disturbance resulting from maintenance activities associated
with the operation of commercial salt ponds can result in the loss of western snowy
plovers and disturbance of their habitat. If conducted during the western snowy
plover breeding season, reconstruction of salt pond levees could destroy western
snowy plover nests. Maintenance activities that are conducted by vehicles, on foot,
or through the use of dredging equipment could result in direct mortality or
harassment of western snowy plovers (See Dredging, Pedestrian, and Motorized
Vehicle sections).
c. Encroachment of Introduced Beachgrass and Other Nonnative Vegetation
One of the most significant causes of habitat loss for coastal breeding western
snowy plovers has been the encroachment of introduced European beachgrass
(Ammophila arenaria) and American beachgrass (Ammophila breviligulata).
Foredunes dominated by introduced beachgrass have replaced the original low,
rounded, open mounds formed by the native American dunegrass (Leymus mollis)
39
and other beach plants. Native dune plants do not bind sand like Ammophila spp.,
and thus allow for sand movement and regenerating open expanses of sand.
However, Ammophila spp. forms a dense cover that excludes many native taxa. On
beaches dominated by this invasive grass, species richness of vegetation is halved,
in comparison with foredunes dominated by native dune grass (Barbour and Major
1990). Similarly, American beachgrass greatly depresses the diversity of native
dune plant species (Seabloom and Wiedemann 1994).
European beachgrass was introduced to the west coast around 1898 to stabilize
dunes (Wiedemann 1987). Since then, it has spread up and down the coast and now
is found from British Columbia to Ventura County in southern California. This
invasive species is a rhizomatous grass that sprouts from root segments, with a
natural ability to spread rapidly. Its most vigorous growth occurs in areas of wind-
blown sand, primarily just above the high-tide line, and it thrives on burial under
shifting sand. In 1988, European beachgrass was considered a major dune plant at
about 50 percent of western snowy plover breeding areas in California and all of
those in Oregon and Washington (J. Myers in litt. 1988).
American beachgrass is native to the East coast and Great Lakes region of North
America. The densest populations of American beachgrass on the Pacific coast are
currently located between the mouth of the Columbia River and Westport,
Washington. Like European beachgrass, American beachgrass is dominant on the
mobile sands of the foredune and rapidly spreads through rhizome fragments.
American beachgrass occurs along the entire coast of Washington, ranging from Shi
Shi Beach, Washington, in the north, to Sand Lake, Oregon, in the south, although
its frequency decreases markedly at the northern and southern limits of this range.
Currently, American beachgrass is the dominant introduced beachgrass species in
much of the western snowy plover range in the State of Washington (Seabloom and
Wiedemann 1994).
Stabilizing sand dunes with introduced beachgrass has reduced the amount of
unvegetated area above the tideline, decreased the width of the beach, and increased
its slope (Wiedemann 1987). These changes have reduced the amount of potential
western snowy plover nesting habitat on many beaches and may hamper brood
movements. In Oregon, the beachgrass community may provide habitat for western
40
snowy plover predators (e.g., skunks [Mephitis spp.], weasels [Mustela spp.],
coyotes [Canis latrans], foxes [Urocyon cinereoargenteus and Vulpes vulpes.],
raccoons [Procyon lotor], and feral cats [Felis domesticus]) that historically would
have been largely precluded by the lack of cover in the dune community (Stern et al.
1991; K. Palermo, U.S. Forest Service, pers. comm. 1998).
In areas with European beachgrass, it has caused the development of a vegetated
foredune that effectively blocks movement of sand inland and creates conditions
favorable to the establishment of dense vegetation in the deflation plain, which
occurs behind the foredunes (Wiedemann et al. 1969). In natural sand dunes,
deflation plains consist of open sand ridges and flat plains at or near the water table.
Thus, in areas with European beachgrass, the open features that characterize western
snowy plover breeding habitat are destroyed. The establishment of European
beachgrass has also caused sand spits at the mouths of small creeks and rivers to
become more stable than those without vegetation because of the creation of an
elevated beach profile. This elevated profile, in effect, reduces the scouring of spits
during periods of high run-off and storms. A secondary effect of dune stabilization
has been human development of beaches and surrounding areas (Oregon
Department of Fish and Wildlife 1994). This development, in turn, has reduced
available beach habitat and focused human activities on a smaller area that must be
shared with western snowy plovers and other shorebirds.
On the Oregon coast, the establishment of European beachgrass has produced
dramatic changes in the landscape (Oregon Department of Fish and Wildlife 1994).
The spread of this nonnative species was greatly enhanced by aggressive
stabilization programs in Oregon in the 1930s and 1940s (Wiedemann 1987).
European beachgrass spread profusely along the Washington coast, and was well
established by the 1950s (Washington Department of Fish and Wildlife 1995). In
1988, the spread of beachgrass was termed an “increasing threat” to traditional
western snowy plover nesting areas at Leadbetter Point, Washington, having
become established where absent only 4 years earlier (Willapa National Wildlife
Refuge 1988).
In California, there are many beaches where European beachgrass has established a
foothold. These beaches include the dunes at Lake Earl, Humboldt Bay (from
41
Trinidad to Centerville Beach), MacKerricher State Beach/Ten Mile Dunes
Preserve, Manchester State Beach, Bodega Bay, Point Reyes National Seashore,
Golden Gate National Recreation Area, Monterey Bay, Morro Bay Beach,
Guadalupe-Nipomo Dunes, and Vandenberg Air Force Base (A. Pickart in litt.
1996). Chestnut (1997) studied the spread of European beachgrass at the
Guadalupe-Nipomo Dunes in San Luis Obispo County. He documented an increase
in beachgrass from approximately 8 to 109 hectares (20 to 270 acres) between 1969
and 1997, and found that its rapid spread through native vegetation posed a serious
threat to nesting western snowy plovers and rare plants.
In addition to the loss of nesting habitat, introduced beachgrass also may adversely
affect western snowy plover food sources. Slobodchikoff and Doyen (1977) found
that beachgrass markedly depressed the diversity and abundance of sand-burrowing
arthropods at coastal dune sites in central California. Because western snowy
plovers often feed on insects well above the high-tide line, the presence of this
invasive grass may also result in loss of food supplies for plovers (Stenzel et al.
1981).
In some areas of California, such as the Santa Margarita River in San Diego County,
and the Santa Clara and Ventura Rivers in Ventura County, giant reed (Arundo
donax) has become a problem along riparian zones. During winter storms, giant
reed is washed downstream and deposited at the river mouths where western snowy
plovers nest (Powell et al. 1997). Large piles of dead and sprouting giant reed
eliminate nesting sites and increase the presence of predators, which use it as
perches and prey on rodents in the piles of vegetation.
Other nonnative vegetation that has invaded coastal dunes, thereby reducing western
snowy plover breeding habitat, includes Scotch broom (Cytisus scoparius), gorse
(Ulex europaeus), South African iceplant (Carpobrotus edulis), pampas grass
(Cortaderia jubata and Cortaderia selloana) and iceplant (Mesembryanthemum
sp.); shore pine (Pinus contorta) is a native plant species that has invaded coastal
dunes and resulted in similar impacts to western snowy plovers (Schwendiman
1975, California Native Plant Society 1996, Powell 1996). Many nonnative weed
species also occur on and along San Francisco Bay salt pond levees, resulting in
unsuitable nesting habitat for western snowy plovers (J. Albertson in litt. 1999).
42
d. Habitat Conversion for Other Special Status Species
It is not known whether western snowy plovers historically nested in San Francisco
Bay prior to the construction of salt evaporator ponds beginning in 1860 (Ryan and
Parkin 1998). However, western snowy plovers have wintered on the San Francisco
Bay since at least the late 1800's, as indicated by a specimen dated November 8,
1889, in the California Museum of Vertebrate Zoology (Grinnell et al. 1918). It is
possible that natural salt ponds in the vicinity of San Lorenzo once supported
nesting birds, but insufficient data exist to assess this possibility (U.S. Fish and
Wildlife Service 1992). Today, however, the San Francisco Bay recovery unit
supports an important western snowy plover source population, representing
approximately 5 to 10 percent of the total breeding population. Feeney and Maffei
(1991) observed a sizable population of western snowy plovers at the Baumberg and
Oliver salt ponds during the breeding and nonbreeding seasons, suggesting that
these ponds are important to western snowy plovers throughout the year. They
suspected that these ponds are used by western snowy plovers as both a pre-
breeding and post-breeding staging area, based on the high numbers of plovers in
mid-February and in late August/September, respectively.
As part of the Recovery Plan for Tidal Marsh Ecosystems of Northern and Central
California (U.S. Fish and Wildlife Service, in preparation), extensive tidal marsh
restoration is identified as a recovery action for listed and other sensitive species of
tidal salt marshes including the California clapper rail (Rallus longirostris
obsoletus) and salt marsh harvest mouse (Reithrodontomys raviventris). A large
area of San Francisco Bay salt ponds, especially within the South Bay, are proposed
for tidal marsh restoration for the benefit of federally listed tidal marsh species. Salt
ponds are large, persistent hypersaline ponds that are intermittently flooded with
South Bay water. Some of these ponds currently provide valuable breeding and
wintering habitat for western snowy plovers. However, they occur within the
historical areas of tidal salt marsh, which once dominated San Francisco Bay.
Endangered tidal marsh species would benefit from conversion of these ponds back
to salt marsh; however, western snowy plovers would lose suitable nesting and
wintering areas.
43
The Recovery Plan for Tidal Marsh Ecosystems of Northern and Central California
will focus primarily on management of tidal marsh species, but will also provide for
some areas to be maintained as managed ponds that would provide habitat for
western snowy plovers and California least terns (Sternula antillarum browni). The
South Bay Salt Pond Restoration Project (Philip Williams & Associates et al. 2006)
has identified sites on National Wildlife Refuge and California Department of Fish
and Game lands with potential for salt marsh restoration and managed ponds under
a range of alternatives; the projected area of managed ponds ranges from 647 to
3,035 hectares (1,600 to 7,500 acres). Six of the plover locations identified in
Appendices B and L (CA-33, CA-34, CA-39, CA-40, CA-41, CA-44) occur within
the South Bay Salt Pond Restoration Project area. These six locations comprise
about 60 percent of the western snowy plover locations in San Francisco Bay by
area, and currently support over 90 percent of the western snowy plover population
in San Francisco Bay (Strong et al. 2004, Tucci et al. 2006). In particular, several
salt ponds at Eden Landing (location CA-33 and vicinity) currently support the
largest population of western snowy plovers in San Francisco Bay. Distribution of
plover populations and nesting sites within San Francisco Bay can fluctuate with
salt pond management and availability of appropriate habitat, such that some
locations identified in Appendix L are not currently occupied and other locations
not mapped in Appendix L may nonetheless support breeding birds as management
practices change. Thus the boundaries of San Francisco Bay locations as mapped in
Appendix L reflect current and historical conditions and should be considered as
flexible in the context of planning for future tidal marsh restoration. Specific
localities to be managed for plovers should be coordinated with tidal marsh
restoration in an integrated fashion, and thus may not be identical with the current
or historical localities identified in this recovery plan.
Thus intensive management of designated ponds within the South Bay Salt Pond
Restoration Project area will be crucial to achieving success in meeting western
snowy plover recovery goals in San Francisco Bay. However, establishing western
snowy plover populations at a variety of sites in San Francisco Bay, both within and
outside the South Bay Salt Pond Restoration Project area, is advisable to minimize
their vulnerability to loss (L. Trulio in litt. 2007). Potential western snowy plover
habitat in San Francisco Bay outside of the South Bay Salt Pond Restoration Project
area includes several sites around Alameda, Napa County, Hayward Shoreline, and
44
Crissy Field. In addition, large salt pond tracts in the South Bay remain under the
ownership of Cargill; certain areas are still managed for salt production and could
incidentally provide habitat for western snowy plovers, while approximately 600
hectares (1,400 acres) of ponds near Redwood City are no longer in salt production
and provide an opportunity for significantly increasing western snowy plover habitat
through active management. If these locations can be managed to encourage
western snowy plover nesting, they may contribute substantially to meeting the
overall goal of 500 breeding birds in San Francisco Bay. Western snowy plover
management targets for the South Bay Salt Pond Restoration Project should take
into account the habitat quality and management potential of plover habitat
elsewhere in San Francisco Bay to meet overall goals for the recovery unit.
Don Edwards San Francisco Bay National Wildlife Refuge is currently planning
pilot studies to assess how best to manage salt ponds for high densities of breeding
western snowy plovers. Special management for western snowy plover may include
intensive control of avian predators (e.g., California gull colonies, ravens); active
management of water levels to control vegetation, maintain optimal salinity, and
produce brine flies; timing of inundation to avoid flooding nests; and
reconfiguration of shallow salt ponds with isolated islands and furrowed areas.
Locations of managed salt ponds should be planned to minimize the proximity of
western snowy plover populations to landfills, gull colonies, and areas with high
predator densities. Intensive management of salt ponds for western snowy plovers
generally appears feasible, and plovers have been observed to opportunistically
disperse among sites and use habitat that becomes suitable (V. Bloom in litt. 2005),
so we expect relocation of plover nesting concentrations away from tidal marsh
restoration areas to be possible, but management success should be carefully
evaluated. Those alternatives with greater acreages of tidal marsh restoration (e.g.,
Alternative C at 90 percent tidal habitat) would require correspondingly more
intensive management and reconfiguration of the remaining salt ponds (Philip
Williams & Associates et al. 2006), and should be implemented gradually in
conjunction with evaluation of management effectiveness for western snowy
plovers.
Thus, we believe tidal marsh restoration can be compatible with the recovery of
western snowy plovers and should not preclude meeting a goal of 500 breeding
45
birds in San Francisco Bay. As described below under Recovery Action 2.6,
occupied salt ponds should initially be conserved. Salt marsh restoration in
occupied plover habitat, particularly at densely populated sites, should be phased in
after intensive adaptive management of other compensating salt pond habitat has
demonstrated success in increasing plover populations. Thus habitat quality should
be continually assessed so that overall western snowy plover populations in San
Francisco Bay are not adversely affected by the restoration project and can increase
to meet the management goal for this recovery unit.
In southern California, unless carefully planned, conversion of western snowy
plover habitat to tidal salt marsh may result in loss of western snowy plover habitat.
The light-footed clapper rail (Rallus longirostris levipes) inhabits coastal tidal
marshes from Santa Barbara County south to Baja California, Mexico. Several
locations in Ventura, Orange, and San Diego Counties provide nesting and/or
wintering habitat for western snowy plovers, but also provide high quality light-
footed clapper rail habitat or represent high priority tidal marsh restoration sites in
the recovery plan for the light-footed clapper rail (U.S. Fish and Wildlife Service
1985). These sites include Bolsa Chica, Agua Hedionda Lagoon, San Elijo Lagoon,
San Dieguito Lagoon, and Los Penasquitos Lagoon. The Bolsa Chica wetlands
were opened to tidal action in 2006, in a project combining tidal restoration work
with construction of islands and sand flats for nesting of shorebirds and California
least terns.
2. Overutilization for Commercial, Recreational, Scientific, or Education
Purposes
Biologists and agency personnel monitor western snowy plovers to assess
population status and evaluate management techniques. Additionally, nest searches
at some sites allow for placement of predator exclosures that aid in hatching
success. Measures to minimize disturbance from these activities include: time
limits for surveys, exclosure construction and sign/rope maintenance; conducting
walking surveys where feasible; and limited entries.
Egg collecting has been observed at several California nesting colonies (Stenzel et
al. 1981, Warriner et al. 1986). Occasionally recreational birdwatchers also may
46
harass western snowy plovers. The significance of these factors to nesting success
is uncertain but probably relatively minor.
Qualified individuals may obtain permits to conduct scientific research and
population census activities on western snowy plovers under section 10(a)(1)(A) of
the Endangered Species Act. Specific activities that may be authorized include:
population censuses and presence/absence surveys; monitoring of nesting activity;
capturing, handling, weighing, measuring, banding, and color-marking of young and
adults on breeding and wintering grounds; radio-telemetry studies; translocation
studies; genetic studies; contaminant studies; behavioral, ecological, and life history
studies; and placing predator exclosures around active nests. Short-term impacts of
these activities may include harassment and possible accidental injury or death of a
limited number of individual western snowy plovers. The long-term impacts will be
to contribute to recovery of the species by facilitating development of more precise
scientific information on status, life history, and ecology (U.S. Fish and Wildlife
Service 1993b).
Banding birds with metal and plastic bands to identify individuals and to monitor
bird populations is a common practice. However, a number of leg injuries to
western snowy plovers, possibly resulting from banding, have been reported (G.
Page in litt. 2005b). These injuries include swelling and abrasion of legs possibly
from sand or other particles becoming lodged between the bands and the leg. Some
banding injuries appear to have resulted in foot loss and in a few instances, death of
the bird. Similar injuries have been observed in piping plovers (Charadrius
melodus) banded on the Atlantic coast and interior U.S., and resulted in a
moratorium on banding of that species (Lingle et. al. 1999, U.S. Fish and Wildlife
Service 1996a, U.S. Fish and Wildlife Service 2002). Despite leg injuries, several
piping plovers were observed to successfully breed and fledge young (Lingle et. al.
1999). However, these injuries may contribute directly or indirectly to mortalities
or reduce breeding performance. It should be noted that incidents of foot loss in
Pacific coast western snowy plovers usually appear to result from fine fibers
wrapping around the bird’s ankle, and have occurred in unbanded as well as banded
individuals (J. Watkins, pers. comm. 2006). Despite risk of injuries, banding
remains the best technique to study population traits such as survival, recruitment,
and dispersal, and may be the most effective way to monitor populations of the
47
western snowy plover to determine effectiveness of management strategies.
Currently the percentage of banded birds range-wide that become injured from
banding and the impacts of banding injuries on populations of the western snowy
plover are unknown; a study was initiated in 2005 by Point Reyes Bird Observatory
to assess the effectiveness of alternative banding techniques in reducing injuries and
band loss (G. Page in litt. 2005b).
Concerns that color bands increase the vulnerability of western snowy plovers to
predation by reducing effectiveness of camouflage do not appear to be supported by
existing evidence. Because western snowy plovers crouch and flatten to the sand at
the approach of avian predators, color bands are typically hidden from sight;
terrestrial predators are evaded by running or taking flight at their approach (J.
Watkins, pers. comm. 2006).
3. Disease or Predation
West Nile virus, a mosquito-borne disease which can infect birds, reptiles, and
mammals, has spread rapidly across the United States from the initial introduction
in New England (National Audubon Society 2006). The disease has killed birds of
various species in all coastal California counties since its arrival in the state in 2003
(U.S. Geological Survey 2006). In 2004 to 2006 the disease was reported from two
coastal counties (Lane and Lincoln) in Oregon but has not been reported from any
coastal counties in Washington (U.S. Geological Survey 2006). The deadliness of
the disease varies by species; however, the virus has been identified in dead piping
plovers (Charadrius melodus) and killdeer (C. vociferus), both closely related to the
western snowy plover (Center for Disease Control 2004).
Since 2004 numerous western snowy plovers in southern California have been
found dead or exhibited neurological signs consistent with avian botulism (M. Long
in litt. 2006). Confirmation of disease diagnosis is currently pending availability of
specimens for autopsy. We are currently coordinating with the USGS National
Wildlife Health Center to better understand the causes of these mortalities and to
develop a program for treatment of ill birds diagnosed with botulism. Additionally,
32 western snowy plovers died in 2006 from unknown causes in San Diego County
(U.S. Navy in litt. 2007).
48
Predator density is a significant factor affecting the quality of western snowy plover
nesting habitat (Stenzel et al. 1994). Predation can result in the loss of adults,
chicks, or eggs; separation of chicks from adults is also caused by the presence of
predators. Powell et al. (2002) found that predation accounted for most nest failures
in 1994, 1996, and 1997, in San Diego County, California. Western snowy plovers
generally cannot defend themselves or their nests against predation but must rely on
antipredator adaptation, including (1) pale coloration of adults, eggs, and young,
which acts as camouflage against detection by predators; (2) a skulking retreat from
the nest at a predator’s approach; (3) extreme mobility and elusiveness of precocial
young and; (4) maintenance of low nesting density (Page et al. 1983). In natural
ecosystems, there is a co-evolution of the predator-prey relationship, where prey
species slowly evolve with evading behavior as predator species slowly evolve
effective prey-capturing behavior. However, when exotic predators are introduced
into the ecosystem and thrive there, they frequently occur in much higher densities
and possess more effective strategies than native predators and, hence, usually have
a more severe effect.
Predation, by both native and nonnative species, has been identified as a major
factor limiting western snowy plover reproductive success at many Pacific coast
sites. Known mammalian and avian predators of western snowy plover eggs,
chicks, or adults include the following native species: gray foxes (Urocyon
cinereoargenteus), Santa Rosa Island foxes (Urocyon littoralis santarosae),
coyotes, striped skunks (Mephitis mephitis), spotted skunks (Spilogale putorius),
raccoons, California ground squirrels (Citellus beecheyi), long-tailed weasels
(Mustela frenata), American crows, common ravens (Corvus corax), ring-billed
gulls (Larus delawarensis), California gulls (Larus californicus), western gulls
(Larus occidentalis), glaucous-winged gulls (Larus glaucescens), gull-billed tern
(Gelochelidon nilotica), American kestrels (Falco sparverius), peregrine falcons
(Falco peregrinus), northern harriers (Circus cyaneus), loggerhead shrikes, merlins
(Falco columbarius), great horned owls (Bubo virginianus), burrowing owls
(Speotyto cunicularia), great blue herons (Ardea herodias); and the following
nonnative species: eastern red foxes (Vulpes vulpes regalis), Norway rats (Rattus
norvegicus), Virginia opossums (Didelphis marsupialis), domestic and feral dogs
(Canis familiaris), and cats (Felis domesticus). Loss or abandonment of eggs due to
49
predation by fire ants and Argentine ants (Iridomyrmex humilis) has also been
observed (Fancher et al. 2002, Powell et al. 2002).
In Oregon, nest predation by corvids (common ravens and American crows) is the
major cause of nest failures. Of 63 unexclosed nests in 2005, corvid predation
accounted for 22 nest failures, by comparison with 14 failures due to mammalian or
unknown predators and 10 due to abandonment (Lauten et al. 2006a). Exclosures
were effective in protecting nests against this threat (0 of 83 exclosed nests failed
due to nest predation).
American crows have been consistently documented as a major predator on western
snowy plover nests along the California and Oregon coasts (Page 1990; Persons and
Applegate 1997; T. Applegate, Bioresources, pers. comm. 1999; M. Stern, The
Nature Conservancy, pers. comm. 1999). At Coal Oil Point, American crows were
the most frequent predator on western snowy plover nests and experimentally
placed quail eggs (Lafferty et al. 2006). Populations of American crows have
increased in the San Francisco Bay and central California coast over the past several
decades, and are positively associated with human population density (Leibezet and
George 2002).
Common ravens are known predators of western snowy plover eggs (Wilson-Jacobs
and Dorsey 1985, Point Reyes Bird Observatory unpublished data, George 1997,
Stein 1993, Point Reyes Bird Observatory unpublished data, J. Albertson in litt.
1999, Point Reyes Bird Observatory unpubl. data, Stern et al. 1991). Ravens have
consistently been the most significant nest predator at Point Reyes, accounting for
69 percent of all predation events over 5 years and destroying approximately 50
percent of nests (Hickey et al. 1995). Hatching success at Point Reyes National
Seashore increased after exclosures were used to protect western snowy plover nests
from ravens in 1996. Approximately 12 percent of nests in San Diego County were
destroyed by ravens (Powell et al. 1996, Powell et al. 1997). Raven populations in
coastal California have significantly increased in recent decades (Leibezet and
George 2002), and as their range expands they are becoming increasingly significant
as a nest predator on western snowy plovers; ravens were observed to destroy nests
in Monterey Bay for the first time in 2002 and 2003 (G. Page in litt. 2004b). In
northern California ravens are the single most limiting factor on western snowy
50
plover reproduction (Colwell et al. 2006). Ravens also prey on western snowy
plover chicks, but not nearly to the extent that they do on eggs. However, at Point
Reyes raven predation primarily affected chicks after exclosures were erected to
protect snowy plover eggs (S. Allen in litt. 2004).
Gulls pose a special threat to breeding western snowy plovers because they not only
depredate nests and chicks, but also usurp and trample western snowy plover
nesting habitat and crush eggs (Persons and Applegate 1997, Point Reyes Bird
Observatory unpublished data, Widrig 1980, J. Albertson in litt. 1999, Page et al.
1983).
The first time a gull-billed tern was found in San Diego County, California, was in
1985. Two years later they were nesting in south San Diego Bay (Unitt 2004).
Since then, the nest colony has steadily increased with an estimated 52 pairs in 2006
(Patton 2006a). Gull-billed terns have become a concern to managers of beach-
nesting birds in the region. Gull-billed terns were first documented taking
California least terns (presumably chicks) in south San Diego Bay in 1992 (Caffrey
1993). Patton (2006a) summarizes recent incidents of gull-billed tern predation on
both terns and western snowy plovers. He notes roughly 20 to 60 California least
terns and 1 to 4 western snowy plover depredations by gull-billed terns and a greater
number was suspected. Although the documented number of gull-billed tern
depredations on western snow plovers is considerably lower than on California least
terns, it is difficult to know the full extent of gull-billed tern impacts (Patton
2006b), especially for the plovers whose nests are more dispersed and less easily
monitored.
Unlike management of other avian predators, management of gull-billed terns is
problematic. The local subspecies of gull-billed tern, G. n. vanrossemi, is limited to
western North America (Molina and Erwin 2006, but see Unitt 2004). The
subspecies nests in scattered, localized colonies and “[i]n 2003 and 2005, the entire
North American population of vanrossemi gull-billed terns ranged from about 533
to 810 pairs” (Molina and Erwin 2006). This means that this predator is
considerably rarer than the listed bird species upon which it preys (California least
terns and western snowy plovers), which poses a conundrum for managers of
western snowy plovers and California least terns (Unitt 2004). Because of the gull-
51
billed tern’s status, lethal predator control has not been used on this species since
1999 (Unitt 2004). Gull-billed terns will likely become a greater source of
management concern as the local population of this species grows. Gull-billed terns
have been observed at other locations of beach-nesting birds farther north from San
Diego Bay, including Camp Pendleton, San Diego County (Foster 2005); Bolsa
Chica, Orange County (Hamilton and Willick 1996), and Venice Beach, Los
Angeles County (McCaskie and Garrett 2005).
Loggerhead shrikes are not known to take western snowy plover eggs, but do prey
upon chicks and locally can have substantial effects on fledging success (Warriner
et al. 1986, D. George in litt. 2001, Page et al. 1997, George 1997, Page 1988,
Feeney and Maffei 1991).
Although not known to be predators of western snowy plover eggs, American
kestrels are predators of chicks and possibly adults (D. George, pers. comm. 1998).
Fledging success increased from 9 to 64 percent after a kestrel unexpectedly
disappeared from a western snowy plover nest site in Moss Landing Wildlife Area
(Page et al. 1998). In 1997, a merlin was suspected of taking 13 banded adults
within the period of a few days at Salinas River National Wildlife Refuge. Also,
western snowy plover chicks and adults are among the avian prey of the peregrine
falcon (B. Walton, University of California Santa Cruz, pers. comm. 1998; D.
George, pers. comm. 1998; Feeney and Maffei 1991). Northern harriers are
effective predators of western snowy plover chicks and adults. In 1987, a harrier
was observed hunting on the islands in the Salinas River where only approximately
one third of the hatched chicks reached fledging age (Point Reyes Bird Observatory
unpubl. data). At the Moss Landing Wildlife Area, fledging success dropped from
61 to 23 percent after a harrier began foraging there (Page et al. 1997). A northern
harrier was seen capturing 2 to 4 western snowy plover chicks at Moss Landing salt
ponds in 2000 (D. George in litt. 2001).
In recent decades, alien eastern red foxes have become a serious new predator of
endangered and threatened animals in coastal habitats (Jurek 1992, Golightly et al.
1994, Lewis et al. 1993). Nonnative red foxes were imported into the southern
Sacramento Valley, primarily for hunting and fur farming purposes, as early as the
1870s and experienced explosive spread in the 1970s and 1980s (Jurek 1992, Lewis
52
et al. 1993, 1995). The red fox now occurs throughout a significant portion of
coastal California, including Marin, San Mateo, Santa Cruz, Monterey, San Luis
Obispo, Santa Barbara, Ventura, Orange, and Los Angeles Counties (California
Department of Fish and Game 1994). It also occurs at Monterey Bay (G. Page in
litt. 1988) and San Francisco Bay (Harding et al. 1998), including the additional San
Francisco Bay area counties of Napa, Solano, Contra Costa, Alameda, and Santa
Clara (California Department of Fish and Game 1994). Red foxes also are present
in some areas of coastal Oregon where western snowy plovers breed (D. George in
litt. 2001, Lauten et al. 2006b).
Red foxes have been identified as a significant predator of western snowy plover
eggs in the Monterey Bay area, where they are suspected of also preying on adults
and chicks. On Monterey Bay beaches, red fox depredation of western snowy
plover eggs resulted in a decline in clutch hatching rate of 30 percent from 1984 to
1990. After exclosures and mammalian predator control came into use to protect
nests around Monterey Bay, annual clutch hatching rates have climbed from 43 to
68 percent (Neuman et al. 2004).
Predation of western snowy plover nests and chicks by red fox have been
documented at Bandon Beach, New River and other portions of OR-15 on the
Oregon coast. Biologists have documented red fox tracks around western snowy
plover nest exclosures and have followed fox tracks back to dens located within
western snowy plover nest areas. As part of the emergency response to the New
Carissa oil spill in February 1999, a predator program was implemented. Animal
and Plant Health Inspection Service (APHIS) Wildlife Services Division personnel
removed 17 red fox from the New River area over a 3 month period (S. Richardson
in litt. 2001). Ongoing predator management since 2002 has removed an average
of 15 foxes per year from Bandon Beach/New River (Lauten et al. 2006b).
The U.S. Department of Agriculture, Wildlife Services Branch, has been involved
in predator damage management for protection of threatened and endangered
species for over 10 years in California. The management of nonnative red foxes has
become a controversial issue in many areas of California, particularly in coastal
habitats near urban areas (California Department of Fish and Game 1994). In
November 1998, California voters approved Proposition 4, which banned the use of
53
leghold traps in California. In February 1999, the U.S. District Court issued a
Preliminary Declaratory Relief Order, which allows the use of padded leghold traps
on Federal and non-Federal lands for the purpose of protecting threatened or
endangered species. Trapping of nonnative and native predators of western snowy
plovers will therefore not be affected by Proposition 4 (J. Albertson in litt. 1999).
Coyotes are known predators of western snowy plover eggs in the Pismo
Beach/Santa Maria River area of San Luis Obispo County (T. Applegate, pers.
comm. 1996). They are the main nest predator of eggs on Vandenberg Air Force
Base where they were the cause of 43 percent of all clutch losses attributed to
predators from 1994 to 1997 (Persons and Applegate 1997). At Vandenberg Air
Force Base, coyotes may be attracted to marine mammal carcasses on the beach
early in the western snowy plover nesting season (Page and Persons 1995). Coyotes
also have been identified as predators of western snowy plover nests at Mono Lake,
California (Page et al. 1983).
Striped skunks have been recorded as predators of western snowy plover eggs
(Hickey et al. 1995, George 1997, Page et al. 1997, Hutchinson et al. 1987, Stein
1993, Stern et al. 1991). Skunks were believed to be the main cause of nest loss on
Morro Bay Spit in 1987, the only year that the reproductive success of western
snowy plovers has been monitored at that location (Hutchinson et al. 1987).
Persons and Ellison (2001) reported that the striped skunk was the predominant
predator of nests at Morro spit, destroying 87 percent of depredated nests in 2000.
Domestic and feral cats are widespread predators. The threat of predation of western
snowy plovers by cats increases when housing is constructed near western snowy
plover breeding habitat. As natural-appearing beaches continue to be surrounded by
urban areas, western snowy plovers will increasingly be subjected to this predator in
the future. Predation by cats is difficult to measure because of the difficulty in
finding evidence of bird remains, but they are known to take western snowy plover
adults and eggs (B. Farner, pers. comm. in Powell and Collier 1994; Page 1988;
D. George in litt. 2001).
Predation, while predominantly a natural phenomenon, is exacerbated through the
introduction of nonnative predators and unintentional human encouragement of
54
larger populations of native predators. Elevated predation pressures result from
landscape-level alterations in coastal dune habitats which, in turn, now support
increased predator populations within the immediate vicinity of nesting habitat for
western snowy plovers. Urbanization benefits red fox population growth by
eliminating coyotes, which are the red fox’s most common native predator and
competitor; by providing ready sources of food, water and denning sites; and by
aiding dispersion of foxes into new areas. Red foxes disperse readily in urban areas
because there are no predators besides the domestic dog. Red foxes traverse most
urban habitats, and readily cross busy highways and travel long distances
underground through culverts (Lewis et al. 1993). Other predators, such as corvids,
attracted by the presence of human activities (e.g., improper disposal of trash), may
frequent beaches in increasing numbers. Gulls have greatly expanded their range
and numbers, especially along the United States portion of the Pacific coast, as a
result of human-supplied food sources (trash, fish offal, and dumps). Thousands of
California gulls now breed in the southern part of San Francisco Bay, where only a
few were present in the early 1980s (J. Albertson in litt. 1999). This population
growth is attributed largely to the increase in landfills along the Bay within the last
20 years. Also, crows and ravens forage at landfills. Buick and Paton (1989) found
that losses of hooded plover (Charadrius rubricollis) nests with human footprints
around them were higher than at those without footprints, suggesting “that
scavenging predators may use human footprints as a visual cue in locating food.”
Beach litter and garbage also attract predators such as skunks and coyotes (e.g., N.
Read in litt. 1998). Unnatural habitat features such as landscaped vegetation (e.g.,
palm trees), telephone poles, transmission towers, fences, buildings, and landfills
near western snowy plover nesting areas attract predators and provide them with
breeding areas (e.g., J. Buffa in litt. 2004). These alterations all combine to make
the coastal environment more conducive to various native and nonnative predators
that adversely affect western snowy plovers.
Substantial evidence exists that human activities are affecting numbers and activity
patterns of predators on western snowy plovers. For example, increased
depredation of western snowy plover nests by ravens at the Oliver Brothers salt
pond, California, may be an indirect adverse impact of nearby installation of light
structures by the California Department of Transportation and high-tension power
lines by the Pacific Gas and Electric Company, thereby creating corvid nesting sites
55
(G. Page, Point Reyes Bird Observatory, pers. comm. 1997). Raven nests have also
been discovered by National Wildlife Refuge biologists in transmission towers near
other snowy plover nesting areas managed by the Don Edwards San Francisco Bay
National Wildlife Refuge in Warm Springs, Alviso, and Mountain View (J. Buffa in
litt. 2004). On the Oregon coast, predation risk by mammals has increased as a
result of the spread of European beachgrass, Scotch broom, and shore pine, which
has transformed vast areas of open sand into dense grass-shrub habitat, providing
excellent habitat for native and nonnative mammalian predators, such as skunks,
raccoons, foxes, and feral cats (Stern et al. 1991). At Vandenberg Air Force Base,
coyote predation can be exacerbated by human presence when trash or debris is left
behind (N. Read in litt. 1998).
Signing and fencing of restricted areas on the beach may provide perches for avian
predators of western snowy plover adults or chicks (Hallett et al. 1995). Although
signs and fences are important conservation tools in many areas, land managers
need to be aware that modifications to them may be necessary to deter predators in
some circumstances.
4. The Inadequacy of Existing Regulatory Mechanisms
The western snowy plover is protected by the Federal Migratory Bird Treaty Act (16
U.S.C. 703 et seq.) and, in each state, by State law as a nongame species. The
western snowy plover's breeding habitat, however, receives only limited protection
from these laws (e.g., the Migratory Bird Treaty Act prohibition against taking
"nests"). Listing of the western snowy plover under State endangered species laws
generally provides some protection against direct take of birds, and may require
State agencies to consult on their actions, but may not adequately protect habitat.
State regulations, policies, and goals include mandates both for protection of beach
and dune habitat and for public recreational uses of coastal areas; consequently they
may conflict with protection of western snowy plovers in some cases. Section 404
of the Clean Water Act (33 U.S.C. 1251 et seq.) and section 10 of the Rivers and
Harbors Act (33 U.S.C. 403) are the primary Federal laws that could provide some
protection of nesting and wintering habitat of the western snowy plover that is
determined by the U.S. Army Corps of Engineers (Corps) to be wetlands or historic
navigable waters of the United States. These laws, however, would apply to only a
56
small fraction of the nesting and wintering areas of the western snowy plover on the
Pacific coast. Aside from the Migratory Bird Treaty Act, western snowy plovers
have no protection status in Mexico.
To effectively recover the western snowy plover, it is necessary to develop
participation plans among cooperating agencies, landowners, and conservation
organizations to assure protection and appropriate management of breeding,
wintering, and migration areas. Since listing of the western snowy plover in 1993,
several local working groups have been developed and local governments and State
and Federal agencies have cooperated extensively to implement a wide variety of
western snowy plover conservation actions. These partners continue to work to
implement appropriate management of coastal areas for recovery of the western
snowy plover. These conservation efforts and the environmental policies of State
and Federal agencies are described in greater detail in the Conservation Efforts
section, below.
For additional discussion of regulatory mechanisms and management actions taken
by California State Parks and other entities, see U.S. Fish and Wildlife Service
(2006a).
5. Other Natural or Manmade Factors Affecting Their Continued Existence
a. Natural Events
Western snowy plover breeding and wintering habitat is subject to constant change
from weather conditions. Stenzel et al. (1994) reported that the quality and extent
of western snowy plover nesting habitat is variable in both the short- and long-term.
Coastal beaches increase in width and elevation during the summer through sand
deposition, making marginal beaches more suitable for nesting later in the season.
Over the longer term, an increase or decrease in habitat quality may occur after
several years of winter storms. Based on the amount of flooding, the availability of
dry flats at the edges of coastal ponds, lagoons, and man-made salt evaporators also
varies within and between seasons. Therefore, the number of western snowy
plovers breeding in some areas may change annually or even over one breeding
season in response to natural alterations in habitat availability (Stenzel et al. 1981).
57
Because most western snowy plover nesting areas occur on unstable sandy
substrates, nest losses caused by weather-related natural phenomena commonly
occur. High tides and strong winds cause many nest losses. Events such as extreme
high tides (Wilson 1980, Stenzel et al. 1981), river flooding (Stenzel et al. 1981),
and heavy rain (Wilson 1980, Warriner et al. 1986, Page 1988) have been reported
to destroy or wash away nests. The annual percentage of total nest losses attributed
to weather-related phenomenon has reached 15 to 38 percent at some locations
(Wilson 1980, Warriner et al. 1986, Page 1988).
Stormy winters can adversely affect the western snowy plover. It is suspected that
the severe storms occurring during the El Niño atmospheric and oceanic
phenomenon of the winter of 1997/1998 caused a 10 to 30 percent decline in the
1998 western snowy plover breeding population, depending on the coastal region.
In all monitored recovery units, the number of breeding birds in 1998 was lower
than in the 1997 nesting season. Additionally, a very wet spring resulted in a later
than normal breeding initiation and fewer nesting attempts.
The western snowy plover population naturally varies, both spatially and
temporally, because of natural changes in weather and habitat conditions from year
to year. However, as described above, human influences over the past century (e.g.,
habitat destruction, invasion of introduced beachgrass, and elevated predation
levels) have reduced the western snowy plover’s ability to respond to these natural
perturbations.
b. Disturbance of Breeding Plovers by Humans and Domestic Animals
The coastal zone of the United States, including both open coastal areas and inland
portions of coastal watersheds, is home to over one-third of the U.S. human
population, and that proportion is increasing (U.S. Fish and Wildlife Service
1995a). The southern California coastal area, which constitutes the central portion
of the western snowy plover’s coastal breeding range, attracts large crowds on a
regular basis (Figure 6). The increasing level of human recreation was cited as a
major threat to the breeding success of the Pacific coast population of the western
snowy plover at the time of listing (U.S. Fish and Wildlife Service 1993a).
58
Figure 6.Recreationists at Salt Creek Beach, California (photo by Ruth Pratt,
with permission).
i. Pedestrians
Pedestrians (e.g., beach walkers and joggers) can cause both direct mortality and
harassment of western snowy plovers. Pedestrians on beaches may crush eggs or
chicks and chase western snowy plovers off their nests. Separation of western
snowy plover adults from their nests and broods can cause mortality through
exposure of vulnerable eggs or chicks to heat, cold, blowing sand, and/or predators.
Pedestrians have been known to inadvertently step on eggs and chicks, deliberately
take eggs from nests, and remove chicks from beaches, erroneously thinking they
have been abandoned. People also may cause broods of western snowy plovers to
run away from favored feeding areas. These effects are described in more detail
below. Trash left on the beach by pedestrians also attracts predators. In addition to
public pedestrians, military personnel using the beach for maneuvers, boat launches,
and landings have the potential to similarly cause adverse impacts to western snowy
plovers.
59
Beach-related recreational activities that are concentrated in one location (e.g.,
sunbathing, picnicking, sandcastle building, birding, and photography) can
negatively affect incubating adult western snowy plovers when these activities occur
too close to their nests. Recreational activities that occur in the wet sand area (e.g.,
sand sailing) can adversely affect western snowy plovers when they disturb plover
adults or broods, which feed at the edge of the surf along the wrack line.
Recreational activities that occur in or over deep water (such as the beach- and
water-oriented activities of surfing, kayaking, wind surfing, jet skiing, and boating,
and the coastal-related recreational activity of hang gliding) may not directly affect
western snowy plovers; however, they can potentially be detrimental to western
snowy plovers when recreationists use the beach to take a break from these
activities, or as access, exit, or landing points.
Concentrations of people may deter western snowy plovers and other shorebirds
from using otherwise suitable habitats. Anthony (1985) found that intensive human
activity at Damon Point had a “bracketing effect” on the distribution of nesting
western snowy plovers, confining their breeding activity to a section of the spit and
precluding their regular use of otherwise suitable habitat. Fox (1990) also found
that western snowy plovers avoided humans at Damon Point, and the presence of
fishermen and beachcombers kept them hundreds of yards away from potential
habitat. Because early-nesting western snowy plovers have narrower beaches from
which to select nest locations, recreational use may be more concentrated in the
limited habitat available. Also, repeated intrusions by people into western snowy
plover nesting areas also may cause birds to move into marginal habitats where their
chances of reproductive success are reduced. Studies of the Atlantic coast
population of the piping plover (Charadrius melodus), an eastern species with
habitat requirements very similar to the snowy plover, indicate that some piping
plovers that nest early in the season are forced to move elsewhere when human use
becomes too intense (Cairns and McLaren 1980). These authors concluded that
piping plovers that nest early, before beaches become heavily used for recreation,
“cannot predict and avoid reproductive failure in habitats that otherwise appear
suitable to them.” Burger (1993) observed that piping plovers, in response to
human disturbance, spent more energy on vigilance and avoidance behavior at the
expense of foraging activity, and sometimes abandoned preferred foraging habitat.
60
Page et al. (1977) observed western snowy plovers’ response to human disturbance
at two coastal beaches where normal beach use ranged from light to heavy. The
study included 156 hours of observation at 15 western snowy plover nests. At Point
Reyes, they found that pedestrians disrupt incubation of nests. When humans
approached western snowy plovers, adults left their nests 78 percent of the time
when people were within 50 meters (164 feet) and 34 percent of the time when
people were over 100 meters (328 feet). They also found that western snowy
plovers’ reaction to disturbance by humans varied, ranging from one bird remaining
off the nest for less than 1 minute when a person walked within 1 meter (3 feet) of
the nest on a heavily-used beach to another western snowy plover leaving the nest
when three people were 200 meters (656 feet) away on a less-used beach. They
noted that “birds exposed to prolonged human activity near the nest seemed to
become accustomed to it.” It has been speculated that predators of western snowy
plovers may benefit from a decline in wariness by western snowy plovers nesting on
beaches that are subject to ongoing high levels of human disturbance (Persons and
Applegate 1997).
Lafferty (2001) observed western snowy plovers’ response to people, pet dogs,
equestrians, crows and other birds. Observations were made at Devereux Slough in
Santa Barbara County, Santa Rosa Island, San Nicolas Island, and Naval Base
Ventura County (Point Mugu). This study found that western snowy plover are
most frequently disturbed when approached closely (within 30 meters) by people
and animals. The most intense disturbance (causing the western snowy plover to fly
away) were in response to crows, followed by horses, dogs, humans, and other
birds. Lafferty (2001) created a management model based on his findings and
estimated flight response disturbances under different scenarios. The model
predicted a reduced disturbance response for buffer zones of 20 to 30 meters.
Fahy and Woodhouse (1995) quantified the levels of recreational disturbance, their
effect on western snowy plovers, and the effectiveness of the Linear Restriction
Program at Ocean Beach, Vandenberg Air Force Base in 1995. Under this program
signs directed visitors not to cross from the outer beach into the Linear Restriction
area (inland of mean high tide mark, in dune habitat used by western snowy
plovers). Seventy percent of all disturbances were in compliance with restriction
warning signs. The disturbance types that were most and least frequently in
61
compliance with the boundary were joggers or walkers and stationary visitors,
respectively. The closer the disturbance occurred to the plover, the more severe the
plover response. All-terrain vehicles caused the most significant alert and flight
behaviors by western snowy plovers, even though they were in compliance with the
Linear Restriction. The disturbance types that caused incubating western snowy
plovers to flush from their nests most frequently were joggers and walkers, followed
by joggers or walkers with dogs off leash, and stationary visitors. The disturbance
types that kept incubating western snowy plovers off their nests for the longest
period of time were stationary visitors and surf fishermen, probably because of the
duration of these stationary disturbances that occurred close to nests. Weekends
accounted for 60 percent of all disturbances. The enforcement personnel appeared
to have a limited presence; their presence was documented during only 14 percent
of all identified disturbances.
Hoopes et al. (1992) quantified human use and disturbance to piping plovers in
Massachusetts during the 1988 and 1989 nesting seasons. They found pedestrians
caused piping plovers to flush or move at an average distance of 23 meters (75 feet).
Pedestrians within 50 meters (164 feet) of the birds caused piping plovers to stop
feeding 31 percent of the time.
Point Reyes Bird Observatory found that management actions that included
exclusion zones around nesting areas, seasonal closure to dogs, and active weekend
docent programs reduced mortality of chicks and eggs during the weekend such that
the weekend and weekday mortality was the same (Peterlein and Roth 2003).
At the Pajaro River mouth in California, at least 14 percent of western snowy plover
clutches were destroyed by being driven over, stepped on, or deliberately taken by
people (Warriner et al. 1986). Since exclosures have been used to protect nests at
the Pajaro River mouth and other locations at Monterey Bay, a few nests have still
been deliberately destroyed by vandals in most years (Point Reyes Bird Observatory
unpublished data). At South Beach, Oregon, the number of western snowy plovers
declined from 25 in 1969 to 0 in 1981 when a new park was constructed next to the
beach and the adjacent habitat became more accessible to vehicles and people
(Hoffman 1972 in Oregon Department of Fish and Wildlife 1994).
62
At Vandenberg Air Force Base, western snowy plover monitoring during 1993 at
South Beach (where recreational use was high) and North Beach (where recreational
use was low) found the rate of nest loss caused by humans differed markedly: 24.3
percent of South Beach nests were lost compared to only 3.0 percent of North Beach
nests (Persons 1994). Persons and Applegate (1997) reported that “rates of
reproductive success, combined for 1994 through 1997, were substantially higher on
North Beach than on South Beach.” This difference occurred despite the fact that
nesting habitat was posted as off-limits during the nesting season in 1994.
However, at that time restrictions were new and not strictly enforced (R. Dyste in
litt. 2004). Since 2000, public access has been restricted and fully enforced by
Vandenberg Air Force Base personnel. Additionally, Santa Barbara County-
supported volunteer docents were present at Surf Station (within Vandenberg Air
Force Base) during the 2001-2003 plover breeding seasons when the beach was
open for public access. In 2003, plover monitors did not document the loss of any
nests within Surf Station Beach as a result of trampling by humans (R. Dyste in litt.
2004).
Loss of western snowy plover chicks also may occur because of human activities.
The number of young produced per nesting attempt increased from 0.75 in disturbed
habitat to 2.0 for nests free of disturbance at Willapa National Wildlife Refuge,
Washington (Saul 1982). At Vandenberg Air Force Base, the 1997 fledging success
of western snowy plovers was 33 to 34 percent on North Beach where recreational
activity is restricted and only 12 percent on South Beach where recreational use is
high (Persons and Applegate 1997). In 1999 and 2000, Ruhlen et al. (2003) found
that increased human activities on Point Reyes beaches had a negative effect on
western snowy plover chick survival. In both 1999 and 2000, western snowy plover
chick loss was about three times greater on weekends and holidays than on
weekdays. In most coastal areas, beach visitation in summer months is much higher
on weekends and holidays than on weekdays.
Flemming et al. (1988) measured the effects of human disturbance on reproductive
success and behavior of piping plovers in Nova Scotia. To assess human
disturbance, they recorded positions of people, pedestrian tracks, and vehicle tracks,
then defined classes based on visits per week. They found significantly fewer
young survived in areas of high versus low disturbance; humans elicited a
63
significantly higher response level from adult piping plovers than did predators or
nonpredatory species; chicks fed less and were brooded less when humans were
within 160 meters (525 feet); and chick peck rate during feeding was lower when
humans were present. They speculated that because chicks shifted from feeding and
energy conservation activities to vigilance and cryptic predator avoidance behaviors,
their energy reserves would be depleted, making them more susceptible to predators
and inclement weather. They postulated that a decline in piping plover abundance
in Nova Scotia could be caused by human disturbance altering chick behavior.
Fewer chicks survived to 17 days in areas heavily disturbed by humans.
Schultz and Stock (1993) studied the effects of tourism on colonization,
distribution, and hatching success of Kentish plovers (Charadrius alexandrinus
alexandrinus), a Eurasian subspecies of the snowy plover, at the Wadden Sea in
Germany. They measured disturbance intensity by counting and mapping tourists
on 50 days from April to July, during times of peak human activity (1500 to 1600
hours) and in intervals of 30 minutes throughout other days. An index of person-
hours per area per day was calculated. They found that Kentish plovers did not
colonize heavily-disturbed areas and that resting and sunbathing people were
apparently more disruptive than walking people because the latter generally
followed the high-tide line. Clutch losses were lowest in areas with little
disturbance and highest in areas with heavy disturbance. They indicated that
hatching success in highly disturbed areas, even with optimal habitat, is as low as in
poor habitat with a low level of disturbance.
ii. Dogs
Dogs on beaches can pose a serious threat to western snowy plovers during both the
breeding and nonbreeding seasons. Unleashed pets, primarily dogs, sometimes
chase western snowy plovers and destroy nests. Repeated disturbances by dogs can
interrupt brooding, incubating, and foraging behavior of adult western snowy
plovers and cause chicks to become separated from their parents. Pet owners
frequently allow their dogs to run off-leash even on beaches where it is clearly
signed that dogs are not permitted or are only permitted if on a leash. Enforcement
of pet regulations on beaches by the managing agencies is often lax or nonexistent.
64
A number of examples of disruptive ways that dogs affect western snowy plovers
have been noted at beaches in Monterey County (Marina State Beach), Santa Cruz
County (Laguna, Scott Creek, and Seabright Beaches) and San Mateo County (Half
Moon Bay and Pacifica Beaches) (D. George, pers. comm. 1997). Incubating birds
have been flushed from nests by dogs, including nests located inside areas protected
by symbolic fencing. Dogs also have displaced adults from nests with newly-
hatched chicks. Roosting and feeding flocks, as well as individual birds, have been
deliberately and persistently pursued by dogs. At Laguna Creek Beach, Zmudowski
State Beach, and Salinas River State Beach, dogs partially or entirely destroyed
western snowy plover nests which were in several cases, protected with symbolic
fencing (D. George, pers. comm. 1997; Point Reyes Bird Observatory unpublished
data; G. Page, pers. comm. 1998). Feral dogs are suspected to have disturbed
western snowy plover nests and chicks on San Francisco Bay salt ponds
(J. Albertson in litt. 1999).
Even when not deliberately chasing birds, dogs on a beach may disturb western
snowy plovers and other shorebirds that are roosting or feeding. Page et al. (1977)
found that western snowy plovers flushed more frequently and remained off their
nests longer when a person was accompanied by a dog than when alone. They
collected data during 156 hours of observation at 15 nests at Point Reyes,
California, and found the following distances at which western snowy plovers
flushed from their nests as a result of disturbance by people with dogs. Within 50
meters (164 feet), people with dogs caused flushing 100 percent of the time. At a
distance of over 100 meters (328 feet), people with dogs caused flushing 52 percent
of the time (Page et al. 1977). Fahy and Woodhouse (1995) found that joggers or
walkers with off-leash dogs caused a significantly greater number of avoidance
responses from western snowy plovers than other types of disturbances at Ocean
Beach, Vandenberg Air Force Base, California. Lafferty’s (2001) management
model predicted that intense disturbances could be dramatically reduced by
removing dogs.
At wintering sites such as Ocean Beach in San Francisco, California, off-leash dogs
have caused frequent disturbance and flushing of western snowy plovers and other
shorebirds. Off-leash dogs chase wintering western snowy plovers at this beach and
have been observed to regularly disturb and harass birds (P. Baye, U.S. Fish and
65
Wildlife Service, pers. comm. 1997). Observations by National Park Service
volunteers suggest that unleashed pets represent the most significant recreational
threat to wintering western snowy plovers and migratory shorebirds at Ocean Beach,
because of the prolonged and repeated disturbance created when they chase birds
(Hatch 1997). In 1995 and 1996, during 45 hour-long observations of wintering
flocks of western snowy plovers at Ocean Beach, western snowy plovers responded
by moving in 73 percent of 74 instances when dogs with or without people
approached to within 15 meters (50 feet) (Golden Gate National Recreation Area
unpublished data). When shorebirds are flushed, they must spend more energy on
vigilance and avoidance behaviors at the expense of foraging and resting activity
(Burger 1993, Hatch 1997). Disruption of foraging and roosting may result in
decreased accumulation of energy reserves necessary for shorebirds to complete the
migration cycle and successfully breed (Burger 1986, Pfister et al. 1992). Dog
disturbance at wintering and staging sites, therefore, may adversely affect individual
survivorship and fecundity, thereby affecting the species at the population level.
iii. Motorized Vehicles
Unrestricted use of motorized vehicles on beaches is a threat to western snowy
plovers and their habitat. Motorized vehicles may affect remote stretches of beach
where human disturbance would be slight if access were limited to pedestrians. The
magnitude of this threat is variable, depending on level of use and type of terrain
covered. Use of motor vehicles on coastal dunes may also be destructive to dune
vegetation, especially sensitive native dune plants.
Driving vehicles in breeding habitat may cause destruction of eggs, chicks, and
adults, abandonment of nests, and considerable stress and harassment to western
snowy plover family groups (G. Page, pers. comm. 1997; J. Myers in litt. 1988;
J. Price in litt. 1992; Stern et al. 1990; Casler et al. 1993; S. Richardson, pers.
comm. 1998; Widrig 1980). In addition to recreational vehicles, vehicles used for
military activities have also caused western snowy plover mortality (Powell et al.
1995, 1997; Persons 1994).
Driving motor vehicles at night seems to be particularly hazardous to western
snowy plovers. Drivers of all-terrain vehicles at night have run over and killed
66
western snowy plover adults at Vandenberg Air Force Base, and State park ranger
patrol vehicles have crushed western snowy plover chicks at Oceano Dunes State
Vehicular Recreation Area during night patrols (R. Mesta in litt. 1998).
On the Eel River gravel bars, vehicle use (including motorcycles, ATVs, and full-
size 4x4s) has resulted in the crushing of nests and disturbance to nesting plovers
(Colwell et al. 2006).
Western snowy plover adults and chicks have been observed using tire tracks and
human footprints for loafing at Camp Pendleton and Naval Amphibious Base
Coronado (Powell and Collier 1994). This behavior increases their chances of
being run over. Western snowy plover chicks also may have difficulty getting out
of tire ruts, thereby increasing their likelihood of being run over. Their cryptic
coloring and habit of crouching in depressions like tire tracks makes western snowy
plover chicks especially vulnerable to vehicular traffic. In Massachusetts, between
1989 and 1997, a total of 25 piping plover chicks and 2 adults were found dead in
off-road vehicle tire ruts on the upper beach between the mean high tide line and the
foredune (U.S. District Court of Massachusetts 1998).
Hoopes et al. (1992) found off-road vehicles caused piping plovers to flush or move
at an average distance of 40 meters (131 feet). Off-road vehicles within 50 meters
(164 feet) of the birds caused piping plovers to stop feeding 77 percent of the time.
While most responses by piping plovers to off-road vehicles resulted in movement
by the birds, they observed three instances where the plovers “froze” in response to
the off-road vehicles. Both types of responses have a negative impact on plovers
through either disturbance, interruption of feeding behavior, or increasing the risk
that piping plovers will be hit or crushed by vehicles.
At wintering sites, disturbance from motorized vehicles may harass western snowy
plovers and disrupt their foraging and roosting activities, thereby decreasing energy
reserves needed for migration and reproduction. When motorcycles, most of which
were in the wet sand zone, were driven at high speed along Ocean Beach in San
Francisco, Hatch (1997) observed that western snowy plovers and other shorebirds
were continually disturbed and often took flight.
67
iv. Beach Cleaning
Removal of human-created trash on the beach is desirable to reduce predation
threats by eliminating food for predators of western snowy plovers; however, the
indiscriminate nature of mechanized beach-cleaning adversely affects western
snowy plovers and their habitat. Mechanized beach cleaning can be dangerous to
western snowy plovers by crushing their clutches and chicks or causing prolonged
disturbance from the machine’s noise. Also, this method of beach cleaning removes
the birds’ natural wrackline (area of beach containing seaweed and other natural
wave-cast organic debris) feeding habitat, reducing the availability of food. Kelp
and driftwood, with their associated invertebrates, are regularly removed and the
upper layer of sand is disturbed. Beach grooming also alters beach topography,
removes objects associated with western snowy plover nesting, and prevents the
establishment of native beach vegetation (J. Watkins in litt. 1999). In all of Los
Angeles County and parts of Ventura, Santa Barbara, and Orange Counties,
California, entire beaches are raked on a daily to weekly basis. Large rakes, with
tines 5 to 15 centimeters (2 to 6 inches) apart, are dragged behind motorized
vehicles from the waterline to pavement or to the low retaining wall bordering the
beaches (Stenzel et al. 1981). Even if human activity was low on these beaches,
grooming activities completely preclude the possibility of successful western snowy
plover nesting (Powell 1996).
v. Equestrian Traffic
Most equestrian use on beaches is directed to wet-sand areas. However, during high
tide periods, horseback riders on the beach sometimes enter coastal dunes or upper
beach areas (Figure 7), where they may crush clutches or disturb western snowy
plovers (Point Reyes Bird Observatory unpublished data, Page 1988, Persons 1995,
Craig et al. 1992, Woolington 1985).
68
Figure 7.Equestrians on beach (photo by U.S. Forest Service, with
permission).
vi. Fishing
Impacts on western snowy plover nesting may be associated with surf fishing and
shellfish harvesting in and near western snowy plover habitat. The improper
disposal of offal (waste parts of fish), bait, and other litter attracts crows, ravens,
and gulls, which are predators of western snowy plover eggs and chicks. Also,
western snowy plovers may become entangled in discarded fishing lines (G. Page,
pers. comm. 1998).
Surf fishing is a commercial enterprise in many coastal locations, including the
ocean smelt fishery in northern California (C. Moulton in litt. 1997). Recreational
surf fishing occurs throughout the California coast. In Humboldt County,
California, Redwood National and State Parks have proposed allowing beach
vehicle use, by annual permit, for commercial fishing and tribal fishing/gathering on
Gold Bluffs Beach, Freshwater Spit, and Crescent Beach (J. Watkins in litt. 1999).
In the State of Washington, the most popular season for surf fishing is April through
July (Washington Department of Fish and Wildlife 1995). At present, demand for
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surf perch fishing is relatively low in Oregon. However, the Oregon Department of
Fish and Wildlife is promoting a surf perch fishery to lessen the demand for
anadromous fishing. This fishery would increase vehicle driving to remote and
relatively undisturbed sites used by western snowy plovers (K. Palermo in litt.
1998a).
Because the earliest western snowy plover clutches in Washington are laid between
mid-April and mid-May, harvesting of razor clams during the mid-March to mid-
May clamming season may have adverse impacts on prospecting or nesting western
snowy plovers. Clammers near nesting areas may disturb adults and chicks; human
activity in feeding areas may restrict western snowy plover foraging activity, and
increased motorized traffic may increase the risk of nest and chick loss (Washington
Department of Fish and Wildlife 1995). However, observations of western snowy
plover and human activities during the spring 1995 razor clam season showed
clamming had no visible impact on western snowy plovers where clamming
intensity was low (Kloempken and Richardson 1995). Instances of trespassing into
the western snowy plover protection area were noted; however, movement of the
western snowy plover protection area boundary about 327 meters (1,073 feet) west
of its previous location seemed to benefit the birds by providing more space
between them and pedestrian and vehicular disturbances.
vii. Fireworks
Fireworks are highly disturbing to western snowy plovers. All western snowy
plovers flushed from Coal Oil Point Reserve during a nearby July 4, 2005,
fireworks display (C. Sandoval, University of California Santa Barbara, pers.
comm. 2005). At Del Monte Beach, California, a western snowy plover chick
hatched on July 4, 1996, within an area demarcated by symbolic fencing, and was
abandoned by its parents after a fireworks display. Disturbance from the noise of
the pyrotechnics is exacerbated by disturbance caused by large crowds attracted to
fireworks events. California Department of Parks and Recreation staff estimated
that 6,000 people visited Del Monte Beach on that day. Because of the extensive
disturbance, the adult western snowy plovers left the nest site with two chicks,
abandoned the third chick, and were not seen again (K. Neuman, California
Department of Parks and Recreation, pers. comm. 1997). During July 4, 1992,
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observations of piping plovers that nest on the Breezy Point Cooperative and
adjacent beaches of Gateway National Recreation Area in Queens, New York, the
birds were disturbed by fireworks displays (Howard et al. 1993). Management
recommendations for this area included prohibition of fireworks in or near the
fenced and posted nesting and brood-rearing areas.
viii. Kite Flying and Model Airplanes
Biologists believe plovers perceive kites as potential avian predators (Hoopes et al.
1992, Hatch 1997). The reaction of western snowy plovers to kites at Ocean Beach
in San Francisco, California, “ranged from increased vigilance while roosting in
close proximity to the kite flying, to walking or running approximately 10 to 25
meters (33 to 82 feet) away and resting again while remaining alert” (Hatch 1997).
It is expected that stunt-kites would cause a greater response from western snowy
plovers than traditional, more stationary kites. Stunt kites include soaring-type,
two-string kites with noisy, fluttering tails, which often exhibit rapid, erratic
movements.
Hoopes et al. (1992) found that piping plovers are intolerant of kites. Compared to
other human disturbances (i.e., pedestrian, off-road vehicle, and dog/pet), kites
caused piping plovers to flush or move at a greater distance from the disturbance, to
move the longest distance away from the disturbance, and to move for the longest
duration. Piping plovers responded to kites at an average distance of 85 meters (279
feet); moved an average distance of over 100 meters (328 feet); and the average
duration of the response was 70 seconds.
It is expected that model airplanes may also have a detrimental impact to western
snowy plovers because western snowy plovers may perceive them as potential
predators (Hatch 1997).
ix. Aircraft Overflights
Low-flying aircraft (e.g., within 152 meters (500 feet) of the ground) can cause
disturbances to breeding and wintering western snowy plovers. Hatch (1997) found
that all types of low-flying aircraft potentially may be perceived by western snowy
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plovers as predators. She also found that the general response of roosting western
snowy plovers to low-flying aircraft at Ocean Beach, San Francisco, California, was
to increase vigilance and crouch in depressions on the beach, whereas foraging
western snowy plovers frequently took flight. Plovers may, however, become
acclimated to aircraft overflights in some instances, since at Naval Air Station North
Island they chose to nest repeatedly within military airfield boundaries on runway
ovals next to busy military runways (S. Vissman, U.S. Fish and Wildlife Service,
pers. comm. 1997). Federal Aviation Regulations, Part 91, General Operating and
Flight Rules, require that over open water, aircraft may not be operated closer than
152 meters (500 feet) to any person, vessel, vehicle, or structure. Emergency
operations, including those by Coast Guard helicopters, are exempted from these
rules. However, helicopters may be operated at less than 152 meters (500 feet) if
the operation is conducted without hazard to people or property on the surface (U.S.
Federal Aviation Administration 1997). Helicopters can cause excessive noise,
which can also disturb western snowy plovers, even at an altitude of 152 meters
(500 feet) (Howard et al. 1993; J. Watkins in litt. 1999; D. Stadtlander, pers. comm.
1999). At Marine Corps Base Camp Pendleton, California, where military training
can require aircraft (especially helicopters) to fly at very low elevations, the Marine
Corps minimizes impacts to western snowy plovers and California least terns by
requiring aircraft to stay at least 91 meters (300 feet) above the ground over tern and
plover nesting areas during the nesting season (U.S. Marine Corps 2006).
x. Special Events
Special events which attract large crowds, such as media events, sporting events,
and beach clean-ups, have a potential for significant adverse impacts when held in
or near western snowy plover habitat. An example is the National Marine Debris
Monitoring Program, implemented by the U.S. Environmental Protection Agency in
conjunction with the National Oceanic and Atmospheric Administration, National
Park Service, and the U.S. Coast Guard. This year-round program uses volunteers
(including high school students) to document and collect trash and marine debris on
coastal transects within western snowy plover nesting and wintering habitat.
Potential threats from crowds of people attracted to special events are similar to
those previously identified for pedestrians, including direct mortality and
harassment of western snowy plovers.
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xi. Coastal Access
Expanding public access to the coast (e.g., State Coastal Trails) for recreation (e.g.,
walking, hiking, biking) may adversely affect western snowy plovers and their
breeding or wintering habitat. Expanded coastal access brings significantly greater
numbers of people to the beach and other coastal habitats, exacerbating potential
conflicts between human recreational activities and western snowy plover habitat
needs (see Pedestrian section). Expanded coastal access may exceed the threshold
of beach visitors that public resource agencies (e.g., State Parks and National Park
Service) can effectively manage while also meeting their responsibilities to protect
natural resources.
Bicycles are known to adversely affect western snowy plovers nesting on levees and
roads near San Francisco Bay salt ponds within the Don Edwards San Francisco
Bay National Wildlife Refuge. Many of these levees are closed to human access,
but some bicyclists trespass onto closed levees. In 1998, one western snowy plover
nest, located on the main access road to the Refuge, was run over by a bicycle as
biologists were putting up a barrier to protect it (J. Albertson in litt. 1999).
xii. Livestock Grazing
Western snowy plover nests have been trampled by cattle, causing both direct
mortality of eggs and flushing of adults from the nests (U.S. Fish and Wildlife
Service in litt. 1995). Additionally, feral pigs (Sus scrofa) may trample western
snowy plover habitat and disturb nesting western snowy plovers (R. Klinger, The
Nature Conservancy, pers comm. 1998, D. George in litt. 2001). Cow and horse
manure can introduce seeds of non-native plants into the dunes.
c. Oil Spills
The Pacific Coast population of the western snowy plover is vulnerable to oil spills.
Western snowy plovers forage along the shoreline and in sea wrack (seaweed and
other natural wave-cast organic debris) at the high-tide line and are thus at risk of
direct exposure to oil during spills. The loss of thermal insulation is considered to
be the primary cause of mortality in oiled birds (National Research Council 1985,
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Leighton 1991). Oiled feathers lose their ability to keep body heat in and cold water
out, causing reduced insulation, increased metabolic rate, and hypothermia.
Ingestion of oil may lead to physiological changes in birds, including pathological
effects on the alimentary tract, blood, adrenal glands, kidneys, liver, and other
organs (Fry and Lowenstine 1985, Khan and Ryan 1991, Burger and Fry 1993).
Exposure of adult birds to oil also may impair reproduction, including reductions in
egg laying and hatchability (Ainley et al. 1981, Fry et al. 1986) and reductions in
survival and growth of chicks (Trivelpiece et al. 1984). Oil transferred to eggs from
plumage or feet of incubating birds can kill embryos (Albers 1977, Albers and
Szaro 1978, King and Lefever 1979). Oiled shorebirds may spend more time
preening and less time feeding than unoiled birds, such that their body condition and
ability to migrate to breeding grounds and reproduce may be impaired (Evans and
Keijl 1993, Burger 1997).
Oil spills may result in contamination or depletion of western snowy plover food
sources. Elevated concentrations of total petroleum hydrocarbons have been found
in the sand crab (Emerita analoga), a potential western snowy plover food item,
following a southern California oil spill (J.E. Dugan, unpublished data). Oil or
other chemicals washed onto mudflats or sand beaches may result in reduction in
the availability of invertebrate prey (Kindinger 1981). Elimination of shorebird
food resources on intertidal flats of the Saudi Arabian Gulf coast as a result of the
large oil spills associated with the 1991 Gulf War led to drastic reductions in the
number of shorebirds supported by this habitat (Evans et al. 1993). Disturbance and
other adverse impacts to western snowy plovers also may occur during oil clean-up
activities if response teams are not careful when driving heavy equipment and
vehicles or traversing on foot through western snowy plover habitat.
During the 1990s, at least six oil spill incidents in California and one in Oregon
resulted in adverse impacts to western snowy plovers. The U.S. Coast Guard and
various other State and Federal agencies and the responsible parties responded to
these spills. One of these incidents occurred between 1984 and 1998 at Unocal’s
Guadalupe Oil Field in San Luis Obispo, California contaminated western snowy
plover habitat with toxic hydrocarbons. In 1993, oil spilled from a ruptured oil
transfer line into McGrath Lake, Ventura County, California and then flowed into
the Pacific Ocean. Western snowy plover habitat and prey were contaminated with
74
oil and wintering western snowy plovers were displaced during the cleanup
activities (S. Henry in litt. 1998, McGrath Oil Spill Restoration Scoping Document
1995). In 1996, the SS Cape Mohican discharged fuel oil into the San Francisco
Drydock Shipyard, California, where it spread throughout the central bay and into
the Pacific Ocean, oiling western snowy plovers and their beach habitat (Cape
Mohican Trustee Council 2002, Point Reyes Bird Observatory unpublished data).
In 1997, a pipeline extending between an offshore oil platform (Platform Irene) and
the mainland ruptured near Pedernales Point, Santa Barbara County, California,
oiling western snowy plovers and wrack where western snowy plovers were seen
feeding (Applegate 1998, Ford 1998, Lockyer et al. 2002). In 1997 and 1998, large
numbers of tarballs became stranded on beaches at Point Reyes National Seashore
and resulted in oiling of snowy plovers and their habitat. Subsequent tarball
incidents in 2001 and 2002 resulted in identification of the source of the tarballs as
the SS Jacob Luckenbach, an oil tanker that sank in 1953 (Carter and Golightly
2003, Point Reyes Bird Observatory unpublished data, Hughes 2003). In 1999, the
dredge M/V Stuyvesant spilled fuel oil into the Pacific Ocean off Humboldt Bay,
California (U.S. Coast Guard 2001), resulting in oiling of western snowy plovers
and their habitat (LeValley et al. 2001).
In February 1999, the freighter New Carissa went aground near the North Jetty of
Coos Bay, Oregon, breaking apart and spilling 25,000 to 70,000 or more gallons of
oil into coastal water. (U.S. Bureau of Land Management 2001). The incident oiled
approximately 52 snowy plovers, representing at least 60 percent of the Oregon
wintering population of western snowy plover (Stern et al. 2000). In Washington,
the 1988 Nestucca oil spill and the 1991 Tenyo Maru oil spill may also have
affected western snowy plovers or their habitats, although impacts are not as well
documented as in the above cases (Larsen and Richardson 1990).
In addition to catastrophic spills like those described above, chronic oil pollution
may affect western snowy plovers. Surveys of beached birds have shown that
small-volume, chronic oil pollution is an ongoing source of avian mortality in
coastal regions (Burger and Fry 1993). Dead oiled birds and tarballs are found
regularly on Pacific coast beaches in the absence of reported oil spills (Roletto et al.
2000). Potential sources of chronic oiling include natural seeps, bilge water
pumping, sunken vessels, urban runoff, and small or unreported spills from vessels,
75
tankers, pipelines, and offshore oil platforms. Elevated concentrations of total
petroleum hydrocarbons have been found in the sand crab (Emerita analoga), a
potential western snowy plover food item, in the vicinity of natural oil seeps (Dugan
et al. 1997).
Intensive oil spill cleanup operations, including use of vehicles to deploy beach
booms, move personnel, and remove debris, cause disturbance to nesting and
foraging activities of western snowy plovers. These temporary impacts are offset by
restoration of habitat and cleaning affected birds.
d. Contaminants
The most likely route of exposure of western snowy plovers to contaminants other
than spilled oil is through the diet. Western snowy plovers feed on aquatic and
terrestrial insects, and the bioaccumulation of environmental contaminants on
western snowy plover nesting and wintering grounds may adversely affect their
health and reproduction. Organochlorines are known to have caused reduced avian
egg production, aberrant incubation behavior, delayed ovulation, embryotoxicosis,
and mortality of chicks and adults (Blus 1982). Selenium has caused decreased
hatchability of avian eggs, developmental abnormalities, altered nesting behavior,
and embryotoxicosis in birds in field and laboratory studies (Ohlendorf et al. 1986,
Heintz et al. 1987). Mercury can cause decreased hatchability of avian eggs
(Connors et al. 1975), boron has been shown to reduce hatchability of waterfowl
eggs in laboratory experiments (Smith and Anders 1989), and arsenic may also
adversely affect avian reproduction (Stanley et al. 1994).
Hothem and Powell (2000) analyzed 23 western snowy plover eggs collected from 5
sites (Camp Pendleton Marine Corps Base, Batiquitos Lagoon, Naval Amphibious
Base Coronado, Sweetwater Marsh National Wildlife Refuge, and Tijuana Estuary)
in southern California from 1994 to 1996 for metals and trace elements, and 20 eggs
for organochlorine pesticides and metabolites. All eggs were either abandoned or
failed to hatch. Organochlorines, including dieldrin, o,p’-DDD, o,p’-DDE, o,p’-
DDT, p,p’-DDD, p,p’-DDE, p,p’-DDT, oxychlordane, and trans-nonachlor were
found above the detection limits in western snowy plover eggs. Median DDE and
PCB concentrations were less than those normally associated with eggshell
76
thinning. deformities, or other detrimental effects on birds. Twelve metals and trace
elements (arsenic, boron, chromium, copper, iron, magnesium, manganese,
mercury, nickel, selenium, strontium and zinc) were detected in at least 90 percent
of the samples, but generally at background levels. Mean concentrations of all
contaminants were below those that would adversely affect reproduction.
Concentrations of mercury in western snowy plover eggs that failed to hatch at
Point Reyes National Seashore were five to ten times higher than the mercury
concentrations in the five Southern California locations studied by Hothem and
Powell (Schwarzbach et al. 2003). The mean mercury concentration of 1.07
micrograms/gram (1.07 parts per million), wet weight, in western snowy plover
eggs from Point Reyes National Seashore is probably high enough to account for
egg failure through direct toxic effects to western snowy plover embryos
(Schwarzbach et al. 2003). Because only failed and abandoned eggs were taken
rather than randomly collected eggs, the extent of mercury contamination of the
entire breeding western snowy plover population at Point Reyes can not be reliably
assessed from these data; however, the data from the 2000 field season would
suggest that about one fifth of the nests appeared to be at risk from adverse effects
of mercury (Schwarzbach et al. 2003).
e. Litter, Garbage, and Debris
Placement of litter, garbage, and debris in the coastal ecosystem can result in direct
harm to western snowy plovers and degradation of their habitats. Litter and garbage
feed predators and encourage their habitation at higher levels than would otherwise
occur along the coast, making predators a greater threat to western snowy plovers.
For example, as noted previously, the California gull (Larus californicus) has
become far more prevalent in the South San Francisco Bay area. Currently, the
estimated 25,000 California gulls in this area feed in landfills and forage in salt
marshes using habitat that once supported the western snowy plover (J. Albertson,
pers. comm. 2005).
Marine debris and contaminated materials on the beach also adversely affect
western snowy plovers. Marine debris is attributed to both ocean and shoreline
sources. Ocean sources of marine debris and contamination include fishing boats,
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ships, and cruise lines. Cruise line debris may include small plastic shampoo,
conditioner, hand lotion, and shoe polish containers, plastic cups, and balloons
(Center for Marine Conservation 1995). Shoreline debris is usually from land
sources. Western snowy plovers may become entangled in discarded fishing line,
fishing nets, plastic rings that hold together six-packs of canned drinks, and other
materials on the beach. Containers of contaminated materials (e.g., motor oil,
cleaning fluid, and syringes) can introduce toxic chemicals to the beach. The
National Marine Debris Monitoring Program, headed by the U.S. Environmental
Protection Agency, was established to clean and track sources of marine debris in
coastal areas. This monitoring program, while beneficial to western snowy plovers
in the long-term, could potentially adversely affect nesting western snowy plovers
since the program is conducted year-round. Similarly, the annual spring SOLV
beach cleanup held on the Oregon Coast in late March and the annual Coastal
Cleanup Day held on the California coast in September are two organized beach
events that are poorly timed with respect to prospecting and nesting western snowy
plovers. These programs could greatly improve western snowy plover habitat if
timed appropriately.
f. Water Quality and Urban Run-off
Many coastal beaches used as habitat by western snowy plovers contain channelized
streams or outfalls receiving run-off from urban, industrial, and agricultural areas.
Nonpoint sources of water pollution (including hydrocarbons, heavy metals, and
household chemicals) could end up at coastal beaches used as western snowy plover
foraging areas. In 1995, three dead male western snowy plovers (all banded and
local breeders) were found in an area containing local outfalls, including an outfall
connected to a sewage treatment plant at Monterey Bay. By the beginning of the
next breeding season, it was discovered that another male western snowy plover
from this area disappeared and possibly died. Factors unrelated to the outfall have
not been ruled out in the disappearance of this bird. One of the birds was analyzed
through necropsy and found to have an enlarged liver, but it could not be
determined whether there was a relationship between the mortality and the outfall
(Point Reyes Bird Observatory unpublished data).
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g. Management for Other Special Status Species
In several instances fencing used to enclose California least tern colonies has caused
mortality of western snowy plover chicks that have become entangled within the
fence mesh (Powell and Collier 1995, Powell et al. 1995), or prevented western
snowy plover chicks from following their parents to feeding areas by blocking their
movement (Powell et al. 1996). These issues have largely been resolved by
utilizing fencing with a mesh size of less than 0.64 centimeter (0.25 inch),
tightening gaps in fencing seams, and installing “gates” in tern fencing (Foster
2005). Monitoring and minimization measures to avoid these impacts continue to
be implemented in coordination with the appropriate Fish and Wildlife Offices.
Increasing density and abundance of California least terns within colonies may also
result in western snowy plovers being displaced a short distance, but the benefits of
tern management for western snowy plovers appear to outweigh such conflicts.
At the Channel Islands and other lands managed by the National Park Service and
the Department of the Navy, a decline of western snowy plovers may be caused by
disturbance and habitat loss resulting from the large increase in numbers of marine
mammals on beaches (U.S. Fish and Wildlife Service in litt. 1995, U.S. Department
of the Navy in litt. 2001). Breeding pinnipeds, including northern elephant seals
(Mirounga angustirostris), northern fur seals (Callorhinus ursinus) and California
sea lions (Zalophus californianus) at San Miguel Island and San Nicolas Island,
have occupied western snowy plover nesting habitat. Beach-cast dead whales have,
on occasion, posed threats to nesting western snowy plovers. At Point Reyes
beaches, large, whole carcasses have washed ashore and other agencies such as the
National Marine Fisheries Service have sought to collect them for scientific
purposes. They also attract people who are curious about whales. These activities
could potentially cause direct mortality and disturbance to western snowy plovers.
In addition, mammal carcasses attract scavengers such as gulls, ravens, crows, and
coyotes that are potential predators to western snowy plovers.
E. IMPLICATIONS FOR THE COASTAL BEACH-DUNE ECOSYSTEM
The western snowy plover lives in an ecosystem that has been significantly
degraded. Environmental stressors (i.e., development, human recreation, degraded
79
water quality, etc.) have adversely affected the biological diversity of the coastal
dune ecosystem. Many of the characteristics that attract people to coastal areas
make these areas prime habitat for fish and wildlife resources. Although they
comprise less than 10 percent of the Nation, coastal ecosystems are home to over
one-third of the United States human population, nearly two-thirds of the Nation’s
fisheries, half of the migratory songbirds, and one-third of our wetlands and
wintering waterfowl (U.S. Fish and Wildlife Service 1995a). The coasts also
provide habitat for 45 percent of all threatened and endangered species, including
three-fourths of the federally-listed birds and mammals (U.S. Fish and Wildlife
Service 1995a). Proper stewardship of this unique ecosystem is needed to maintain
its ecological integrity while meeting its human demands.
1. Description of Coastal Beach-Dune Ecosystem
The coastal beach-dune ecosystem may include several features such as beaches,
foredunes, deflation plains, blow-outs, and reardunes. The beach includes the
expanse of sandy substrate between the tide line and the foredune or, in the absence
of a foredune, to the furthest inland reach of storm waves. Beach steepness, height,
and width are affected by wave height, tidal range, sand grain size, and sand supply.
The beach has high exposure to salt spray and sand blast and contains a shifting,
sandy substrate with low water-holding capacity and low organic matter content.
Dunes include sandy, open habitat, extending from the foredune to typically inland
vegetation on stabilized substrate. Major differences occur between beach and dune
in salt spray, soil salinity, and air and soil temperatures (Barbour and Major 1990).
Coastal dunes generally consist of three primary zones (Powell 1981). The
foredunes are the line of dunes paralleling the beach behind the high tide line.
Foredunes are characterized by unstabilized sand and a simple community of low-
growing native dune plant species, such as American dunegrass (Leymus mollis).
Foredunes also support a rich community of sand-burrowing insects (Powell 1981).
Behind the foredunes is the deflation plain, which is at or near the water table and is
characterized by a mixture of water tolerant plants and dune species. Deflation
plains are also called dune hollows and can be invaded by hydrophilic (having a
strong affinity for water) trees, shrubs, or herbs (e.g., species of Carex, Juncus,
Salix, Scirpus) (Barbour and Major 1990). The inner zone of coastal dunes consists
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of stabilized dunes, which are dominated by woody perennial plants (Powell 1981).
Beach flora can also colonize inland dune areas, where the sand is actively moving
(Barbour and Major 1990).
Barren dunes, receiving sand from the beach and losing it to wind erosion, are
mobile. Older, more inland dunes are stabilized by a nearly continuous plant cover;
these dunes are referred to as stable dunes or fixed dunes. Localized openings in the
plant cover, which permit wind erosion, are called blowouts, but they are not deep
enough to allow invasion by mesophytes (plants growing in moderately moist
environments). The innermost ridge of sand is generally high and is called a
precipitation ridge; sand is blown over the ridge and down the slipface, continuing
the process of dune advance (Barbour and Major 1990). The conditions necessary
for dune growth at the coast are partly climatic, but more important is the
occurrence of strong onshore winds, abundant sand supply, and vegetation that traps
sand. Low, near-shore slopes with a large tidal range providing wide expanses of
sand that dries at low tide are ideal for dune growth (Pethick 1984).
Very few coastal dunes are “natural,” because they have been extensively altered
over time by humans for agriculture, mineral extraction, military training, and
recreation (Carter 1988). Before the introduction of European beachgrass,
foredunes were low and rose gradually, and a large number of native species shared
this habitat. They were composed of a series of dunes alternating with swales
oriented perpendicular to the coast and aligned with prevailing onshore winds.
Since the introduction of European beachgrass, most systems have been replaced by
a steep foredune that gives way inland to a series of dunes and swales oriented
parallel to the coast (Barbour and Major 1990).
Western snowy plovers use the beach and mobile dunes as nesting habitat. Other
habitat features that occur within or adjacent to the coastal beach-dune ecosystem,
and serve as important foraging habitat for the western snowy plover, include river,
stream, and creek mouths, river bars, lagoons, and tidal and brackish-water
wetlands.
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2. Sensitive Species of the Coastal Beach-Dune Ecosystem
Along with the western snowy plover, many other sensitive species inhabit the
coastal beach-dune ecosystem and adjacent habitats. Appendix E contains a list of,
and brief species accounts for, sensitive species associated with this ecosystem and
adjacent habitats. We recognize these fish and wildlife species as endangered,
threatened, candidate species, or species of concern. This list includes a number of
sensitive species recognized by the states of California, Oregon, and Washington.
This appendix also describes several marine mammals associated with the coastal
beach-dune ecosystem and protected under the Marine Mammal Protection Act of
1972 (16 U.S.C. 1361 et. seq.), as amended.
Some of these sensitive species have many threats in common with the western
snowy plover. Habitat loss and degradation from shoreline development and beach
stabilization, invasion of exotic species, and crushing by off-road vehicles are cited
as major factors contributing to the status and listing of these species. European
beachgrass is a current or potential threat to six federally-listed endangered plants
that occur in coastal dunes of California: beach layia (Layia carnosa), Howell’s
spineflower (Chorizanthe howellii), Monterey spineflower (Chorizanthe pungens
var. pungens), Menzies’ wallflower (Erysimum menziesii), Monterey gilia (Gilia
tenuiflora ssp. arenaria), and Tidestrom’s lupine (Lupinus tidestromii) (Pickart
1997). European beachgrass is also a current and potential threat to native and
sensitive plants in Washington and Oregon, including the pink sand-verbena
(Abronia umbellata ssp. breviflora), which is classified as endangered in the State
of Oregon. Equestrian use has also been identified as a threat to several endangered
plant species, including the endangered Howell’s spineflower, Menzies’ wallflower,
Monterey gilia, and the coastal dunes milk vetch (Astragalus tener var. titi). Off-
road vehicles are cited as threats to several sensitive plant and animal species,
including the endangered beach layia, Menzies’ wallflower, Monterey gilia,
Tidestrom’s lupine, Hoffman’s slender-flowered gilia (Gilia tenuiflora var.
hoffmanii), and Smith’s blue butterfly (Euphilotes enoptes smithi); the federally
endangered La Graciosa thistle (Cirsium longholepis), and the following species
considered to be of Federal concern: beach spectacle pod (Dithyrea maritima) and
Morro blue butterfly (Icaricia icarioides morroensis).
82
The precarious status of these species is a symptom of a highly stressed ecosystem.
Remedial efforts aimed at restoration of the natural processes that maintain this
ecosystem, rather than single-species “fixes,” are likely to have the greatest and
most successful long-term benefits. Important components of ecologically-sound
coastal beach-dune ecosystem management include (1) removal of exotic, invasive
vegetation; (2) management of human recreation to prevent or minimize adverse
impacts on dune formation, vegetation, invertebrate and vertebrate fauna; and (3)
efforts to counter the effects of human-induced changes in the types, distribution,
numbers, and activity patterns of predators. Implementation of more ecosystem-
oriented approaches to western snowy plover protection would provide important
benefits to other sensitive species within the coastal dune ecosystem and merits
serious consideration.
Some western snowy plover recovery efforts implemented to date (e.g., removal of
European beachgrass) support the natural functions of the coastal dune ecosystem.
Furthermore, many protection efforts for western snowy plovers should benefit
other sensitive beach species, such as California least terns, and vice versa. Many
of the same predators that take western snowy plover eggs also prey on California
least tern eggs. The relatively low rate of predation of western snowy plover nests
in San Diego County has been attributed to predator control programs to benefit
California least terns and other species, funded primarily by the Department of
Defense and National Wildlife Refuge System (Powell et al. 1995). These
programs are implemented under contract with the U.S. Department of Agriculture,
Wildlife Services branch. Control of ants at California least tern colonies probably
also benefits western snowy plovers nesting nearby. Opportunities also may exist
for reestablishment of special status plant species that occur in coastal dunes,
including Menzies’ wallflower, beach spectacle pod, Tidestrom’s lupine, beach
layia, and pink sand verbena.
Some conflicts have occurred in management of western snowy plovers and
California least terns in southern California, including harm to western snowy
plover chicks due to entanglement in the mesh of California least tern fencing as
described above. These problems have now largely been minimized with the use of
new methods and materials, however such management measures should continue
83
to be coordinated to meet the habitat needs of both western snowy plovers and
California least terns.
Potential conflicts also exist between native dune restoration and western snowy
plover habitat. Revegetation efforts could result in too much cover, thereby
reducing the amount of suitable breeding habitat available for western snowy
plovers.
Conflicting habitat requirements for western snowy plovers and pinnipeds have also
occurred on lands where marine mammals haul out or breed on beaches that would
otherwise be suitable for nesting western snowy plovers (U.S. Fish and Wildlife
Service in litt. 1995, U.S. Department of the Navy in litt. 2001). Where this conflict
continues to occur, coordination with land management agencies and NOAA’s
National Marine Fisheries (NMFS) may be helpful to identify methods for
modifying or discouraging use by breeding pinnipeds during the western snowy
plover nesting season.
Although some management measures may benefit a broad array of sensitive
species within the coastal dune ecosystem (i.e., control of Ammophila, access
restrictions, and integrated predator management programs), some single-species
protection measures for the western snowy plover, such as exclosures, are needed.
Although exclosures can be risky to nesting western snowy plovers in some
situations (see Lauten et al. 2006), they can be an effective way to protect nests
against heavy recreational use and predation, especially where reductions in
predator numbers would otherwise be temporary and difficult to achieve or would
have adverse ecological effects.
F. CONSERVATION EFFORTS
Western snowy plover recovery efforts have accelerated since this population was
federally listed as a threatened species in 1993. Current breeding and wintering site
protection efforts are documented in Appendix C (Summary of Current and
Additional Needed Management Activities). The most common management
strategies include protection of nests with predator exclosures; signing and symbolic
fencing of nesting areas; restrictions on motorized vehicles in the vicinity of western
84
snowy plover nests and broods; restrictions on dogs (even though enforcement of
dogs on-leash has been problematic); and public information and outreach. These
strategies are effective means of improving western snowy plover reproductive
success.
1. Conservation Planning on Federal and State Lands
The direction of land management on Federal lands is often outlined in management
plans or agency regulations that provide objectives and guidelines for western
snowy plovers. These plans include the Naval Base Coronado Integrated Natural
Resources Management Plan (U.S. Navy 2001), Camp Pendleton Integrated Natural
Resources Management Plan (U.S. Marine Corps 2006), San Diego Bay National
Wildlife Refuge Comprehensive Conservation Plan (U.S. Fish and Wildlife Service
2006c), Oregon Dunes National Recreation Area Management Plan (U.S. Forest
Service 1994), the Coos Bay Shorelands Final Management Plan (U.S. Bureau of
Land Management 1995a), the New River Area of Critical Concern Management
Plan (U.S. Bureau of Land Management 1995b), the Draft Snowy Plover
Management Plan for Ocean Beach, Golden Gate National Recreation Area (Hatch
1997), and the Western Snowy Plover Management Plan for the Point Reyes
National Seashore (White and Allen 1999).
Wildlife protection, especially the preservation, restoration, and enhancement of
threatened and endangered species and migratory birds, is the primary goal of
national wildlife refuges, as stated in the National Wildlife Refuge System
Administration Act of 1997 (16 U.S.C. 668dd et. seq.). Western snowy plover
habitat on national wildlife refuges has been accorded intensive protection,
including (1) integrated predator management and (2) closures during the nesting
season where appropriate, to minimize adverse effects of disturbance. Consistent
with requirements of the National Wildlife Refuge System Administration Act and
the Refuge Recreation Act of 1962, as amended (16 U.S.C. 460k et. seq.) regarding
compatibility of refuge activities, western snowy plover nesting areas within some
national wildlife refuges are closed to public use during the breeding season.
Western snowy plover use areas within some national wildlife refuges (such as
Salinas River National Wildlife Refuge) are closed to public use year-round.
85
Additionally, the Department of Defense manages for western snowy plovers on
military installations through actions associated with section 7 of the Endangered
Species Act and through conservation planning efforts (e.g., Programmatic
Activities and Conservation Plans in Riparian and Estuarine/Beach Ecosystems on
Marine Corps Base Camp Pendleton, 1995; see also Federal Regulatory Program,
below). This includes avoidance and minimization measures, which have resulted
in individual military installations placing limits on or otherwise restricting military
activities and implementing management actions to specifically benefit western
snowy plovers, such as monitoring, predator control, habitat improvement, and
research. This management, in conjunction with other factors such as habitat
availability and restricted public access, has allowed certain Department of Defense
lands to significantly contribute to regional western snowy plover populations.
The Washington State Recovery Plan for the Western Snowy Plover recommends
strategies to recover this species, including protection of the population, evaluation,
and management of habitat, and initiation of research and education programs
(Washington Department of Fish and Wildlife 1995).
The State of Oregon’s Conservation Program for the Coastal Population of the
Western Snowy Plover, required by the Oregon Endangered Species Act and
adopted by the Oregon Fish and Wildlife Commission (Oregon Revised Statutes
496.171 through 496.192), requires a variety of actions to protect this subspecies.
These actions include: (a) protecting all existing western snowy plover sites from
negative impacts; (b) monitoring impacts and responding to damaging activities
(e.g., urban development and recreation disturbance) to minimize or eliminate their
effects to western snowy plovers; (c) maintaining a long-term monitoring program
to track numbers, distribution, and nesting success; (d) habitat management, such as
local control of European beachgrass and maintaining predator protection measures
to maximize breeding success for as long as deemed necessary; (e) conducting
additional research to maintain and recover western snowy plovers; and (f)
enhancing information availability, education, and awareness of western snowy
plovers and their requirements for survival and recovery (Oregon Department of
Fish and Wildlife 1994).
86
The California Public Resources Code (Section 5019.71) allows designation of
natural preserves, the most protective designation given to a part of any California
State Park system unit. The purpose of natural preserves is to preserve such
features as rare or endangered plant and animal species and their supporting
ecosystems, and representative examples of plant or animal communities existing in
California prior to the impact of civilization. The Pajaro Rivermouth Natural
Preserve, Wilder Creek Natural Preserve, and Salinas Rivermouth Natural Preserve
were designated by the California State Park and Recreation Commission in
recognition of the need to protect western snowy plovers. In addition, Section
5019.62 of the California Resources Code allows the designation of State seashores
to preserve the outstanding values of the California coastline and provide for public
enjoyment of those values. Within the state of California, the following California
State seashores containing western snowy plover habitats have been established:
Del Norte State Seashore; Clem Miller State Seashore; Sonoma Coast State
Seashore; Año Nuevo State Seashore; Monterey Bay State Seashore; San Luis
Obispo State Seashore; Point Mugu State Seashore; Capistrano Coast State
Seashore; and San Diego Coast State Seashore. Under the California Public
Resources Code, the California Department of Parks and Recreation has the
authority to identify additional lands appropriate for inclusion in California State
seashores and recommend land acquisition for these purposes.
Special management actions for western snowy plovers are conducted within the
portions of California State Seashores that are owned by the California Department
of Parks and Recreation. An example is the Monterey State Seashore, where the
California Department of Parks and Recreation has conducted intensive
management activities for western snowy plovers since 1991. Strategies include
resource management, interpretation, law enforcement, and park operations.
Resource management actions include monitoring, predator trapping, and use of
exclosures, symbolic fences, and signage, and consideration of snowy plovers
during planning recreational access and trails in San Francisco Bay. Interpretative
efforts include informational signage at nesting areas, information brochures, small
handout cards with photographs and information on western snowy plovers, several
annual public outreach programs (e.g., slide programs and field trips), and actions to
engage community support for the western snowy plover guardian program (i.e.,
recruitment, training, and scheduling for volunteer presence in sensitive habitat).
87
Enforcement actions include verbal warnings, written warnings, citations, and
arrests as necessary. Key enforcement concerns include dogs off-leash and off-road
vehicles, which are prohibited on all beaches. Operational management includes a
permit process that screens special events to avoid the nesting season in sensitive
areas, and regulation of recreational use of beaches to avoid sensitive areas (i.e., kite
flying, hang gliding, fishing, etc.). Other management actions on California
Department of Parks and Recreation property within some other State seashores are
shown in Appendix C.
2. Conservation Efforts on Federal and State Lands
a. Exclosures, Symbolic Fencing, and Signs
Since 1991, one of the primary techniques to protect nesting western snowy plovers
has been the use of exclosures (Appendix F). Exclosures are small, circular, square,
or triangular metal fences that can be quickly assembled and are designed to keep
predators out of nests and/or prevent people from trampling nests (Figure 8).
Exclosure designs are described in Appendix F; modifications to exclosure design
in response to site specific predator conditions may be appropriate on a case by case
basis but should be coordinated in advance with the Fish and Wildlife Service.
Nests protected from predators by exclosures have consistently had increased nest
success (White and Hickey 1997, Stern et al. 1991, Craig et al. 1992, Mabee and
Estelle 2000, U.S. Fish and Wildlife Service 2002, Lauten et al. 2006). At some
locations in Oregon and California, exclosures are designed with tops consisting of
parallel lengths of nylon seine lines spaced approximately 15 centimeters (6 inches)
apart -or- mesh netting with a minimum spacing of approximately 10 centimeters (4
inches), designed to discourage entry by avian predators. At Eden Landing State
Ecological Reserve in San Francisco Bay, nest predation decreased from 32 percent
in 2000 to 3 percent in 2001, largely due to a switch from string tops to net tops on
exclosures (Marriott 2001).
88
Figure 8.Erecting western snowy plover exclosure (photo by Sue Powell, with
permission).
Although exclosures are contributing to improved productivity and population
increases in some portions of the western snowy plover’s Pacific coast range,
problems have been noted in some localities. Potential risks associated with
exclosures include vandalism, disturbance of the birds by curiosity seekers, and use
of exclosures as predator perches. Over time, exclosures may provide a visual cue
to predators, making it easier for them to target adults, chicks, and eggs, and
requiring predator management. On several occasions depredations of adult
western snowy plovers have been documented in or near exclosures, and efforts
have been made to establish exclosures later in the season after the peak migration
of raptors (Brennan and Fernandez 2004, Lauten et al. 2006). Also, predator
exclosures may be impractical where western snowy plovers nest within California
least tern colonies or other instances where such exclosures may conflict with the
needs of other threatened or endangered species.
Symbolic fencing also is used to passively protect western snowy plover nests, eggs,
and chicks during nesting season. This fencing consists of one or two strands of
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light-weight cord or cable strung between posts to delineate areas where humans
(e.g., pedestrians and vehicles) should not enter (Figure 9). It is placed around areas
where there are nests or unfledged chicks, and is intended to prevent accidental
crushing of eggs, flushing of incubating adults, and, if large enough, to provide an
area where chicks can rest and seek shelter when large numbers of people are on the
beach. Directional signs (regarding closed areas, nesting sites, etc.) also are used
within western snowy plover habitats and near protective fencing to alert the public
and other beach users of the sensitivity of western snowy plover nesting and
wintering areas. Installation of symbolic fencing at Coal Oil Point Reserve (CA-88)
in conjunction with a docent program has allowed management of
Figure 9.Symbolic fencing on beach at Monterey Bay, California (photo by
Ruth Pratt, with permission).
recreational use and resulted in successful re-establishment of a breeding population
of western snowy plovers at the site (Lafferty et al. 2006).
Additionally, land managers may prevent or restrict access to areas used by nesting
western snowy plovers. For example, military installations often curtail or redirect
training activities near western snowy plover nesting areas and some State parklands
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and recreation areas restrict public access in certain areas during the breeding
season.
b. Law Enforcement
Management agencies recognize that law enforcement is needed for protection
measures to be effective. Though a majority of beach visitors respect restrictions to
protect western snowy plovers, there will always be a certain percentage who do
not. Enforcement of western snowy plover area restrictions shows that managers
are serious about compliance. In Oregon, biologists have established a working
relationship with a variety of law enforcement agencies who have jurisdiction in
western snowy plover habitat. Their goal is to increase awareness, gain advice,
increase communication and coordination to alleviate jurisdictional conflicts, and
train officers on how to minimize disturbance while patrolling western snowy
plover habitat. Conflicting priorities and personnel turnover require perseverance to
maintain effective working relationships across law enforcement jurisdictions.
c. Predator Control
Lethal and nonlethal means of predator control have been used with mixed success
to protect western snowy plovers on Pacific beaches. Nonlethal methods include
litter control at campgrounds (to reduce available food sources), exclosures and
fencing, and trapping and relocation. Lethal methods include reducing local
populations of avian predators by addling (i.e. killing the developing chick within
the egg) of raptor and corvid eggs, trapping and euthanizing nonnative mammalian
predators, and killing individual predators upon which nonlethal methods have
proven ineffective.
On the Oregon Coast, snowy plover predator control has historically been in the
form of nest exclosures and site specific lethal control. The use of nest exclosures,
adaptively modified in response to predator behavior, has been very successful in
increasing hatching success. However, because in some cases predation on adults
has been linked to the presence of exclosures, their use is presently targeted to
specific instances where it appears most beneficial, and the program is working
toward elimination of exclosure use (Lauten et al. 2006a, 2006b).
91
In 2002, Federal and State agencies approved an integrated predator management
program to improve western snowy plover nesting and fledging success in Oregon.
The decision followed public review and comment on an analysis of the effects of
the proposed predator control methods and alternatives to protect the western snowy
plover in Oregon (U.S. Department of Agriculture 2002). To date lethal predator
control has been implemented at selected plover breeding sites along the Oregon
Coast at Coos Bay North Spit, Bandon Beach, New River, Siltcoos, Overlook,
Tahkenitch, and Tenmile, resulting in an overall positive effect on western snowy
plover productivity (Lauten et al. 2006a, 2006b).
Another form of predator control is fencing, which is used on the south spoils area of
Coos Bay, North Spit, where the U.S. Bureau of Land Management, U.S. Army
Corps of Engineers, and Oregon Department of Fish and Wildlife have fenced 8
hectares (20 acres) of western snowy plover nesting habitat. This wire mesh fence
was installed to exclude mammalian predators, especially skunks, and to discourage
human disturbance from off-highway vehicle use. The original fence, constructed in
1991, suffered from the effects of weathering and although it continued to deter
vehicles, it was no longer an effective barrier to predators. In 1998, the U.S. Army
Corps of Engineers and U.S. Bureau of Land Management jointly constructed a new
fence and removed the old fence. The new fence matched the design of the 1991
fence (5-centimeter by 5-centimeter (2-inch by 2-inch) mesh fence material with an
effective fence height of about 1.2 meters (4 feet) after burial of the bottom).
However, the new fence has increased the protected area from 8 hectares (20 acres)
to 28 hectares (71 acres), and includes both the south spoils area and the 1994
Habitat Restoration Area (E.Y. Zielinski and R.W. Williams in litt. 1999).
At the Don Edwards San Francisco Bay National Wildlife Refuge, fences are
sometimes constructed across salt pond levees to block access by terrestrial predators
(J. Albertson in litt. 1999). However, fences are not feasible in many areas, and do
not restrict aerial predators.
Exclosures are much more effective when used in conjunction with an integrated
predator management program that includes selective removal of non-native
predators and other individual problem predators. Otherwise, exclosures may
promote better hatching success, but not fledging success if predators such as red fox
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(Vulpes vulpes) focus on adults protecting the nest or newly-hatched chicks that
leave the exclosure to feed. These measures are also much more effective where
combined with other access restrictions to increase survival of clutches and broods.
Trapping the nonnative red fox has been credited with substantially increased
western snowy plover abundance and productivity at Salinas River National Wildlife
Refuge (E. Fernandez, U.S. Fish and Wildlife Service, pers. comm. 1998). At the
Don Edwards San Francisco Bay National Wildlife Refuge, predation on western
snowy plovers and California clapper rails by red foxes prompted the initiation of a
predator management program targeting red foxes, feral cats, skunks, and raccoons,
in conjunction with use of western snowy plover nest exclosures (J. Albertson in litt.
1999, Strong et al. 2004). This ongoing program has resulted in improved nest
success. Use of exclosures has subsequently been discontinued due to the success of
the trapping program and incidents of nest abandonment at exclosures. At Eden
Landing Ecological Reserve selective removal of problem corvids and their nests has
also been practiced by USDA Wildlife Services since 2004 (Tucci et al. 2006).
The U.S. Air Force has used electric fencing around the California least tern colony
at Purisima Point, Vandenberg Air Force Base, California, where western snowy
plovers also nest and winter. The electrified portion of this fence is approximately
273 meters (300 yards) long and 1.2 meters (4 feet) high. The electric fence contains
six strands of electrified wire placed approximately 10.2 centimeters (4 inches) apart.
This fence is generally effective at keeping out mammalian predators of California
least terns. It has also incidentally protected a small population of western snowy
plovers by deterring western snowy plover predators.
Proposals have been developed to test a conditioned taste aversion technique on
predators of piping plovers (i.e., red fox) by using quail eggs treated with the
chemical emetine (McIvor 1991). The purpose of this technique is to condition
foxes to avoid eating plover eggs, expecting that if foxes eat treated quail eggs prior
to the nesting season and become sick, they might develop a conditioned aversion to
eating plover eggs. This technique requires that the predator consumes the needed
dose that will produce short-term illness but no mortality. Due to uncertainty in
effectiveness, at this point in time we do not advocate this taste aversion technique.
Proposals to test conditioned taste aversion techniques on predators of piping plovers
on the east coast have not been implemented due to difficulties obtaining permission
93
to field test emetine (A. Hecht, U.S. Fish and Wildlife Service, pers. comm. 1996).
Avery et al. (1995) found that deployment of quail eggs treated with the chemical
methiocarb might be a useful means of reducing predation of California least terns
by ravens and crows. However, subsequent tests of aversion methods have proven to
be unsuccessful (E. Copper and B. Foster in litt. 2001).
With proper research, techniques that have been used to deter predators of other
wildlife species may prove beneficial to western snowy plovers. Strategic placement
of crow and gull carcasses around the perimeter of a California least tern colony has
been used at Vandenberg Air Force Base (Persons and Applegate 1996), however,
this method may not be effective for more loosely colonial species such as snowy
plover (J. Buffa in litt. 2004). Moreover, the presence of gull carcasses could prove
counterproductive by attracting mammalian predators (N. Read, U.S. Air Force, pers.
comm. 1998).
In 1999 Vandenberg Air Force Base initiated studies of coyote ecology and
movements, with the goal of developing non-lethal alternatives for reducing coyote
predation on western snowy plover. Although results are preliminary, in 2001 beach
access restrictions and regular pick-up of trash, in combination with availability of
alternative prey such as rabbits, may have contributed to the lowest incidence of
coyote predation ever recorded at Vandenberg Air Force Base, even though evidence
of coyote presence continued to be observed on a daily basis.
For top-level predators such as coyotes, western snowy plover nests are not a primary
food source. Vandenberg Air Force Base has avoided large-scale coyote removal to
prevent exacerbated predation on listed species from mesopredators such as racoons,
and to prevent expansion of non-native predators such as feral cats and red foxes into
western snowy plover nesting areas (N. Read Francine in litt. 2001).
d. European Beachgrass Control
Experiments to find cost-effective methods to control or eradicate European
beachgrass are ongoing. Control methods employed in various situations have
included foredune grading and foredune breaching with front-end loaders and
bulldozers, subsoiling with a winged subsoiler (essentially a heavy duty three-point
94
plow), discing with a standard farm tractor and disk, burning, saltwater irrigation,
spraying of herbicide, and hand-pulling. Herbicide treatment is not always possible,
however, when rare or federally-listed plants are present. In these cases hand-pulling
or other mechanical removal may need to be employed. At Point Reyes National
Seashore mechanical and hand-removal were used to remove non-native beach grass
on 12 hectares (30 acres) with immediate beneficial response by nesting snowy
plovers (Peterlein and Roth 2003). Some control methods are only suitable for the
inland sites. Areas containing heavy growth of European beachgrass and woody
vegetation are prescribed-burned prior to using heavy equipment. Areas are leveled
to allow discing for maintenance. In some areas, oyster shell hash provided by a
local oyster grower has been distributed after vegetation has been removed.
Effectiveness of the various control methods varies, though some form of
maintenance may always be required. Maintenance is critical and achieved through
multiple treatments over a succession of years. Discing requires maintenance twice
per year to keep beachgrass from reestablishing. Comparatively, yearly maintenance
in portions of some restoration sites may not be needed after employing several years
of bull-dozing, herbicides, or hand-pulling following initial mechanical removal.
Since 1994, multiple projects have been conducted in Oregon to control beachgrass
on existing nest sites and to clear and maintain additional areas. These Habitat
Restoration Areas (HRAs) are essential for the recovery of the western snowy plover.
Three significant HRAs established on the Oregon Coast between 1994 and 2002
include the Dunes Overlook (Oregon Dunes National Recreation Area), Coos Bay
North Spit, and New River. Other habitat restoration areas have recently been
established or are planned at Baker Beach (140 acres), Tenmile Creek (200 acres)
and Bandon Beach State Natural Area (30 acres). HRAs accounted for 34 percent of
nests (Table 6) and 43 percent of fledglings (Table 7) found on the Oregon Coast
between 1999 and 2004.
The Oregon Dunes National Recreation Area contains about 2,428 hectares (6,000
acres) of European beach grass and now has few remaining examples of intact native
plant communities (Pickart 1997). Habitat restoration was initiated in the summer of
1998 and by 2002, the U.S. Forest Service had treated 24 hectares (60 acres) of the
208 hectares (516 acres) of habitat planned for restoration. Prior to 1999, no western
95
snowy plovers were found at the Overlook site, but after habitat was restored,
western snowy plovers began nesting there successfully (Table 6, Table 7).
The U.S. Forest Service employs a combination of mechanical, manual, and
herbicide treatments to control European beachgrass. Mechanical treatment consists
of scalping off the top 1 meter (3 feet) of beachgrass and then burying it in an
adjacent trench with a minimum covering of l meter (3 feet) of sand. Moderate to
heavy resprouting occurs with this method, requiring manual or chemical follow-up
treatment. Other mechanical treatments have consisted of placement of dredged
material on the beachgrass and scalping the top half of foredunes to remove
beachgrass and allow for inland sand movement and tidal action to maintain open
dunes (K. Palermo in litt. 1998b).
Herbicide treatments have been conducted as a primary control method and as
follow-up to mechanical control. In recent years, from 2 to 26 hectares (5 to 65
acres) of beachgrass were sprayed with an herbicide treatment of 8 percent Rodeo
and nonionic surfactant (spray-to-wet) at three locations. Employees found that a
follow-up application within 2 weeks of the first application was critical to obtain
optimum coverage and initial die-off rates (90 percent). Additionally, herbicide
treatments were most effective when conducted consecutively over 2 to 3 years
depending on density. Beachgrass control at the Oregon Dunes is still considered
experimental. Preliminary results suggest that maintenance will always be necessary
(K. Palermo in litt. 1998b).
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Table 6. Total number of nests at habitat restoration areas on the Oregon Coast
1994-2004 (J. Heaney, pers. comm. 2003; C. Burns, pers. comm.;
M. VanderHeyden, pers. comm.; Castelein et. al. 2002; Lauten et al. 2006).
Site Name 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 Total
Nests
Baker
Beach 0 1 0 1
Dunes
Overlook 2 8 15 8 9 14 56
Coos Bay
North Spit 4 3 2 3 7 12 22 13 15 11 16 108
Bandon
State NRA 4 17 21
New River 2 4 10 7 5 6 34
Table 7. Total number of fledged young at habitat restoration areas on the Oregon
Coast 1994-2004. Includes fledglings from broods from undiscovered nests (J.
Heaney, pers. comm. 2003; C. Burns, pers. comm; M. VanderHeyden pers. comm.;
Castelein et. al. 2002; Lauten et al. 2006).
Site Name 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 Total
Nests
Baker
Beach 0 0 0 0
Dunes
Overlook 3 5 2 2 3 6 21
Coos Bay
North Spit
7 2 1 1 1 23 6 6 8 14 22 91
Bandon
State NRA 4 15 19
New River 2 1 3 3 7 5 21
97
On Coos Bay North Spit, the Bureau of Land Management has cleared and
maintained approximately 67 hectares (166 acres) of vegetation dominated by
European beachgrass, shore pine, Sitka spruce, and Scotch broom. The objective is to
remove predator cover, remove encroaching beachgrass, and expand the existing
habitat. The goal is to create an area for western snowy plovers to nest that is large
enough to lessen possible detection of nests and chicks by predators. Nest sites used
by western snowy plovers on the North Spit include both beach habitat and inland
areas of previous dredged material deposition. Many of the cleared areas were used
almost immediately by nesting western snowy plovers or for brood rearing activities.
Prior to 1994, western snowy plovers were not nesting in these areas, but after 1994,
the Coos Bay North Spit became the most productive western snowy plover nesting
sites on the Oregon Coast (Table 6, Table 7) (M. VanderHeyden, Bureau of Land
Management, pers. comm.).
At the Coos Bay North Spit, an inmate crew from the Shutter Correctional Facility,
hired by the U.S. Bureau of Land Management, hand pulled European beachgrass on
approximately 6 hectares (15 acres) of the south spoil area. The 4-month project cost
$11,500; most of these costs covered the crew supervisor’s salary and transport
vehicle charges. Another European beachgrass removal project around the south
spoil areas of the Coos Bay North Spit, included burning European beachgrass,
followed by scarification using a bulldozer in March 1994. By August, most of the
area had resprouted (Oregon Department of Fish and Wildlife 1996). New beachgrass
sprouts are relatively easy to remove. However, initial and maintenance work can be
costly and labor intensive. At the Coos Bay North Spit, eradication of European
beachgrass using 91.4 centimeters (36 inches) of sprayed seawater was attempted in
1996. The saltwater application was not effective because desiccated sand layers did
not allow seawater penetration to the grass’s root zone. Future experimentation using
wetting agents to achieve water penetration on small-scale applications could
demonstrate potential applicability of this technique (G. Dorsey, U.S. Army Corps of
Engineers, pers. comm. 1997).
The New River Spit is another key nesting area for the western snowy plover that is
managed by the Coos Bay U.S. Bureau of Land Management. Each year since 1998,
the U.S. Bureau of Land Management has used heavy equipment (i.e., front-end
loader, bulldozer) to remove European beachgrass from in and around a target
98
restoration site. Typically, the bulldozer is used to push the beachgrass into
depressions and bury it under several feet of sand, or to push sand and beachgrass out
into the surf zone. Just over two miles of foredune have been lowered and select
areas along the foredune have been removed to allow ocean surf to overwash into
interior portions of the spit. The overwashing aids in scouring vegetation and appears
to self-maintain portions of the overwashes throughout the restoration area. By 2002,
approximately 48 hectares (120 acres) of foredune and overwash were cleared of
beachgrass (Jim Heaney, Bureau of Land Management, pers. comm. 2003).
Work at Lanphere-Christensen Dune Preserve in Humboldt County, California,
showed that hand pulling can eliminate European beachgrass, but 3 years of multiple
maintenance treatments were required (Pickart and Sawyer 1998). Use of heavy
equipment (e.g., “V” ripper) and herbicides may be more cost-effective; however,
resprouting of the grass occurs, necessitating follow-up, manual pulling for long-term
beachgrass removal (A. Pickart, The Nature Conservancy, pers. comm. 1997).
The effective strategy used by the California Department of Parks and Recreation to
remove beachgrass at Marina Dunes and Salinas River State Beaches, Monterey Bay,
included multiple herbicide applications of 10 percent Round-Up. Approximately 25
patches of beachgrass covering a total of approximately 0.5 hectare (1.3 acres) have
been treated along a 6.4-kilometer (4-mile) section of beach. Each patch of
beachgrass was sprayed every 3 months over a 3-year period. All treated sites were
marked so that they could be easily located and monitored for regrowth and spread.
Current plans include beachgrass removal on approximately 30 hectares (75 acres) at
Zmudowski State Beach at the Pajaro River mouth (D. Dixon in litt. 1998).
Western snowy plover habitat restoration efforts at the Leadbetter Point Unit of the
Willapa National Wildlife Refuge began in 2002 and continue. American beachgrass
and some European beachgrass have been mechanically removed, clearing
approximately 25 hectares (63 acres) as of 2006. In addition, cuts have been made
through the foredune and oystershell placed to cover 11 hectares (28 acres) within the
restored area (K. Brennan in litt. 2006).
Pickart (1997) suggested that chemical treatment of European beachgrass is likely to
be the most cost-effective method used to date. Herbicides that have been used for
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this purpose are glyphosates (trade names Rodeo and Round-Up). The most effective
period for herbicide treatment of beachgrass is during its flowering stage (Wiedemann
1987); plants should be treated during periods of active growth (Pickart 1997).
However, potential adverse biological impacts to other native plants and animals must
be considered when using herbicides, and selective spraying may be difficult in some
areas. Chemical treatment in active western snowy plover nesting areas may need to
be limited to the period outside the breeding season in certain areas to avoid
disturbing nesting western snowy plovers.
Additional management options for beach and dune erosion control are needed.
Beachgrass continues to be used because it has been tried successfully in the past,
nursery stock is available, and field planting technology is well known. However,
negative aspects of its monoculture are recognized. Proper planting and management
of a mixture of native vegetation, together with the provision of walkways for
pedestrian traffic and the elimination of horse traffic, cattle grazing, and off-road
vehicles, may result in stabilization as effective as beachgrass, yet there has been
minimal experimentation with this technique (Barbour and Major 1990).
e. Off-Road Vehicle Restrictions and Management
Management strategies to reduce off-road and other vehicle impacts have been
implemented at some western snowy plover breeding areas. At Pismo/Oceano Dunes
State Vehicular Recreation Area, California, management strategies include fenced-
off nesting areas; placement of exclosures around nests; restrictions on vehicle speed
and access areas; and requirements that car campers remove all trash. At
Pismo/Oceano Dunes State Vehicle Recreation Area, the California Department of
Parks and Recreation, Off-Road Vehicle Division, has developed an interim
management plan, which is adapted annually in coordination with us to address what
effects current management measures have on hatching rates and fledging success, as
well as recruitment into the western snowy plover population (California Department
of Parks and Recreation 2005). The Off-Road Vehicle Division of the California
Department of Parks and Recreation is now funding the development of a habitat
conservation plan (in anticipation of applying for a section 10(a)(1)(B) permit under
the Endangered Species Act) for the Pismo/Oceano Dunes State Vehicular Recreation
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Area and other State parks within the San Luis Obispo Coast District of the California
Department of Parks and Recreation.
The conservation issues for western snowy plovers and California least terns at the
Pismo/Oceano Dunes State Vehicular Recreation Area are directing the development
of the habitat conservation plan, but other species also will be covered. This plan will
evaluate the effects that recreation and park management activities are having on the
covered species.
On Camp Pendleton, the Marine Corps conducts its vehicle operations in and near
nesting areas in ways that minimize impacts to western snowy plovers. Under the
Marine Corps’ Base Regulations all training activities, including vehicle training, are
prohibited within 300 meters of fenced nesting areas during the breeding season (1
March to 15 September). Further, amphibious vehicles are directed to transit adjacent
to nesting areas with tracks in the ocean whenever possible (U.S. Marine Corps
2006).
On the Don Edwards San Francisco Bay National Wildlife Refuge, part of the main
access road (Marshlands Road) is closed to motorized vehicles from April 1 to
August 31, to protect western snowy plovers nesting near the roadway. Highway
traffic cones and ribbons are installed to discourage vehicle access to nesting areas on
roads and levees (J. Albertson in litt. 1999).
In 1995, after the Oregon Dunes National Recreation Area completed its management
plan, the U.S. Forest Service petitioned the Oregon Parks and Recreation Department
to close several kilometers of beach that had been open to vehicles. Resulting
closures reduced conflicts between off-highway vehicles and nonmotorized
recreationists, western snowy plovers, and other wildlife (E.Y. Zielinski and R.W.
Williams in litt. 1999).
Leadbetter State Park (immediately to the south of Willapa National Wildlife Refuge)
is closed to beach driving from April 15 to the day after Labor Day. The entire beach
along Willapa National Wildlife Refuge is closed to driving year round, except during
razor clam openers (K. Brennan in litt. 2006). Diligent surveillance and enforcement
by applicable agencies is extremely important due to the potential for violations.
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f. Population Monitoring
Western snowy plover researchers in Washington, Oregon and California conduct
intensive population monitoring programs. Tasks include some or all of the
following: (1) conducting winter and breeding season window surveys; (2) banding
adults and chicks; (3) determining nest success; (4) determining fledging success, (5)
monitoring and documenting brood movements; and (6) collecting general
observational data on predators.
The Point Reyes Bird Observatory has been monitoring the distribution and breeding
success of western snowy plovers since 1977. Monitoring at Vandenberg Air Force
Base has been conducted by Point Reyes Bird Observatory and SRS Technologies.
Additionally, Santa Barbara County-supported volunteer docents stationed at Surf
Station, within Vandenberg Air Force Base, keep tallies of numbers of visitors,
violations prevented, and predators seen (R. Dyste in litt. 2004). The U.S. Geological
Survey Biological Resources Division monitored western snowy plovers in San Diego
County from 1994 to 1998. Teams led by Elizabeth Copper, Robert Patton, Shauna
Wolf, and Brian Foster have monitored western snowy plovers in San Diego County
since 1999 for military installations. The Oregon Natural Heritage Program and The
Nature Conservancy have conducted western snowy plover monitoring since 1990 in
Oregon. The Point Reyes Bird Observatory, Oregon Natural Heritage Program, and
U.S. Geological Survey, Biological Resources Division, also band western snowy
plovers at some locations (Figure 10). The California Department of Parks and
Recreation conducts annual monitoring throughout the state and at the Pismo/Oceano
Dunes State Vehicular Recreation Area (J. Didion in litt. 1999). Mad River
Biologists and Humboldt State University are currently conducting intensive
population monitoring in northern California. Department of Defense installations
continue to maintain long-term programs for monitoring and management of western
snowy plover populations and predators in San Diego and Ventura Counties,
including programs at Camp Pendleton, Naval Amphibious Base Coronado, Naval
Radio Receiving Facility Imperial Beach, North Island, and San Clemente Island.
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Figure 10.Banding a western snowy plover chick (photo by Bonnie Peterson with
permission)
g. Salt Pond Management
Intensive management at the Moss Landing Wildlife Area has made a major
contribution to western snowy plover breeding success in the Monterey Bay area.
Management by Point Reyes Bird Observatory staff, in coordination with the
California Department of Fish and Game, has been ongoing since 1995.
Management activities include draw-down of water levels in part of the salt ponds at
the beginning of the nesting season to provide dry sites for nests, and flooding of
remnant wet areas twice per month through the nesting season to maintain foraging
habitat for adults and their young. Predator control is conducted by the U.S.
Department of Agriculture, Wildlife Services Branch.
The Don Edwards San Francisco Bay National Wildlife Refuge manages a former salt
pond called the “Crescent Pond” (within location CA-36, mapped in Appendix L) for
western snowy plovers by reducing the water levels prior to the breeding season. In
the early 1990s, this pond was mostly unvegetated salt flat, but since then native
pickleweed (Salicornia virginica) has slowly increased on the site, making the areas
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less valuable for western snowy plover nesting habitat. The Refuge has begun to
conduct winter flooding in the Crescent Pond to reduce vegetative cover and improve
western snowy plover nesting habitat.
The 2003 acquisition of Cargill’s West Bay, Alviso, and Baumberg Salt Ponds in the
South Bay by California Department of Fish and Game and Don Edwards San
Francisco Bay National Wildlife Refuge will greatly further the goal of achieving 810
hectares (2,000 acres) of ponds managed for western snowy plover habitat (see
Recovery Action 2.6). The Refuge’s long-term management plans for these areas will
include management that is compatible with western snowy plover and will
coordinate with the recovery goals of this Recovery Plan (J. Albertson, pers. comm.
2005). Many of the salt ponds are currently used for breeding and wintering by
western snowy plovers. San Francisco Bay Bird Observatory is assisting the Refuge
with salt marsh management and western snowy plover monitoring.
h. Habitat Acquisition
Acquisition and management of key sites is an important conservation effort. In
October 1998, The Nature Conservancy transferred the approximately 193-hectare
(483-acre) Lanphere-Christensen Dunes Preserve (part of Mad River Mouth and
Beach, California, CA-7) to us for conservation purposes. The area will be managed
by the Humboldt Bay National Wildlife Refuge for natural resources, including the
western snowy plover. In October 1998, the Port of San Diego announced an
agreement enabling approximately 560 hectares (1,400 acres) of Western Salt
Company land (CA-131) to be managed by the San Diego National Wildlife Refuge.
The salt ponds are a western snowy plover nesting and wintering area. As noted
above, Cargill’s transfer of the West Bay, Alviso, and Baumberg salt ponds, including
6,110 hectares (15,100 acres), to California Department of Fish and Game and Don
Edwards San Francisco Bay National Wildlife Refuge was completed in 2003;
portions of this area will be managed as western snowy plover habitat.
i. Use of Volunteers
Volunteers contribute to the conservation of western snowy plovers and their habitat
at many beach locations, including Morro Bay and Oceano Dunes State Vehicular
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Recreation Area, Point Reyes National Seashore, and Golden Gate National
Recreation Area. Volunteers and docents assist public land managers in many ways
(Appendix K), including informing park visitors about threats to the western snowy
plover, reducing human and pet disturbances, and assisting with direct habitat
enhancement (e.g., manual removal of European beachgrass; Figure 11). In 1998, the
Western Snowy Plover Guardian Program was developed to assist the conservation
and recovery of western snowy plovers in Monterey Bay. This program is mainly a
volunteer effort by local citizens who assist in protecting western snowy plovers
through monitoring, reporting, and educational activities (D. Dixon in litt. 1998).
Figure 11.High school students removing European beachgrass (photo by Kerrie
Palermo, with permission).
j. Public Outreach and Education
Public land managers and private conservation organizations have produced public
educational materials, including brochures, posters, flyers, and
informational/interpretative signs regarding western snowy plovers (Appendix K).
Environmental education/interpretation is recognized by land management agencies
as an important tool that supports their mission of resource stewardship. Increased
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understanding and appreciation of natural resources (specifically threatened and
endangered species) often results in increased public support. This support is not
easily measured and when the audience is children, results may not be seen until they
reach adulthood. However, those agencies conducting western snowy plover
education to date have found a positive response by individuals. In Oregon, on-site
monitors of the U.S. Forest Service (Oregon Dunes National Recreation Area) and
U.S. Bureau of Land Management report a willingness of the majority of contacted
individuals to comply with restrictions after better understanding the reasons for
them.
The La Purisima Audubon Society, Santa Barbara County, produced an educational
video about the western snowy plover and the California least tern in 1999. It was
distributed to public schools and museums within Santa Barbara County in 2000.
k. Section 6 Cooperative Agreements
Section 6 of the Endangered Species Act allows us to enter into cooperative
agreements with states that establish and maintain active programs for the
conservation of listed species. Through funding under section 6, those states assist
the recovery of endangered and threatened species and monitor their status.
Between 2000 and 2006, traditional section 6 funds have been used for creation of a
docent program at Silver Strand State Beach in California ($8,300); development of a
water management plan at Moss Landing Wildlife Area, California ($4,886);
surveillance and protection of snowy plover nests on California beaches ($92,000);
and surveys, nest monitoring, protecting nests with exclosures, collecting data on
human uses of beaches, and encouraging beach uses compatible with snowy plovers
in Oregon ($64,386) and Washington ($48,677). HCP Planning grants were used for
development of a habitat conservation plan to address management of beach use by
the Oregon Parks and Recreation Department ($103,950) and development of an
Environmental Impact Statement for this Habitat Conservation Plan ($200,000). A
Recovery Land Acquisition grant ($307,000) supported purchase of a conservation
easement on 89 hectares (220 acres) of western snowy plover habitat along 3.7
kilometers (2.3 miles) of the Elk River Spit.
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3. Conservation Efforts on Private Lands
Private landowners interested in conservation efforts for western snowy plovers and
coastal dune habitats have made important contributions to recovery efforts for
coastal dune species. At Ormond Beach, California, Southern California Edison has
enhanced approximately 60 hectares (150 acres) of degraded wetlands and coastal
dune habitat for several special status species, including the western snowy plover and
California least tern (D. Pearson, Southern California Edison, pers. comm. 1996).
4. Federal Regulatory Program
a. Critical Habitat
On March 2, 1995, we published a proposed rule to designate critical habitat for
western snowy plover at 28 areas along the coast of California, Oregon, and
Washington (U.S. Fish and Wildlife Service 1995b). At that time, critical habitat was
proposed to fulfill an outstanding requirement under section 4 of the Endangered
Species Act to highlight important habitat areas on which activities that require
Federal actions need to be evaluated under section 7 of the Endangered Species Act.
A funding moratorium by the U.S. Department of the Interior for listing actions was
in place during the period April 1995 to April 1996. We subsequently acknowledged
a serious backlog of listing actions and the need to prioritize them (U.S. Fish and
Wildlife Service 1996b). Hence, we developed guidance for assigning relative
priorities to listing actions conducted under section 4 of the Endangered Species Act
during fiscal years 1998 and 1999 (U.S. Fish and Wildlife Service 1998).
Designation of critical habitat was placed in the lowest priority (Tier 3). Under this
guidance, we placed higher priority on listing imperiled species that currently have
limited or no protection under the Endangered Species Act than on devoting limited
resources to the process of designating critical habitat for currently-listed species. In
addition, we found that because the protection afforded by critical habitat designation
applies only to Federal actions, such designation provides little or no additional
protection beyond the “jeopardy” prohibition of section 7 of the Endangered Species
Act, which also applies only to Federal actions (U.S. Fish and Wildlife Service 1998).
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In December 1995, legal challenges by the Environmental Defense Center, Santa
Barbara, California, against the U.S. Department of the Interior to finalize designation
of critical habitat for the western snowy plover were overruled by the California
District Court (U.S. District Court, Central District of California 1995). At that time,
the Court’s order was based on its decision that lack of funding prevented the
Secretary of the Interior from taking final action on proposals for designating critical
habitat. However, on November 10, 1998, the U.S. District Court for the Central
District of California ruled that the Secretary of the Interior must publish a final
designation of critical habitat for the western snowy plover before December 1, 1999
(U.S. District Court, Central District of California 1998).
A final rule designating critical habitat was published on December 7, 1999 (U.S.
Fish and Wildlife Service 1999). In May of 2002 the Coos County Board of County
Commissioners, Friends of Oceano Dunes, and Concerned Citizens for western Lane
County filed a complaint asking for invalidation of the rule. The United States moved
for voluntary remand to reconsider the economic analysis and for partial vacatur of
the existing designation. On July 19, 2003, the District Court for the District of
Oregon granted the United States’ motion, ordering the Service on remand to consider
the economic impact analysis and ensure that the new rule is based on the best
scientific evidence available. This Order was converted to Judgment on July 2, 2003.
Based on the potential for harm to the population, at the Service’s request the court
left most of the established units in place during the redesignation process, but
vacated two units in southern California and two units in Washington.
On December 17, 2004, we published a new proposal to designate critical habitat for
the Pacific coast distinct population segment of the western snowy plover (U.S. Fish
and Wildlife Service 2004b). The final rule to designate critical habitat was published
on September 29, 2005 (U.S. Fish and Wildlife Service 2005). This rule designated
critical habitat in 32 units, compared to 28 units in the 1999 critical habitat final rule,
but covers only 4,921 hectares (12,145 acres) compared to 7,881 hectares (19,474
acres) in the 1999 rule. Of the 32 units, 23 are in California, 5 are in Oregon, and 3
are in Washington. Of the total acreage, 1,002 hectares (2,478.5 acres), or 20 percent,
are on Federal lands; 2620.5 hectares (6,474 acres), or 53 percent, are on land owned
by States or local agencies; and 1294.5 hectares (3,191 acres), or 26 percent, are
privately-owned.
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It is important to understand what critical habitat means and how it differs from this
recovery plan. Section 3 of the Endangered Species Act defines critical habitat to
mean: (i) the specific areas within the geographical area occupied by the species at
the time it is listed on which are found those physical or biological features (I)
essential to the conservation of the species and (II) which may require special
management considerations or protection; and (ii) specific areas outside the
geographical area occupied by the species at the time it is listed, upon determination
that such areas are essential for the conservation of the species. The term
“conservation” is defined in section 3 as “the use of all methods and procedures
which are necessary to bring any endangered species or threatened species to the point
at which the measures provided pursuant to this Act are no longer necessary.”
Therefore, critical habitat is to include biologically suitable areas necessary to
recovery of the species.
Section 7 of the Endangered Species Act requires Federal agencies to consult with us
to evaluate the effects that any activities they fund, authorize, or carry out may have
on designated critical habitat. Agencies are required to ensure that such activities are
not likely to adversely modify (e.g., damage or destroy) critical habitat. Because the
issuance of permits under section 10(a)(1)(B) of the Endangered Species Act
constitutes a Federal action or connection and is subject to an internal section 7
consultation, habitat conservation plans developed for actions on private lands must
also analyze the potential for adverse modification of critical habitat. Accordingly,
where Federal activities may affect western snowy plover critical habitat, we will
consult with Federal agencies under section 7 to ensure that these actions do not
adversely modify critical habitat.
Critical habitat designation does not create a wilderness area, preserve, or wildlife
refuge, nor does it close an area to human access or use. It applies only to activities
sponsored at least in part by Federal agencies. Such federally-permitted land uses as
grazing and recreation may take place if they do not adversely modify critical habitat.
Designation of critical habitat does not constitute a land management plan, nor does it
signal any intent of the government to acquire or control the land. Therefore, if there
is no Federal involvement (e.g., Federal permit, funding, or license), activities of a
private landowner, such as farming, grazing, or constructing a home, generally are not
affected by a critical habitat designation, even if the landowner’s property is within
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the geographical boundaries of critical habitat (U.S. Fish and Wildlife Service 1993c).
Without a Federal connection to a proposed action, designation of critical habitat does
not require that landowners of State or other non-Federal lands do anything more than
they would otherwise do to avoid take of listed species under provisions of section 9
of the Endangered Species Act.
By comparison, a recovery plan delineates site-specific management actions that we
believe are required to recover and/or protect listed species, establishes objective,
measurable criteria for downlisting or delisting the species, and estimates time and
cost required to carry out these actions. A recovery plan is not a regulatory document
and does not obligate cooperating or other parties to undertake specific tasks or
expend funds.
Critical habitat designation is not necessarily intended to encompass a species’ entire
current range. Recovery plans, however, address all areas determined to be important
for recovery of listed species and identify needed management measures to achieve
recovery. Because critical habitat designations may exclude areas based on factors
such as economic cost, approved or pending management plans, or encouragement of
cooperative conservation partnerships with landowners, the areas identified in
recovery plans as important for recovery of the species may not be identical to
designated critical habitat. The recovery units described in this recovery plan include
but are not restricted to the 32 areas designated as critical habitat: Damon Point,
Midway Beach, Leadbetter Point, Bayocean Spit, Baker/Sutton Beaches, Siltcoos to
Tenmile, Coos Bay North Spit, and Bandon to Floras Creek in Recovery Unit 1; Lake
Earl, Big Lagoon, McKinleyville area, Eel River area, MacKerricher Beach, and
Manchester Beach in Recovery Unit 2; Point Reyes Beach, Limantour Spit, Half
Moon Bay, Santa Cruz Coast, Monterey Bay Beaches, and Point Sur Beach in
Recovery Unit 4; San Simeon Beach, Estero Bay, Devereaux Beach, Oxnard
Lowlands in Recovery Unit 5; and Zuma Beach, Santa Monica Bay, Bolsa Chica area,
Santa Ana River Mouth, San Onofre Beach, Batiquitos Lagoon, Los Penasquitos, and
South San Diego in Recovery Unit 6. Implementation of the recovery actions in this
recovery plan (e.g., monitoring, habitat improvement, nest protection, recreation
management) may not be limited to designated critical habitat areas.
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b. Section 9 Take Prohibitions
Section 9 of the Endangered Species Act of 1973, as amended, prohibits any person
subject to the jurisdiction of the United States from taking (i.e., harassing, harming,
pursuing, hunting, shooting, wounding, killing, trapping, capturing, or collecting)
listed wildlife species. It is also unlawful to attempt such acts, solicit another to
commit such acts, or cause such acts to be committed. Regulations implementing the
Endangered Species Act (50 CFR 17.3) further define “harm” to include significant
habitat modification or degradation that results in the killing or injury of wildlife by
significantly impairing essential behavioral patterns including breeding, feeding, or
sheltering. “Harass” means an intentional or negligent act or omission that creates the
likelihood of injury to wildlife by annoying it to such an extent as to significantly
disrupt normal behavioral patterns, which include, but are not limited to, breeding,
feeding, or sheltering.
As an example under the authority of section 9 of the Endangered Species Act, on
May 15, 1998, we received preliminary injunctive relief against the Town of
Plymouth, Massachusetts, because their beach management failed to prevent take
(killing) of a piping plover chick by an off-road vehicle (U.S. District Court for
Massachusetts 1998). The judge’s order prohibited off-road vehicle traffic through
the piping plover’s nesting season unless the town implemented specific management
measures to preclude take, including twice-daily monitoring of nests and a 400-meter
(1,148-foot) buffer of protected habitat for newly-hatched chicks.
The proposed special rule under section 4(d) of the Endangered Species Act (U.S.
Fish and Wildlife Service 2006b) would exempt most recreational and commercial
activities within a county from section 9 prohibitions on take of western snowy
plovers, if documentation of conservation actions was provided and populations
within the county met targets based on the Management Goal Breeding Numbers in
Appendix B of the recovery plan. Research and monitoring actions would continue
to require recovery permits under section 10(a)(1)(A) of the Endangered Species Act.
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c. Section 10 Permits
Section 10 of the Endangered Species Act and related regulations provide for permits
that may be granted to authorize activities otherwise prohibited under section 9, for
scientific purposes or to enhance the propagation or survival of a listed species (i.e.,
section 10(a)(1)(A) permits). These permits have been granted to certain biologists of
conservation organizations (e.g., Point Reyes Bird Observatory and Oregon Natural
Heritage Program) and Federal and State agencies to conduct western snowy plover
population monitoring and banding studies and construct predator exclosures. It is
also legal for employees or designated agents of certain Federal or State agencies to
take listed species without a permit if the action is necessary to aid sick, injured, or
orphaned animals or to salvage or dispose of a dead specimen.
Section 10(a)(1)(B) of the Endangered Species Act also allows permits to be issued
for take of endangered and threatened species that is “incidental to, and not the
purpose of, carrying out an otherwise lawful activity” if we determine that certain
conditions have been met. An applicant for an incidental take permit must prepare a
habitat conservation plan that specifies the impacts of the take, the steps the applicant
will take to minimize and mitigate the impacts, funding that will be available to
implement these steps, alternative actions to the take that the applicant considered,
and the reasons why such alternatives are not being utilized. Conditions that we must
meet include a determination: (1) whether the taking will be incidental, (2) whether
the applicant will minimize and mitigate the impacts of such taking to the maximum
extent possible, (3) that adequate funding for the recovery will be provided, (4) that
the taking will not appreciably reduce the likelihood of the survival and recovery of
the species in the wild, and (5) of any other measures that we may require as being
necessary or appropriate for the recovery plan. Section 10(a)(1)(B) of the Endangered
Species Act provides for permits that have the potential to contribute to conservation
of listed species. Such permits are intended to reduce conflicts between the
conservation of listed species and economic activities, and to develop partnerships
between the public and private sectors.
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d. Section 7 Requirements and Consultations
Section 7(a)(1) of the Endangered Species Act requires all Federal agencies to “utilize
their authorities in furtherance of the purposes of [the] Act by carrying out programs
for the conservation of endangered species and threatened species”. Hence, Federal
agencies have a greater obligation than do other parties, and are required to be pro-
active in the conservation of listed species regardless of their requirements under
section 7(a)(2) of the Act. Section 7(a)(2) of the Endangered Species Act requires
Federal agencies to consult with us prior to authorizing, funding, or carrying out
activities that may affect listed species. Section 7 obligations have caused Federal
land management agencies to implement western snowy plover protection measures
that go beyond those required to avoid take; for example, eradicating European
beachgrass and conducting research on threats to western snowy plovers. Other
examples of Federal activities that may affect western snowy plovers along the Pacific
coast, thereby triggering a section 7 consultation, include permits for sand
management activities or major restoration projects that affect coastal processes or
that are targeted to protect other species on Federal lands such as dune plants
(National Park Service, U.S. Department of the Interior); disposal of dredged
materials (U.S. Army Corps of Engineers); military training (U.S. Department of
Defense); and funding to public agencies for projects to repair beach facilities, such as
public access paths (Federal Emergency Management Agency).
e. Other Federal Regulations, Executive Orders, and Agreements
Section 404 of the Clean Water Act, as amended, and section 10 of the Rivers and
Harbors Act of 1899 are the primary Federal laws that could provide some protection
of nesting and wintering habitat of the western snowy plover that is determined by the
U.S. Army Corps of Engineers (Corps) to be wetlands or historic navigable waters of
the United States. Excavation or placement of any fill material (including sand)
below the high tide line, as defined under 33 CFR, Section 328.3(d), Definition of
Waters of the United States, also requires a permit from the U.S. Army Corps of
Engineers.
Executive Order 11644, Use of Off-Road Vehicles on Public Lands, and Executive
Order 11989, Off-Road Vehicles on Public Lands, pertain to lands under custody of
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the Secretaries of Agriculture, Defense, and Interior (except for Native American
Tribal lands). Executive Order 11644 requires administrative designation of areas
and trails where off-road vehicles may be permitted. Executive Order 11989 states
that “... the respective agency head shall, whenever he determines that the use of off-
road vehicles will cause or is causing considerable adverse effects on the soil,
vegetation, wildlife, wildlife habitat ... immediately close such areas or trails to the
type of off-road vehicles causing such effects, until such time as he determines that
such effects have been eliminated and that measures have been implemented to
prevent future recurrence”. Compliance with this executive order would promote
prohibitions or restrictions on off-road vehicles so that they are not allowed to
adversely affect sensitive habitats used by western snowy plovers.
Executive Order 11988, Floodplain Management, and Executive Order 11990,
Protection of Wetlands, provide protective policies that apply to western snowy
plover habitats. Executive Order 11988 mandates that all Federal agencies avoid
direct or indirect support of floodplain development wherever there is a practicable
alternative. Executive Order 11990 mandates that all Federal agencies shall “provide
leadership and shall take action to minimize the destruction, loss or degradation of
wetlands, and to preserve and enhance the natural and beneficial values of
wetlands...” Compliance with Executive Order 11988 would promote protection of
beach and dune habitats through restrictions on development within floodplains.
Application of Executive Order 11990 would promote protection of wetland habitats
used by western snowy plovers.
Executive Order 13112, Invasive Species, directs Federal agencies to prevent the
introduction of invasive species; control their populations in a cost-effective and
environmentally sound manner; monitor invasive species; restore native species and
habitat conditions in ecosystems that have been invaded; conduct research and
develop technologies to prevent their introduction; and promote public education on
invasive species and the means to address them. This executive order also requires
that a Federal agency “not authorize, fund, or carry out actions that it believes are
likely to cause or promote the introduction or spread of invasive species...”
Compliance with this executive order would enhance western snowy plover habitats
through (1) avoidance of use, approval, or funding the planting of invasive species
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like European beachgrass; and (2) active programs to remove this invasive species
and restore coastal dune habitats with native plant species.
The Fish and Wildlife Coordination Act (16 U.S.C. 661-667e), as amended, requires
that whenever a proposed public or private water development project is subject to
Federal permit, funding, or license, the conservation of fish and wildlife resources
shall be given equal consideration. This Act also requires that project proponents
shall consult with us and the State agency responsible for fish and wildlife resources.
Compliance with the Fish and Wildlife Coordination Act highlights the importance of
considering and providing for the habitat needs of fish and wildlife resources when
reviewing projects that would adversely affect these resources.
The National Environmental Policy Act of 1969, (42 U.S.C. 4321-4347), as amended,
requires that each Federal agency prepare an environmental impact statement on the
potential environmental consequences of major actions under their jurisdiction.
Environmental impact statements must include the impacts on ecological systems, any
direct or indirect consequences that may result from the action, less environmentally
damaging alternatives, cumulative long-term effects of the proposed action, and any
irreversible or irretrievable commitment of resources that might result from the
action. Compliance with the National Environmental Policy Act highlights the need
to disclose, minimize, and mitigate impacts to biological resources, including western
snowy plovers.
The Coastal Zone Management Act of 1972 (16 U.S.C. 1451-1464), as amended,
established a program for states to voluntarily develop comprehensive programs to
protect and manage coastal resources. To receive Federal approval and funding under
this Act, states must demonstrate that they have programs and enforceable policies
that are sufficiently comprehensive and specific to regulate land uses, water uses, and
coastal development, and must have authorities to implement enforceable policies.
Local coastal plans, local comprehensive plans, and implementing measures by
coastal planning jurisdictions pursuant to the Coastal Zone Management Act should
be developed, updated, and implemented with protective measures for western snowy
plovers.
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Western snowy plovers are protected under the Migratory Bird Treaty Act of 1918 (16
U.S.C. 703-712), as amended. Under the Migratory Bird Treaty Act, prohibited acts
include pursuing, hunting, shooting, wounding, killing, trapping, capturing, or
collecting any migratory bird, nest, or eggs without a permit from the U.S. Fish and
Wildlife Service.
5. State Regulatory Protection, Policies, and Agreements
In Washington, Oregon, and California, each state holds title to, and has regulatory
jurisdiction over, the coastal intertidal zone. In Washington, the area between mean
high tide to extreme low tide is the seashore conservation area under the authority of
the Washington State Parks and Recreation Commission. In California, the California
State Lands Commission has regulatory authority to the mean high tide line along the
California coast.
In Oregon, the Oregon Parks and Recreation Department administers the State beach
for the ocean shore recreation area, which is defined as the area between the line of
extreme low water and the statutory vegetation line, which is a line surveyed to the
approximate line of vegetation that existed in 1969 (Oregon Revised Statutes
390.770). The Oregon Division of State Lands also has jurisdiction over waters of the
state along the Pacific coast to the line of highest tide or the line of established
vegetation, whichever is higher. Therefore, the Oregon Parks and Recreation
Department has direct jurisdiction, authority, and responsibility for management of
western snowy plover habitats in the State of Oregon, which owns not only to the
mean high tide line, which is western snowy plover foraging habitat, but also into the
vegetation line, which is essentially the dry sand area used by western snowy plovers
for nesting.
State coastal planning and regulatory agencies, such as the California Coastal
Commission, require preparation of local coastal zone management plans by local
coastal municipalities. These local coastal zone management plans must comply with
the Coastal Zone Management Act of 1972 regarding protection of coastal resources,
including natural resources. Under the California Coastal Management Program,
coastal resources are managed and cumulative impacts addressed through: (1) coastal
permits and appeals; (2) planning and implementation of local coastal programs; and
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(3) Federal consistency review. However, effective management of cumulative
impacts is difficult under the existing management framework because multiple
jurisdictions have varying policies and standards in different geographic areas
(California Coastal Commission 1995). Through the Coastal Commission’s regional
cumulative assessment program, cumulative impacts to coastal resources can be
addressed through the periodic review of local coastal programs. In California, most
local coastal programs and general plans were completed prior to 1993 (when we
listed the western snowy plover as a threatened species); therefore, many do not
reflect protective measures specifically for the western snowy plover.
The Oregon Department of Land Conservation and Development is the designated
coastal zone management agency for the State of Oregon. The State of Oregon's land
use planning system has several elements that are related to conservation of western
snowy plovers and their habitats. In Oregon, local jurisdictions (cities and counties),
service districts, and State agencies are required to develop Local Comprehensive
Plans and Implementing Measures, such as zoning and land division ordinances, to
effect these plans. Each plan must satisfy a set of 19 goals established through
Oregon land use law and policy. Plans must be reviewed by the Land Conservation
and Development Commission for consistency with these goals before they can be put
into effect. Several of the planning goals have application to, or should be considered
during, planning for western snowy plover conservation and recovery. These goals
include: Goal 5 - Open Spaces, Scenic and Historic Areas, and Natural Resources;
Goal 7 - Areas Subject to Natural Disasters and Hazards; Goal 8 - Recreational
Needs; Goal 16 - Estuarine Resources; Goal 17 - Coastal Shorelands; and Goal 18 -
Beaches and Dunes.
Taken in aggregate, the elements of these goals that can contribute to western snowy
plover recovery include:
C several requirements for protection of wildlife habitat;
C requiring protection of estuarine ecosystems including habitats, diversity, and
other natural values;
C establishing that uses of beaches and dunes shall be based on factors including
the need to protect areas of critical environmental concern and significant
wildlife habitat;
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C requiring that coastal plans provide for uses of beaches and dunes that are
consistent with their ecological values and natural limitations;
C requiring an evaluation of the beneficial effects to natural resources from
allowing continuation of natural events that are hazardous to human
developments (such as erosion and ocean flooding);
C establishing a preference for nonstructural solutions to erosion and flooding of
coastal shorelands over structural approaches (such as seawalls and rip-rap);
C requiring that development of destination resorts be compatible with adjacent
land uses and maintain important natural features such as threatened and
endangered species habitats;
C encouraging coordination among State, Federal, and local governmental
agencies while developing recreation plans, and discouraging development of
recreation plans that exceed the carrying capacity of the landscape;
C encouraging planning for Open Space, Scenic and Historic Areas, and Natural
Resources (Goal 5), Recreational Needs (Goal 8), and Coastal Shorelands
(Goal 17) in close coordination; and
C allowing dune stabilization programs only when in conformance with the
overall comprehensive plan and after assessment of the potential impacts.
Some aspects of these planning goals could be interpreted to be contrary to western
snowy plover conservation and recovery when viewed in isolation. However, when
viewed in the context of the entire goal or all the planning goals, these elements
should be compatible with western snowy plover conservation and carefully-planned
habitat restoration activities. Two such elements are the directive to increase
recreational access to coastal shorelands and the restrictions placed on dune grading
and removal of vegetation. Goal 17 - Coastal Shorelands directs local governments
and the Oregon Parks and Recreation Department to develop a program to increase
public access. In many areas, recreational use of western snowy plover habitat during
the nesting season is detrimental to or incompatible with western snowy plover
conservation. However, this goal also recognizes that many shorelands have unique
or exceptional natural area values, includes the objective of reducing adverse impacts
to fish and wildlife habitat associated with use of coastal shorelands, clearly
establishes that significant wildlife habitat shall be protected, establishes that uses of
such habitat areas shall be consistent with protection of natural values, and directs
recreation plans to provide for "appropriate" public access and recreational use. Goal
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18 - Beaches and Dunes directs local governments and State and Federal agencies to
regulate actions in beach and dune areas to minimize any resulting erosion and only
allows foredune breaching to replenish interdune areas or in the case of an emergency.
Western snowy plover habitat restoration efforts in areas that have been overtaken by
European beachgrass (Ammophila arenaria) may involve foredune breaching,
vegetation removal, dune grading, and other actions that will remove the European
beachgrass and restore the natural beach and dune processes of sand movement,
including erosion and deposition. However, this goal also recognizes the need to
protect areas of critical environmental concern, areas of biological importance, and
areas with significant habitat value, specifically identifies removal of "desirable"
vegetation as an action requiring minimization of erosion, and requires that any
foredune breaching be consistent with sound principles of conservation.
The Washington State Parks and Recreation Commission administers the Seashore
Conservation Act of 1988 in accordance with the Revised Code of Washington and
the Washington Administrative Code. The Seashore Conservation Area (Revised
Code of Washington 43.51) emphasizes the importance of beaches to the public for
recreational activities. In designating beach areas to be reserved for pedestrian use, it
considers natural resources, including protection of shorebird and marine mammal
habitats, preservation of native beach vegetation, and protection of sand dune
topography. Chapter 352-37 (Ocean Beaches) of the Washington Administrative
Code requires local governments within the Seashore Conservation Area to prepare
recreation management plans that designate at least 40 percent of the ocean beach for
use by pedestrians and nonmotorized vehicles from April 15 to the day after Labor
Day. These regulations also identify restrictions on certain uses within ocean
beaches, including motor vehicles, equestrian traffic, speed limits, aircraft, wind/sand
sailers, parasails, hovercraft, group recreation events, and beach parking and camping.
In 1989, an interagency agreement was signed by the Washington Department of
Natural Resources, Washington State Parks and Recreation Commission, Washington
Department of Wildlife, and City of Ocean Shores regarding management of mixed
uses at Damon Point. The intent of the agreement was to protect western snowy
plovers while allowing recreation.
State regulations, policies, and goals for the States of California, Oregon, and
Washington provide many protective measures for western snowy plovers. However,
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because they frequently emphasize public uses of beach habitat, there is potential for
conflicts between human uses of the coastal zone and needed management measures
for recovery of the western snowy plover.
The California Department of Parks and Recreation has written management
guidelines for the western snowy plover which are meant to be used in conjunction
with the recovery plan. Management actions will be implemented from the guidelines
and may result in changes in how coastal units are operated. Increased emphasis will
be required for monitoring, nest area protection, prohibition of certain activities in
important nesting areas, and public education.
6. Consultations, Habitat Conservation Plans, and Other Regulatory Actions
Through consultations with Federal agencies under section 7 of the Endangered
Species Act and through the development of habitat conservation plans with non-
Federal agencies developed under section 10 of the Endangered Species Act, we
provide nondiscretionary terms and conditions that minimize (sections 7 and 10) and
mitigate (section 10) the impacts of covered activities on listed species and their
habitat. Several major consultations and habitat conservation planning efforts to
benefit the western snowy plover have been completed or are currently under way.
In 1995 our Sacramento Fish and Wildlife Office completed formal consultation with
the National Park Service, Golden Gate National Recreation Area, on the effects of
their management of Ocean Beach, San Francisco on the western snowy plover.
Ocean Beach experiences tremendous visitor use year-round because of its proximity
to San Francisco, yet it supports high numbers of nonbreeding western snowy plovers,
which may be present from May through July. The consultation covered actions and
policies the National Park Service had taken that resulted in unnecessary harassment
of nonbreeding western snowy plovers. Most significant of these measures was their
policy not to enforce regulations requiring pets to be leashed and under control by
their owners on all National Park Service lands. Data collected by the National Park
Service clearly identified that unleashed dogs were the most significant disturbance
factor of the many sources of disturbance to western snowy plovers on Ocean Beach.
As a result of the consultation, the National Park Service began to enforce their “leash
law” along 3.2 kilometers (2 miles) of beach utilized by western snowy plovers. The
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National Park Service implemented this policy despite vocal and persistent opposition
by the San Francisco Society for the Prevention of Cruelty to Animals and other local
advocacy groups, including the “Rovers for Plovers”, which organized themselves to
challenge the National Park Service’s leash law. These groups were successful in
advocating their position in numerous television news stories and articles in local
newspapers. At the height of this discourse, the local public radio station held a
round-table discussion between the National Park Service, U.S. Fish and Wildlife
Service, and Society for the Prevention of Cruelty to Animals, and solicited audience
members to call in and identify their viewpoint. The overwhelming majority of
callers supported leash law restrictions that would minimize harassment of western
snowy plovers.
Our Arcata Fish and Wildlife Office has formally consulted with the U.S. Army
Corps of Engineers regarding gravel extraction on the Eel River, California. Gravel
mining operations are subject to permits from the U.S. Army Corps of Engineers
under Section 404 of the Clean Water Act. The western snowy plover breeds on the
Eel River gravel bars. Impacts to the western snowy plover and its designated critical
habitat associated with gravel mining operations have been assessed based on nesting
surveys and changes to habitat resulting from gravel extraction. The Arcata Fish and
Wildlife Office has also worked with Humboldt County, the California Department of
Fish and Game, and the California Department of Parks and Recreation to implement
additional protections for nesting western snowy plovers at MacKerricher,
Manchester, Little River, Humboldt Lagoons, and Prairie Creek State Parks; Clam
Beach County Park, and the Eel River Wildlife Area. These measures include
installation of nest exclosures, signing, and development of educational material for
kiosks. Technical assistance has also been provided to Prairie Creek State Park and
MacKerricher State Park on exotic vegetation management programs (J. Watkins in
litt. 1999, pers. comm. 2001). A section 7 consultation with the Bureau of Land
Management on finalization of a management plan for Humboldt Bay South Spit is
expected to be initiated soon (J. Watkins, pers. comm. 2006).
Our Ventura Fish and Wildlife Office is attempting to initiate a regional approach to
habitat conservation planning for western snowy plovers and other listed species
along Monterey Bay in Monterey County, California. Currently, there are several
proposed development projects within the city of Sand City and a “city wide” habitat
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conservation plan has been prepared for these projects. The City of Sand City has yet
to present a complete draft of their habitat conservation plan to the Ventura Fish and
Wildlife Office for review. Formerly, the City of Marina was also proposing several
coastal developments that were expected to have adverse effects on western snowy
plovers, but these projects are no longer planned due to changes in land ownership
and other factors. The City of Marina has halted the drafting of a habitat conservation
plan for lands within their jurisdiction. We have expressed concerns about projects
being presented in a piecemeal fashion, which does not allow an adequate assessment
of their cumulative effects, and have recommended a regional approach through
preparation of a regional habitat conservation plan. This plan would provide greater
conservation benefits to the western snowy plover. In addition to the adverse effects
of development on western snowy plovers and their habitat, recreation on the
extensive public lands along Monterey Bay is also adversely affecting western snowy
plovers. Therefore, public land managers, including our Refuges Division, the
California Department of Parks and Recreation, the California Department of Fish
and Game, and the Monterey Peninsula Regional Park District, need to be involved in
planning efforts along Monterey Bay.
Through the consultation process, our Ventura Fish and Wildlife Office determined
that a draft biological opinion on Vandenberg Air Force Base’s initial proposed beach
management plan for the western snowy plover, concluding that the plan would
"likely jeopardize the continued existence of the western snowy plover and adversely
modify its critical habitat." Our draft biological opinion of January 2001 pointed out
that the Air Force's beach plan would have allowed twice as much nesting habitat to
be open to public recreation as was allowed during the 2000 breeding season, and it
would have reduced the time the Air Force spends patrolling the beaches by about 80
percent. Based on this feedback, the Air Force subsequently reinitiated consultation
on a modified version of the beach management plan, including commitments to
signage, information kiosk, and enforcement patrols. The Ventura Fish and Wildlife
Office issued a non-jeopardy biological opinion on the modified action in March
2001. Beach opening and full implementation of conservation measures was
implemented on May 25, 2001, with hours and days of open beach limited due to
limited availability of enforcement personnel. For the next three breeding seasons
(2002, 2003, 2004), the Service issued biological opinions on annual beach
management plans proposed by the Air Force. In 2004, we had a series of meetings
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with the Air Force to discuss their beach management strategy and its effects on the
western snowy plover. Through a cooperative effort, the Service and the Air Force
came to agreement on a 5-year beach management plan that includes many of the
same protective measures that had been in place the last several years, yet allows the
Air Force to provide recreational access seven days a week. On March 1, 2005, the
Ventura Fish and Wildlife Office issued a new non-jeopardy biological opinion on the
Air Force’s proposed 5-year beach management plan (2005-2009).
Our Ventura Fish and Wildlife Office is also involved with the development of a
habitat conservation plan being funded by the Off-Road Vehicle Division of the
California Department of Parks and Recreation for the Pismo/Oceano Dunes State
Vehicular Recreation Area and other State parks within the San Luis Obispo District
of the California Department of Parks and Recreation. The Ventura Fish and Wildlife
Office is also involved in the development of a HCP for the Rancho Guadalupe
County Park, Santa Barbara, California. These habitat conservation plans will
evaluate and mitigate for effects that recreation and park management activities are
having on the covered species, including the western snowy plover.
Recent consultations handled by our Newport Field Office include those in response
to the New Carissa Oil Spill, a consultation on BLM management actions at the New
River Area of Critical Environmental Concern (ACEC), and a consultation on the
Integrated Predator Damage Management Program 2002 to 2007. The Oregon Parks
and Recreation Department is currently developing a Habitat Conservation Plan that
proposes restrictions on some Oregon beaches to help the plover population recover.
The New Carissa oil spill was a long and complicated incident involving a variety of
Federal, State, local and private participants. On February 4, 1999, the New
Carissa,carrying 359,000 gallons of bunker oil and 37,400 gallons of diesel, grounded
on the north spit of Coos Bay and began leaking oil shortly thereafter. Subsequently,
oil and oiled wildlife were observed on the beach. Attempts were made to burn off
the oil. The vessel broke into two pieces during the second attempt. There were three
formal consultations associated with the New Carissa between 1999 and 2000. The
first consultation addressed the effects of issuing permits for salvage of the New
Carissa stern section, the second the effects of restoring recreational access to the
Coos Bay north spit, and the third the response efforts led by the Coast Guard. In all
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three consultations, it was concluded that the proposed actions would not jeopardize
the western snowy plover if protective measures required to limit take were
implemented.
A consultation on the New River ACEC was completed in 2005. The purpose of the
biological opinion was to address a variety of issues: recreation management at Floras
Lake where measures were not adequately protecting nesting plovers; the periodic
construction of a breach on the New River spit to improve fish and wildlife habitat
and alleviate flooding; increased habitat restoration; and the development of a
primitive beach camping area.
A consultation on Oregon’s Integrated Predator Damage Management Program was
completed in 2001. The objective of this program is to assist in recovery of the
western snowy plover in Oregon by improving western snowy plover nesting and
fledging success, through 1) expanding assessment efforts to all western snowy plover
breeding and nesting locations to determine predator species responsible for nest,
chick and adult predation; and 2) reducing the local predator populations where
feasible and where the predator species or individual is known. The consultation calls
for a variety of lethal and non-lethal methods to be used by APHIS-WS personnel to
control the predator population.
The Oregon Parks and Recreation Department has been working with various
cooperating agencies to develop a Habitat Conservation Plan for Oregon beaches. The
Oregon Parks and Recreation Department is responsible for various management
activities for most of Oregon's coast, including recreation management, general beach
management, and the management of natural resources. In addition, the Oregon Parks
and Recreation Department is responsible for issuing various permits along the
Oregon coast. Some of these activities may result in "take" of or harm to the snowy
plover. A draft version of the Habitat Conservation Plan was distributed to the public
in January 2004. The Oregon Parks and Recreation Department conducted public
meetings in seven coastal communities to solicit public comment. The area covered
under the HCP includes the portions of the ocean shore along the Oregon coast that
extend between the mouth of the Columbia River South Jetty on the north and the
California/Oregon border on the south (approximately 230 miles of beach). In
addition, specific portions of six key state parks, state natural areas, and state
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recreation areas are included in the covered lands to be managed for snowy plover
recovery. Implementation of the plan will begin after approval and completion of the
Habitat Conservation Plan and its associated documents.
In southern California, we, through our Carlsbad Fish and Wildlife Office, have
worked with local jurisdictions to develop regional habitat conservation plans under
section 10 of the Endangered Species Act. The Multiple Species Conservation
Program addresses southwestern San Diego County, including, for example, western
snowy plover breeding habitat in south San Diego Bay through the City of San Diego.
The Multiple Habitat Conservation Program addresses northwestern San Diego
County. This plan provides for the conservation of western snowy plover breeding
habitat and will potentially result in more management in association with a proposed
preserve.
Also in San Diego County, we have been working with the Navy and the Marine
Corps to avoid and minimize impacts to western snowy plovers. For example, with
the assistance of our programmatic biological opinion in 1995, the Marine Corps has
addressed training-related impacts on western snowy plovers and other species on
approximately 17 miles of coastline on Camp Pendleton. We have likewise worked
with the Navy at Naval Base Coronado to develop a program to conserve western
snowy plover nesting and breeding habitat and allow necessary military training. As a
result of successful management on these San Diego County military installations,
they support a majority of the western snowy plover population in Recovery Unit 6
(e.g., roughly 65 percent in 2006 from window survey data) while the military
installations accomplish their respective training missions.
In the past, several instances were documented of western snowy plover nests being
trampled by cattle belonging to the Vail and Vickers Company on Santa Rosa Island
within the Channel Islands National Park, owned and managed by the National Park
Service. In 1996, a lawsuit to remove cattle from Santa Rosa Island was initiated by
the Environmental Defense Center, Santa Barbara, on behalf of the National Park
Conservation Association. It was initiated under the authority of the Clean Water Act
and the Endangered Species Act, based on concerns about management of livestock
by the National Park Service and associated impacts to water quality and sensitive
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plant and animal species. As a result of a lawsuit settlement, all cattle were removed
from Santa Rosa Island in early 1998.
7. Regulatory Protection and Policies of Local Governments
Local governments regulate municipal land uses through development of local land
use plans, general plans, comprehensive plans, and zoning policies. On April 21,
1998, we requested that county and coastal city planners within the states of
Washington, Oregon, and California complete land-use management surveys
regarding the western snowy plover. We sent surveys to 91 State, county, or coastal
city planners and received responses from 37 percent of the recipients.
Approximately 50 percent of the respondents were aware that western snowy plover
habitats occur within their jurisdictions. However, only about one-third knew
whether sandy beach and other habitats within their jurisdictions provided breeding
and/or wintering habitat for western snowy plovers. Many general plans, coastal zone
programs, and comprehensive plans prepared by local governments contain land use
designations that are protective of western snowy plover habitats (e.g., parkland, open
space, and conservation designations for sandy beach). However, allowable uses in or
adjacent to these zones, such as development (e.g., seawalls, recreational facilities,
single-family homes), recreation and public access, could cause direct or indirect
threats to breeding or wintering western snowy plovers.
Whereas 43 percent of the respondents include regulatory policies that protect western
snowy plover habitat (e.g., sandy beach) in their general plans, local coastal programs
or comprehensive plans, only 8 percent have developed regulatory policies
specifically to protect the western snowy plover. These respondents included the City
of Half Moon Bay, California, and Coos and Curry Counties, Oregon. Only 23
percent of the respondents specifically explain the threatened status of the western
snowy plover, identify western snowy plover breeding/wintering locations, or specify
shorebird nesting/roosting habitats as environmentally sensitive habitat areas in their
jurisdictions. About 50 percent of the respondents indicated they either (1) have
approved development within or adjacent to sandy beach or other habitats used by the
western snowy plover, or (2) did not know whether such development had been
approved by their agency. About half of these same respondents could provide some
information on the number of permits authorized, area or linear distance affected,
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percentage of development types (e.g., housing, recreational) permitted, and permit
conditions.
Based on these responses, it seems that specific locations of, and protective measures
for, western snowy plover breeding and/or wintering locations are not included in
most of the existing general plans, comprehensive plans, local coastal programs, or
their implementing ordinances. Also, to better assess cumulative impacts, these
responses indicate a need for a better tracking method regarding development projects
approved within and adjacent to western snowy plover habitat.
8. Interagency Coordination
Each of the six recovery units for the western snowy plover is represented by a
working group which meets at least once a year to coordinate western snowy plover
recovery efforts. The working groups have provided a forum for the participation of
affected Federal and State agencies and others in discussion, implementation, and
adjustment of recovery efforts. Items addressed include research and monitoring
needs, predator control, recreation management, habitat restoration, public outreach
and law enforcement. In addition, a joint meeting of all six working groups is held
annually. This group, consisting of beach managers, researchers, and outreach staff,
meet to discuss range-wide issues (within the United States), to coordinate recovery
actions, to learn from the experience of others, and to share information and research.
Attendees have included local, State, and Federal agency staff, non-governmental
organizations, consulting firms, private citizens, and volunteers.
The recovery unit working groups vary somewhat in organizational structure
depending on major local issues, patterns of land ownership within the area, and
specific agencies responsible for management. For example, the Oregon/Washington
working group is composed of several subcommittees, including Outreach, Media,
Predator Control, Research, Law Enforcement, and Recovery Plan Implementation.
They facilitate funding partnerships for monitoring and management programs, thus
promoting the best use and leveraging of limited funds. They also act as the main
forum for discussing and tracking the status and trends of the snowy plover
population. The subcommittees have worked on or supported a variety of cooperative
projects, such as monitoring of yearly reproductive success, predator control, and
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outreach materials. Products developed by the Outreach subcommittee include an
outreach plan for Oregon/Washington and “Share the Beach” bookmarks, table tents,
dog leashes, brochures, interpretive signs, and coloring books. The Media
subcommittee is producing a media outreach CD for distribution to various media
outlets and inter-agency press releases. The Predator Control subcommittee approved
a predator management plan for Oregon, which first went into effect in 2002. The
purpose of the Research subcommittee is to identify research and monitoring
priorities, establish criteria for setting priorities, review proposed projects, and
address funding mechanisms. The Law Enforcement subcommittee focuses on
improving compliance with rules and regulations in plover nesting areas and the
Recovery Plan Implementation subcommittee is working on guidance that would
assist in “stepping down” the recovery plan for Oregon and eventually Washington.
In 1998, an interagency effort in Oregon produced a slide show and portable display
to educate beach visitors about western snowy plover conservation. Outdoor
education specialists and/or western snowy plover biologists from the U.S. Bureau of
Land Management, U.S. Forest Service, Oregon Department of Fish and Wildlife,
Oregon Parks and Recreation Department, and U.S. Fish and Wildlife Service
participated in this effort. The show provides basic information about the western
snowy plover, the reasons for its decline, and actions needed for its recovery,
emphasizing the contribution that beach visitors can make.
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II. RECOVERY
A. RECOVERY STRATEGY
The recovery strategy for the Pacific coast population of the western snowy plover
(western snowy plover) includes three major components: 1) increase population
numbers distributed across the range of the Pacific coast population of the western
snowy plover; 2) ameliorate or eliminate threats by conducting intensive ongoing
management for the species and its habitat, and developing mechanisms to ensure
management in perpetuity; and 3) monitor western snowy plover populations and
threats to determine success of recovery actions and to refine management actions.
Developing and implementing intensive adaptive management actions, ensuring that
management will continue in perpetuity, and monitoring to refine management
actions, are all necessary to achieve the targeted population increases across the range.
These three major components of the recovery strategy each include many actions and
multiple partners that are described in further detail below.
1. Recovery Strategy Components
The following recovery strategy components will guide future recovery efforts for the
U.S. Pacific coast population of the western snowy plover.
a. Population increases should be distributed across the western snowy plover’s
Pacific coast range.
A key component of recovering western snowy plovers is to ensure that population
increases are distributed throughout the species’ Pacific coast range. In order to
achieve this, management goals (Appendix B) and needed management actions
(Appendix C) have been determined for 155 sites distributed along the coasts of
southern Washington, Oregon, and California. Additionally, the population’s range
has been divided into six recovery units (see discussion below) with population goals
established for each recovery unit. The six recovery units correspond to regions of the
U.S. Pacific coast and to the six subpopulations used in the Population Viability
Analysis for the Pacific coast Snowy Plovers (Appendix D). In the population
viability analysis, the Pacific coast population of the western snowy plover is treated
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as a metapopulation, defined as a set of subpopulations among which there is limited
dispersal.
The population viability analysis assumes dispersal among subpopulations is limited;
however, even limited dispersal among subpopulations is important to species
survival and recovery. Dispersal of the population across its breeding range helps to
counterbalance catastrophes, such as extreme climatic events, oil spills, or disease that
might depress regional survival and/or productivity. Maintaining robust, well-
distributed subpopulations should reduce variance in survival and productivity of the
Pacific coast population of the western snowy plover as a whole, facilitate interchange
of genetic material between subpopulations, and promote recolonization of any sites
that experience declines or local extirpations due to low productivity and/or
temporary habitat loss.
This recovery plan and the population viability analysis (Appendix D) consider the
U.S. Pacific coast population of the western snowy plover to be a single management
entity, and population goals and objectives are based on that premise. No portion of
the Pacific coast population of the western snowy plover appears to function as a
distinct population segment. The Recovery Team therefore recommends that no
State, geographic region, or subpopulation of the Pacific coast population of the
western snowy plover be considered for delisting separately from the others.
b. Remove or reduce threats by conducting intensive ongoing management for the
species and its habitat, and develop mechanisms to ensure management in perpetuity
to prevent a reversal of population increases following delisting under the Endangered
Species Act.
Management consists of multiple components, including identifying actions to
ameliorate or eliminate threats, developing mechanisms to ensure management in
perpetuity, continuing outreach and education to provide information to the public,
partners, and stakeholders on recovery needs and opportunities, and developing of
partnerships among Federal, State, and local agencies and groups to develop and
implement effective management. Management actions for the western snowy plover
are described in the recovery action outline and in Appendix C. These management
actions are necessary to eliminate or ameliorate threats to the western snowy plover,
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including loss, degradation, and alteration of habitat; disease, predation; and other
manmade factors including disturbance of breeding and wintering birds,
contaminants, and oil spills.
In addition to specific management recommendations to ameliorate or eliminate
threats, the recovery action outline and recovery strategy for the western snowy plover
include several recovery actions to develop mechanisms to ensure that management
actions continue in perpetuity to ensure that threats remain neutralized. These include
establishing working groups and developing participation plans for each recovery
unit; ensuring sufficient U.S. Fish and Wildlife Service staff to coordinate recovery of
the Pacific coast population of the western snowy plover; developing and
implementing management plans for publicly owned lands; assisting local
governments and private land owners in developing habitat conservation plans,
developing land use protection measures, and developing landowner agreements; and
acquiring habitat where necessary. A key component of these efforts includes
education and outreach to inform partners and the public about recovery needs and
opportunities for the western snowy plover. Actions for outreach are included in the
recovery action outline, and the Information and Education Plan (Appendix K)
provides greater detail on implementing these outreach and education actions.
Participation of many different groups will be essential to achieve both short-term and
long-term management for the western snowy plover and its habitat. The roles of
various groups, potential conservation tools and funding available, and the Recovery
Team’s vision for participation and coordination of partners are further described
below.
c. Annual monitoring of western snowy plover subpopulations and reproductive
success, and monitoring of threats and effects of management actions in reducing
threats, is essential for adaptive management and to determine the success of recovery
efforts.
The recovery action outline describes monitoring for breeding, wintering, and
migration areas both to determine whether population numbers and survival of
western snowy plovers is increasing and whether threats continue to limit population
increases. Additional research actions are also recommended to study certain threats
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and develop management techniques and monitoring methods. Results from research
and monitoring efforts will be used to develop, refine, and improve management of
western snowy plovers and their habitat. Monitoring of demographic characteristics
will be necessary to demonstrate that population goals in the recovery criteria are
being achieved. Monitoring of threats and effects of management actions in reducing
those threats also is essential in demonstrating progress toward recovery and
ultimately will assist in threats analyses necessary to make a delisting determination.
2. Roles of Federal, State, Local, and Private Sectors
a. Role of Federal Lands
Federal lands administered by the U.S. Fish and Wildlife Service, National Park
Service, U.S. Forest Service, U.S. Bureau of Land Management, the National Marine
Sanctuary Program, U.S. Marine Corps, and the U.S. Departments of the Army
(including Corps of Engineers), Navy, and Air Force are extremely important to the
conservation of the western snowy plover. In California, breeding occurs on National
Wildlife Refuge lands, Department of Defense lands, Bureau of Land Management
lands, and National Park Service lands. In Oregon, the major Federal landowners are
the U.S. Forest Service and Bureau of Land Management, although the State also has
jurisdiction over much of the Federally owned area (from mean high tide to the
vegetation line) through a recreational easement (E.Y. Zielinski and R.W. Williams in
litt. 1999). In Washington, the breeding area at Leadbetter Point is within a National
Wildlife Refuge.
Under section 7(a)(1) of the Endangered Species Act, Federal agencies are required to
actively promote the conservation of listed species. The western snowy plover cannot
be recovered simply through general habitat protection or complying with required
section 7(a)(2) consultations. The western snowy plover must be actively monitored
and managed for the purpose of recovery or its population size will decline. Federal
agencies alone cannot assure recovery of the western snowy plover, but should have a
leading role in monitoring and management efforts to assure survival and recovery of
this species. Some Federal lands contain large areas of contiguous habitat, including
adjacent inland areas that are easier to manage for conservation of natural resources
than fragmented, linear strips of land that may be owned by states, counties, cities,
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and private landowners. Protection of western snowy plovers and their habitat on
Federal lands is important not only because of the direct benefits to plovers that use
these areas, but also because plover protection programs on Federal lands frequently
utilize state-of-the art management measures and therefore serve as examples to non-
Federal landowners. The Federal Government also should take the lead in addressing
the sensitive issue of predator control.
b. Role of State Lands
State lands administered by the California Department of Parks and Recreation,
California Department of Fish and Game, Oregon Department of Fish and Wildlife,
Oregon Parks and Recreation Department, Washington Department of Fish and
Wildlife, Washington State Parks and Recreation Commission, and Washington
Department of Natural Resources play an important role in conservation of western
snowy plovers and their habitats. Intensive management for western snowy plovers
occurs at a number of State-owned plover habitat areas. The western snowy plover
cannot be preserved simply through general habitat protection. Western snowy
plovers must be actively monitored and managed to achieve recovery goals on State
lands or their population size will decline.
c. Roles of State and Local Governments
State and local government agencies, including state planning agencies and city and
county planning and community resources departments, have the primary
responsibility for overseeing land uses within their jurisdictions. Therefore, their
involvement in future recovery planning and implementing processes is critical. All
Appendix B locations should be identified as environmentally sensitive habitat areas
requiring protective measures for the western snowy plover in state and local planning
documents and zoning designations. Local coastal programs should be amended to
include these areas. To facilitate this effort, Federal and State agencies managing
western snowy plover habitat should provide technical assistance and information to
local governments (see Actions 3.1.6, 3.1.7 and 5.2). We can provide detailed maps
of current western snowy plover breeding and/or wintering locations; these maps will
be updated periodically as needed.
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d. Role of Municipal Lands
Regional, county, and city lands, including regional and municipal park districts, also
serve a role in conserving breeding and wintering habitats for western snowy plovers.
Because these areas frequently receive heavy pedestrian and recreational use, local
jurisdictions with active public outreach programs can reach a large segment of the
coastal community regarding the plover’s status and habitat needs.
e. Role of Private Lands
Conservation efforts on private lands are needed for the survival and recovery of
many listed and other sensitive species. Private landowners can also make important
contributions to western snowy plover conservation through facilitating or allowing
the monitoring of western snowy plover populations on their land and implementing
protective measures.
3. Conservation Tools and Strategies
There are numerous conservation tools and strategies available to Federal, State,
municipal, and private landowners interested in western snowy plover protection and
recovery. Appendix H includes a summary of conservation tools and strategies that
may be adopted by landowners, nonprofit organizations, and regulatory agencies to
protect western snowy plover habitat.
4. Funding Sources
Appendix I includes a summary of some potential sources of funds for
implementation of recovery actions for the western snowy plover. This list is not
intended to be exhaustive, however, and other funding opportunities may also be
available.
An essential mechanism for recovery of the western snowy plover is the development
and implementation of participation plans for each of the six recovery units (see
Action 3.1.2). A key element of these participation plans is the long-term
commitment by participating agencies to seek annual, ongoing funding for western
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snowy plover management and monitoring activities so that funding within agency
budgets can be secured.
In many areas a significant portion of western snowy plover conservation resources
are expended in efforts to minimize the adverse impacts of recreation. Often, the
primary objective of signs, ropes, on-site interpretation, and enforcement is to manage
the behavior of beach-goers such that impacts to western snowy plovers are reduced
as much as possible. In areas that have suffered extensive habitat loss or degradation,
such recreation management activities are an extremely high priority in order to
protect the western snowy plovers using the limited habitat that remains. For some
beach managers, much of the funding and staff time expended on recreation
management in and near western snowy plover habitat comes from resources targeted
for threatened and endangered species recovery. In absence of the need to coordinate
and pay for recreation management activities, more of these limited conservation
dollars and staff resources could be directed toward western snowy plover
management actions such as biological monitoring, habitat restoration, and predation
control.
This situation is unique in the experience of many resource biologists. More
typically, avoidance, minimization, and mitigation measures are integral components
of projects or programs that entail adverse impacts to sensitive resources, and the
costs of these activities are regarded as part of the overall cost of the project or
program. Applying this traditional construct to recreation projects and programs
could significantly promote western snowy plover recovery in several ways. First, it
would require impacts to western snowy plovers to be considered up front when
planning beach access or other recreation projects. Second, it would encourage
impact avoidance and minimization since such measures are often less expensive than
mitigation. Third, it would promote involvement of recreation professionals in
designing and implementing recreation management measures. And fourth, it would
eliminate or reduce the diversion of biological resource management funds toward
recreation management activities, thus enabling more of those dollars to be spent on
western snowy plover recovery actions.
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5. Coordination, Participation, and Working Groups
We strongly believe that a collaborative stewardship approach to the proactive
management of listed species involving government agencies (Federal, State, and
local) and the private sector is critical to achieving the ultimate goal of recovery of
listed species under the Endangered Species Act. An essential mechanism to achieve
recovery of the western snowy plover is the formation and maintenance of working
groups for each of the six recovery units (Appendix A), (see Action 3.1.1).
Representation from the full range of Federal, State, local, and private landowners and
other parties who have a stake in western snowy plover conservation within each of
these six recovery units is needed to advance the recovery actions recommended in
this recovery plan. Working group membership should include land managers,
environmental groups, user groups, and groups involved in conservation projects
(including local chapters such as the National Audubon Society, Sierra Club, Native
Plant Society, Americorps, California Conservation Corps, Boy Scouts, Surfrider
Foundation, and other recreational use groups). These groups can provide large
networks of volunteers who can be mobilized to assist public resource agencies in the
implementation of management measures for protection and recovery of the western
snowy plover.
Working groups for each of the six recovery units currently exist and convene
annually for regional and rangewide meetings. Through evaluation, communication,
and coordination, members of each of the six working groups should manage the
western snowy plover population and monitor progress towards recovery. They
should produce annual reports on population monitoring and the effectiveness of
management activities for the working group and our Arcata Fish and Wildlife Office.
Each of the six working groups should prepare a participation plan, thereby
formalizing recovery implementation efforts and the intentions of responsible
agencies to seek ongoing, annual funding for recovery implementation. The Recovery
Coordinator should coordinate and communicate with each recovery unit to support
recovery efforts and assure implementation of the recovery plan (see Actions 3.1
through 3.4, 6, and 7). The Recovery Coordinator also should coordinate with other
western snowy plover survey efforts and assessments throughout the west and
throughout North America. Coordination with these other efforts may provide
valuable information on the status and distribution of the western snowy plover, as
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well as valuable information on management actions that may benefit the Pacific
coast population of the western snowy plover. A coordinated international
conservation program with Mexico also should be established to protect western
snowy plover populations and their habitat in that country (see Action 8).
B. RECOVERY UNITS
The Pacific coast population of the western snowy plover has been divided into six
recovery units (Appendix A, Figures A-1 through A-7). Establishing recovery units
with specific recovery goals for each recovery unit will assist in meeting the objective
of ensuring that population increases are distributed throughout the western snowy
plover’s Pacific coast range. A recovery unit is a special unit of a listed species that is
geographically or otherwise identifiable and is necessary to the survival and recovery
of the entire listed entity. Recovery units are individually necessary to conserve
genetic robustness, demographic robustness, important life history stages, or other
features for long-term sustainability of the entire listed species. However, recovery
units are not listed as separate entities and cannot be delisted individually. Each
recovery unit must be recovered before the species can be delisted.
The resilience to extinction of a widespread species can be negated if the species is
subjected to a new stress over a large area (Raup 1991:122, 182). For the western
snowy plover the primary stresses that led to the listing of the species were the loss of
habitat due to encroachment of European beachgrass and urban development. As a
consequence of such widespread habitat loss and the subsequent reduction in the
range and vigor of the species, the western snowy plover is now more vulnerable to
environmental fluctuations and catastrophes that the species would otherwise be able
to tolerate. Chance events such as oil and contaminant spills, windstorms, and
continued habitat loss from European beachgrass expansion, described earlier in this
plan, could now cause or facilitate the extirpation of the entire listed species or one or
more of the breeding populations.
The recovery unit approach in this recovery plan addresses this risk to the long-term
survival and recovery of the western snowy plover by employing two widely
recognized and scientifically accepted goals for promoting viable populations of listed
species: (1) creation or maintenance of multiple populations so that a single or series
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of catastrophic events cannot destroy the whole listed species; and (2) increasing the
size of each population in the respective recovery unit to a level where the threats of
genetic, demographic, and normal environmental uncertainties are diminished
(Mangel and Tier 1994; National Research Council 1995:91; Tear et al. 1993; Meffe
and Carroll 1994:192).
In general, the larger the number of populations and the larger the size of each
population, the lower the probability of extinction (Raup 1991:182; Meffe and Carroll
1994:190). This basic principle of redundancy applies to the western snowy plover.
By maintaining viable populations at the breeding locations within multiple recovery
units, the threats represented by a fluctuating environment are alleviated and the
species has a greater likelihood of achieving long-term survival and recovery.
Conversely, loss of one or more important breeding locations within a recovery unit
could result in an appreciable increase in the risk that the entire listed species may not
survive and recover. Because western snowy plovers tend to exhibit site fidelity,
migration to new nesting sites could increase stress to breeding birds and reduce
nesting success.
Therefore, when evaluating the potential impact of land management actions that may
affect the western snowy plover, we will consider whether a significant loss of
western snowy plover breeding or wintering habitat in one recovery unit --without
adequate compensation alleviating the impacts of that loss-- would adversely affect
the viability of the population in that recovery unit as well as the long-term viability
of populations in other recovery units.
Several aspects of the biology and life history of the western snowy plover indicate
that designation of recovery units is necessary to ensure the long term health and
sustainability of the western snowy plover. A portion of the Pacific coast population
of western snowy plovers do not migrate up or down the coast and are year round
residents. Additionally, the majority of western snowy plovers that do migrate are
site-faithful, returning to the same breeding areas in subsequent breeding seasons
(Warriner et al. 1986, Stenzel et al. 1994). Western snowy plovers occasionally nest
in exactly the same location as the previous year (Warriner et al. 1986). These two
features indicate that the Pacific coast population of western snowy plover likely
exhibits subpopulation and metapopulation structure (see also Appendix D).
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Designation of separate recovery units across the range will ensure that
metapopulation dynamics can be maintained for the species.
The area covered by the six recovery units encompasses all the known breeding and
wintering sites for the Pacific coast population of the western snowy plover. In
addition to exhibiting site fidelity to breeding locations, western snowy plovers also
exhibit fidelity to wintering locations. In contrast to many migratory birds, winter
migration of the Pacific coast population of western snowy plovers is not uni-
directional. Western snowy plovers may move both north and south along the coast
from breeding locations. Nesting birds from Oregon have wintered as far south as
Monterey Bay, California, while birds from Monterey Bay in central California have
wintered north to Bandon, Oregon and south to Laguna Ojo de Liebre in Baja
California, Mexico (Page et al. 1995a). Nesting birds from San Diego County in
southern California have wintered north to Vandenberg Air Force Base in Santa
Barbara County and south to Baja California (Powell et al. 1995, 1996, 1997).
Designation of separate recovery units, each essential to the recovery of the western
snowy plover, will ensure that wintering and migratory habitat is distributed across
the western snowy plover’s Pacific coast range and is protected and managed to
maximize western snowy plover population survival.
The six recovery units for the Pacific coast population of the western snowy plover
are: (1)Washington and Oregon; (2) Del Norte to Mendocino Counties, California; (3)
San Francisco Bay, California; (4) Sonoma to Monterey Counties, California; (5) San
Luis Obispo to Ventura Counties, California; and (6) Los Angeles to San Diego
Counties, California. These recovery units were designated partly based on gaps in
distribution of western snowy plover breeding and wintering locations, and on gaps in
available habitat along the coast. For example, a significant portion of the coast of
Sonoma County and southern Mendocino County is rocky and composed of steep
bluffs lacking beach, dune, or estuary habitat suitable for the western snowy plover.
This area constitutes a gap in the distribution of breeding and wintering locations
between recovery units 2 and 4. This situation is repeated along the coast of
Monterey County, where a gap in western snowy plover locations and suitable habitat
occurs between recovery units 4 and 5. Smaller gaps also occur between recovery
units 1 and 2, and between recovery units 5 and 6. Recovery unit 3 is unique and has
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been designated as a separate recovery unit because much of the habitat in the San
Francisco Bay area consists of salt ponds and salt pond levees.
The six recovery units designated for the western snowy plover also vary significantly
in numbers of breeding western snowy plovers. Recovery unit 5 supports the greatest
number of western snowy plovers, approximately half of the U.S. population, and has
the greatest amount of available suitable habitat. Recovery units 4 and 6 support, or
have the potential to support, a lesser number of western snowy plovers, collectively
about a third of the population. The population in Recovery Unit 3 is relatively lower
but has potential to increase with intensive management of salt pond habitat.
Recovery units 1 and 2 also support relatively low numbers of western snowy plovers,
probably due to suitable habitat being lesser in extent and more widely separated, but
represent about half of the geographic range of the Pacific coast population of western
snowy plovers within the United States and provide essential wintering, migratory,
and breeding habitats.
Collectively, recovery of western snowy plovers within each of the six recovery units
is necessary to maintain metapopulation dynamics, ensure protection and appropriate
management of wintering and migratory habitat, and ensure the long term health and
sustainability of the Pacific Coast population of western snowy plovers across its
current range.
C. RECOVERY GOALS AND OBJECTIVES
The goal of this recovery plan is to ensure the long-term viability of the Pacific coast
western snowy plover population so that this population can be removed from the
Federal list of endangered and threatened species. The specific objectives to achieve
this goal are the major components of the recovery strategy described above:
1) Increase population numbers distributed across the range of the Pacific coast
population of the western snowy plover;
2) Conduct intensive ongoing management for the species and its habitat and develop
mechanisms to ensure management in perpetuity; and
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3) Monitor western snowy plover populations and threats to determine success of
recovery actions and refine management actions.
D. RECOVERY CRITERIA
Recovery criteria for the Pacific coast population of the western snowy plover include
numeric subpopulation targets, reproductive productivity targets, and establishment of
management actions. Under each of these three major recovery criteria are additional
subcriteria that must be achieved in order to progress toward the major criteria or that
must be achieved in order to determine whether the major criteria are being met.
Subcriteria include completing development and implementation of population,
demographic and threat monitoring programs, incorporating specific management
actions into participation and management plans, and completing research actions
necessary to refine management actions.
Recovery criteria in this recovery plan are necessarily preliminary and will need
periodic reassessment because additional data upon which to base decisions about
western snowy plover recovery are needed (i.e., effective predator management
techniques, effective restoration techniques, improved monitoring techniques,
additional demographic information for some subpopulations). Research actions,
monitoring programs, and periodic recovery implementation review are included as
recovery actions in order to obtain this information. The completion of many of these
actions have been incorporated into recovery criteria in order to ensure that new
information is incorporated into recovery implementation decisions.
The recovery criteria recommend that the Pacific Coast population of the western
snowy plover be maintained at 3,000 breeding birds. This population increase to
3,000 breeding individuals could occur within 25 years with intensive management of
breeding and wintering sites (see Appendix D. Population Viability Analysis for
Pacific Coast Snowy Plovers). This population level must be maintained for at least
ten years. In addition, average annual productivity of at least one (1.0) fledged chick
per male in each recovery unit must be maintained in the last 5 years prior to
delisting. Forty years may be required to achieve these demographic components of
the recovery criteria, assuming that mechanisms to assure long-term protection and
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management of breeding, wintering, and migration areas necessary to maintain the
subpopulation sizes and average productivity have been developed and are in place.
The Pacific coast population of the western snowy plover will be considered for
delisting when the following criteria have been met:
Criterion 1. Monitoring shows that an average of 3,000 breeding adults
distributed among 6 recovery units as specified below have been maintained for
a minimum of 10 years:
Recovery Unit Subpopulation Size
1. Washington and Oregon 250 breeding adults
2. Del Norte to Mendocino 150 breeding adults
Counties, California
3. San Francisco Bay, California 500 breeding adults
4. Sonoma to Monterey Counties, 400 breeding adults
California
5. San Luis Obispo to Ventura 1,200 breeding adults
Counties, California
6. Los Angeles to San Diego Counties, 500 breeding adults
California
Subpopulation sizes represent the best professional judgment of the Western Snowy
Plover Recovery Team’s technical subteam. Numbers are based on a site-by-site
evaluation of historical records, recent surveys, and future potential (assuming
dedicated, proactive management at breeding and wintering locations). Collectively,
these numbers represent an approximately 70 percent increase in the Pacific coast
population size from the time of listing. On a cumulative range-wide basis the
recovery criteria are approximately 83 percent of the total of the “Management Goal
Breeding Numbers” identified in Appendices B and C, which represent site-specific
target populations under an intensive management scheme. The recovery criteria for
population size and distribution for the Pacific coast population of the western snowy
plover represent only a portion of its historical abundance and distribution.
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To reach these subpopulation sizes will require proactive management to attain a level
of productivity that will allow the population to grow. The population viability
analysis (Appendix D) suggests that reproductive success between 1.2 to 1.3
fledglings per male per year, with adult survival of 76 percent and juvenile survival of
50 percent, provides a 57 to 82 percent probability of reaching a population of 3,000
western snowy plovers within 25 years. Enhancing productivity is critical to
population growth. Once the population size criterion is met, a lower rate of
productivity can sustain the population.
1a. A program is developed and implemented to monitor the western snowy
plover breeding population and wintering locations (see Actions 1.1 and 1.2) to
determine whether recovery unit subpopulation criteria are being achieved.
The monitoring program must include monitoring of population size and distribution,
survival, and productivity. Monitoring population size and distribution are necessary
as a means of measuring whether the recovery criterion is being met. Monitoring
demographic characteristics such as survival and productivity also will be necessary
to determine population trends and progress toward achieving the recovery criterion.
The monitoring program should also assess whether management goals for breeding
and wintering sites listed in Appendix B are being achieved. Collectively, the
breeding management goal numbers are about 20 percent higher than the recovery
criteria subpopulation sizes. Monitoring of individual sites will assist in determining
the effectiveness of management actions and whether any refinements are necessary.
Monitoring of wintering sites will assist in indicating whether survival of western
snowy plovers is sufficient to make progress toward meeting breeding population size
criteria.
When the species has recovered sufficiently to be delisted, the ongoing program of
monitoring actions should be integrated into a post-delisting monitoring plan to cover
a minimum of 5 years after delisting and ensure ongoing recovery and effectiveness of
management actions. This monitoring plan should be developed and ready for
implementation before delisting.
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1b. A program is developed and implemented to monitor the site-specific threats
identified in Appendix C (Action 1.3) and monitoring results are used to refine
site-specific management actions identified in Appendix C.
In conjunction with monitoring of breeding subpopulation sizes and distribution and
demographic characteristics, threats at each breeding and wintering site must be
monitored in order to determine whether management actions are effective in
increasing western snowy plover survival and reproduction. If threats continue
limiting population increases, or additional threats are identified, management actions
recommended in Appendix C may require modification.
1c. Management activities identified in Appendix C that are necessary to
ameliorate threats and achieve increases in reproductive success, survival, and
overall population size are incorporated into participation and management
plans developed and implemented under Criterion 3.
Appendix C provides location-specific summaries of current management activities at
western snowy plover breeding and wintering sites based on: 1) responses by public
land managers and private conservation organizations to a survey prepared by the
Recovery Team on western snowy plover management and beach use; and 2)
supplemental information from the Recovery Team and from our field office staff.
Appendix C also identifies additional management activities needed at each site to
ameliorate threats and achieve management goals. These management
recommendations are intended to provide preliminary guidance but additional
management needs likely will be identified through monitoring, research, and site-
specific experience.
1d. Research actions (Action 4) are completed and incorporated into
management and participation plans and into monitoring plans.
Several research needs identified under Action 4 are necessary to refine and improve
management activities for the western snowy plover and also to improve monitoring
of western snowy plover population sizes, demographics, and threats. Improving and
refining management actions will increase the effectiveness of management actions in
increasing population numbers, survivorship, and productivity. Improved monitoring
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techniques are needed to ensure that monitoring efforts are adequate to determine
whether recovery actions are successful and recovery criteria are being met.
Criterion 2. A yearly average productivity of at least one fledged chick per male
has been maintained in each recovery unit in the last 5 years prior to delisting.
From currently available data, it is estimated that males must average one fledged
young annually for population equilibrium (see Appendix D). Higher rates of
productivity will be necessary to reach the target population size of 3,000 breeding
adults. After this population size is achieved and maintained for a minimum of 10
years, a lower rate of productivity of one fledged chick per male will be necessary to
maintain the population size at an average of 3,000 breeding adults. Monitoring
programs developed and implemented under criteria 1a and 1b should continue
throughout this period. We also assume that management designed to ameliorate
threats (criteria 1c and 3) will continue through this period and after delisting.
Criterion 3. Mechanisms have been developed and are in place to assure long-
term protection and management of breeding, wintering, and migration areas
listed in Appendix B to maintain the subpopulation sizes and average
productivity specified in Criteria 1 and 2.
Development of mechanisms to ensure long-term management and protection of
western snowy plovers and their habitat are listed under Action 3, which outlines the
recovery actions recommended to meet these recovery criteria. The recovery action
outline section describes each action in detail. The recovery action outline lists all
subactions necessary to fulfill the main recovery action. It also represents a
prioritization of measures to be implemented. Completion of these actions will
ensure that threats to western snowy plovers and their habitat are ameliorated and that
management will continue after delisting to prevent a reversal of population increases.
3a. Working groups for each of the six recovery units are established.
Action 3.1 recommends the establishment of working groups for each recovery unit.
Working groups should be diverse and include representatives from Federal, State,
local, and private sectors. At present working groups are in existence for all recovery
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units, and should continue to be maintained and meet regularly. The roles of the
working groups are to coordinate and facilitate recovery efforts within each recovery
unit, assess population trends, and carry out outreach activities.
3b. A participation plan for each recovery unit working group has been
developed and implemented.
Each working group is tasked with developing a participation plan that delineates and
prioritizes recovery activities within each recovery unit and for each location
identified in Appendix B. These plans should identify the roles and responsibilities of
each member of the working group and their commitments to carry out identified
recovery actions.
3c. Management plans for all Federal and State lands identified in Appendix C
have been developed and implemented.
Appendix C identifies the landowners of western snowy plover wintering and
breeding sites. Many of the sites are owned or managed by Federal or State agencies.
Development and implementation of management plans that incorporate the
management goals and recommendations in Appendix C for all these sites are
necessary to ensure that population goals are reached, threats ameliorated, and long-
term protection and management of western snowy plovers and their habitat are in
place.
3d. Mechanisms to protect and manage western snowy plover breeding and
wintering sites identified in Appendices B and C are in place for all areas owned
or managed by local governments or private landowners.
Appendix C also identifies many western snowy plover breeding and wintering
locations that are owned or managed by local governments, private conservation
organizations, or private landowners. These lands also require protection and
management to ensure that population goals are reached, threats ameliorated, and
long-term protection and management of western snowy plovers and their habitat are
in place. Because of the diverse ownership and management of these lands, many
different mechanisms may be used to ensure protection and management of these
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locations. These mechanisms are further described in the recovery action outline and
Appendices H and I.
3e. Public information and education programs are developed and
implemented.
Outreach is a major component of developing and putting in place mechanisms to
assure long-term protection and management of breeding, wintering, and migration
areas listed in Appendix B. Outreach efforts will be needed to solicit participation of
the many Federal, State, local, and private groups in recovery efforts and notify
groups and individuals of recovery opportunities and incentives for the western snowy
plover. Outreach efforts also must be used as a component of management of western
snowy plovers and their habitats. These efforts will include informing the public and
gaining their support for measures intended to protect western snowy plovers.
E. RELATIONSHIP OF RECOVERY ACTIONS AND CRITERIA TO
THREATS
The goal of this recovery plan is to ensure the long-term viability of the Pacific coast
population of western snowy plovers so that they can be removed from the Federal list
of endangered and threatened species. The delisting process requires demonstrating
that threats to the western snowy plover have been reduced or eliminated such that the
species survival in the wild is assured. Table 8 lists the threats to the western snowy
plover that have been identified during and since the listing process and indicates the
actions and recovery criteria in the recovery plan that address each threat.
The western snowy plover faces multiple threats throughout its Pacific coast range.
Major threats to the western snowy plover include habitat destruction and
modification and lack of habitat protection mechanisms (listing factors A and D),
disease or predation (listing factor C), and manmade factors that primarily result in
disturbance or mortality of breeding birds (listing factor E). Effects of research on
western snowy plovers (listing factor B) is also a threat but is comparatively minor
and easily addressed through permitting processes. Many of the threats to western
snowy plovers are interrelated or have complex interactions with each other. For
example, coastal development that destroys or modifies habitat (listing factor A) also
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results in increased disturbance from recreational activities (listing factor E) and in
increased predator populations (listing factor C). Recovery actions and criteria
therefore may address multiple threats.
The majority of threats to the western snowy plover, other than habitat destruction or
modification, affect the western snowy plover’s productivity (breeding success) and
survival within otherwise suitable habitat. Criteria 1 and 2 are directed at determining
whether the effects of threats on productivity and survival have been removed and
expected population and productivity increases are being achieved. Threats addressed
by these recovery criteria primarily fall under listing factors B, C, and E. Reduction
and elimination of these threats, and the expected increases in productivity and
survival, rely primarily on developing intensive management and monitoring
programs for the western snowy plover. Criterion 3 is directed at achieving the
management and habitat protections necessary to reduce and eliminate threats that fall
primarily under listing factors A and D, but also address threats under listing factors
B, C, and E that can be eliminated or ameliorated by ensuring long-term management.
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Table 8. Threats to the Pacific coast population of the western snowy plover and
steps within the recovery plan to reduce or eliminate threats.
Factor* Threat Action Criterion
A The present of threatened destruction, modification, or curtailment
of its habitat or range.
A* Encroachment of
introduced beachgrass
and nonnative
vegetation.
1.1-1.3, 2.2.1, 3.1-
3.10, 4.1.1, 5.1-5.7
1b-d,
2,
3a-e
A* Shoreline stabilization 1.1-1.3, 2.1, 3.1-3.10,
5.1-5.7
1b, 1c,
3a-e
A* Urban development
and construction
1.1-1.3, 2.1, 3.1-3.10,
5.1-5.7
1b, 1c,
3a-e
A Dredging disturbance
and tailings deposit
1.1-1.3, 2.1, 3.1-3.10,
5.1-5.7
1b, 1c,
3a-e
A* Sand mining 1.1-1.3, 2.1, 2.2.2,
3.1-3.10, 5.1-5.7
3a-e
A Beach nourishment
with inappropriate
design and/or sand
type
1.1-1.3, 2.2.3, 3.1-
3.10, 5.1-5.7
3a-e
A Driftwood removal 1.1-1.3, 2.3.4, 3.1-
3.10, 5.1-5.7
1b, 1c,
2
3a-e
A Beach fires and
camping
1.1-1.3, 2.3.3, 3.1-
3.10, 5.1-5.7
1b, 1c,
2
3a-e
Factor* Threat Action Criterion
150
A Water course
diversion,
impoundment, or
stabilization
1.1-1.3, 3.1-3.10, 5.1-
5.7
1b, 1c,
3a-e
A Habitat conversion for
other species
1.1-1.3, 3.1-3.10, 5.1-
5.7
1d,
3a-e
A Operation of salt
ponds
1.1-1.3, 3.1-3.10, 5.1-
5.7
1b, 1c,
3a-e
B Overutilization for commercial, recreational, scientific or
educational purposes.
B*Egg collecting 1.1-1.3, 2.3.8 none, 1c
B Studying and
monitoring plovers
1.4, 1.5, 3.1-3.2, 4.3 1a-d
2
B Banding 4.6 1a-d
C Disease or predation.
C*Introduced nonnative
predators
1.1-1.3, 2.4, 4.2, 3.1-
3.10, 5.1-5.7
1b, 1c,
2
3a-e
C Increased populations
of native predators
due to human
influences
1.1-1.3, 2.4, 4.2,3.1-
3.10, 5.1-5.7
1b, 1c, 1d,
2,
3a-e
C* Predator attractants 1.1-1.3, 2.4, 4.2, 3.1-
3.10, 5.1-5.7
1b, 1c, 1d,
2,
3a-e
C Predation by domestic
and feral cats
1.1-1.3, 2.4, 4.2, 3.1-
3.10, 5.1-5.7
1a-d,
2,
3a-e
D The inadequacy of existing regulatory mechanisms.
Factor* Threat Action Criterion
151
D* Limited habitat
protection under the
Migratory Bird Treaty
Act and State laws
2.3.8, 3.1-3.10, 5.1-
5.7
3a-e
D Conflicting beach
management methods
and mandates
1.1-1.3, 2.3.8, 3.1-
3.10, 5.1-5.7
1b, 1c,
3a-e
D* Sections 404 of Clean
Water Act and 10 of
Rivers and Harbors
Act apply to limited
amount of habitat
2.3.8, 3.1-3.10, 5.1-
5.7
1b-d
3a-e
D*Lack of protection in
Baja California,
Mexico
8
E Other natural or manmade factors affecting its continued existence.
E* Loss of nests and
habitat due to natural
events
1.1-1.3, 1.6, 2.1, 2.2,
2.3.8, 3.1-3.10, 4.4,
4.5, 4.10
1b, 1c,
3a-e
E* Disturbance by
pedestrians
1.1-1.3, 2.3.1, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
E*Disturbance by dogs 1.1-1.3, 2.3.1, 2.3.2,
2.3.8, 3.1-3.10, 4.9,
5.1-5.7
1b, 1c,
2,
3a-e
E* Disturbance by
motorized vehicles
1.1-1.3, 2.3.5, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
Factor* Threat Action Criterion
152
E* Disturbance by beach
cleaning
1.1-1.3, 2.3.5, 2.4.1,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
E* Disturbance from
equestrian traffic
1.1-1.3, 2.3.6, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
E Disturbance from
fishing activities
1.1-1.3, 2.3.3, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2
3a-e
E Disturbance by
fireworks
1.1-1.3, 2.3.3, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
E Disturbance by kites
and model airplanes
1.1-1.3, 2.3.3, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2,
3a-e
E* Military exercises and
aircraft overflights
1.1-1.3, 2.3.8, 2.3.9,
3.1-3.10, 5.1-5.7
1b, 1c,
2
3a-e
E Large crowds
associated with
special events
1.1-1.3, 2.3.3, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2
3a-e
E Increased coastal
access to beaches
1.1-1.3, 2.3.1.2, 2.3.8,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2
3a-e
E Livestock grazing 1.1-1.3, 2.3.7, 2.3.8,
3.1-3.10, 5.1-5.7
1b, 1c,
3a-e
Factor* Threat Action Criterion
153
E Oil spills and
disturbance from oil
spill clean-ups
1.1-1.3, 2.5, 4.7, 5.6 1b-d
3a-e
1b, 1c,
2
3a-e
E Environmental
contaminants
1.1-1.3, 4.8, 5.6 1b-d,
3a-e
E Litter, garbage, &
debris
1.1-1.3, 2.3.8, 2.4.1,
3.1-3.10, 4.9, 5.1-5.7
1b, 1c,
2
3a-e
E Urban runoff and
impaired water quality
1.1-1.3, 2.1, 2.3.8,
3.1-3.10, 5.1-5.7
3a-e
E Management for other
special status species
1.1-1.3, 1.7, 2.6, 2.7,
2.3.3, 3.1-3.10, 4.2.2,
5.1-5.7
3a-e
* Indicates threats originally identified during the listing process.
154
155
III. NARRATIVE OUTLINE OF RECOVERY ACTIONS
1 Monitor breeding and wintering population and habitats of the Pacific
coast population of the western snowy plover to determine effects of
recovery actions to maximize survival and productivity. To assure the long-
term viability of western snowy plover populations, their populations and
breeding and wintering habitat should be monitored and managed in a
systematic, ongoing fashion. Systematic, ongoing monitoring of breeding birds
and wintering birds should be undertaken at the recovery-unit level to measure
progress towards recovery and identify management and protection efforts that
are needed. In addition to the known breeding sites, all known wintering
locations (Appendix B) are considered currently important to western snowy
plover conservation. These sites include both wintering locations that currently
support breeding birds and locations that may potentially support nesting birds
in the future. These locations also may support migrating western snowy
plovers. There is a need for better information about wintering and migration
sites, including spatial and temporal use patterns, feeding areas, habitat trends,
and threats. Appendix C, Table C-1 identifies 147 locations where monitoring
western snowy plover populations is occurring or recommended to achieve
management goals.
1.1. Annually monitor western snowy plover abundance, population size,
and distribution at breeding and wintering locations in each recovery
unit using window surveys. Comprehensive range-wide window surveys
of breeding locations and wintering locations (Appendix B) should be
conducted annually to determine population trends and fluctuations, and to
determine whether management goal breeding numbers (Appendix B) are
being achieved. The window survey described in Appendix J (Monitoring
Guidelines) should be employed as the primary index of population size to
minimize the probability of double-counting birds nesting at multiple
locations during the same season. Window surveys are conducted over a
relatively short time period to minimize double-counting of birds that
change location during the season, but may not fully account for all
breeding or wintering birds. Window survey methodology should be
improved and correction factors estimated (Action 4.3.1) to improve the
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accuracy and utility of population indices. This correction may require
some banding at sites where there are currently no marked birds on which
to base correction factors.
1.2 Develop and implement a program to monitor western snowy plover
productivity and annual survival in each recovery unit. Development
and implementation of a program to monitor western snowy plover
productivity and survival, in addition to comprehensive population size
and distribution monitoring, is necessary to measure progress toward
achieving recovery criteria and to assess the effectiveness of management
in removing threats that affect nesting success and survival. Results from
this monitoring program also may be used to update the population
viability analysis and assess progress toward recovery goals (Actions 4.11
and 6). Monitoring productivity and survival likely will be much more
intensive than monitoring population sizes and distribution (Action 1.1),
and cannot be implemented at all breeding sites because of insufficient
color band combinations to monitor the entire Pacific coast population.
Plans for monitoring these demographic characteristics instead should
utilize methods to sample demographic characteristics across the breeding
range and in each recovery unit. Actions 4.3.2 and 4.3.3 recommend
developing methodologies to estimate productivity and survival. The
monitoring program should incorporate these methods and should specify
the number of sites sampled in each recovery unit, how sites will be
selected, and indicate control sites from intensively monitored breeding
locations (i.e., the coast of Oregon, extreme northern California, and the
shoreline of Monterey Bay).
1.3 Develop and implement a program to monitor at all breeding and
wintering sites the habitat conditions, disturbances, predation, and
other threats limiting abundance of breeding and wintering birds,
clutch hatching success, chick fledging success, and survival.
Monitoring of threats to the western snowy plover is necessary to
determine effectiveness of recovery actions in ameliorating or eliminating
threats, assess progress toward recovery, and refine site-specific
managements as necessary. A standardized threats monitoring program
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should be developed and applied to all breeding and wintering sites in
conjunction with monitoring developed and implemented under actions
1.1 and 1.2. At a minimum, monitoring should include determining
substrate characteristics and vegetation composition (level of nonnative
species), frequency and levels of disturbance (e.g., recreational activities,
pets, vehicles, horses), and presence and abundance of predators.
Appendix J (Monitoring Guidelines) provides general guidance on
monitoring but may require revision as research actions under action 4 are
completed. Opportunities to incorporate monitoring into Federal activities
subject to section 7 of the Endangered Species Act, such as dredging and
discharges regulated by the U.S. Army Corps of Engineers, should be
utilized when possible.
1.4 Develop and implement training and certification programs for
western snowy plover survey coordinators and observers, consistent
with recommendations in Appendix J (Monitoring Guidelines).
Classroom and field training are required for observers who survey for
western snowy plovers, and before we can issue a section 10(a)(1)(A)
permit. Instruction programs and materials should be developed for
comparable training to occur throughout the western snowy plover range
to improve consistency of data collection. Classroom topics should
include, but not be limited to: (1) biology, ecology, and behavior of
breeding western snowy plovers; (2) identification of adult plovers, their
young, and their eggs; (3) threats to plovers and their habitats; (4) survey
objectives, protocols, and techniques; (5) regulations governing the
salvage of carcasses or eggs; (6) special conditions of existing recovery
permits; (7) field identification of potential western snowy plover
predators; (8) biology and behavior of predator and scavenger species; and
(9) other activities (e.g., banding). Field training should include, as
appropriate: (1) locating, identifying, and monitoring nests; (2) handling
eggs and capturing and handling adults or chicks; (3) specifics on the
target activity for which a recovery permit is to be issued, or under which
an observer will work; (4) practical field exercises; and (5) field review of
appropriate classroom topics.
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1.5 Develop a submittal system for monitoring data to ensure consistent
reporting among recovery units and sites, and annually review and
revise the system as necessary. Initially, range-wide survey data will be
limited to results from 2 annual window surveys. As population and
demographic monitoring methods are developed and implemented
(Actions 1.1, 1.2, 4.3.1, 4.3.2, and 4.3.3), a more sophisticated reporting
and compiling system will be necessary. Our lead office should coordinate
with researchers involved with monitoring to ensure that data collection,
submittal, and entry systems remain current, include correction factors that
account for lack of detections during surveys, and are consistent among
recovery units and sites. An annual range-wide report should be
developed and distributed to all interested parties. Additionally, consistent
reporting of sightings of banded western snowy plovers is needed.
Sightings of banded birds provide information on the wintering sites of
breeding birds, use of multiple sites by breeding and wintering plovers,
and survival and dispersal of adults and juveniles. In accordance with
procedures of the U.S. Geological Survey, Bird Banding Laboratory, the
Point Reyes Bird Observatory should continue to act as the color band
coordinator for the Pacific coast population to avoid use of duplicate color
banding schemes among researchers.
1.6 Assess and evaluate new breeding, wintering, and migration areas as
they are discovered to determine threats and management needs and
update lists of areas identified in Appendices B and C as data become
available. As new western snowy plover breeding and wintering areas are
discovered, data should be collected to assess site boundaries, habitat
characteristics, population levels, and any significant threats. The current
list of important breeding and wintering locations (Appendix B) should be
expanded or refined as appropriate, and any new areas incorporated into
management and monitoring plans. Areas determined to be important for
migration through action 4.4.4 also should be evaluated and added to the
list of areas requiring protection, management, and monitoring.
Management goals and needed management to ameliorate or eliminate
threats should be developed for all new breeding, wintering, and migration
159
areas and should be included in periodic revisions of Appendices B and C
of this recovery plan.
1.7 Annually coordinate monitoring of western snowy plovers and
California least terns to minimize effects of disturbance to both
species. Coordination with least tern monitors and managers is needed in
all areas where western snowy plovers share breeding sites with California
least terns. Coordination should take place at biannual pre-and post-
season California least tern monitoring meetings. Protocols for
monitoring California least terns should be revised as necessary so that
western snowy plovers are not detrimentally affected. Human activities
within some least tern colonies in southern California include monitoring
by one to four people several days per week; maintenance of tern fences;
predator management; site preparation; and banding/observation efforts.
Human activities associated with tern monitoring must be recognized as
additional disturbance to western snowy plovers. Section 10(a)(1)(A)
permits, issued under the authority of the Endangered Species Act for
western snowy plovers and least terns, should include both species where
applicable. Monitoring efforts for both species should be kept separate
because of differences in monitoring techniques and species’ behaviors.
Monitors of least terns and western snowy plovers should be aware of
species’ differences in nest spacing, brood-rearing, foraging behavior, time
of breeding, vulnerability to disturbance, and monitoring and banding
techniques.
Western snowy plovers generally begin nesting at least 1 month before the
arrival of breeding least terns; thus, tern management often begins well
after western snowy plovers have initiated nests. Site preparation
(vegetation removal and fence construction) should be coordinated to
minimize disturbance to nesting western snowy plovers, and if possible to
enhance breeding success for both species (as well as considering other
sensitive species, including plants, that may be present). Predator
management also should be coordinated to benefit both species.
160
1.8 Develop post-delisting monitoring plan. Prior to delisting a five-year
monitoring plan should be developed. Methodology and scope of post-
delisting monitoring should be appropriately integrated with existing
monitoring efforts for continuity and comparability. Monitoring and
research results should be used to guide the long-term conservation of the
species.
2 Manage breeding and wintering habitat of the Pacific coast population of
the western snowy plover to ameliorate or eliminate threats and maximize
survival and productivity. The Pacific coast population of the western snowy
plover is sensitive to changes in productivity and in adult and juvenile survival
rates (see Appendix D). Furthermore, recovery of this species is contingent on
intensive management of breeding habitat and availability of wintering habitat
for more than the current number of western snowy plovers (see recovery
criteria). Appendix C provides a summary of site-specific management needs at
155 breeding and wintering locations (actions 2 and 3). Management efforts
may be time-consuming, costly, and sometimes require intensive management.
Western snowy plover breeding habitat is extremely dynamic and factors
affecting breeding success, such as types and numbers of predators, can change
quickly; therefore, managers should be prepared to modify protection as needed.
Action 6 recommends annual review of progress toward recovery and revision
of site-specific management actions based on monitoring and research results
and site-specific experience. Management and protection of western snowy
plovers on Federal and State lands are especially important. In addition,
protection on Federal and State lands furnishes leadership by example to local
land managers. Land managers should recognize that components of breeding
habitat include: areas where plovers prospect for nesting sites, make scrapes,
lay eggs, feed, rest, and rear broods. Breeding habitat also includes travel
corridors between nesting, resting, brood-rearing, and foraging areas. Wintering
and migration habitats should also be monitored and managed to maximize
survival and recruitment of western snowy plovers into the breeding population.
161
2.1 Maintain natural coastal processes that perpetuate high quality
breeding and wintering habitat by incorporating the following
recommendations into development of participation plans,
management planning, and habitat protection (action 3) for the sites
identified in Appendix C and any additional sites identified through
surveys and monitoring. The dynamic nature of beach strand habitats as
storm-maintained ecosystems should be recognized and allowed to
function. Natural process that contribute to maintaining wide, flat,
sparsely-vegetated beach strands preferred by western snowy plovers
include: inlet formation, migration, and closure; erosion and deposition of
sand dunes; and overwash and blowouts of beach and dune habitat.
Coastal development, beach stabilization, construction of rock jetties and
seawalls, sand removal and dredging, water diversion and impoundment,
and planting of nonnative vegetation interfere with these processes and
result in loss and degradation of habitat.
Maintenance of natural coastal processes can be accomplished through
establishment of management plans, conservation easements, fee title
acquisition, zoning, and other means. Coastal development, beach
stabilization, resource extraction, and water diversion and/or impoundment
projects should be carefully assessed for impacts to wintering western
snowy plovers. Recommendations from U.S. Fish and Wildlife Service
offices (under the Endangered Species Act and Clean Water Act) and/or
State agencies should focus on avoiding or minimizing adverse impacts to
wintering habitat. Where adverse effects cannot be avoided, agencies
should document impacts so that cumulative effects on this species' habitat
can be assessed and compensated. When beach development cannot be
avoided, the following protections should be implemented: (1)
construction should take place outside the nesting season, (2) developers
and others should be advised during planning stages that stabilization of
shorelines will result in additional habitat degradation and that these
impacts may affect evaluation and issuance of permits under the
jurisdiction of the U.S. Army Corps of Engineers or State coastal
management agencies, and of measures to minimize the impacts, (3)
property owners (e.g., hotel or resort owners) should tailor recreational
162
activity on the beach and dunes to prevent disturbance or destruction of
nesting western snowy plovers, their eggs, and chicks, (4) lights for
parking areas and other facilities should not shine on western snowy
plover habitat, (5) sources of noise that would disturb western snowy
plovers should be avoided, and (6) the establishment of predator perches
and nesting sites should be avoided when designing facilities. Appendix
C, Table C-1 identifies 86 locations which currently have development
restrictions in place and 16 locations where development should be
restricted or avoided to achieve management goals.
2.1.1 Develop a prioritized list of western snowy plover wintering
and breeding sites where natural coastal processes need
protection, or where impaired natural coastal processes should
be enhanced or restored. Recovery Unit working groups should
evaluate the sites within their recovery unit and determine where
natural processes are likely to be disrupted or are in need of being
enhanced or restored, or are of particular importance to
maintaining high quality western snowy plover habitat. Sites
should be prioritized based on their importance to western snowy
plover breeding and the degree of threat to the western snowy
plover and its habitat should natural processes be disrupted.
2.1.2 Identify mechanisms necessary to protect, enhance, or restore
natural coastal processes for the sites identified in action 2.1.1
and implement through incorporating into actions 3.1 -3.10.
Mechanisms to protect, enhance, or restore natural processes may
include development of management plans that prohibit or restrict
activities that disrupt natural process (i.e. dredging or sand
removal, recreational activities that contribute to excessive erosion
or compaction), acquisition of habitat, landowner agreements, local
land use protection measures, or enhancement activities.
Identification of these sites and mechanisms should be used to
guide implementation of long-term management and protection
under action 3.
163
2.2 Create and enhance existing and potential breeding and wintering
habitat. Past and ongoing impacts to western snowy plover breeding
habitat from development, artificial beach stabilization, and other projects
have resulted in loss and degradation of western snowy plover habitat.
Habitat enhancement and creation are needed at multiple sites to offset
these losses. Where impacts cannot be avoided, projects should remediate
and compensate habitat loss and degradation by maintaining natural long-
shore sand budgets and minimizing interference with natural patterns of
sand accretion and depletion. When these types of projects are planned,
complex natural sand movement patterns should be taken into account.
Beach management policies should recognize that many current erosion
and sedimentation problems are the result of past property and/or inlet
"protection" efforts. Habitat restoration projects in historic or potential
breeding sites, where feasible, is encouraged. Creation of habitat should
be emphasized in areas not subject to recreational impacts.
2.2.1 Remove nonnative and other invasive vegetation from existing
and potential habitat and replace with native dune vegetation.
Land managers should implement remedial efforts to remove or
reduce vegetation that is encroaching on western snowy plover
breeding habitat or obstructing movement of chicks from nesting
to feeding areas. Particular attention should be given to the
eradication of introduced beachgrass (Ammophila spp.) within
coastal dunes.
2.2.1.1 Develop and implement prioritized removal and
control strategies for introduced beachgrass and other
nonnative vegetation for each recovery unit. These
strategies should include early intervention to prevent
expansion into breeding areas where introduced
beachgrass and other nonnative vegetation have not yet
spread or are in early stages of spreading. Attention also
should be given to the removal of giant reed, Scotch
broom, gorse, iceplant, and shore pine. Remove/manage
vegetation on salt ponds, including levees.
164
Schedule/coordinate removal efforts to avoid disturbing
nesting western snowy plovers. Appendix C, Table C-1
identifies 86 locations where removal of nonnative and
other vegetation is either currently occurring or needs to
be initiated to achieve management goals.
2.2.1.2 Replace exotic dune plants with native dune
vegetation where it is likely to improve habitat for
western snowy plovers. Land managers should make
special efforts to reestablish native dune plants in western
snowy plover nesting habitat, while concentrating on
removal of nonnative vegetation. Native dune vegetation
includes American dunegrass (Leymus mollis), beach
morning glory (Calystegia soldanella), pink sand-verbena
(Abronia umbellata), yellow sand verbena (Abronia
latifolia), beach bursage (Ambrosia chamissonis), grey
beach pea (Lathyrus littoralis), whiteleaf saltbush
(Atriplex leucophylla), and California saltbush (Atriplex
californica). These efforts should be targeted for coastal
dune sites that currently support nonnative vegetation
species such as introduced beachgrass (Ammophila spp),
and should be combined with removal of this invasive
plant. Seeds of local native dune plants collected within
approximately 32 kilometers (20 miles) of the site to be
planted should be used as replacement plant stock.
Revegetation efforts should be monitored to ensure that
the amount of vegetative cover is compatible with
suitable breeding habitat for plovers.
2.2.2 Deposit dredged material to enhance or create nesting habitat.
Near-shore (littoral drift) and on-shore disposal of dredged material
seems to be beneficial for perpetuating high quality western snowy
plover nesting habitat in some instances and should be encouraged
where appropriate. However, monitoring of habitat characteristics
before, during, and after projects is needed, particularly in cases of
165
large operations occurring on sites where western snowy plovers
nest or are deemed likely to nest following the disposal operation.
On-shore disposal of dredged material should be scheduled outside
the nesting season and, where possible, during seasons when birds
are not present. In addition, dredged material must be clean sand
or gravel of appropriate grain size and must be graded to a natural
slope.
2.2.2.1 Evaluate western snowy plover breeding and
wintering sites listed in Appendix C and potential
breeding sites to determine whether dredged materials
may be used to enhance or create nesting habitat.
Recovery Unit working groups should identify sites
where dredged material may be used to enhance or create
nesting habitat. Evaluation of sites should include
impacts (short- and long-term) to existing western snowy
plover habitat, likelihood of use by western snowy
plovers, whether appropriate sources of clean dredged
material exist, and opportunities to utilize material from
dredging projects.
2.2.2.2 Develop and implement plans, including pre- and
post-project monitoring, to use dredged material to
enhance or create nesting habitat at the sites identified
in action 2.2.2.1. Plans to implement use of dredged
material to enhance or create nesting habitat should be
developed for sites identified in action 2.2.2.1. Plans
should include measures to minimize impacts to western
snowy plovers and existing habitat and should include
pre- and post-project monitoring to determine
effectiveness of the project in enhancing or creating
nesting habitat.
166
2.2.3. Implement beach nourishment activities if action 4.1.2
indicates beach nourishment activities are effective in
enhancing western snowy plover habitat. Beach nourishment
activities have the potential to enhance western snowy plover
habitat, but should be carefully evaluated to weigh the probable
adverse and beneficial effects on plovers and on other sensitive
coastal dune species.
2.2.3.1 Evaluate and identify sites where beach nourishment
activities may be effective in creating and enhancing
western snowy plover habitat. Potential sites include
those sites where natural coastal processes have been
disrupted (i.e. by coastal development, beach
stabilization, construction of rock jetties and seawalls,
etc.). Evaluation of sites should consider potential for
adverse effects to existing western snowy plover habitat,
whether appropriate sand sources are available, and
whether long-term benefits are likely to occur.
2.2.3.2 Develop and implement beach nourishment plans,
including pre- and post-project monitoring for the
sites identified in action 2.2.3.1. Plans to implement
beach nourishment activities to enhance or create nesting
habitat should be developed for sites identified in action
2.2.3.1. Plans should include measures to minimize
impacts to western snowy plovers and existing habitat
and should include pre- and post-project monitoring to
determine effectiveness of the project in enhancing or
creating nesting habitat.
2.2.4 Create, manage, and enhance coastal ponds and playas for
breeding habitat. Coastal ponds and playas, including salt ponds,
should be enhanced and created to improve breeding habitat.
Significant opportunities for management of nesting plovers
currently exist within San Francisco Bay salt ponds, Moss Landing
167
Wildlife Area, Bolsa Chica wetlands, and south San Diego Bay salt
ponds. However, salt ponds should only be created or enhanced at
existing salt pond habitat; they should not be used for mitigation or
compensation of coastal beach-dune or other western snowy plover
habitats. Creation of habitat should be emphasized in areas that
would preclude or reduce recreational impacts. Appendix C, Table
C-1 identifies 15 locations where habitat enhancement is either
currently in place or needs to be initiated to achieve management
goals. Additional sites also may provide opportunities to enhance
western snowy plover breeding habitat.
2.3 Prevent disturbance of breeding and wintering western snowy plovers
by people and domestic animals. Disturbance by humans and domestic
animals causes significant adverse impacts to breeding and wintering
western snowy plovers. Because human disturbance is a primary factor
affecting western snowy plover reproductive success, land managers
should give the highest priority to implementation of management
techniques to prevent disturbance of breeding birds. Western snowy
plover breeding and wintering sites are highly variable in their amount of
recreational activity. Land managers should conduct site-specific
evaluations to determine whether recreational activities, domestic animals,
and off-road vehicles pose a threat to plovers and implement appropriate
measures. As information is gathered, it should be incorporated into
conservation efforts. Management plans (Actions 3.3.1, 3.3.2, and 3.4)
should include appropriate human/domestic animal access restrictions to
prevent disturbance of western snowy plovers. Management techniques
described below can reduce impacts of beach recreation on western snowy
plovers, but they must be implemented annually as long as the demand for
beach recreation continues.
2.3.1 Prevent pedestrian disturbance. Management measures to
protect western snowy plovers should be determined on a site-by-
site basis; factors to consider include the configuration of habitat as
well as types and amounts of on-going pedestrian activity. On
national wildlife refuges and State natural preserves within the
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California State Parks system, where protection of wildlife is the
paramount purpose of Federal and State ownership, western snowy
plover habitat should be closed during the breeding season. Other
areas also should be closed when necessary to adequately protect
breeding western snowy plovers.
2.3.1.1 Restrict access to areas used by breeding western
snowy plovers, as appropriate. Unless a beach is closed
to public entry, or use is minimal, posting and/or fencing
of nesting areas is recommended to discourage pedestrian
use of the area and allow for plover courtship and prenest
site selection, to prevent obliteration of scrapes, crushing
of eggs or chicks, and repeated flushing of incubating
adults. Any access restrictions should be accompanied by
outreach programs to inform the public of any restrictions
and provide educational material on the western snowy
plover (see action 5).
2.3.1.1.1 Seasonally close areas used by breeding
western snowy plovers. Dates of seasonal
closures/restrictions should be based on the
best data available, and be coordinated by
geographic region for consistency in
communicating with the public. Closures may
be determined on a year-to-year basis and
other options such as fencing may be
considered first. To provide broods with
access to foraging areas, closures should cover
the area down to and including the water line,
where practical. Areas where territorial
plovers are observed also should be closed to
prevent disruption of territorial displays and
courtship. Because nests can be difficult to
locate, especially during egg-laying, closure of
these areas will also prevent accidental
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crushing of undetected nests. Appendix C,
Table C-1 identifies 81 locations where public
access is either currently restricted or it is
recommended it be restricted to achieve
management goals.
2.3.1.1.2 Fence areas used by breeding western
snowy plovers. Fencing to keep people and
beach activities out of nesting/brood rearing
areas should not hinder chick movements,
unless fencing is specifically meant to keep
chicks from being harmed. Areas with a
pattern of nesting activity in previous year(s)
or where territorial plovers are observed
should be fenced before plovers begin nest-
site selection. Because nests can be difficult
to locate, especially during egg-laying, closure
of these areas will also prevent accidental
crushing of undetected nests. Symbolic fences
(one or two strands of 1/4 inch plastic-coated
steel cable strung between posts) with signs
identifying restricted areas substantially
improve compliance of beach-goers and
decrease people's confusion about where entry
is prohibited. On portions of beaches that
receive heavy human use during the breeding
season, fencing of prime brood-rearing areas
to exclude or reduce numbers of pedestrians
also should be implemented to contribute to
the survival and well-being of unfledged
chicks. Appendix C, Table C-1 identifies 64
locations where nesting areas are fenced or
where fencing is recommended to achieve
management goals.
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2.3.1.1.3 Post signs in areas used by breeding
western snowy plovers. Areas with a pattern
of nesting activity in previous year(s) should
be posted before plovers begin nest-site
selection. On portions of beaches that receive
heavy human use during the breeding season,
posting of prime brood-rearing areas to
exclude or reduce numbers of pedestrians also
should be implemented to contribute to the
survival and well-being of unfledged chicks.
Appendix C, Table C-1 identifies 65 locations
where exclusionary signs are in place or
recommended to achieve management goals.
2.3.1.2 Locate new access points and trails well away from
western snowy plover nesting and wintering habitat,
and modify existing access and trials as necessary.
Recreational users such as campers, clammers, anglers,
equestrians, collectors, etc., should be encouraged to
consistently use designated access points and avoid
restricted areas. Roads, trails, designated routes, and
facilities should be located as far away from western
snowy plover habitat as possible. Recreationists using
boats should be restricted or prohibited from areas being
used by the western snowy plover. Appendix C, Table C-
1 identifies 67 locations where boat use is currently
and/or is recommended to be prohibited or restricted, and
81 locations where access is currently and/or is
recommended to be prohibited or restricted to achieve
management goals.
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2.3.1.2.1 Evaluate existing and planned access at all
breeding and wintering locations and
determine whether access may adversely
affect western snowy plovers and their
habitat. Review of access points should
include evaluating level of and timing of use
by recreational users and level of effects on
the western snowy plover.
2.3.1.2.2 For sites where access is determined in
action 2.3.1.2.1 to adversely affect western
snowy plovers, develop and implement
plans to minimize effects. Actions that
could minimize effects of access include
seasonal restrictions, signs, fencing, or
relocation or modification of access points or
trails.
2.3.2 Implement and enforce pet restrictions. It is preferable that land
managers prohibit pets on beaches and other habitats where
western snowy plovers are present or traditionally nest or winter
because any noncompliance with leash laws can cause serious
adverse impacts to western snowy plovers. If pets are not
prohibited, they should be leashed and under manual control of
their owners at all times. Pets should be prohibited on beaches and
other western snowy plover habitats if, based on observations and
experience, pet owners fail to keep pets leashed and under full
control.
Land managers should document the type and frequency of
infractions of rules and regulations requiring pets on leash. This
information, including the number of verbal warnings, written
warnings, and notices to appear (citations), should be documented
so that comparisons can be made between locations. This
documentation could help ensure that adequate effort is being
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made to enforce pet regulations. Appendix C, Table C-1 identifies
120 locations where pets are currently prohibited or restricted and
where they are recommended to be prohibited or restricted to
achieve management goals.
2.3.3 Annually review existing recreational activities at breeding and
wintering sites listed in Appendix C and develop and
implement plans to prevent disturbance from disruptive
recreational activities where western snowy plovers are
present. Some recreational activities may disrupt western snowy
plover breeding and foraging, attract predators, destroy nests, or
degrade habitat. Management of a variety of recreational activities
is needed to minimize these effects. Special events, including
sporting events, media events, fireworks displays, and beach clean-
ups, attract large crowds and require special attention. Special
events planned in western snowy plover nesting areas should not
be held during the plover nesting season. Early planning and
coordination with local resource agencies should be emphasized.
Fireworks should be prohibited on beaches where plovers nest.
When fireworks displays are situated to avoid disturbance to
western snowy plovers, careful planning also should be conducted
to assure that spectators will not walk through and throw objects
into plover nesting and brood-rearing areas. Sufficient personnel
also must be on-site during these events to enforce plover
protection measures and prevent use of illegal fireworks in the
vicinity of the birds.
Flying of kites and model airplanes should be managed to avoid
adverse impacts in areas where nesting plovers are present. Sports
such as ball- and frisbee-throwing should be managed within
hitting and throwing distance of western snowy plover nesting
areas because of tendencies for stray balls and frisbees to land in
closed areas where they can smash nests and where efforts to
remove them can disturb territorial or incubating birds. Camping
and beach fires should be prohibited in western snowy plover
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nesting areas during the nesting season. Appendix C, Table C-1
identifies 11 locations where kites are and/or should be prohibited
and/or restricted to achieve management goals, but additional
recreational activities also should be reviewed for potential adverse
effects to western snowy plovers.
2.3.4 Inform beach users of restrictions on driftwood removal
through posting of signs. Driftwood removal should not be
allowed unless needed to create sufficient open habitat to induce
nesting activities. In such cases, driftwood removal should occur
outside of the breeding season. Appendix C, Table C-1 identifies
26 locations where driftwood collection restrictions currently occur
and/or are recommended for restriction to achieve management
goals. Driftwood removal should also be minimized through
enforcement as identified in Action 2.3.8.
2.3.5 Prevent disturbance, mortality, and habitat degradation by
prohibiting or restricting off-road vehicles, including beach-
raking machines. Recreational off-road vehicles should be
prohibited or restricted at western snowy plover breeding areas, as
appropriate. Violations associated with unauthorized entry of
recreational off-road vehicles into closed or fenced nesting areas
should be strictly enforced. During the nonbreeding season,
enforcement of violations regarding recreational off-road vehicle
use should continue where western snowy plover use of beaches
occurs year-round. Because of potential habitat degradation caused
by mechanized beach cleaning, alternatives to this type of beach
cleaning are recommended, including manual beach cleaning by
agency staff and volunteers knowledgeable about the need to
maintain coastal dune habitat characteristics and to protect western
snowy plovers. Appendix C, Table C-1 identifies 101 locations
where off-highway vehicles are currently and/or recommended for
prohibition or restriction to achieve management goals.
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Essential vehicles within western snowy plover nesting areas
should: (1) travel on sections of beaches where unfledged chicks
are present only if absolutely necessary; (2) when possible, travel
through chick habitats only during daylight hours; (3) travel at less
than 8 kilometers (5 miles) per hour; (4) use a guide familiar with
western snowy plovers; (5) use open four-wheel motorized off-
highway vehicles or nonmotorized all-terrain bicycles to improve
visibility; (6) avoid driving on the wrack (marine vegetation) line
and during high-tide periods; (7) travel below the high tide mark
and as close to the water line as is feasible and safe; and (8) avoid
previous tracks on the return trip.
2.3.6 Implement restrictions on horseback riding in nesting areas
through annual coordination with commercial and private
equestrian operations and groups. Strategies to reduce adverse
impacts to nests from commercial and private equestrian use of
western snowy plover habitat should include: (1) use of designated
trail systems or, when absent, use of the wet sand area in areas not
closed to the water line; (2) advance coordination with local
resource agencies regarding locations of nests and broods; (3)
compliance with closed or restricted areas; and (4) informing riders
of the need for restrictions to protect habitats used by western
snowy plovers and other sensitive coastal dune species. Avoid
high-tide periods. Violations regarding unauthorized entry into
closed or restricted breeding areas by equestrians should be strictly
enforced. Appendix C, Table C-1 identifies 72 locations where
restriction or prohibition of horses currently exists or is
recommended to achieve management goals.
2.3.7 Implement and enforce restrictions on livestock in nesting
areas through annual coordination with land managers,
landowners, and grazing lessees. Strategies to reduce adverse
impacts to nests from livestock grazing in western snowy plover
habitat should include: (1) advance coordination with local
resource agencies regarding locations of nests and broods; (2)
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compliance with closed or restricted areas; and (3) informing
landowners of the need for restrictions to protect habitats used by
western snowy plovers and other sensitive coastal dune species.
Violations regarding unauthorized entry into closed or restricted
breeding areas by livestock should be strictly enforced. Appendix
C, Table C-1 identifies 18 locations where restriction or
prohibition of livestock currently exists or is recommended to
achieve management goals.
2.3.8 Enforce regulations in areas used by breeding western snowy
plovers. Land managers should monitor violations and enforce
regulations within all closed and restricted areas, with particular
attention to areas where nests or broods are present.
2.3.8.1 Determine enforcement needs for western snowy
plover breeding and wintering sites and provide
sufficient wardens, agents, or officers to enforce
protective measures in breeding and wintering
habitat. Wardens are especially needed on heavily-used
beaches during the peak recreational season, which
coincides with the western snowy plover breeding season
in many locations. Federal, State, and local authorities
should provide a coordinated law enforcement effort to
eliminate activities that may adversely impact western
snowy plovers, such as illegally-parked vehicles,
trespassing off-road vehicles, pedestrians, pets in
restricted areas, illegal or unauthorized activities (e.g.,
fireworks, beach fires, driftwood removal), pets off leash,
and littering. Patrols and enforcement are needed to
ensure compliance and to make sure restrictive measures
are successful. Specific actions to be implemented
include patrols in protected areas (see action 2.3.8.2) and
car patrols to prevent illegal driving and parking.
Appendix C, Table C-1 identifies 105 locations where
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enforcement of regulations currently occurs or is
recommended to occur to achieve management goals.
2.3.8.2 Develop and implement annual training programs for
enforcement personnel and others who work in
western snowy plover breeding habitat to improve
enforcement of regulations and minimize effects of
enforcement actions on western snowy plovers and
their habitat. Federal, State, and local enforcement
personnel and others who work in western snowy plover
habitat should be trained to be familiar with the
Endangered Species Act and other wildlife conservation
statutes, and with the measures recommended in this
recovery plan. Training, especially specific training for
professional law enforcement agents regarding
investigation of potential wildlife and Endangered
Species Act violations, should be coordinated with local
U.S. Fish and Wildlife Service Law Enforcement offices.
It is essential that wardens, whether professional or
volunteers, (1) be thoroughly trained in procedures for
conducting patrols in a manner that minimizes risk to
plovers; (2) have at least basic knowledge of western
snowy plovers for public education purposes; and (3) be
trained to handle potentially confrontational situations. In
cases involving take of listed species, it is essential that
investigations be conducted only by trained, certified, and
professional law enforcement agents. Our local Law
Enforcement office should be informed immediately
whenever evidence of suspected take of western snowy
plovers is encountered.
Enforcement personnel should be instructed in measures
that can minimize effects of enforcement actions on
western snowy plovers. Where the extent of habitat to be
protected is large, making foot patrols infeasible, horses,
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four-wheel all-terrain vehicles/off-road vehicles, or
nonmotorized all-terrain bicycles, are preferred over
trucks, automobiles, etc., because they afford improved
visibility for operators. Except during emergencies,
vehicle speed should not exceed 8 kilometers (5 miles)
per hour and horses should be ridden at a walk only. In
addition to providing maximum visibility for operators,
horse and foot patrols by uniformed personnel have the
added advantage of providing informational/educational
interactions with beach visitors to promote compliance
with plover protection measures.
Enforcement and emergency response personnel (such as
search and rescue, and fire) should be well aware of
potential western snowy plover locations. These
locations should be named as avoidance areas as a part of
their plans and training exercises. Enforcement patrols
should use the same access trails as beach visitors; if
additional access points are needed, they should be the
minimum necessary and as far away from nesting plovers
as possible.
2.3.9 Develop and implement a program to annually coordinate with
local airports, aircraft operations, and agency aircraft facilities
to facilitate compliance with aviation regulations regarding
minimum altitude requirements. Each recovery unit working
group should develop a list of local airports, aircraft operations,
and agency aircraft facilities within each recovery unit. Working
groups, land managers, and the U.S. Fish and Wildlife Service
should annually inform them of western snowy plover breeding
areas that should be avoided by aircraft operations or where
minimum altitude requirements should be enforced to minimize
disturbance of western snowy plovers. Aircraft operations within
western snowy plover habitat should require a minimum altitude of
152 meters (500 feet) for aircraft and a possibly higher altitude for
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helicopters. Aircraft operations that have already established
guidelines allowing aircraft to fly under the 152-meter (500-foot)
threshold should raise the limits to this minimum threshold or
higher as needed. Exceptions such as use for low-altitude military
training should be addressed in coordination with the appropriate
Fish and Wildlife Office through section 7 consultation.
Ultralight aircraft are a new potential source for negative effects to
the snowy plover. Ultralight aircraft landed on nesting plover
beaches at Point Reyes National Seashore in 2003. These aircraft
are sometimes associated with an airport but often are kept on
ranches or other private lands (S. Allen in litt. 2004).
In addition, land managers should report suspected violations of
aviation regulations in western snowy plover nesting areas during
the breeding season. Suspected violations and the aircraft’s
registration number should be reported to law enforcement officers
and, if appropriate, the Federal Aviation Administration. If not in
violation of aviation regulations (e.g., helicopters), a description of
the helicopter should be reported to law enforcement officers so
they can notify the operator of the presence of, and potential for
take of, western snowy plovers in nesting areas.
2.4 Prevent excessive predation for western snowy plovers. Land
managers should employ an integrated approach to predator management
that considers a full range of management techniques. Managers may need
to reevaluate and clarify their policies on the management of predator
populations and/or habitat where predation might be limiting local western
snowy plover populations. In particular, policies that prohibit
management of native predator populations, even when human-abetted
factors have caused substantial increases in their abundance, may be
counter-productive to the overall goal of protecting "natural" ecosystems.
In addition to predator management activities by on-site biologists,
assistance from the U.S. Department of Agriculture (Wildlife Services
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Branch) biologists, State wildlife agency furbearer biologists, biologists
specializing in avian predators, and professional trappers should be sought
and used as needed and appropriate. Federal, State, and local agencies and
the general public should be aware of the adverse consequences to listed
species if needed predator control measures are prohibited or restricted.
Appendix C, Table C-1 identifies 61 locations where predator control
currently occurs or is recommended to achieve management goals. Below
are specific means of predator control.
2.4.1 Manage litter and garbage and its removal to minimize
attracting predators on western snowy plover habitat. Litter
and garbage in western snowy plover habitat may increase
predation of western snowy plovers by providing food that attracts
predators and encourages increased predator populations.
Appropriate management of litter and garbage, particularly in areas
that receive heavy recreational use, is needed to prevent or
minimize excessive predation.
2.4.1.1 Implement and enforce anti-littering regulations.
Litter should not be allowed in western snowy plover
breeding areas to avoid attracting predators. Littering
ordinances should be enforced year-round.
2.4.1.2 Evaluate the effects of current litter and garbage
management on predation of western snowy plover at
breeding and wintering sites. All sites in Appendix C
should be evaluated to determine whether garbage and
litter affect predation on western snowy plovers by
attracting predators.
2.4.1.3 Develop and implement garbage and litter
management plans for all sites identified in action
2.4.1.2 where litter and garbage contribute to
predation on western snowy plovers. Plans for
managing litter and garbage should be incorporated into
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long-term protection and management efforts developed
and implemented under action 3. Beachgoers should be
discouraged from leaving or burying trash or food scraps
on the beach. Trash cans should not be located on the
beach unless there is no other recourse to prevent
littering. Emptying cans in the evening instead of leaving
them overnight is preferable. Fish-cleaning stations
should be located well away from plover breeding areas.
Land managers should supply covered or scavenger-proof
trash receptacles at access points and away from western
snowy plover habitat, and receptacles should be routinely
emptied. Until predator-proof trash containers can be
installed, existing trash cans should be emptied frequently
to reduce attractiveness and availability of their contents
to scavenging predators. Land managers should also
provide toilets at access points and away from western
snowy plover habitat to discourage people from using the
dunes.
Although removal of trash from the beach reduces
predation threats, beach-raking should be avoided year-
round to protect breeding and wintering western snowy
plovers (see action 2.3.5). Beach-raking of western
snowy plover habitat also should be avoided because it
removes plover food sources. Trash should be selectively
removed from the beach manually, but natural materials,
including shells, kelp, and driftwood, should be left intact
(see action 2.3.4).
2.4.2 Annually identify predator perches and unnatural habitats
attractive to predators and remove where feasible. Planners
should not allow unnatural habitats or other predator attractants to
be placed near western snowy plover nesting locations. Where
feasible, land managers should remove from western snowy plover
breeding locations any exotic vegetation, perches, and other
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features that attract avian and mammalian predators. Where signs
and fences are necessary as part of management to protect plover
breeding areas, attempts should be made to design them in a way
that will deter their use by predators (e.g., install spikes on fence
posts).
2.4.3 Erect predator exclosures to reduce western snowy plover egg
predation and improve productivity (number of fledglings per
male) where appropriate. Guidelines for the use of predator
exclosures to protect nesting western snowy plovers are contained
in Appendix F. Exclosures are a valuable tool for countering
human-abetted predation threats to western snowy plover eggs, but
they are not appropriate for use in all situations, nor do they
provide any protection for mobile plover chicks, which generally
leave the exclosure within one day of hatching and move
extensively along the beach to feed. Exclosures should be used in
conjunction with an integrated predator management program.
Also, exclosures must be carefully constructed, monitored, and
evaluated by qualified persons. In some areas, avian predators
have learned over time to associate exclosures with a source of
prey (J. Buffa in litt. 2004). String (twine) or a more substantial
plastic stealth material may be needed on top of exclosures to deter
avian predators. Appendix C, Table C-1 identifies 53 locations
where exclosures are currently used or recommended for use to
achieve management goals.
The use of exclosures (small circular, square, or triangular metal
fences that can be quickly assembled) to deter predator and human
intrusion is recommended as one of the most effective management
tools to protect nests (see Appendix F for exclosure protocols).
However, it should be recognized that while exclosures provide
nest protection, they do not ensure survival of chicks to fledging
age and may contribute to predation on adults, so their use should
be evaluated carefully and may not substitute for other measures
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that reduce human disturbance (2.3) or control predation (2.4.1,
2.4.2, 2.4.3, 2.4.5).
2.4.4 Evaluate the need for and feasibility of predator removal and
implement removal where warranted. Where predators have
been identified through monitoring to adversely affect western
snowy plover breeding success and/or survival and cannot be
adequately controlled through use of exclosures, land managers
should evaluate the need for and feasibility of predator removal.
Removal of predators should be pursued where it is feasible,
warranted, humanely conducted, and useful. Situations that may
especially warrant predator removal include those where nonnative
predators such as red fox (Vulpes vulpes regalis), feral cats, and
Norway rats (Rattus norvegicus) are present, where predators have
been introduced to islands, where predator range extensions have
been human-abetted, or where high rates of western snowy plover
adult, chick, or egg predation (which cannot be countered with
predator exclosures or other aversion methods) are occurring.
Nonnative predators should be lethally controlled in plover nesting
habitat. Native predators should be removed or controlled by
nonlethal means whenever possible. Gulls also should be
discouraged from establishing and expanding nesting colonies at
western snowy plover nesting areas, and land managers should
determine whether existing gull colonies warrant removal. If
removal is not warranted, exclosures around plover nests should be
used to prevent large flocks of roosting gulls from trampling plover
nests.
Federal and State permits must be obtained to legally capture, kill,
or hold and release birds protected under the Migratory Bird Treaty
Act and State laws. Also, individuals responsible for capturing
such birds and the holding facility must have the proper Federal
and State permits, and Federal land managers must document that
such activities are in compliance with the National Environmental
Policy Act. Biological considerations for determining whether
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removal of avian predators is appropriate include the time of year
(to assess whether the predator is caring for young or is a fledgling
itself), whether the predatory bird is a resident or migrating through
western snowy plover nesting habitat, and whether the predatory
bird is a sensitive species or listed under the Endangered Species
Act. Because of the potential for swift and significant losses of
plovers by avian predators, land managers should plan in advance
to complete the necessary procedures and secure needed permits to
effectively deal with cases of high negative impact on western
snowy plovers. If feasible, removal of native predators should
focus on problem individuals rather than populations. Possible
control methods include egg addling, nest removal, translocation of
problem individuals, and holding in captivity with later release
after plover breeding season. State permits must also be obtained
as appropriate for the capture and removal of problem mammals
(e.g., raccoons, skunks, and opossums). In 2001, the California
Coastal Commission determined that predator management in
western snowy plover habitat on Vandenberg Air Force Base was
also subject to Coastal Consistency review under the Coastal Zone
Management Act.
2.4.5 Remove bird and mammal carcasses in western snowy plover
nesting areas. Where practical and not disturbing to western
snowy plovers, dead birds and mammals that wash up on the beach
in close proximity to plover nests should be removed to reduce the
attraction of predators to plover nests. Removal of carcasses of
marine mammals and species listed under the Endangered Species
Act should be coordinated with the National Marine Fisheries
Service and the U.S. Fish and Wildlife Service.
2.5 Protect western snowy plovers and their breeding and wintering
habitat from oil or chemical spills. Land managers should develop
oil/chemical spill emergency response plans that provide for protection of
known western snowy plover breeding areas. The U.S. Coast Guard
should update their emergency response measures to include protective
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measures for the western snowy plover. In the event of a spill in the
vicinity of a western snowy plover nesting or feeding area, efforts should
be made to prevent oil/chemicals from reaching these beaches. Clean-up
operations should be prompt, but agencies should exercise special care
during remediation efforts and coordinate closely with us to prevent
accidental destruction of nests and/or excessive disturbance of breeding
adults, nests, or chicks. Response plans should include applicable
recommendations contained in this recovery plan (e.g., Action 2.3.5
regarding essential vehicles).
Efforts must be made to minimize the likelihood of oil or chemical spills
in plover wintering areas. Land managers should develop oil/chemical
spill emergency response plans that provide for protection of known
plover wintering areas. The U.S. Coast Guard should update their
emergency response measures to include protective measures for the
western snowy plover. Shorebird or coastal ecosystem protection plans
developed by State or local agencies to address oil/chemical spills should
also include protection measures for western snowy plovers. In the event
of a spill in a known western snowy plover wintering area, efforts should
be made to prevent oil/chemicals from impacting plovers and unavoidable
impacts should be documented. Restoration efforts should begin
expeditiously, but agencies should exercise special care and coordinate
closely with us to prevent excessive disturbance to wintering western
snowy plovers. Further, habitat restoration efforts must be conducted in
compliance with the National Environmental Policy Act and the Coastal
Zone Management Act.
If western snowy plovers or their habitat sustain injury due to oil/chemical
spills, the responsible parties should restore the areas to their original
condition or the Federal Government (U.S. Coast Guard) should lead the
clean-up effort; appropriate claims should also be filed under the Natural
Resource Damage Assessment regulations to recover damages and
undertake relevant restoration work. Assessment of natural resource
damages is facilitated by availability of baseline data on pre-spill
conditions. Therefore, whenever possible, agencies that own or manage
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western snowy plover habitat should collect baseline data on behavior,
reproduction, distribution, abundance, and habitat use. The baseline
information on plover distribution and habitat use should also be supplied
to the Area Committees that develop and update regional spill contingency
plans so that this information can be incorporated into pre-spill planning
efforts for protection of sensitive environments and species. Oil spill
emergency response personnel should be well aware of potential plover
locations. These locations should be named as avoidance areas as a part of
their training exercises. Appendix C, Table C-1 identifies 4 locations
where contaminant removal is occurring or is recommended to achieve
management goals.
2.5.1 U.S. Fish and Wildlife Service biologists should participate in Area
Committees responsible for maintaining the Area Contingency Plans
for the Pacific Coast to facilitate the updating of spill response plans
to include protection of western snowy plovers. Active participation in
the Area Committees would require funding for staff participation from
the six U.S. Fish and Wildlife Service offices responsible for the coastlines
of California, Oregon and Washington.
2.5.2 Assign monitors to beaches that are inhabited by western
snowy plovers to protect western snowy plovers from injury
during spill responses. Monitors would be responsible for
identifying areas of beach that are in use by plovers and directing
response personnel and vehicles around these sensitive areas.
Potential monitors should be identified in advance, and, where
necessary, retained under contract so they can begin work
immediately in the event of a spill. Spill response may require
approximately two weeks of cleanup work that should be
monitored, with potentially five incidents of this magnitude per
year.
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2.6 Reduce adverse impacts of recovery efforts for other sensitive species,
including those within the San Francisco Bay Recovery Unit, by
compensating for the loss of western snowy plover breeding and
wintering habitat. Management and recovery actions for other sensitive
species carried out in western snowy plover habitat should be evaluated for
adverse effects to western snowy plover habitat. All efforts should be
made to conserve western snowy plover habitat and minimize adverse
effects. Where this is not possible, any loss of western snowy plover
habitat values should be compensated. Within coastal beach-dune habitats
in Washington, Oregon, and California, compensation efforts should
emphasize the removal of beachgrass (Ammophila spp.) for lost western
snowy plover breeding habitat resulting from management for other
sensitive species.
To compensate for the loss of existing western snowy plover breeding
habitat values in San Francisco Bay from planned conversion to tidal
marsh, appropriate salt ponds should be designated for protection and
enhancement as western snowy plover breeding habitat. Currently, most
western snowy plover breeding habitat occurs on levee roads, margins of
active salt ponds, and pond bottoms of inactive salt ponds. Roads and
levees provide lower quality habitat because of disturbance and ease of
predator access. Any losses of western snowy plover breeding habitat
should be replaced with habitat that provides similar or higher values (i.e.,
salt ponds or salt pans) in concert with recovery actions implemented from
the Recovery Plan for Tidal Marsh Ecosystems of Northern and Central
California (U.S. Fish and Wildlife Service in prep.). Habitat enhancement
for western snowy plovers should be phased in with scheduled tidal marsh
restoration for other listed species. During this interim period, land
managers should make all efforts to achieve the recovery criteria of 500
breeding adults within the San Francisco Bay Recovery Unit by intensively
managing existing western snowy plover breeding habitat.
Any replacement of western snowy plover breeding habitat in San
Francisco Bay should concentrate on areas where the necessary
components of western snowy plover breeding habitat can be created.
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These areas include locations where unvegetated salt pans, salt ponds,
islets and levees, and tidal mudflats/sandflats can be created or enhanced.
Also, attempts should be made to avoid areas that are adjacent to landfills
or other high concentrations of potential predators. Unless it is shown to
be infeasible, creation and enhancement of western snowy plover breeding
habitat should be emphasized in areas that currently support high numbers
of breeding plovers and/or are not conducive to salt marsh restoration.
The area to be managed for western snowy plovers should be sufficient to
support a population of 500 breeding birds, estimated at 809 hectares
(2,000 acres) of managed salt ponds. Most of these managed salt ponds
should be located in South San Francisco Bay, which supports most of the
existing western snowy plover population; however, some should also be
located in the North Bay. Created or enhanced salt ponds should be
intensively managed, similar to the Moss Landing Wildlife Area salt
ponds. Management measures practiced at these salt ponds include
maintenance of water control structures to maintain desired water levels,
removal of excessive vegetation, and predator control.
2.7 Discourage pinnipeds from usurping western snowy plover nesting
areas. Land managers should monitor pinniped colonies adjacent to
western snowy plover breeding habitat and seek to keep breeding
pinnipeds from occupying western snowy plover nesting areas during the
breeding season where possible. Where conflicts occur, breeding
pinnipeds should be discouraged from hauling out at western snowy plover
breeding areas or be relocated, if feasible. Implementation of this action
should be coordinated with the National Marine Fisheries Service to
ensure compliance with the Endangered Species Act of 1973 and the
Marine Mammal Protection Act of 1972 (16 U.S.C. 1361 et seq.).
2.7.1 In coordination with National Marine Fisheries Service,
investigate feasibility and methods for discouraging pinniped
use of western snowy plover nesting areas. Marine mammal
populations have increased in many western snowy plover nesting
areas. However, methods, effectiveness, and impacts of
discouraging pinniped use of beaches are unknown and should be
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investigated. Methods considered should be evaluated for their
effects on western snowy plovers and their habitat as well as
effectiveness in discouraging pinniped use. Workshops, such as
those conducted by NMFS, for developing methods to reduce
conflicts between pinnipeds and other species and human users
should be held.
2.7.2 Identify areas where pinniped use is negatively affecting
western snowy plover nesting and implement any appropriate
methods identified in action 2.7.1. If effective methods are
determined through action 2.7.1, sites where pinniped use
negatively affects western snowy plover nesting should be
identified and methods to discourage pinniped use implemented.
Implementation of any methods to discourage pinniped use should
be closely coordinated with the National Marine Fisheries Service
to ensure compliance with the Endangered Species Act of 1973 and
the Marine Mammal Protection Act of 1972 (16 U.S.C. 1361 et
seq.).
3 Develop mechanisms for long-term management and protection of western
snowy plovers and their breeding and wintering habitat. Long-term
management and protection will be needed on Federal and non-Federal lands to
meet recovery criteria for each recovery unit and to meet management goals for
individual breeding and wintering locations. Development of long-term
protection mechanisms should include opportunities for participation of various
stakeholders in development of management options.
3.1 Establish and maintain western snowy plover working groups for each
of the six recovery units to facilitate regional cooperative networks
and programs. Development of regional cooperative networks and
programs, coordinating local public and private land use planning with
State and Federal land use planning, recovery planning, and biodiversity
conservation is needed (Figure 12). To facilitate and develop regional
cooperative programs, working groups have been established for each of
the six recovery units and should be maintained. U.S. Fish and Wildlife
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Service field offices should facilitate exchange of information among
working groups. The working groups should be composed of
representatives from the Federal, State, local, and private sectors; and meet
regularly to assess western snowy plover population trends and coordinate
plover recovery efforts. Each of the six working groups should use this
recovery plan as a guide, but members will prioritize in cooperation with
our Arcata Fish and Wildlife Office what management measures need to
be implemented in their recovery unit because they have on-the-ground,
day-to-day, experience about what is currently being done in these areas.
Working groups should assist with updating information contained in
Appendices B and C, tracking whether management goals are being met,
and recommending changes in management goals and site-specific
management actions, if necessary. Public outreach also should be a major
focus of the working groups. An interchange of ideas between all six
working groups should also occur on an on-going basis.
3.2 Develop and implement regional participation plans for each of the six
recovery units that outline strategies to implement recovery actions.
The 1994 Interagency Cooperative Policy on Recovery Plan Participation
and Implementation Under the Endangered Species Act (U.S. Fish and
Wildlife Service and National Oceanic and Atmospheric Administration
1994) provides for a participation plan process, which involves all
appropriate agencies and affected interests in a mutually-developed
strategy to implement recovery actions. Participation plans for
implementing recovery actions for the western snowy plover that include
all partners should be developed by each of the six recovery unit working
groups. In addition to outlining a strategy to implement recovery actions,
the participation plan should include strategies for evaluation of progress
and needs for plan revision. Participation plans may also achieve the
policy’s goal of providing for timely recovery of species while minimizing
social and economic impacts. Plans should identify and prioritize specific
recovery activities for each location identified in Appendices B and
C,while considering the needs of the entire Pacific coast population. They
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should include, but not be limited to: (1) endorsements by responsible
agencies of their intent to seek economic resources for ongoing recovery
actions; (2) outreach efforts to enhance the public’s understanding of the
western snowy plover’s habitat needs (including an information and
education strategy specific to area demographics and recreational
activities); (3) economic incentives for conservation of western snowy
plovers on private lands; and (4) all actions necessary to maintain western
snowy plover productivity after delisting. Participation plans may also
identify ways in which recovery actions for western snowy plovers will be
covered as part of coastal ecosystem plans or other conservation measures.
3.3 Develop and implement management plans for all Federal and State
lands to provide intensive management and protection of western
snowy plovers and their habitat. Federal and State land managers
should develop and implement management plans for all breeding and
wintering locations (listed in Appendix B) that occur on Federal or State
lands. Intensive management programs for western snowy plovers at
national wildlife refuges should be implemented and annually evaluated to
ensure they provide sufficient plover protection. Intensive management
programs also should be implemented and periodically evaluated on lands
administered by the National Park Service, U.S. Forest Service, U.S.
Bureau of Land Management, U.S. Army Corps of Engineers, and Federal
military bases, State wildlife areas, State ecological reserves, and State
park lands (including State natural preserves and State seashores).
3.3.1 Develop and implement management plans for Federal lands.
Federal agencies should develop or update, as appropriate, site-
specific management plans that address threats to western snowy
plovers, and adopt management measures for habitat protection
and enhancement on Federal lands. Management plans should be
implemented on an ongoing basis. Federal agencies also should
review their proposed actions under the requirements of sections 7
and 10 of the Endangered Species Act prior to implementing the
management plans because they may require authorization under
section 7(a)(2) or 10(a)(1)(A).
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3.3.2 Develop and implement management plans and habitat
conservation plans on State wildlife areas, State ecological
reserves, and State beaches. State agencies that manage State
beaches, wildlife areas, or ecological reserves should develop and
implement site-specific management plans and habitat
conservation plans to minimize and mitigate impacts to western
snowy plovers, and management measures for habitat protection
and enhancement on State lands. State agencies should coordinate
the development of habitat conservation plans with us and apply
for section 10(a)(1)(B) permits under the Endangered Species Act
if their management actions and allowed uses are resulting in
incidental take of western snowy plovers.
3.4 Develop and implement habitat conservation plans or other
management plans for western snowy plover breeding and wintering
sites owned or managed by local governments and private
landowners. We should provide assistance in the development of habitat
conservation plans or other management plans to: (1) county and city
governments that manage western snowy plover habitats; (2) private
resource managers; and (3) owners of large amounts of private natural
land. Habitat conservation plans are only required if an incidental take
permit under section 10(a)(1)(B) of the Endangered Species Act is desired
or required.
3.5 Provide technical assistance to local governments in developing and
implementing local land use protection measures through periodic
workshops. Federal and State agencies should assist local governments
with jurisdiction over western snowy plover habitats in developing
western snowy plover protection policies as part of new or revised local
general plans, zoning policies, implementing measures, land use plans,
comprehensive plans, and local coastal programs. For areas where beach
closures are necessary, appropriate ordinances, administrative rules, and
regulations should be developed by State and local governments to enable
law enforcement officers to conduct necessary enforcement actions.
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Technical assistance such as maps of western snowy plover habitats,
identification of local threats, and recommended site-specific protective
measures should be provided to coastal planners. At least two workshops
within each recovery unit that provide local governments with basic
information on the western snowy plover, its habitats, threats, and
recommended protective measures should be conducted during the first 10
years of recovery plan implementation. Additional technical assistance
likely will be required but should be provided on an as needed basis as
new or revised general plans, policies, ordinances, and other land use
protection measures are developed.
3.6 Develop and implement cooperative programs and partnerships with
the California State Coastal Commission, the Oregon Department of
Land Conservation and Development, the Washington State Parks
and Recreation Commission, the Oregon Parks and Recreation
Department, the California Department of Parks and Recreation, and
the Oregon Department of Fish and Wildlife to ensure that they use
their authorities to the fullest extent possible to promote the recovery
of the western snowy plover. Federal and State agencies should assist
the California State Coastal Commission, Oregon Department of Land
Conservation and Development, Washington State Parks and Recreation
Commission, Oregon Parks and Recreation Department, California
Department of Parks and Recreation, and Oregon Department of Fish and
Wildlife in reviewing, updating, and amending local coastal programs and
policies for consistency with the western snowy plover recovery plan.
This review should include protection of western snowy plover habitats,
cumulative impacts to western snowy plovers, and policies or restrictive
measures recommended in this recovery plan.
3.7 Obtain long-term agreements with private landowners.
Agreements between Federal and State agencies and private landowners
interested in western snowy plover conservation should be developed and
implemented. Landowners should be informed of the significance of
plover populations on their lands and be provided with information about
available conservation mechanisms, such as agreements and incentive
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programs. For private lands with potential occurrences of western snowy
plovers, permission should be sought from landowners to conduct on-site
surveys. If surveys identify plover populations, landowners should be
informed of their significance and offered incentives to continue current
land uses that support species habitat. Appendix C, Table C-1 identifies
69 locations where landowner cooperation/cooperative agreements are
occurring or are recommended to achieve management goals.
3.8 Identify and protect western snowy plover habitat available for
acquisition. Federal, State, and private conservation organizations should
protect western snowy plover habitat as it becomes available, through fee
title or conservation easement, etc. We and other organizations should
identify sites that may become available for acquisition, and we should
continue to evaluate excess Federal lands for western snowy plover habitat
and apply to acquire them as they become available. Each recovery unit
working group should develop a list of priority properties for acquisition,
and Federal, State, and nongovernmental organizations should work with
land conservancy groups to implement land trades and acquisitions.
Management plans for the western snowy plover should be developed
during the land acquisition process.
3.9 Ensure that section 10(a)(1)(B) permits contribute to Pacific coast
western snowy plover conservation. Recommendations contained in
this recovery plan should guide the preparation of habitat conservation
plans under section 10(a)(1)(B) of the Endangered Species Act for western
snowy plovers on the Pacific coast by providing information to: (1) guide
potential applicants in developing plans that minimize and mitigate the
impacts of take and (2) assist us in evaluating the impacts of any proposed
conservation plans on the recovery of the Pacific coast western snowy
plover population. The section 10(a)(1)(B) permit process may be a
valuable mechanism for developing the long-term protection agreements
called for in Actions 3.3.2 and 3.4, especially where significant population
growth has already occurred and productivity exceeds l.0 fledged chick per
male.
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3.10 Ensure that consultations conducted pursuant to section 7 of the
Endangered Species Act contribute to Pacific coast western snowy
plover conservation. The recovery plan should also guide the evaluation
of impacts to western snowy plovers pursuant to section 7(a)(2) of the
Endangered Species Act. In evaluating these impacts, we and other
Federal agencies should consider each of the breeding and wintering
locations listed in Appendix B as important for recovery, and should also
refer to the management goal breeding numbers for applicable locations
and determine how the proposed project will affect those goals.
Coordination with military bases which have western snowy plover
populations is important to ensure that military activities do not affect the
western snowy plovers or their habitat. Appendix C, Table C-1 identifies
54 locations where military uses are either restricted or recommended for
restriction to achieve management goals.
4 Undertake scientific investigations that facilitate recovery efforts. Major
gaps remain in our understanding of useful protection measures and
conservation efforts for the western snowy plover. These include effective
methods for habitat restoration, predator control, and monitoring population
numbers and demographic characteristics.
4.1 Investigate effective methods for habitat restoration.
4.1.1 Evaluate the effectiveness of past and ongoing methods for
habitat restoration by removal of introduced beachgrass and
identify and carry out additional investigations necessary.
Land managers, in coordination with recovery unit working groups,
should summarize methods used to date for removal of introduced
beachgrass and review their effectiveness. They also should pursue
any additional field studies necessary to determine the most
effective and cost-efficient methods for habitat restoration through
removal of introduced beachgrass. Controlled studies with
improved monitoring would provide needed direction for
management decisions.
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4.1.2 Evaluate the impacts and potential benefits of past and
ongoing beach nourishment activities and identify and carry
out any additional studies necessary to determine effects of
beach nourishment activities on western snowy plover habitat.
Beach nourishment activities should be carefully evaluated to
weigh the probable adverse and beneficial effects on plovers and
on other sensitive coastal dune species. Pre- and post-deposition
beach profiles and faunal studies (including invertebrates) should
be conducted to determine effects on habitat suitability for western
snowy plovers. Consideration should be given to whether the
projected long-term benefits are likely to occur.
4.2 Develop and test new predator management techniques to protect
western snowy plover nests and chicks. Because many of the
techniques currently used to reduce predation have disadvantages or
limitations in effectiveness, new predator management techniques should
be investigated. Assistance from the U.S. Department of Agriculture,
Wildlife Services Branch, from State wildlife agency furbearer biologists,
and other predatory bird and mammal specialists should be sought on
these matters.
4.2.1 Develop higher-efficiency nest exclosures. Because exclosures
must be deployed quickly, and currently-designed exclosures are
heavy and labor- and time-intensive to erect, new exclosure
designs should be tested. Prototypes should include lightweight
materials that are easier to transport and a design that is easy to
assemble and install.
4.2.2 Develop California least tern exclosures that prevent harm to
western snowy plovers. Resource managers should continue to
investigate modified designs for California least tern enclosures to
further minimize western snowy plover mortality.
4.2.3 Identify, prioritize, and carry out needed investigations on
control of native and nonnative predators. Aspects of the
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ecology of problematic avian predators (e.g., ravens and shrikes)
and native mammals (e.g., coyotes and gray foxes) that could be
used to gain an understanding of how to control their impact on
western snowy plover nesting areas during the plover breeding
season should be investigated. Information also is needed on the
applicability and usefulness of other control methods, including
aversive techniques for conditioning predators to avoid foraging in
western snowy plover nesting areas or preying on western snowy
plover eggs, chicks, or adults. Investigation is also needed to
develop methods to discourage gull colonies. Aversive techniques
may include taste aversions, displaying predator carcasses, or
installing electric fences. Effective modifications of signs and
fencing to prevent their use as predator perches also requires
investigation. While in many cases there appear to be practical
obstacles to development of effective aversion techniques that can
be efficiently applied in the field, the goal of reducing predation
with minimum disruption to native predator populations that are
important to overall ecosystem balance is desirable and any
methods that appear potentially practical and useful should be
evaluated for success and cost-effectiveness. Initial study trials
might be done at sites or seasons where western snowy plovers are
not present in order to minimize unplanned adverse impacts.
Recovery unit working groups should identify and prioritize
studies needed and inform us of their recommendations.
4.2.4 Identify, prioritize, and carry out needed investigations on
predator management at the landscape level. Resource
managers should investigate landscape-level management of
predators that inhabit western snowy plover nesting areas. This
management could include removal of predator nest sites and other
predator attractants or habitat on lands surrounding western snowy
plover breeding areas. Recovery unit working groups should
identify and prioritize studies needed and inform us of their
recommendations.
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4.2.5 Investigate techniques for identifying predators responsible
for individual nest predation events. Techniques should be
developed to identify predators responsible for nest predation
events so that appropriate management measures can be applied.
Such techniques could include installation of a remote video
camera to monitor western snowy plover nests and exclosures and
identify problematical predators.
4.3 Improve methods of monitoring population size and reproductive
success of western snowy plovers. Methods used to monitor western
snowy plover populations have differed over time and from site to site. To
measure progress toward recovery reliably, standard monitoring guidelines
have been developed (Appendix J). Logistical and financial constraints
likely will preclude complete coverage of all areas, so sampling methods
should be developed.
4.3.1 Improve methods of monitoring western snowy plover
population size. Not all western snowy plovers at a given location
are detected during a single survey, such as the annual breeding-
season window survey. Consequently, correction factors are
necessary to extrapolate population size from window surveys.
Correction factors are determined on a site-specific basis.
Intensive monitoring and/or color banding make it possible to
know the number of western snowy plovers present at a site.
When a window survey is completed, the ratio of the total number
of western snowy plovers to the number of western snowy plovers
counted provides a correction factor that may be used for future
window surveys of the site and for other sites with window surveys
but without intensive monitoring. Site-specific correction factors
should be obtained for all major nesting locations. When
correction factors have been determined for many sites, patterns
may emerge that allow correction factors to be applied more
broadly.
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4.3.2 Develop sampling methods for annually estimating
reproductive success within each recovery unit. While it is
extremely valuable to monitor clutch hatching success and chick
fledging success at each site as a measure of habitat quality, it is
critical to determine the number of young fledged per male for
each recovery unit to measure the potential for population stability
and growth. Measuring the number of young fledged per male
requires intensive monitoring, and at sites with large numbers of
birds, some method of identifying individual males. Extensive
color banding of adults and their young, enabling determination of
young fledged per male, has been undertaken in large portions of
coastal Oregon, the shoreline of Monterey Bay, and coastal San
Diego County for the past several years. These efforts should
continue. Since there are insufficient color band combinations to
monitor all individuals in every recovery unit, sampling procedures
should be developed to color band adequate samples of males, and
if necessary their chicks, in the other recovery units to obtain
estimates of the number of young fledged per male. Color banding
for measuring reproductive success should be integrated with
banding for estimating population size.
4.3.3 Develop methods to monitor western snowy plover survival
rates within each recovery unit. Extensive color banding of adult
plovers and their young in coastal Oregon, the shoreline of
Monterey Bay, and coastal San Diego County has enabled survival
rates of adults and young to be calculated for several years (see
Population Status and Trends and Survival sections). These efforts
should continue. Information on survival rates of birds from other
recovery units can be derived from birds banded for monitoring
reproductive success or estimating population size.
4.4 Conduct studies on western snowy plover habitat use and availability.
4.4.1 Identify western snowy plover brood habitat and map brood
home ranges. Brood movements should be mapped and distances
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quantified to identify how large an area must be protected for
broods. Determine home ranges of western snowy plovers through
radio telemetry studies. Traditionally used brood habitat should be
identified and protected through actions 2 and 3.
4.4.2 Identify components of high-quality western snowy plover
brood rearing habitat. The elements of high-quality brood
habitat should be determined to facilitate creation and enhancement
of suitable characteristics at other breeding locations.
4.4.3 Quantify wintering habitat needs of western snowy plovers
along the Pacific coast. The amount of habitat needed to support
wintering western snowy plovers along the Pacific coast should be
determined. This effort should include estimating the numbers of
western snowy plovers that can be supported at wintering locations
listed in Appendix B and identifying important site characteristics.
This action will require consideration of wintering habitat quality
along the Pacific coast of the United States and Mexico, and
quantifying the combined interior and coastal populations.
4.4.4 Identify any important migration stop-over areas used by
migrating but not by breeding or wintering western snowy
plovers. Additional information on western snowy plover
migration patterns is needed because migration involves
expenditure of energy that may affect survival or productivity.
Although monitoring and protection of breeding and wintering
locations are currently higher priorities than protection of
migration sites, further investigations of, and protective measures
for, migration sites should be undertaken when feasible. Threats
and management needs of identified migration stop-over habitat
should be evaluated and included in management monitoring, and
protection tasks (see action 1.6).
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4.5 Develop and implement a research program to determine causes of
adult western snowy plover mortality, including investigation of
possible causes, magnitude, and frequency of catastrophic mortality.
Determine causes of mortality and the stage in the annual cycle (e.g., post-
breeding, migration, winter, pre-breeding, breeding) at which mortality
occurs for each sex and age class. This assessment can be done through
intensive, bi-weekly monitoring to determine relative health and potential
for disease. Monitoring could include fat content and weight related to the
season.
4.6 Improve techniques for banding western snowy plovers. Improve the
technique for banding birds to reduce injuries. Because western snowy
plover injuries are usually associated with Federal metal bands but not
with plastic bands, removal of U.S. Fish and Wildlife Service lettering
from the inside of the metal band should be investigated. Eliminating use
of the U.S. Fish and Wildlife Service metal band also should be
considered. Experimentation with new techniques must be conducted
cautiously and may need to include pre-testing on nonlisted surrogate
species.
4.6.1 Compile information regarding number and types of banding
injuries to western snowy plovers to determine extent and
causes of banding injuries. Several banding injuries to western
snowy plovers have been reported. However, there is currently no
consistent reporting of injuries to determine the extent or types of
injuries. Working groups should compile information on banding
injuries to use in determining the type and extent of the problem
and in developing a course of action. Information collected should
include number of injuries, type of injury (abrasion, foot loss,
broken leg, etc.), probable cause of injuries (foreign object lodged
between band and leg, wearing of band, etc.), effect of injuries on
behavior (breeding, foraging, predator avoidance), type of bands
(plastic or metal) associated with injuries, whether metal bands had
writing on the inside or other rough areas likely to cause abrasion
or lodging of foreign object.
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4.6.2 Review compiled information and determine and implement a
appropriate course of action to minimize banding injuries. The
information complied in step 4.6.1 should be reviewed to
determine the appropriate course of action to minimize banding
injuries. Review may reveal that banding injuries are rare or have
little impact on breeding success or survival, in which case no
changes to banding procedures may be necessary. However,
extensive numbers of injuries or impacts on breeding success and
survival may require actions such as changing the location of metal
bands from the tarsus to tibiotarsus, discontinuing use of metal
bands, or using different band types. All decisions regarding
changes to banding procedures should consider effects of such
changes to the type, quantity, and quality of data that may be
gathered from banding efforts, and whether such changes will
affect the ability to determine population trends, monitor success of
management actions, or otherwise affect recovery efforts. For
example, discontinuing use of metal bands may affect the ability to
gather information on survival, longevity, and dispersal useful in
analyzing population viability.
4.7 Identify effects of oil spills on western snowy plovers. Research should
be conducted on the direct and indirect effects of oil spills on western
snowy plovers, including, but not limited to: (1) how oil spills affect the
plover’s prey base; (2) chronic effects of oiling; (3) transmission of oil on
partially-oiled birds from the breast to the egg; (4) at what stage oiled
plovers need to be captured or re-captured; (5) preferable methods to
remove oil from soiled birds; and (6) impacts to plovers during oil clean-
up and remediation activities.
4.8 Monitor levels of environmental contaminants in western snowy
plovers. When abandoned eggs and/or dead chicks that are not needed for
law enforcement investigations become available, they should be collected
for potential contaminants assessment. Egg removal and salvage of dead
chicks should only be done by individuals possessing proper Federal and
State authorizations. Chemical analysis of salvaged specimens should be
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coordinated through our Division of Environmental Contaminants. All
salvaged eggs should be analyzed for organochlorine pesticides, total
polychlorinated biphenyls (PCB’s), selenium, mercury, and boron.
All sampling should be opportunistic, based on availability of eggs that are
known to be abandoned. Eggs should never be removed from the beach as
long as there is any realistic chance that they might hatch. In the case of
unhatched eggs from a partially hatched clutch, eggs should not be
collected until at least 36 hours after the known hatch date of the other
eggs. Full clutches should not be collected unless it is known that 35 or
more days have elapsed since the last egg was laid. When this
opportunistic sampling of failed eggs indicates potential problems with
contaminants, follow up studies should be carried out (see action 4.9).
4.9 Design and conduct contaminants studies if monitoring of
contaminants in action 4.8 indicates potential contaminants effects.
When opportunistic sampling of failed eggs (action 4.8) indicates potential
problems with contaminants, additional studies should be carried out to
evaluate the extent of contamination in western snowy plover diets, its
effects on nest success and egg hatchability, and its effects on various life
stages of snowy plovers (eggs vs. adults). Thresholds when management
action is required should be identified. When the target threshold is
exceeded research should be conducted to identify the source.
4.10 Identify, prioritize, and carry out needed investigations of the effects
of human recreation on western snowy plovers. Many studies on the
effects of recreational activities on western snowy plovers have already
been conducted. To avoid duplicating previous or ongoing efforts,
recovery unit working groups should evaluate and prioritize additional
study needs to determine the effects of human recreation on western
snowy plover. Western snowy plover should be monitored for effects
from recreational activities such as off-road vehicle riding, horseback
riding, walking, jogging, fishing, aircraft, ultralight aircraft, and kite-
flying.
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4.11 Revise the population viability analysis (Appendix D), if needed, when
sufficient additional information on demographic characteristics
(survival rates, reproductive success) is available from each recovery
unit and information is obtained on the probability and magnitude of
catastrophic mortality events. As new information on population
numbers, survival rates, and reproductive success are acquired from
monitoring (actions 1.1 and 1.2), monitoring techniques are improved
(action 4.3), and mortality sources and rates of mortality are determined
(action 4.5), the population viability analysis should be reviewed and
revised if additional information differs significantly from that used to
construct the original analysis.
5 Undertake public information and education programs. Expanded efforts
are needed to increase public awareness of the needs of western snowy plovers,
other rare beach species, and the beach and dune ecosystem. Public outreach
efforts should be a major focus of each of the working groups for the six
recovery units. Appendix C, Table C-1 identifies 84 locations where public
information and education is either currently occurring or is recommended to
achieve management goals.
5.1 Develop and implement public information and education programs.
Millions of beach recreationists come in contact with western snowy
plover nesting and wintering areas each year. Disregard to signs,
symbolic fencing, and leash laws by beach users can directly affect the
productivity and health of western snowy plovers on those beaches.
Public information and education efforts play a key role in obtaining
compliance of beach recreationists with plover protection measures that,
in turn, affect the birds' recovery. Central messages to the beach-going
public include: (1) respect areas fenced or posted for protection of
plovers and other rare beach species; (2) do not approach or linger near
western snowy plovers or their nests; (3) if pets are permitted on beaches
used by plovers, keep the pets leashed; (4) don't leave or bury trash or
food scraps on beaches, as garbage attracts predators that may prey upon
plover eggs or chicks; and (5) do not build wood structures that can be
used as predator perches.
205
Because of the importance of information and education for the western
snowy plover recovery effort, as part of this recovery plan, we developed
an Information and Education Plan for the Western Snowy Plover,
Pacific coast population (Appendix K).
5.2 Inform Federal, State, and local resource/regulatory agencies and
local planning departments of threats to breeding and wintering
western snowy plovers and their habitats. Periodic meetings and/or
workshops should be held to inform Federal, State, and local resource
management and regulatory agencies, and city and county planning
departments about threats, research, and management needs for plovers.
A network of public agency staff from each of the six recovery unit
working groups should develop a coordinated approach to present this
information to these agencies periodically, or as needed.
5.3 Develop and maintain updated information and education materials
on western snowy plovers. Members of the six recovery unit working
groups should develop new western snowy plover information and
education materials for target audiences to stimulate public interest and
awareness. In addition, all materials should be kept reasonably current
regarding the status of the species and protection efforts. These
materials should also explain the need for conservation of the beach and
dune ecosystem and the plight of other rare beach-dwelling species.
Videos detailing needed western snowy plover recovery actions by
location and recovery unit should be developed, and might be efficiently
produced in conjunction with updated public service advertisements.
5.4 Alert landowners and beach-goers about access restrictions within
western snowy plover habitats. Land managers should begin
providing informational and educational outreach at least 2 weeks prior
to the onset of the nesting season to provide beach-goers and interested
landowners with advance notice of impending restrictions on publicly-
owned western snowy plover breeding habitats. This outreach is
particularly important for the first year of restrictions. If necessary,
206
follow-up publicity that includes information on citations issued to
violators should be implemented to help reinforce the message.
5.5 Provide trained personnel to facilitate protective measures, provide
public education, and respond to emergency situations. Biologists,
docents, volunteers, and other personnel should be trained to patrol
western snowy plover nesting areas to monitor birds, distribute
educational materials, respond to emergency situations, and ensure that
beach-goers stay out of fenced areas and adhere to other plover
protection measures. Biologists engaged in monitoring, management, or
research activities should also advance the public’s understanding of
plover management needs.
5.6 Develop protocols for handling sick, displaced, injured, oiled, and
dead birds or salvaged eggs. Land managers within each recovery unit
should develop protocols for all trained personnel identifying who
should be contacted when injured, dead, oiled, or displaced birds are
found, and who is permitted to handle these birds. Federal and State
salvage permits are necessary for the disposal of dead birds and the
transportation of injured birds. Federal and State endangered species
permits are necessary for wildlife rehabilitators to accept and care for
injured and sick birds. Coordination with biologists that are monitoring
and banding western snowy plovers is essential for capture and release of
injured/rehabilitated birds. Live chicks that are found should not be
moved or taken for rehabilitation as these chicks are often not
abandoned, even though plover adults may not be obvious at the time the
chicks are seen. Protocols should also be developed on how to collect
and preserve salvaged eggs used for contaminants analysis.
5.7 Establish a distribution system and repository for information and
education materials. Land managers must distribute information and
education materials to target audiences. To reach the large population of
potential beach-goers within a few hours’ drive of many major
metropolitan areas, broad-scale information and education mechanisms
should be implemented, including distribution by mass media such as
207
newspapers, radio and television announcements, and internet web sites.
Land managers should also focus their information and education efforts
on user groups at beach parking lot entry stations and kiosks, visitor
centers, marinas, beach-front housing developments, equestrian and
angler access points, and locations providing off-road vehicle permits.
Public outreach efforts should be directed to groups within the
geographical location of the managed beaches (e.g., to private and
commercial equestrian users) and to groups outside of the area who use
the beaches on a regular or seasonal basis (e.g., to off-road vehicle
associations from out-of-state or inland locations). Land managers, with
the help of docents and volunteers, should coordinate with local school
teachers to develop and present environmental education lesson plans
and participatory activities for elementary and middle school groups.
We will act as a central repository for current and new information and
education materials received; upon request, we will make these materials
available to recovery unit working groups and the general public. We
will also maintain information on western snowy plovers at our website
(http://www.fws.gov/arcata). Major distributional efforts should also
continue by Federal, State, and local agencies, and private conservation
organizations.
5.8 Establish a reporting and distribution system for annual monitoring
data and management techniques. Our Arcata Fish and Wildlife
Office should coordinate and produce an annual report of submitted
breeding and wintering monitoring data and distribute it to recovery unit
working groups. This report should describe results of monitoring
throughout the western snowy plover population’s range. A distribution
system should also be established for sharing information on predator
management techniques, nest protection, etc. among working groups.
6 Review progress towards recovery and revise recovery efforts as
appropriate. Communication, evaluation, and coordination play a major role
in western snowy plover recovery efforts. Land managers within each of the
six recovery unit working groups should review the effectiveness of their
208
management activities in coordination with other members of their working
group, and revise management measures as appropriate. They should also
provide results of annual population monitoring and the effectiveness of
management activities to their working group and to our Arcata Fish and
Wildlife Office.
6.1 Develop and implement a tracking process for the completion of
recovery actions and the achievement of delisting criteria. A
tracking process should be developed to track the completion of recovery
actions and progress toward delisting. Utilizing information from
specific actions, the recovery criteria such as the implementation of
management activities can be tracked. Information from the tracking
process can be used in outreach and in helping identify when the western
snowy plover can be delisted.
6.2 Review progress toward recovery annually within each recovery
unit working group and revise site-specific recovery efforts as
appropriate to meet recovery goals. Communication, evaluation, and
coordination play a major role in western snowy plover recovery efforts.
Land managers within each of the six recovery unit working groups
should review the effectiveness of their management activities in
coordination with other members of their working group, and revise
management measures as appropriate. They should also provide results
of annual population monitoring and the effectiveness of management
activities to their working group and to our Arcata Fish and Wildlife
Office.
Additionally, the working groups in conjunction with land managers
should review success in meeting management goal breeding numbers
recommended in Appendix B, and develop recommendations for any
necessary revisions to those numbers based on site-specific conditions.
Ongoing and needed management activities recommended in Appendix
C also should be evaluated and revised according to site specific
conditions. Revisions to management goals and management activities
should be provided to our Arcata Fish and Wildlife Office.
209
6.3 Assess the applicability, value, and success of this recovery plan to
the recovery of the western snowy plover every 5 years until the
recovery criteria are achieved. Rather than revising the entire recovery
plan, it is proposed that minor revisions, clarifications, and prioritization
changes be made through an addendum, to be produced and distributed
every 5 years. This addendum would address data gaps identified in this
version of the recovery plan including recommended management
prescriptions, specific habitat management recommendations,
management goal breeding numbers, directed surveys; and necessary
changes discussed in previous recovery actions. It would provide a
summary of the recovery actions implemented to date, and it would be a
forum to solicit comments from the Recovery Team, stakeholders, and
others interested parties on any proposed major changes. Major changes,
elimination, or addition of recovery actions may initiate a revision.
6.4 Prepare a delisting package for the Pacific coast population of the
western snowy plover. If actions 6.1 through 6.3 indicate recovery
criteria have been met, actions to ameliorate or eliminate threats have
been implemented and determined to be effective, and analyses of
threats demonstrate that threats identified during and since the listing
process have been ameliorated or eliminated, prepare a delisting
package.
6.5 Prepare and implement a post-delisting monitoring plan. If delisting
is warranted, prepare a post-delisting monitoring plan. Section 4 of the
Endangered Species Act requires, in cooperation with the States,
monitoring for a minimum of five years all species that have been
recovered (i.e., delisted).
7 Dedicate sufficient U.S. Fish and Wildlife Service staff for coordination of
western snowy plover recovery implementation. Our Arcata Fish and
Wildlife Office holds lead responsibility for coordinating implementation of
western snowy plover recovery. We should assure that the Arcata Fish and
Wildlife Office has sufficient staff to handle the primary responsibility of
implementing the western snowy plover recovery plan. Duties should include
210
coordination and distribution of monitoring information and educational
materials; transmission of copies of annual population monitoring results to
our field offices that are responsible for western snowy plover issues;
compilation and distribution of annual population status updates to all
working groups; coordination with our other field offices in CNO and Region
1 regarding western snowy plover conservation actions, consultations, habitat
conservation plans, and permits; facilitating coordination among the working
groups created for the six recovery units; and fund raising to support recovery
implementation actions.
8 Establish an international conservation program with the government of
Mexico to protect western snowy plovers and their breeding and wintering
locations in Mexico. Meeting the recovery goals outlined in this recovery plan
is dependent only on actions recommended for implementation along the
Pacific coast of the United States. However, other actions are identified for
Mexico to complement conservation efforts in the United States. Efforts
should be made to establish an international conservation program between
the U.S. Fish and Wildlife Service and Mexico’s National Institute of
Ecology, Ministry of Environment, Natural Resources and Fisheries.
Programs to facilitate implementation of this conservation program should
include Partners in Flight, North American Waterfowl Management Plan, and
the Borderlands Initiative.
8.1 Develop a joint effort between the United States and Mexico to
protect western snowy plover populations and their habitat. Joint
efforts should be implemented to determine important habitat in Mexico
and protect these breeding and wintering locations from human
disturbance.
8.2 Encourage research and monitoring of breeding and wintering
western snowy plovers in Baja California, Mexico, by universities
and authorities of Mexico. Joint efforts should be made to develop and
implement a long-term monitoring program for western snowy plover
populations of Mexico. They should include developing methods for
consistent monitoring, coordination of banding and color-marking with
211
banders from the United States, assessment of the population status of
breeding and wintering birds, and assessment of environmental impacts
that may adversely affect plover populations.
8.3 Encourage development and implementation of public information
and conservation education in Mexico for western snowy plovers.
Public information and educational efforts should be coordinated and
implemented by the United States and Mexico. They should include
development of bilingual pamphlets for distribution to anglers, tourists,
and local communities, and construction and placement of bilingual
signs alerting them of the presence of nesting western snowy plovers.
9 Coordinate with other survey, assessment, and recovery efforts for the
western snowy plover throughout North America. Western snowy plovers
range through much of North America, and many individuals of the Pacific
Coast population of western snowy plovers may overwinter in areas that overlap
with other populations. Participation and coordination with other groups
working on survey, assessment, and recovery efforts may yield valuable
information on the distribution, status, and management needs for the Pacific
Coast population of the western snowy plover. This coordination effort should
be included in establishment of an international conservation program with
Mexico.
212
213
IV. IMPLEMENTATION SCHEDULE
The following Implementation Schedule outlines actions needed, responsible
parties, and estimated costs to recover the United States portion of the Pacific coast
population of the western snowy plover. Considering the recovery criteria, results
of the population viability analysis (Appendix D), and fulfillment of the
recommendations contained in the recovery plan, recovery of the western snowy
plover could occur in approximately 40 years. This time estimate assumes
dedicated, proactive efforts toward improvements in western snowy plover
management in the near-term, and subsequent management at a maintenance level
commensurate with fulfillment of the recovery criteria.
The total cost of implementing actions outlined in this recovery plan over 40 years
is $149,946,000. However, this figure represents only a portion of the overall costs
because the cost of many actions cannot be estimated at this time. For example,
costs associated with intensive protection and management on Federal and State
lands (Action 3.3) should be determined by members of each of the six recovery
unit working groups because they are most familiar with their site-specific needs
and constraints. Costs of many actions were estimated based on current
management recommendations provided in Appendix C. However, coastal
ecosystems are dynamic and necessary management actions may vary with time, as
site conditions change. Improvements over time in methods for predator control,
control of nonnative vegetation, and monitoring are also expected and may affect
actual costs.
It should be recognized that expenditure of funds for recovery of the western
snowy plover will provide far-reaching benefits beyond those gained for a single
species. Allocation of these funds will also benefit many other sensitive fish and
wildlife species, the coastal beach-dune ecosystem, public appreciation for natural
habitats, and aesthetics. These estimated costs do not reflect a cost/benefit analysis
that incorporates other values or economic effects with implementation of the
recommendations contained in this recovery plan.
We believe that protection and management costs could be substantially reduced
by selecting protection strategies that are more restrictive of other beach uses.
214
While we believe that it is neither feasible nor desirable to completely eliminate
beach recreation in most western snowy plover habitat, we also recognize that
management strategies that protect western snowy plovers on beaches where public
use is also maintained require a continuing commitment of person-power, and are
inherently expensive.
The Implementation Schedule lists and ranks actions that should be undertaken
within the next 5 years. This schedule will be reviewed routinely until the recovery
objective is met, and priorities and actions will be subject to revision.
215
Key to Acronyms used in the
Implementation Schedule
Definition of action priorities:
Priority 1 - An action that must be taken to prevent extinction or prevent the
species from declining irreversibly in the foreseeable future.
Priority 2 - An action that must be taken to prevent a significant decline in species
population or habitat quality, or some other significant negative impact short of
extinction.
Priority 3 - All other actions necessary to provide for full recovery of the species.
Definition of action durations and costs:
Annual - An action that will be implemented each year.
Continual - An action that will be implemented on a routine basis once begun.
Ongoing - An action that is currently being implemented and will continue until
action is no longer necessary.
As needed - An action that will be implemented on an “as needed” basis.
Unknown - Either action duration or associated costs are not known at this time.
To Be Determined (TBD) - Costs to be determined at a later date.
216
Responsible parties*:
ARMY U.S. Army
BLM U.S. Bureau of Land Management
CCC California State Coastal Commission
CDFG California Department of Fish and Game
CDPR California Department of Parks and Recreation
CE U.S. Army Corps of Engineers
CI Cities
CO Counties
CON California Coastal Conservancy
EBRPD East Bay Regional Park District
ES U.S. Fish and Wildlife Service, Division of Ecological Services
(includes Endangered Species and Contaminants)
FAA U.S. Department of Transportation, Federal Aviation
Administration
HARD Hayward Area Recreation and Park District
IA U.S. Fish and Wildlife Service, Office of International Affairs
LE U.S. Fish and Wildlife Service, Division of Law Enforcement
LMAO Land Management Agencies and Organizations and other
Cooperators.
(This category includes Federal and local land management
agencies listed above, private organizations and individuals
that own and manage snowy plover breeding and wintering
habitat, and private conservation groups that provide on-site
protection of lands owned by others.)
MPOSD Mid-Peninsula Open Space District
MPRPD Monterey Peninsula Regional Park District
NASA National Aeronautics and Space Administration-Ames Research
Center
NAVY U.S. Navy
NMFS National Marine Fisheries Service
NPS National Park Service
ODFW Oregon Department of Fish and Wildlife
ODLCD Oregon Department of Land Conservation and Development
OPRD Oregon Parks and Recreation Department
217
P Private landowners (except HARD, MPOSD, and TNC)
PA U.S. Fish and Wildlife Service, Public Affairs
PGH Port of Grays Harbor
PO Port of Oakland
PRBO Point Reyes Bird Observatory Conservation Science
PSL Port of San Luis Harbor District
RSCH Research institutions and agencies
RW U.S. Fish and Wildlife Service, Division of Refuges and Wildlife
(includes Realty)
SDRPJPA San Dieguito River Park Joint Powers Authority
TNC The Nature Conservancy
TPL Trust for Public Land
USAF U.S. Air Force
USCG U.S. Coast Guard
USFS U.S. Forest Service
USFWS U.S. Fish and Wildlife Service
BBL U.S. Geological Survey, Bird Banding Laboratory
BRD U.S. Geological Survey, Biological Resources Division
USMC U.S. Marine Corps
WDFW Washington Department of Fish and Wildlife
WDNR Washington Department of Natural Resources
WS U.S. Department of Agriculture, Wildlife Services Branch
WSPRC Washington State Parks and Recreation Commission
* All responsible parties listed for actions in Implementation Schedule are
considered lead agencies for those actions.
21
8
IMPLEMENTATION SCHEDULE
Western Snowy Plover Pacific Coast Population Recovery Plan
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
1 Annually monitor
abundance, population
size and distribution at
breeding and wintering
locations.
1.1 annual LMAO, CO, CI,
RSCH
2,194 54.9 54.9 54.9 54.9 54.9 Assumes 157 window survey days,
with 2 biologists per location at.
Action needed to determine
fulfillment of recovery criteria.
1 Develop and implement a
program to monitor
productivity and annual
survival.
1.2 annual LMAO, CO, CI.
RSCH
TBD Action needed to determine
fulfillment of recovery criteria.
Depends partly on completion of
4.3.2 and 4.3.3.
1 Develop and implement a
program to monitor
habitat condition and
threats at all breeding and
wintering sites.
1.3 annual LMAO, RSCH 1,125 60 27 27 27 27 Assumes initial cost for
development of standardized
monitoring program and subsequent
monitoring for 155 sites.
3 Develop and implement
training and certification
programs for western
snowy plover survey
coordinators and
observers.
1.4 continual ES, LMAO,
RSCH
363.5 32 8.5 8.5 8.5 8.5 Assumes initial cost to develop
program and subsequent
implementation.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
21
9
3 Improve submittal
system for monitoring
data to ensure consistent
reporting.
1.5 continual ES, LMAO, BBL,
PRBO
346 32 8 8 8 8 Assumes initial cost to develop
submittal and reporting system and
subsequent annual review.
3 Assess and evaluate new
breeding wintering and
migration areas for
threats and management
needs and update lists as
data become available.
1.6 continual ES, LMAO,
PRBO
TBD Depends on results of annual
surveys and monitoring.
3 Coordinate monitoring of
snowy plovers and
California least terns to
minimize disturbances.
1.7 annual ES, RW, NAVY,
USMC, USAF,
CDFG, CDPR,
WS, BRD
1,020 25.5 25.5 25.5 25.5 25.5 Coordinate at biannual pre- and
post-season California least tern
monitoring meeting. Assumes 2
meetings at 2 days per meeting with
9 agency staff attending.
3 Develop a post-delisting
monitoring plan.
1.8 TBD ES, LMAO, CO,
CI, RSCH
TBD
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
0
1 Develop a prioritized list
of wintering and
breeding sites where
natural coastal processes
need protection and/or
enhancement.
2.1.1 2 yrs ES, LMAO,
CO, CI, RSCH
59.65 59.65 Assumes time to evaluate sites and
development of the prioritized list.
1 Identify and implement
mechanisms to protect,
enhance or restore
natural coastal processes.
2.1.2 continual ES, LMAO,
CO, CI, RSCH
TBD Incorporate into ongoing
management in action 3. Costs will
depend on mechanisms identified
and carried out.
1 Develop and implement
prioritized removal and
control for introduced
beachgrass and other
non-native vegetation.
2.2.1.1 continual CE, LMAO, CO,
CI
TBD App C identifies 86 sites. Costs
range for mechanical, manual and/or
chemical control: $1,000 to
$87,000/hectare ($400 to $35,000
per acre).
2 Replace exotic dune
plants with native dune
vegetation where it is
likely to improve habitat.
2.2.1.2 continual CE, LMAO, CO,
CI
TBD Estimated cost of planting native
vegetation: $30,000 per hectare
($12,000 per acre). Number of sites
to be determined.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
1
3 Evaluate breeding and
wintering sites to
determine whether
dredged materials may be
used to enhance or create
nesting habitat.
2.2.2.1 2 yrs CE, ES, LMAO,
CO, CI
110 55 55 Assumes cost to evaluate each site.
3 Develop and implement
plans to use dredged
materials may be used to
enhance or create nesting
habitat.
2.2.2.2 ongoing CE, ES, LMAO,
CO, CI
TBD Costs will depend on completion of
acts on 2.2.2.1.
3 Identify sites where
beach nourishment may
be effective in creating
and enhancing habitat.
2.2.3.1 2yrs CE, ES, LMAO,
CO, CI
110 55 55 Assumes cost to evaluate each site.
3 Develop and implement
beach nourishment plans
for site identified in
action 2.2.3.1.
2.2.3.2 ongoing CE, ES, LMAO,
CO, CI
TBD Cost dependent on number of sites
identified in 2.2.3.1 and outcome of
4.1.1.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
2
1 Create, manage, and
enhance coastal ponds
and playas for breeding
habitat.
2.2.4 ongoing ES, RW, CE,
CDFG, NASA,
HARD, LMAO
TBD App C identifies 15 sites. Costs
dependent on type and area of
restoration.
1 Seasonally close areas
used by breeding snowy
plovers.
2.3.1.1.1 annual LMAO, CO,
CON, CI
559.2 13.98 13.98 13.98 13.98 13.98 App C identifies 81 sites. Assumes
cost to close these sites.
1 Fence areas used by
breeding snowy plovers
2.3.1.1.2 annual LMAO, CO,
CON, CI
14,840 371 371 371 371 371 App C identifies 64 sites. Cost
assumes 1 kilometer fencing
required per site at a cost of $5,900
per kilometer.
1 Post signs in areas used
by breeding snowy
plovers
2.3.1.1.3 annual LMAO, CO,
CON, CI
202 5 5 5 5 5 App C identifies 65 sites. Cost
dependent on number of signs
needed at each site, but assumes cost
for installation and a minimum of 4
signs at $20 per sign.
1 Evaluate effects of
existing and planned
access at all breeding and
wintering locations and
any new locations
identified.
2.3.1.2.1 1 year LMAO, CO, CI 455 455 Appendix C identifies 81 sites.
Assumes cost to conduct use survey
for the identified sites.
1 Develop and implement
plans to minimize
adverse access effects.
2.3.1.2.2 continual LMAO, CO, CI TBD Costs depend on outcome of
2.3.1.2.1.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
3
3 Implement and enforce
pet restrictions.
2.3.2 continual LMAO, CO, CI 39,406 985 985 985 985 985 Appendix C identifies 120 sites
Assumes staff time to implement
and enforce restrictions at the
identified sites.
1 Annually review
recreational activities and
develop and implement
plans to prevent
disturbance from
disruptive recreational
activities at breeding and
wintering sites
2.3.3 annual LMAO, CO, CI 21,948 549 549 549 549 549 Assumes staff cost to develop and
implement plans at each site
annually.
3 Prevent driftwood
removal through posting
of signs
2.3.4 continual LMAO, CO, CI 1,805 50 45 45 45 45 Appendix C identifies 26 sites. Cost
dependent on number of signs
needed at each site, but assumes cost
for installation and a minimum of 4
signs at $20 per sign.
1 Prevent disturbance,
mortality, and habitat
degradation by
prohibiting or restricting
off-road vehicles and
beach-raking machines.
2.3.5 continual LMAO, CO, CI 18,760 469 469 469 469 469 Appendix C identifies 101 sites.
Assumes staff time for monitoring
on weekends.
3 Implement restrictions on
horseback riding through
annual coordination.
2.3.6 annual LMAO, CO, CI 1,033.7 25.8 25.8 25.8 25.8 25.8 Appendix C identifies 72 sites.
Assumes staff time to implement
restrictions.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
4
3 Implement and enforce
restrictions on livestock
through annual
coordination.
2.3.7 annual LMAO, CO, CI 255 6.3 6.3 6.3 6.3 6.3 Appendix C identifies 18 sites.
Assumes staff time to implement
restrictions.
1 Determine enforcement
needs and provide
sufficient wardens,
agents or officers to
enforce protective
measures in breeding and
wintering habitat.
2.3.8.1 continual LE, LMAO,
CO, CI
TBD Cost will depend on identified
enforcement needs.
3 Develop and implement
training programs for
enforcement personnel to
improve enforcement of
regulations and minimize
effects of enforcement.
2.3.8.2 continual LE, LMAO, CO,
CI
320 8 8 8 8 8 Annual training cost estimate $8,000
per year.
2 Develop and implement a
program to annually
coordinate with local
airports, aircraft
operations regarding
minimum altitude
requirementss.
2.3.9 annual LMAO, CO,
CI, FAA, LE
339.8 8.5 8.5 8.5 8.5 8.5 Assumes staff costs per recovery
unit to compile list and notify
aircraft operations and facilities.
3 Implement and enforce
anti-littering regulations.
2.4.1.1 annual LMAO, CO, CI TBD Incorporate into ongoing
management and Action 3.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
5
3 Evaluate the effects of
current litter and garbage
management on
predation at breeding and
wintering sites.
2.4.1.2 2 yrs LMAO, CO, CI 110 55 55 Assumes evaluation time per site.
3 Develop and implement
garbage and litter
management plans where
litter and garbage
contribute to predation.
2.4.1.3 continual LMAO, CO, CI TBD Costs will depend on 2.4.1.2 and
plans developed.
3 Annually identify and
remove predator perches
and unnatural habitats
attractive to predators.
2.4.2 continual LMAO, CO, CI 375.2 9.4 9.4 9.4 9.4 9.4 Assumes staff time to complete
action each year.
1 Erect predator exclosures
to reduce egg predation
and improve
productivity.
2.4.3 annual LMAO, CO, CI 18,266 456 456 456 456 456 App C identifies 53 sites. Assumes
cost per unit installation.
1 Evaluate the need for
predator removal and
implement where
warranted and feasible.
2.4.4 as
needed
LMAO, CO, CI,
WS, CDFG
TBD App C identifies 61 sites for
additional predator control. Costs
dependent on assessment of needs
and feasability.
3 Remove bird and
mammal carcasses in
nesting areas.
2.4.5 as
needed
LMAO, CO, CI TBD
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
6
1 U.S. Fish and Wildlife
Service biologists should
participate in Area
Committees responsible
for maintaining the Area
Contingency Plans for
the Pacific Coast to
facilitate the updating of
spill response plans to
include protection of
western snowy plovers.
2.5.1 annual ES 5,154 128.9 128.9 128.9 128.9 128.9 Assumes staff time from the six ES
office responsible for coastlines of
CA, OR, and WA.
1 Assign monitors to
beaches that are
inhabited by western
snowy plovers to protect
western snowy plovers
from injury during spill
responses.
2.5.2 as
needed
ES, USCG,
LMAO, CO, CI
1,984 49.6 49.6 49.6 49.6 49.6 Assumes cost of two weeks of
monitoring for five incidents per
year.
2 Compensate the loss of
plover breeding and
wintering habitat
associated with recovery
efforts for other sensitive
species.
2.6 ongoing ES, RW,
CE, LMAO
TBD Costs dependent on effectiveness of
minimizing habitat loss.
3 Investigate feasibility and
methods for discouraging
pinniped use of nesting
areas.
2.7.1 5 yrs ES, NMFS,
NAVY, LMAO
320 64 64 64 64 64 Assumes staff time to investigate.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
7
3 Identify areas where
pinniped use is
negatively affecting
nesting and implement
any appropriate methods.
2.7.2 TBD ES, NMFS,
NAVY, LMAO
TBD Costs dependent on number of sites
identified and methods determined
in 2.7.1.
1 Establish and maintain
snowy plover working
groups for each of the six
recovery units.
3.1 continual ES, LMAO,
CO, C I, P
3,650 96 96 91 91 91 Essential mechanism to advance
plover recovery. Includes biannual
meeting costs and staff costs to
establish new working groups.
2 Develop and implement
regional participation
plans for each of the six
recovery units.
3.2 1 yr for
develop-
ment,
continual
thereafter
ES, LMAO 193 193 Assumes staff cost to develop and
implement participation plans.
3 Develop and implement
management plans for
Federal lands.
3.3.1 ongoing RW, ARMY,
BLM, CE,
NASA, NAVY,
NPS, USAF,
USMC, USFS
TBD Implementation cost dependent on
content of plans developed.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
8
3 Develop and implement
management plans and
Habitat Conservation
Plans on State wildlife
areas, State ecological
reserves, and State
beaches.
3.3.2 5 years CDFG, CDPR,
ODFW, OPRD,
WDFW, WDNR,
WSPRC
966 193 193 193 193 193 Assumes cost for each recovery unit
to assist in development.
Implementation cost to be
determined.
3 Develop and implement
Habitat Conservation
Plans or other
management plans for
sites owned by local
governments or private
landowners.
3.4 5 years ES, LMAO, CO,
CI, P, EBRPD,
HARD, MPOSD,
MPRPD, PGH,
PO, SL, TNC,
SDRPJPA
966 193 193 193 193 193 Assumes cost for each recovery unit
to assist in development.
Implementation cost to be
determined.
2 Provide technical
assistance to local
governments in
developing and
implementing local land
use protection measures
through periodic
workshops.
3.5 10 years ES, CCC, CDFG,
CDPR, CON,
ODFW, ODLCD,
OPRD, WDNR,
WDFW, WSPRC,
CO, CI
TBD Estimated at 2 workshops per
recovery unit at a cost of $
(Patty Carol in RO)
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
22
9
3 Develop and implement
cooperative programs
and partnerships with the
California State Coastal
Commission, the Oregon
Department of Land
Conservation and
Development, the
Washington State Parks
and Recreation
Commission, the Oregon
Parks and Recreation
Department, the
California Department of
Parks and Recreation,
and the Oregon
Department of Fish and
Wildlife.
3.6 continual ES, CCC,
ODLCD, ODFW,
OPRD, CDPR,
WSPRC
TBD Costs may vary from year to year
based on identified program needs.
3 Obtain long-term
agreements with private
landowners.
3.7 12 years ES, CDFG, P
CDPR, ODFW,
WDFW, WSPRC,
LMAO
2,319 193 193 193 193 193 Assumes staff time to facilitate 6
agreements per year per recovery
unit. Appendix C identifies 72 sites.
3 Identify and protect
habitat available for
acquisition.
3.8 ongoing CON, ES, RW,
LMAO
TBD
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
0
3 Ensure that any section
10(a)(1)(B) and section
7(a)(2) permits contribute
to Pacific coast western
snowy plover
conservation.
3.9 ongoing ES,
Federal agencies
1,288 32`32 32 32 32 32 Assumes staff time for annual
evaluation.
3 Ensure that section 7
consultations contribute
to Pacific coast western
snowy plover
conservation.
3.10 ongoing ES,
Federal agencies
1,288 32`32 32 32 32 32 Assumes staff time for annual
evaluation.
2 Evaluate effectiveness of
habitat restoration by
removal of introduced
beachgrass and identify
additional studies
necessary.
4.1.1 continual CON, ES,
LMAO, RSCH
TBD Depends on the number and location
of sites as well as the temporal
duration of the restoration project.
3 Evaluate the impacts and
potential benefits of past
and ongoing beach
nourishment activities
and identify and carry
out any additional studies
necessary.
4.1.2 ongoing ES, LMAO,
RSCH, CE, CI,
CO
TBD
2 Develop higher-
efficiency nest
enclosures.
4.2.1 ongoing ES, LMAO,
RSCH
20 10 5 3 2 0 Compare new exclosures with
current ones to determine effects on
snowy plovers.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
1
2 Develop California least
tern enclosures that
prevent harm to snowy
plovers.
4.2.2 as
needed
ES, USMC,
CDFG, CDPR,
LMAO, RSCH
TBD Costs specific to sites with
California least tern enclosures.
Estimated cost for materials
(fencing/posts): $7 per linear foot
($23 per meter).
3 Identify, prioritize and
carry out investigations
on control of predators.
4.2.3 as
needed
ES, RW,
LMAO, WS,
CDFG, RSCH,
CO, CI, P
TBD Cost dependent on number and
types of studies identified.
3 Investigate predator
management at the
landscape level.
4.2.4 as
needed
ES, RW, LMAO,
WS, RSCH, CO,
CI, P
TBD Costs dependent on number and
types of studies identified.
3 Investigate techniques for
identifying nest
predators.
4.2.5 continual LMAO, RSCH TBD
2 Improve methods of
monitoring population
size.
4.3.1 ongoing ES, LMAO,
RSCH
TBD Dependent on costs of intensive
monitoring of some sites.
2 Develop sampling
methods for annually
estimating reproductive
success.
4.3.2 2 years ES, RSCH 64 64 Assumes time to compile and review
data and develop methodology.
3 Develop methods to
monitor plover survival
rates.
4.3.3 ongoing ES, LMAO,
RSCH
TBD
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
2
3 Identify brood habitat
and map brood home
ranges.
4.4.1 ongoing
continual
ES, LMAO,
RSCH, CO, CI, P
TBD Costs dependent on study design.
May include radio telemetry.
3 Identify components of
high-quality brood
rearing habitat
4.4.2 1 year ES, LMAO,
RSCH, CO, CI, P
131 131 Assumes study at 6 geographically
representative sites for duration of
breeding season.
3 Quantify wintering
habitat needs along the
Pacific coast.
4.4.3 5 years ES, RSCH, BRD,
PRBO
75 75 Assumes study at 6 geographically
representative sites during winter
months.
3 Identify important
migration stop-over
habitat.
4.4.4 ongoing ES, LMAO TBD
3 Develop and implement a
research program to
determine causes of adult
mortality.
4.5 ongoing LMAO, RSCH TBD Costs dependent on study design.
3 Compile information
regarding number and
types of banding injuries
to plovers.
4.6.1 1 year ES, RSCH,
PRBO, BRD,
BBL
32 32 Assumes staff time to develop,
distribute and compile information
requests.
3 Review compiled
information (see 4.6.1)
and determine and
implement an appropriate
course of action.
4.6.2 1 year ES, RSCH,
PRBO, BRD,
BBL
32 Assumes staff time to review
compiled information, distribution
and coordination with other
responsible parties.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
3
3 Identify effects of oil
spills on snowy plovers.
4.7 as
needed
ES, RSCH,
BRD, LMAO
TBD Typical range of cost for study is
estimated between $25,000 -
$100,000.
3 Monitor levels of
environmental
contaminants in snowy
plovers.
4.8 as
needed
ES, RSCH,
BRD, LMAO
TBD Depends on number and type of
samples. Cost estimate $700 per
sample, but may vary depending on
type of contaminant.
3 Design and conduct
contaminants studies if
monitoring of
contaminants in action
4.8 indicates potential
contaminants effects.
4.9 as
needed
LMAO, ES,
RSCH, BRD
TBD Depends on number of sites and
samples analyzed. Cost estimates for
studies range from $25,000 to
$50,000 per site.
3 Identify, prioritize and
carry out studies on the
effects of human
recreation on western
snowy plovers.
4.10 ongoing LMAO, ES,
RSCH, PRBO,
BRD
TBD Costs dependent on research needs
identified.
3 Revise the population
viability analysis when
sufficient additional
information is available
4.11 1 year ES, RSCH,
PRBO, BRD
25 Assumes cost to conduct modeling.
2 Develop and implement
public information and
education programs.
5.1 ongoing ES, PA,
LMAO
TBD TBD TBD TBD TBD TBD Depends on individual recovery unit
strategies. See Appendix K
(Information & Education Plan) for
estimates of component expenses.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
4
3 Inform Federal, State and
local planning agencies
and local planning
departments of threats to
breeding and wintering
snowy plovers and their
habitats.
5.2 continual ES, LMAO,
CCC, CDFG,
CDPR, ODFW,
ODLCD, OPRD,
WDFW, WDNR,
WSPRC, CO/CI
TBD
3 Develop and maintain
updated information and
education materials on
snowy plovers.
5.3 ongoing ES, PA, LMAO,
CO, CI
TBD Incorporate into ongoing
management and Action 3.1 through
3.10. See Appendix K
3 Alert landowners and
beach-goers about access
restrictions within snowy
plover habitats.
5.4 ongoing ES,
PA,
LMAO,
CO, CI
TBD Incorporate into ongoing
management and Action 3.1 through
3.10. See Appendix K
3 Provide trained personnel
to facilitate protective
measures, provide public
education, and respond to
emergency situations.
5.5 continual LMAO, CO, CI TBD Need to secure funds for volunteer
coordinator and staff to train
volunteers. Incorporate into Action
3.1 through 3.10. See Appendix K.
3 Develop protocols for
handling sick, displaced,
injured, oiled, and dead
birds or salvaged eggs.
5.6 1 with
periodic
review
LMAO,
CO, CI
32.2 32.2 Assumes staff time to develop
protocol.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
5
3 Establish a distribution
system and repository for
information and
education materials.
5.7 continual ES, LMAO,
CO, CI
TBD Incorporate into ongoing
management and Action 3.1 through
3.10 and 7. See Appendix K.
3 Establish a reporting and
distribution system for
annual monitoring data.
5.8 annual ES 644 16 16 16 16 16 Assumes time spent collecting and
compiling data.
2 Develop and implement a
tracking process for the
completion of recovery
actions and the
achievement of delisting
criteria.
6.1 continual ES, RW, ARMY,
BLM, CE,
NASA, NAVY,
NPS, USAF,
USFS, USMC,
CDFG, CDPR,
ODFW, OPRD,
WDFW, WDNR,
WSPRC, LMAO
688 64 16 16 16 16 Assumes staff time to develop and
implement tracking process.
3 Review progress toward
recovery annually.
6.2 annual ES, LMAO 566 14 14 14 14 14 Assumes staff time to compile and
review data.
3 Assess the applicability,
value and success of this
plan to the recovery of
the western snowy plover
every 5 years.
6.3 every 5
years
258 32.2 Assumes staff time to review every
5 years.
3 Prepare a delisting
package for the Pacific
coast population of the
western snowy plover.
6.4 6 months ES 64 64 Assumes staff time to prepare
delisting package.
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
6
3 Prepare and implement a
post-delisting monitoring
plan.
6.5 6 months ES 64 64 Assumes staff time to prepare and
implement post-delisting monitoring
plan.
1 Dedicate sufficient U.S.
Fish and Wildlife Service
staff for coordination of
western snowy plover
recovery implementation.
7 continual ES 5,152 128.8 128.8 128.8 128.8 128.8 Assumes staff time to coordinate
recovery implementation
3 Develop a joint United
States and Mexico effort
to protect snowy plover
populations and their
habitat.
8.1 continual ES, IA TBD
3 Encourage research and
monitoring of breeding
and wintering snowy
plovers in Baja
California, Mexico by
universities and
authorities of Mexico.
8.2 continual ES, IA, RSCH,
BRD
TBD
3 Encourage development
and implementation of
public information and
conservation education in
Mexico.
8.3 continual ES, IA, PA TBD
Cost Estimate (in $1,000 units)
Priority
No.
Action
Description
Action
Number
Action
Duration
Responsible
Parties
Total
Costs FY1 FY2 FY3 FY4 FY5 Comments/Notes
23
7
3 Coordinate with other
survey, assessment, and
recovery efforts for the
western snowy plover
throughout North
America.
9 continual ES, IA, RSCH,
BRD
TBD
Total Cost of Recovery through 2046: $149,946,000 plus additional costs that cannot be estimated at this time.
238
239
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DUNE HABITAT RESTORATION PLAN
FOR
THE CITY OF NEWPORT BEACH
ORANGE COUNTY, CALIFORNIA
Prepared for: The City of Newport Beach Contact: Chelsea Crager 100 Civic Center Drive, Bay E,
Newport Beach, California 92660 Telephone: (949) 644-3227
Prepared by: Glenn Lukos Associates, Inc. Contact: Tony Bomkamp 1940 E. Deere Avenue, Suite 250 Santa Ana, California 92705 Telephone: (949) 837-0404
June 2022
Dune Habitat Restoration Plan
DRAFT
i
TABLE OF CONTENTS
I. EXECUTIVE SUMMARY .................................................................................................. 1
II. PROJECT DESCRIPTION ................................................................................................. 2
A. Responsible Parties .......................................................................................................... 2
B. Project Location ............................................................................................................... 2
C. Development to be Removed ........................................................................................... 2
D. Proposed Removal and Restoration ................................................................................. 3
III. PROJECT IMPLEMENTATION ....................................................................................... 3
A. Responsible Parties .......................................................................................................... 3
B. Project Goals .................................................................................................................... 3
C. Schedule of Work ............................................................................................................. 4
D. Breeding and Nesting Birds ............................................................................................. 5
E. Biological Monitoring ...................................................................................................... 6
F. Contractor Education ........................................................................................................ 6
IV. WORK PLAN FOR REMOVALS [PHASE 1] .................................................................. 7
A. Survey/Staking ................................................................................................................. 7
B. Removal of Concrete Walkway ....................................................................................... 7
C. Best Management Practices and Impact Minimization Measures .................................... 7
D. Waste Disposal ................................................................................................................. 8
V. WORK PLAN DURING DUNE RESTORATION [PHASE 2] ....................................... 8
A. Non-Native Species Removal .......................................................................................... 8
B. Native Plants and Seed ..................................................................................................... 8
C. As-Built Report ............................................................................................................. 11
VI. MAINTENANCE ................................................................................................................ 11
A. Responsible Parties ........................................................................................................ 11
B. Weed Abatement ............................................................................................................ 11
C. Irrigation ......................................................................................................................... 11
D. Trash Removal ............................................................................................................... 11
E. Supplemental Seeding .................................................................................................... 11
Dune Habitat Restoration Plan
DRAFT
ii
F. Maintenance Schedule .................................................................................................... 12
VII. MONITORING PLAN ....................................................................................................... 13
A. Success Criteria and Performance Standards ................................................................. 13
B. Monitoring Methods ....................................................................................................... 14
C. Monitoring Schedule ...................................................................................................... 15
D. Annual Monitoring Reports ........................................................................................... 15
TABLES
1. Implementation Schedule................................................................................................... 5
2. Southern Foredune Scrub Container Stock ........................................................................ 9
3. Southern Foredune Scrub Seed Mix ................................................................................ 10
4. Maintenance Schedule ..................................................................................................... 12
EXHIBITS
1. Regional Map
2. Vicinity Map
3A. Existing Vegetation Map
3B. Existing Vegetation with Non-Native Points Map
4. Removal Map
5. Conceptual Planting Plan
6A. Peninsula Point Encroachment Removal and Replacement Plan (F Street)
6B. Peninsula Point Encroachment Removal and Replacement Plan (G Street)
Dune Habitat Restoration Plan
June 15, 2022 1
THE CITY OF NEWPORT BEACH
DUNE HABITAT RESTORATION PLAN
ORANGE COUNTY, CALIFORNIA
I. EXECUTIVE SUMMARY
This proposed Dune Habitat Restoration Plan (“Restoration Plan”) addresses the removal of non-native vegetation, a concrete walkway, and manmade structures on the beach including logs, bricks, poles, and other structures associated with multiple volleyball courts. The Restoration Plan also addresses southern foredune scrubrestoration on an area within the eastern portion of the
Balboa Peninsula that is within U.S. Fish and Wildlife Service (USFWS) designated Critical Habitat1 for the federally listed threatened western snowy plover (Charadrius alexandrinus
nivosus) (“WSP”) as well as areas to the east of Critical Habitat Unit. The Plan serves as a component of the Western Snowy Plover Management Plan for East Balboa Peninsula Beaches (“Management Plan”)2 prepared for the City of Newport Beach (City), Orange County, California
[Exhibits 1 and 2 – Regional and Vicinity Maps] by Glenn Lukos Associates, Inc. (GLA). The Plan was prepared as requested in a July 27, 2021 Letter from the California Coastal Commission regarding the Management Plan previously submitted to the Coastal Commission for review. The Restoration Plan identifies areas within Critical Habitat Unit 48 where non-native species,
including invasive fig marigold (Carpobrotus edulis) herein referred to as iceplant, will be removed and re-planted with native dune vegetation as shown on Exhibits 1-5. Additional areas subject to proposed restoration include the area occupied by a concrete walkway, that extends from E Street toward the water, multiple volleyball courts, and areas adjacent to Critical Habitat Unit 48 where non-native species exist. Collectively, the areas within Critical Habitat Unit 48 that
consist of removal areas and areas of native dune vegetation reestablishment as well as those adjacent to Critical Habitat Unit 48 are referred to as the “Study Area” which measures approximately 25.73 acres, as depicted on Exhibits 1-5. The Restoration Plan actions described herein provide a work plan and strategy to implement the
removal of the concrete walkway, volleyball courts, and replacement of non-native plants with
native southern foredune scrub vegetation using a phased approach. To avoid leaving areas currently vegetated with invasive species completely devoid of ground cover and unstable during the process, non-native species removal will be performed in stages over a two-year period, while introducing appropriate native vegetation in non-native species removal areas. This Plan also
proposes five years of maintenance and monitoring following the removal of the concrete walkway
and non-native plants. The five-year maintenance and monitoring period is inclusive of the two-year phased non-native species removal and replacement with southern foredune scrub vegetation.
The purpose of this Plan is to remove non-native invasive vegetation and to restore the existing dune habitat by the reestablishment of native southern foredune scrub.
1 U.S. Fish and Wildlife Service. 2012. “Endangered and Threatened Wildlife and Plants; Revised Designation of Critical Habitat for the Pacific Coast Population of the Western Snowy Plover; Final Rule.” Federal Register Volume 77 Number 118; 50 CFR Part 17. June 2012
2 GLA, 2022. Western Snowy Plover Management Plan for East Balboa Peninsula Beaches, Newport Beach, California
Dune Habitat Restoration Plan
June 15, 2022 2
II. PROJECT DESCRIPTION
A. Responsible Parties
Applicant: The City of Newport Beach
Contact: Chelsea Crager
100 Civic Center Drive Newport Beach, California 92660 Telephone: (949) 644-3227
B. Project Location and Description
This Plan addresses removal of non-native invasive vegetation and the establishment of native
vegetation on Balboa Peninsula, in the City of Newport Beach, Orange County, California
[Exhibits 1 and 2 – Regional and Vicinity Maps].
The Study Area includes open stretches of unvegetated sandy beach and areas of low southern
foredune scrub habitat that exhibits sparse vegetation. Within Critical Habitat Unit 48, vegetated dune habitat begins approximately 200 feet east of B Street (extended) and extends just east of the F Street pathway. The dune areas extend from near the concrete boardwalk toward the water, leaving an unvegetated strip of beach that ranges from approximately 175- to 250-feet wide between the
edge of the dunes and the surf. The vegetated areas of dunes are separated by paths and walkways
that are intended to provide for directed or controlled beach access that limits potential impacts to the dunes. It is important to note that areas of non-native vegetation exist to the east of the Study Area that are
not being included in this Restoration Plan because they are part of the City of Newport Beach
Peninsula Point Encroachment Removal and Replacement Plan [Exhibits 6A and 6B]. Therefore, in an effort to avoid overlap with that plan, these areas have been excluded from this Restoration Plan. However, as noted above, other areas adjacent to the Critical Habitat Unit 48 that contain non-native species and are not covered under the above mentioned encroachment removal plan, are included as
part of this Restoration Plan.
Ornamental vegetation occurs in patches along the ocean side of the boardwalk and extends, in some places, up to 50 feet from the boardwalk into the Critical Habitat area. Native southern foredune scrub species that have been detected in the dune habitat within the Balboa
Beach Critical Habitat Unit 48 include, Coast Wooly Heads (Nemacaulis denudata var. denudata),
Beach Morning Glory (Calystegia soldanella), Pink Sand Verbena (Abronia umbellata), Beach Evening Primrose (Camissoniopsis cheiranthifolia), Beach Bur (Ambrosia chamissonis), and Coast Cryptantha (Cryptantha leiocarpa). Non-native species detected within the Critical Habitat area and within the Study Area include
crystalline ice plant (Mesembryanthemum crystallinum), European sea rocket (Cakile maritima),
iceplant (Carpobrotus edulis), and buttercup oxalis (Oxalis pes-caprae).
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June 15, 2022 3
C. Development to be Removed
Development that will be removed consists of a concrete walkway, constructed in 2014, that
extends southward from E Street as well as a volleyball court constructed near the boardwalk between C and D Streets and associated logs/poles that have been placed on the sand adjacent to the volleyball court. There are also poles south of the dune habitat that prior to 2022 were used to hang volleyball nets (see Exhibit 4).
Six street end entrances are located from A Street to G Street. In addition, C, D, E, and F Streets
each have an asphalt or concrete pathway that extend various lengths from the intersection of the street entrance and boardwalk, toward the ocean within the designated Critical Habitat. It is important to note that, except for the concrete path that extends from E Street, each of the concrete walkways pre-date the Coastal Act and do not need authorization from the Coastal Commission.
Consistent with the request of USFWS in their February 23, 2022 letter, The City has determined
that it will not seek after-the-fact authorization for the E Street walkway and this Plan includes removal of this feature and restoration of the area.
D. Proposed Removal and Restoration
The City proposes to conduct the necessary removals through a restoration program consisting of: 1. The removal of the concrete walkway and volleyball courts listed above;
2. Establishment of native southern foredune scrub vegetation in the Study Area which
includes portions of the areas where the concrete walkway is to be removed as well as other portions of the dunes as requested in the July 27, 2021, letter from the California Coastal Commission;
3. Implementation of a phased non-native vegetation removal program on existing dune
within the restoration area and establishment of appropriate native southern foredune scrub plant species where necessary;
4. Five years of maintenance and monitoring of the restoration area.
III. PROJECT IMPLEMENTATION
A. Responsible Parties
The City of Newport Beach will be responsible for the implementation of this Plan.
Project Biologist: Glenn Lukos Associates, Inc.
Contact: Sheri Asgari
1940 E. Deere Avenue, Suite 250
Santa Ana, California 92705 Telephone: (949) 340-3356
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June 15, 2022 4
B. Project Goals
This Plan outlines the following goals: 1. Remove the concrete walkway and volleyball courts as outlined above;
2. Establish a non-native vegetation removal program that replaces the invasive species with appropriate native southern foredune scrub vegetation; and 3. Conduct five years of maintenance and monitoring to ensure successful restoration of
native species in the restoration area.
C. Schedule of Work
Work is expected to occur in two phases:
• Phase 1: Concrete Walkway Removal (Fall 2022) or upon receipt of Coastal Development Permit.
• Phase 2: Non-native Species Removal and Dune Restoration, Maintenance, and
Monitoring (Fall 2022-Winter 2027) or as otherwise determined in coordination with Coastal Commission.
Phase 1 – Concrete Walkway and Volleyball Courts Removal The Initial Removal Phase is expected to begin following approval of this Plan by the CCC, in Fall 2022. Removal of the concrete walkway and volleyball courts must occur within 90 days of the permit date. Removal may be performed through a variety of methods, including (if
necessary) use of heavy equipment such as a loader/excavator and manual/mechanical removal.
Phase 2 – Non-Native Species Removal and Dune Restoration Non-native species and ornamental species occur on and adjacent to the existing dune area, as depicted on Exhibits 3A and 3B. The presence of iceplant functions as a natural sand stabilizer.
Therefore, if all iceplant were removed at once, the dune could become unstable. Native dune
plants would serve as a natural sand stabilizer once established within the restoration area, however, establishment takes time. Therefore, this Plan proposes phased removal of non-native species, without use of herbicides, within the existing vegetated dune area and associated phased replacement with native species.
Removal of non-native species biomass will be performed in two stages or rounds. Round 1 will entail removal of approximately half of the non-native species biomass in Fall 2022, followed by installation of native southern foredune scrub plants and seed. Round 2 will occur in Fall 2023 and will entail removal of the remaining non-native species. Each fall during the subsequent
maintenance period, a supplemental native seed mix may be applied to the Study Area (if deemed
necessary by the Project Biologist) to ensure establishment of native dune species.
Maintenance and monitoring are proposed through the end of the 2027 (to be adjusted as needed
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June 15, 2022 5
based on timing of CDP issuance), with an annual monitoring report to be submitted to the CCC at the end of each calendar year for a period of five years starting in 2023 (or as adjusted).
Table 1 below provides the recommended timeline of removals, native plant seeding and planting, maintenance, monitoring, and reporting for the proposed activities.
TABLE 1 IMPLEMENTATION SCHEDULE
Work Phase/Seasonal
Timeline
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PHASE 1 - Removals 2022 2023 2024 2025 2026 2027
Remove Concrete Walkway (E
Street) and Volleyball Courts
Round 1 Non-native Species Removal: Manual Removal
Install Container Plants and Seed (Hand-Broadcast)
PHASE 2 - Restoration
Implementation and
Monitoring
2022 2023 2024 2025 2026 2027
Round 2 Non-native Species Removal
Qualitative Monitoring (Monthly Yr 1 and Quarterly Yrs 2-5)
Maintenance (Monthly Yr 1 and Quarterly Yrs 2-5)
Quantitative Monitoring (Annually)
Annual Report
* Spring = March – May; Summer = June – August; Fall = September – November; Winter = December – February.
D. Breeding and Nesting Birds and Wintering WSP
Nesting season begins January 15 and extends through September 15 for most species. For WSP
nesting occurs from March 1 through September 30. Nesting occurs on coastal sandspits, dune-backed beaches, beaches at creek mouths and lagoons, and salt pans at lagoons and estuaries. The non-breeding season is also termed the “wintering” period. This period occurs from September through February. Overwintering habitat is very important for WSP and other migratory shorebirds. The habitat provides connectivity for dispersal between nesting sites and provides resources that allow birds to build fat
reserves necessary for spring migration and the upcoming nesting season. WSP exhibit strong fidelity to overwintering sites, often returning to the same beaches every year after nesting elsewhere.
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June 15, 2022 6
While construction under this plan is currently anticipated to occur in the fall, outside of breeding and nesting season, potential for disturbance to overwintering WSPs is high. Therefore, for any construction and/or removal activities (with potential noise impacts) as defined in this plan, a
qualified biologist (“Project Biologist”) will conduct surveys in order to assess bird behavior, document the presence of nesting birds, and to evaluate ambient and project noise levels. All project operations will be carried out consistent with the following:
1. The Project Biologist will conduct surveys 15 calendar days prior to project activities,
including any demolition and/or removal (with potential noise impacts) to detect any breeding behavior or active bird nests in all accessible trees within 500 feet of the project and to document ambient and project noise levels. A follow-up survey will be conducted three (3) calendar days prior to the initiation of project activities and nest surveys must
continue monthly, throughout the nesting season or until the project is completed,
whichever comes first.
2. If an active nest(s) of any shore bird or wading bird is found within 300 feet of the project or bird nesting or courtship behavior is observed within the project site, the Project Biologist will monitor bird behavior and construction noise levels. If an active nest is located in any of the trees required to be removed, then removal activities for that tree will be halted until after nesting season is complete and the Project Biologist has
confirmed that there is no longer any active nesting activity in the subject tree. The nest(s) and nesting bird(s) shall not be removed or disturbed.
3. The Project Biologist will be present at all relevant construction meetings and during all significant construction activities (those with potential noise impacts) to ensure that nesting birds are not disturbed by construction related noise. Construction activities may occur only if construction noise levels are at or below the demonstrated ambient noise levels or a peak of 65 dB at the nest site(s). If construction noise exceeds the ambient noise levels or
a peak level of 65 dB at the nest site(s), sound mitigation measures such as sound shields, blankets around smaller equipment, mixing concrete batches off-site, use of mufflers, and minimizing the use of back-up alarms will need to be employed. If an active nest of a federally or state-listed threatened or endangered species, bird species of special concern, or designated migratory bird under the federal Migratory Bird Treaty Act, is found within
300 feet of the project, or an active nest for any species of raptor is found within 500 feet of the project, the permittee shall notify the appropriate state and/or federal wildlife agencies within 24 hours, and appropriate action specific to each incident will be developed. The permittee will notify the California Coastal Commission by e-mail within 24 hours and consult with the Commission regarding determinations of state and federal
wildlife agencies. 4. The City must cease work if informed by the Project Biologist that proceeding with any development authorized by this permit would adversely affect breeding, nesting, or overwintering birds, and will consult with the appropriate federal and/or state wildlife
agencies as well as the Commission Executive Director on appropriate steps to protect breeding or nesting birds. The City will immediately notify the Commission Executive Director if activities outside of the scope of the subject Commission-approved project
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June 15, 2022 7
occur. If the Commission Executive Director determines that significant impacts or damage to sensitive habitats or to wildlife species has occurred, the permittee shall submit an application to the Commission to amend this permit to include appropriate mitigation
and/or restoration measures.
E. Biological Monitoring
A qualified restoration ecologist, referred to herein as Project Biologist, will supervise the
implementation and maintenance of the Project and perform the proposed five-year monitoring of the restored areas. The Project Biologist will be on-site to monitor the dune establishment and monitor the phased removal of invasive groundcovers and replacement with native coastal foredune vegetation. The
Project Biologist will also perform ongoing training with landscape personnel during the period of removals and provide direction and monitoring during the native plant establishment and maintenance period.
F. Contractor Education
Contracting for the Project comprises two categories. The first category consists of removal of the concrete walkway that may need to be performed by a commercial contractor. For this Plan, this contractor will be referenced as the “Removal Contractor”. Prior to the commencement of Project related activities in areas near the restoration area, the Project Biologist will review all aspects of
the concrete walkway removal in that area and Dune Habitat Restoration Plan with the Removal
Contractor. The second category, consisting of invasive plant treatment/removal and replacement with native southern foredune scrub vegetation will require specialized knowledge in native habitat restoration.
This work shall be performed by a qualified landscape contractor with a minimum of five years of
experience in coastal habitat restoration projects. For this Plan, this contractor will be referenced as the “Restoration Contractor”. The Restoration Contractor will be required to demonstrate experience in this field to the Project Biologist prior to contracting with the City. The Restoration Contractor shall possess C27 and Pest Control Advisor (PCA) licenses for herbicide treatment of
the invasive non-native species in the restoration area. All contractors must strictly adhere to the
Best Management Practices and Impact Minimization Measures outlined in Section IV.C. of this Plan.
IV. WORK PLAN FOR REMOVALS [PHASE 1]
A. Survey/Staking
The City of Newport Beach, in coordination with the Project Biologist will flag the limits of the concrete walkway removal areas near the restoration area prior to start of work by the Removal
Contractor to clearly delineate property boundaries, limits of removals and access path for
equipment to minimize any driving on the beach and to avoid the existing dune to the maximum extent feasible and full avoidance of native dune vegetation.
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Final staging and access will be determined prior to commencement of work and be approved by the Project Biologist. The Project Biologist will flag limits of existing native plants to be avoided during the removal activities.
B. Removal of Concrete Walkway and Volleyball Court
The removal of the concrete walkway at E Street as well as the volleyball court between C and D streets is recommended to occur between the months of September and December and will occur
under supervision of the Project Biologist. Removal may be performed through a variety of physical removal methods but are anticipated to involve manual/mechanical removal. As noted above, because the walkway would be removed during the period when wintering WPS could occur in proximity to the walkway removal site, pre-construction surveys would be implemented to ensure that WSP winter roosting is not disturbed during demolition.
C. Best Management Practices and Impact Minimization Measures
All work will be performed in conformance with Best Management Practices (BMPs) outlined in this Plan and under the direction of the Project Biologist experienced in habitat restoration and
resource management in Southern California. BMPs set forth herein limit the introduction,
transport, and proliferation of invasive species on the beach and to ensure that all work is performed with the least incidental impact to native plants:
• Flagging, stakes, and/or rope shall be used to demarcate the boundary of the work areas
and the beach.
• Equipment access and staging areas shall be identified by The City and approved by the Project Biologist.
• Flagging of native species patches to be avoided shall be conducted by the Project Biologist prior to start of work.
• Contractors shall clean all equipment, tools, gear, and clothing prior to start of work
to avoid introduction of invasive species to work areas.
• Clear demarcation of access routes prior to start of work shall be conducted by The City and the Project Biologist.
D. Waste Disposal
All materials removed from the concrete walkway removal area and non-native species removal
areas shall be disposed of offsite at a landfill. Non-native plant material will be covered during transport.
V. WORK PLAN DURING DUNE RESTORATION [PHASE 2]
A. Non-Native Species Removal
As previously described, invasive iceplant is the primary non-native/invasive species occurring on the existing dune and adjacent areas within proposed restoration site. Other species in the area consist of crystalline ice plant, sea rocket, buttercup oxalis, as well as ornamental species. The
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June 15, 2022 9
invasive and ornamental species will be removed manually. Manual removal of non-native species biomass will be performed in two stages or rounds. Round 1 will entail removal of approximately half the biomass by hand in Fall 2022, followed by installation of native southern foredune scrub
plants and seed, as outlined below. Round 2 will occur in Fall 2023 and will entail removal of the remaining non-native biomass throughout the restoration area.
This Plan proposes that container plants be installed in areas where non-native species are being removed to stabilize the existing dune habitat. Plantings will be installed in a patchy distribution to mimic typical dune vegetation growth patterns.
B. Native Plants and Seed
Coastal dunes are characterized by low plant density and low species diversity, as few species can withstand the harsh conditions characteristic of this environment including wind, sand and salt spray, low soil nutrients, lack of soil moisture retention, high summer temperatures, and human disturbance. Typical southern foredune scrub plants are perennial, have gray or succulent leaves (or
both), have prostrate or creeping growth patterns, and often produce roots along their length, reproducing both vegetatively and through seed dispersal. Plants typically have a long flowering season. These characteristics enable plants to withstand the unstable sandy substrate, strong winds, poor water retention, and high summer surface temperatures. Common species include sticky sand
verbena (Abronia maritima), pink sand verbena (Abronia umbellata), yellow hairy sand verbena
(Abronia villosum aurita), sand bur (Ambrosia chamissonis), beach morning glory (Calystegia
soldanella), and beach evening primrose (Cammisoniopsis cheiranthifolia), saltgrass (Distichlis
spicata).
It is expected that over time the restored areas will begin to reestablish with southern foredune
scrub vegetation through natural recruitment following the removal of non-native species and
continued weed abatement within the existing and restored dunes. A slow transition from the invasive iceplant groundcover is proposed through removal of iceplant, and other non-native species, over a two-year period, while promoting the growth of native species such as yellow hairy sand verbena, beach evening primrose, beach morning glory, sand bur, and saltgrass.
To aid the revegetation by native species, a combination of native container stock and seed mix will be installed in areas of removal, including areas where the concrete walkway is being removed as well as areas of invasive species removal, conceptually depicted on Exhibit 5. Container stock will be planted heavily within planting clusters to promote quicker infill, with areas of sandy beach in between planting clusters. Table 2 below provides a list of container stock to be planted in the
restoration area in the fall months following removals.
TABLE 2
SOUTHERN FOREDUNE SCRUB CONTAINER STOCK
(1.71 Acres)
Species Common Name Stock Type Plants/Acre Total
Abronia villosum aurita Yellow hairy sand verbena 1-gallon/Liner 16 49
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Ambrosia chamissonis Sand bur 1-gallon/Liner 39 99
Cammisoniopsis cheiranthifolia Beach evening primrose 1-gallon/Liner 39 99
Distichlis spicata Saltgrass 1-gallon/Liner 79 184
Total Container Stock 431
Source of Plant Materials
It is preferred that the source of all propagules and seed used at the mitigation site be from coastal Orange County. If not available, the remainder of propagules and seed required may be considered from coastal San Diego and/or Los Angeles counties and collected as close to the restoration site as possible to preserve regional genetic integrity.
Contract Growing
Contract growing of all container plants shall be by a local experienced native plant nursery. Substitution of plant material at the time of planting depends upon the discretion of the Project Biologist. Any substitutions that are approved will be documented in the annual monitoring reports to The City and CCC.
Container Stock One-gallon container stock, rose pots, and liners may be utilized for the restoration project, as available, with one-gallon size being the preferred container size. Plant materials will be inspected by the Project Biologist and approved as healthy, disease free, and of proper size prior to planting.
Overgrown, root-bound container stock will be rejected. Container stock will be laid out in such a
manner that mimics natural plant distribution (i.e., in clusters and islands) to emulate typical dune vegetation assemblages and existing plant communities in Newport Beach. Prior to container stock installation, the Project Biologist will flag plant locations in the field with pin-flags that will be color coded as to plant species. A list of species with their appropriate color code will be provided
to the Contractor prior to plant installation.
Table 3 below provides a list of species and application rate to be applied to the existing dune and restoration area. This seed mix may be applied multiple times during the five-year monitoring period, as directed by the Project Biologist.
TABLE 3
SOUTHERN FOREDUNE SCRUB SEED MIX
(3.84 Acrea)
Species Common Name Stock
Type
Lbs/
Acre
Total
(Lbs)
Distichlis spicata Saltgrass Seed 3 12
Ambrosia chamissonis Sand bur Seed 1 4
Cammisoniopsis cheiranthifolia Beach evening primrose Seed 2 8
Lupinus bicolor Dove lupine Seed 3 12
Total Seed 35
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Method and Timing of Seed Application
The seed mix will be broadcast by hand and will be scattered within the restoration area. To
maximize the germination of seed, broadcast will occur following a rain event of roughly 1-inch,
or more, in the months between September and February.
Irrigation Planting and seeding will be conducted during the late fall and winter months (between November and February) to take advantage of cooler temperatures and natural rain cycles to establish planted container stock and seed. However, in case of unseasonable warm winters or drought conditions, the Project Biologist may recommend supplemental irrigation to establish the native plant material.
This will be conducted using a hose to establish the native container plant material. Individuals
conducting irrigation should take care not to trample or drag hose through native plants or newly planted areas.
No permanent irrigation systems will be installed as a part of this plan.
Fencing
The primary purpose of this Plan is to establish native southern foredune scrub vegetation in disturbed areas where a concrete walkway and volleyball courts will be removed, adjacent to the existing dunes, and in areas where non-native invasive vegetation will be removed. Placement of perimeter symbolic (e.g. post and rope) fencing would deter the public from trampling native plants
being established, as well as slow down sand movement during the dune restoration process. The
fencing shall remain in place only as long as needed, as approved by the City and CCC.
Straw bundles (made from a weed-free straw material) may also be employed to slow sand
movement and provide sheltered planting locations.
C. As-Built Report
Within 90-days following the completion of installation of sand fencing and restoration area
planting, an as-built report will be submitted to the CCC, providing details of the removal activities and restoration implementation. The as-built report will provide dates of removal activities, weed abatement, site preparation, fencing installation, and plant/seed installation. Photographs of the restoration area will also be provided, along with a graphic depicting installed dimensions and
quantity of sand fencing segments.
VI. MAINTENANCE
A. Responsible Parties
The City will be responsible for carrying out the five-year maintenance program.
B. Weed Abatement
Restoration area maintenance will focus on the suppression of non-native species, while promoting
the growth and recruitment of native southern foredune scrub species. All follow-up non-native
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species control will consist of hand-pulling or use of manual tools to avoid impacts to newly establishing native species.
C. Irrigation
Irrigation shall be applied using a hose to water the planted container stock and seeded areas on an
as-needed basis during the maintenance period, under the direction of the Project Biologist.
D. Trash Removal
The Study Areas shall be well-maintained to deter vandalism and dumping of trash. Contractor shall, during routine quarterly maintenance, manually remove weeds and trash from the Study Areas and dispose of off- site as permitted by law.
E. Supplemental Seeding
Each year during the five years of maintenance and monitoring required under this Plan, the Project Biologist will assess the infill of native southern foredune scrub species and recommend supplemental seeding of the seed mix outlined in Table 3, if necessary.
F. Maintenance Schedule
The maintenance program will begin following initial removals in fall 2022 and will occur on a monthly basis for the first year and quarterly thereafter for the remainder of the five-year restoration project.
Table 4 below provides a recommended maintenance schedule.
TABLE 4 MAINTENANCE SCHEDULE
Season Maintenance Activity
Initial Removals and Container Plant Installation - 2022 Fall Remove iceplant and other non-native species by hand Winter Install container plants and seed
Maintenance Year 1 - 2023
Spring Remove weeds/trash; hand-water as necessary Summer Remove weeds/trash; hand-water as necessary Fall Remove weeds/trash; hand-water as necessary Winter Remove weeds/trash; hand-water as necessary
Maintenance Year 2 - 2024
Spring Remove weeds/trash; hand-water as necessary Summer Remove weeds/trash; hand-water as necessary Fall Remove weeds/trash; hand-water as necessary Winter Remove weeds/trash; hand-water as necessary
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Maintenance Year 3 - 2025
Spring Remove weeds/trash; hand-water as necessary Summer Remove weeds/trash; hand-water as necessary Fall Remove weeds/trash; hand-water as necessary Winter Remove weeds/trash; hand-water as necessary
Maintenance Year 4 - 2026
Spring Remove weeds and regrowth of other non-native plants/remove trash Summer Remove weeds and regrowth of other non-native plants/remove trash Fall Remove weeds and regrowth of other non-native plants/remove trash Winter Remove weeds/trash; hand-water as necessary
Maintenance Year 5 - 2027
Spring Remove weeds and regrowth of other non-native plants/remove trash Summer Remove weeds and regrowth of other non-native plants/remove trash Fall Remove weeds and regrowth of other non-native plants/remove trash Winter Remove weeds/trash; hand-water as necessary
VII. MONITORING PLAN
For the duration of the five-year monitoring period, elimination of the non-native/invasive species
and establishment of the plantings will be measured through a series of qualitative and quantitative measurements assessing native species cover, non-native species cover, survival of planted container stock, and unvegetated sandy beach. Monitoring will be performed by a qualified Biologist, and continuity within the personnel and methodology of monitoring shall be maintained insofar as possible to ensure comparable assessments.
Quantitative data will be collected annually using accepted vegetative sampling methods in order to evaluate survivorship and native plant percent cover. In the event that plantings should fail to meet the specified requirements, compliance will be ensured by the performance of either or both of the following remedial procedures by the contractor on an as-needed basis as directed by the
Project Monitor: (1) replacing unsuccessful plantings with appropriate-sized stock or seed mixes
to meet stated cover or survival requirements, and/or (2) performing maintenance procedures to ensure the site conditions are appropriate (e.g., non-native species removal).
A. Success Criteria and Performance Standards
The performance standards set forth in the Dune Habitat Restoration Plan for the five-year monitoring period are outlined as follows:
First-Year Monitoring Success Criteria:
• 15-percent absolute cover by native species
• At least 80-percent of the planted species represented in the restoration site
• No more than 15-percent coverage by non-native species
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Second-Year Monitoring Success Criteria:
• 20-percent absolute cover by native species
• At least 80-percent of the planted species represented in the restoration site
• No more than 15-percent coverage by non-native species
Third-Year Monitoring
Success Criteria:
• 25-percent absolute cover by native species
• At least 80-percent of the planted species represented in the restoration site
• No more than 10-percent coverage by non-native species
Fourth-Year Monitoring Success Criteria:
• 30-percent absolute cover by native species
• At least 80-percent of the planted species represented in the restoration site
• No more than 10-percent coverage by non-native species
Fifth-Year Monitoring
Success Criteria:
• 35-percent absolute cover by native species
• At least 80-percent of the planted species represented in the restoration site
• No more than 5-percent coverage by non-native species
B. Monitoring Methods
Qualitative Monitoring
The Project Biologist will conduct qualitative monitoring surveys on a monthly basis during the
first year and quarterly during the remainder of the five-year monitoring period. Qualitative surveys will consist of walking through the restoration area documenting general observations, such as regrowth of iceplant, natural recruitment of native southern foredune scrubspecies, establishment of planted container stock and seed, trash/debris, signs of disturbance/vandalism, and weed
invasions. Records will be kept of site conditions during each site visit. The Project Biologist will
determine adaptive management measures to be undertaken to ensure successful implementation of the Plan. All adaptive management measures undertaken will be referenced in annual monitoring reports submitted to the CCC.
Quantitative Monitoring
Quantitative sampling shall be conducted using one-meter quadrats placed throughout the restoration area. Placement of quadrats will be determined using random number tables to provide two coordinates, one that indicates the distance along a longitudinal centerline bisecting the site and one that determines the distance from the line. Plots will be placed on alternating sides of the centerline and perpendicular to the centerline. Vegetative cover will be visually estimated within
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the quadrat for each species present and recorded on a data sheet. Any species observed during the sampling that does not fall within a quadrat will be recorded and included on the list of species for the restoration site. At least 30 replicates will be initially sampled. Sample variance from data
collection in years one through three will be used to determine if 30 samples are adequate. If a power analysis indicates that more than 30 samples are required, additional transects or quadrats will be added. If power analysis indicates that fewer than 30 samples are required, the number of quadrats will be reduced. Sampling will be conducted with sufficient replication to detect a 10% difference in absolute ground cover between the mean of the restoration and the success standard
with 90% power at an alpha level of 0.10. The mean native cover for the restoration site will be compared to the performance criteria at the end of five years using an appropriate inferential test such as a single-sample t-test. The mean cover for the restoration site will be considered to meet the performance criteria if the resulting alpha level is greater than 0.10.
Photo-Documentation Fixed photo points shall be established prior to or during the first annual monitoring event to ensure that photo- documentation is consistent. During every monitoring event photographs shall be taken from the fixed photo points and in the same compass directions to document and compare the condition of the restoration site from year to year. Photographs shall reflect material addressed in
the annual monitoring reports.
C. Monitoring Schedule
The monitoring program will begin immediately following initial removals. Qualitative monitoring will occur monthly during the first year and quarterly for the remainder of the five-year monitoring period. Quantitative monitoring will be conducted annually in spring months, with
annual monitoring reports to be submitted to the CCC by the end of each year (December 31).
D. Annual Monitoring Reports
At the end of each of the five years of maintenance and monitoring, an annual report shall be prepared for submittal to the CCC. These reports will document the revegetation progress of the work areas and summarize maintenance activities that occurred during each respective year. At the end of the fifth monitoring year, upon satisfaction of all performance standards, the CCC will be
notified in writing that the monitoring period is complete. All annual monitoring reports shall
include the following:
• a list of names, titles, and companies of all persons who prepared the content of the annual report and participated in monitoring activities for that year;
• a vicinity map indicating location of all removal areas and the restoration site;
• an aerial photograph/drone imagery flown each year at the same time of year;
• a site plan identifying GPS points or polygons for significant natural recruitment of native foredune species, invasive non-native species removal areas, photo station locations, etc.;
• a description of the status native plant communities, and percent cover by non-native species in the Study area;
• an analysis of monitoring results; and
• copies of all monitoring photographs.
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The City will notify the CCC in writing when the five-year monitoring period is complete. The final report will provide an assessment of the removal areas and achievement of the fifth- year performance standards. If any portion of the performance standards have not been met, adaptive
management measures will be implemented to address any deficiency, and monitoring will continue until all success standards have been met.
Distribution Page of all Persons Receiving a Copy of the Dune Habitat Restoration Plan and
Annual Monitoring Reports
Amrita Spencer
California Coastal Commission
301 E. Ocean Blvd. Suite 300 Long Beach, California 90802
Chelsea Crager The City of Newport Beach 100 Civic Center Drive, Newport Beach, California 92660
Sandy Vissman U.S. Fish and Wildlife Service 2177 Salk Ave, Ste 250 Carlsbad, CA 92008