HomeMy WebLinkAbout13 - Little Corona Bioassay TestingCITY OF NEWPORT BEACH
CITY COUNCIL STAFF REPORT
Agenda Item No. 13
October 24, 2006
TO: HONORABLE MAYOR AND MEMBERS OF THE CITY COUNCIL
FROM: Public Works Department
Robert Stein, Principal Civil Engineer
949 -644 -3322 or rstein @city.newport- beach.ca.us
SUBJECT: LITTLE CORONA
PROFESSIONAL
SOLUTIONS
RECOMMENDATION:
BIOASSAY TESTING — AMENDMENT 1 TO
SERVICES AGREEMENT WITH WESTON
Approve Amendment No. 1 to the Professional Services Agreement with Weston
Solutions (Weston) of Carlsbad, California, 92010 to conduct bioaccumulation studies at
Areas of Special Biological Significances along Newport Coast at a not to exceed price of
$69,500 and authorize the Mayor and City Clerk to execute the Agreement.
DISCUSSION:
In 2004, the State Water Resources Control Board (SWRCB) alerted coastal agencies
that direct dry- weather and stormwater discharges of contaminants into sensitive
marine life areas, the so- called `Areas of Special Biological Significance' (ASBS), are
prohibited under the provisions of the California Ocean Plan. The SWRCB is moving
aggressively to control direct discharges to the ocean via storm drains, v- ditches, and
small conduits.
Discharge of flows from canyons is regulated under the NPDES Stormwater Discharge
Permit. The SWRCB is now considering regulating canyon discharges to ASBSs by
attaching conditions to the stormwater permit. The conundrum for the SWRCB is that
there are virtually no scientific studies showing how marine life respond to the low
pollutant concentration levels found in canyon flow; and therefore, there is little
evidence that would allow the SWRCB to relax the zero- pollutant discharge rule. In
fact; the National Resources Defense Council has stated at recent public meetings that
it will not support any relaxation of the zero- discharge rule.
Under this contract, the City's goal is to provide the SWRCB with evidence that there
are threshold levels for pollutants below which marine life reproduction and
development are not impacted, and therefore, provide a basis for the SWRCB to
promulgate reasonable conditions for canyon discharges. Other agencies with ASBS
responsibilities will also need to conduct complimentary studies in support of this effort.
Under the contract's scope of work, Weston will conduct a series of toxicity and
bioaccumulation studies using mussels and kelp. Transplanted mussels will be
harvested after a period of exposure and the tissues analyzed for trace metals, PCB,
Little Corona Bioassay Testing — Amendment No. 1 to Professional Services Agreement with Weston Solutions
October 24, 2006
Page 2
polycyclic aromatic hydrocarbons, chlorinated and organophosphate pesticides,
synthetic pyrethroids, fecal indicator bacteria, coliphage and viruses. The
concentrations for each constituent will be compared to pre - exposed concentrations to
examine site - specific uptake rates. These tissue concentrations will also be compared
to two large databases on impacts to California mussels. The toxicity testing of kelp will
focus on investigating the source of toxic response observed in at previous test with
storm water from Buck Gully on kelp germination. This testing will investigate if whether
the toxicity is due to dissolved contaminants or the presence of particulates in the storm
water sample.
Many marine life scientists were consulted in preparing this scope of work including
Professor Steve Murray (Cal State Fullerton), Professor Sunny Jiang (UCI), Professor
Jayson Smith (CSF), Dr. Jack Gregg (California Coastal Commission), Bill Paznokas
(California Department of Fish and Game), Dr. Jack Ward and Dr. Shelly Anghera. The
scope of Weston Solution's services will include:
• Literature research
• Updating the sampling Quality Assurance Project Plan
• Transplanting mussels into the intertidal area at Little Corona
• Performing tissue analysis, reproduction and development bioassays on
transplanted mussels
• Conduct Toxicity Testing on Kelp
• Preparing a bioaccumulation report
Environmental Review:
All tasks fall under the Information Gathering class of projects and are therefore
Categorically exempt pursuant to CEQA Guidelines, Article 19, Section 15306.
Public Notice:
No permits anticipated.
Funding Availability:
There are sufficient funds available in the following account for the project:
Account Description Account Number Amount
Tide and Submerged Lands 7231- C5100889 $69,500
Total: $69,500
Pre ared b
Robert Ste
Principal Civil Engineer
Attachments: Amendment No. 1
Exhibit
..+
AMENDMENT NO. 1
TO
PROFESSIONAL SERVICES AGREEMENT
WITH WESTON SOLUTIONS, INC.
FOR THE NEWPORT COAST
AREAS OF SPECIAL BIOLOGICAL SIGNIFICANCE (ASBS)
MONITORING
THIS AMENDMENT NO. 1 TO PROFESSIONAL-SERVICES AGREEMENT, entered
into this _ day of 2006, by and between the CITY OF
NEWPORT BEACH, a municipal corporation ( "City") and WESTON SOLUTIONS, INC.,
a Pennsylvania corporation, whose local address is 2433 Impala Drive, Carlsbad,
California, 92008, ("Consultant'), is made with reference to the following:
RECITALS
A. On August 8, 2006, City and Consultant entered into a Professional Services
Agreement which authorized Consultant to conduct public use and biological
surveys (hereinafter referred to as the "Agreement "). This work falls under ASBS.
Planning Grant awarded to the City by the State Water Rerources Control Board
and funding under the Proposition 50 Integrated Coastal Watershed
Management Program.
B. Under the Agreement, Consultant was hired to conduct public use. and biological
surveys at.ASBS areas along Newport Coast and Heisler Park (hereinafter
referred to as the "Project "). Under the Agreement, City agreed to pay
Consultant an amount not to exceed one hundred seventy -four thousand seven
hundred thirty -six dollars, and no /100 ($174,736) for the services. This.;
Agreement is scheduled to expire on June 30, 2008.
E. City desires to enter into this Amendment No. 1 to reflect the additional services
to be performed by Consultant, which were not included in the original
Agreement.
F. City desires to compensate Consultant for the additional professional services
needed for Project.
G. City and Consultant mutually desire to amend Agreement, hereinafter referred to
as "Amendment No. 1," as provided herein below.
NOW, THEREFORE, the parties hereto agree as follows:
Consultant shall perform the services outlined in the Scope of Work dated
October 1, 2006, attached hereto as Exhibit A, and incorporated in full by this
reference. Consultant agrees to meet the deadlines outlined in Exhibit A.
2. Total additional compensation to be paid to Consultant for all work performed in
accordance with this Amendment, including all reimbursable items and
subconsultant fees, shall not exceed Sixty Nine Thousand, Five Hundred
Dollars ($69,500).
3. The term of the Agreement shall not change.
4. Except as expressly modified herein, all other provisions, terms., and covenants
set forth in- Agreement shall remain unchanged and shall be in full force and
effect.
IN WITNESS WHEREOF, the parties hereto have executed this Amendment No. 1 on
the date first above written.
APP VED AS TO FORM:
e C.
Aaron C. Harp,
Assistant City Attorney
for the City of Newport Beach
ATTEST:
By.
LaVonne Harkless,
City Clerk
Attachment: Exhibit A — Scope of Work
CITY OF NEWPORT BEACH,
A Municipal Corporation
Mayor
for the City of Newport Beach
WESTON SOLUTIONS, INC.:
(Corporate Officer)
Title:
Print Name:
By:
(Financial Officer)
Title:
Print Name:
f: luserslpbwlsharedlagreementslfy 06.071weslon - asbs monitoring amend 1,doc
s
Exhibit A
Weston Solutions
Newport Coast and Laguna Beach ASBS Protection and Restoration Program:
Bioassay Testing
October 6, 2006
The Cities of Newport Beach and Laguna Beach have initiated a program to protect and renovate
sensitive marine life areas, Areas of Special Biological Significance (ASBS), adjacent to the
Cities' jurisdictions. The objective of this program is to identify and quantify those
environmental impacts having the most deleterious effects on the water quality and habitat of the
ASBSs and to prepare an hrtegrated Coastal Watershed Management Plan for these areas. These
potential impacts may include constituent loading from dry and wet weather flows to the ASBSs,
constituent loading from storm water, public trampling and scavenging activities, fishing
activities, cross contamination from tidal flows from Newport Bay and other environmental
stressors.
Goal
Bioassay studies will be used to examine creek (Buck Gully) water quality and potential impacts
on rocky intertidal marine flora and fauna at Little Corona del Mar:
Background
Buck Gully is a steep, open canyon extending 2.5 miles from Little Corona Beach to Newport
Coast Drive in the San Joaquin Hills. The lower section extends from Little Corona Beach to the
Coast Highway and the larg6r, upper section. stretches from the Coast Highway to Newport Coast
Drive. A small freshwater marsh comprised almost exclusively of cattail is situated at the mouth
of the gully (Newport Beach Creek) adjoining Little Corona Beach. The principal issues
associated with Buck Gully include the indicator bacteria exceedance rates, approaching 1001/6 of
the time and erosion associated with the continuous flow of water through the gully. This creek is
303 d listed for indicator bacteria exceedances. Little Corona is also a very popular ocean beach
receiving many visitors throughout the year. Because there are a wide range of activities that can
create adverse effects on this beach the Cities of Newport Beach and Laguna Beach are exploring .
potential causes of these different effects. The objectives of these programs are to prioritize
potential solutions to these different sources of adverse effects. One of these potential causes of
adverse effects to the intertidal environment at Little Corona are the contaminants contained in
the nmoff associated with Buck Gully. The cities have decided that a bioassay approach is the
best method to evaluate this source of potential adverse effects. The bioassay approach to be
developed will be designed to permit quantifying and priortitizing the types of adverse impacts
associated with the discharge of these waters from Huck Gully.
Introduction
Toxicity and bioaccumulation studies are the most definitive methods in which to assess
contaminant related impacts in the environment. Weston recommends the inclusion of toxicity
and bioaccumulation testing on indigenous organisms to demonstrate the exposure of
contaminants of concern and adverse effects associated with that exposure on to specific intertidal
species known to be sensitive to multiple contaminants.
Task I . Update sampling Quality Assurance Project Plan (QAPP)
Weston will use the existing QAPP from the Water Quality and Flow Assessment as base
document and develop an addendum to this QAPP that includes the methods for deploying and
retrieval of mussels for bioaccumulation and toxicity studies. The Weston Team has available
these methods from other projects and will streamline the preparation of this QAPP addendum by
using these methods with modifications as appropriate. Weston has a strong working relationship
with the Santa Ana RWQCB on the development of the current QAPP and will continue working
successfully with the Regional Board for the approval of this addendum.
Task 2. Mussel Bioaccumulation Study
Bioaccumulation of contaminants of concern in California Mussels will serve as a method to
determine the integrated accumulation of bioavailable contaminants from various sources.
Transplanted adult mussel tissues will be analyzed . for a wide -range of chemical contaminants.
These tissue concentrations will be compared to pre- exposure concentrations for the transplanted
individuals to examine site - specific uptake rates. These tissues will be compared to two large
databases that contain numerous studies on impacts related to tissue concentrations for Californian
mussels, Mussel Watch and EKED. The Mussel Watch program has been in existence for 20 years
and will allow comparisons of tissue concentrations to more than 280 locations along the California
coast, including previous data collected in Newport Beach. The EKED database, developed by
ERDC and personnel now at Weston (Drs. David Moore and Jack Word), is a direct assessment of
the effects of elevated body burdens from chemicals of potential ecological concern. This data base
has over 12,000 pairs of body burden and biological effects data and allows researchers to make
comparisons of the effects of various chemicals to other species and effects ranging
from physiological impacts to mortality associated with various tissue concentrations.
Mussels are filter feeders that relay on collecting organic particles from large volume of water as
food. Large number of bacteria and viruses has been found to accumulate in mussel tissue that
harvested from contaminated water body. Mussels are also gown to bioaccumulate domoic acid, a
neurotoxin produced by a diatom species in the ocean water. This biotoxin can be transported to seals
and sealions who use mussels as food source and cause morbidity and mortality in marine manurial
population. In addition to the chemical contaminants that will be analyzed by Weston, a subcontract
with University of California Irvine will be made to test the concentration of bacteria (i.e., Vibrio
spp.), viruses (i.e., coliphage and human viruses) and domoic acid in the mussels. These data will be
compared with mussels collected from uncontaminated area.
Task I Mussel Reproduction and Development Bioassays
In addition to bioaccumulation, a subsample of the transplanted mussels will be tested using
standardized toxicity tests to evaluate the success of reproduction and larval development.
Larvae of mussels are highly sensitive to contaminants, the successful reproduction by and
subsequent development of zygotes to first feeding larval stages would serve as sensitive
surrogates for 'the other broadcast spawning species along the coast. Examination of larval
development can indicate whether exposure to contaminants of concern ( bioaccumubte or not) or
bacterial exposure have influenced the adults to an extent where viable reproduction is impaired.
Prior to deployment, a subset of the mussels will be tested to determine their sensitivity to
reference toxicants in the laboratory by establishing an LCso for each cohort. These data will be
compared to responses of a subset of mussels when they are sampled to determine if `fitness' has
changed as a result of the exposure of mussels to contaminants in the intertidal adjacent to Buck
Gully. Reference toxicant exposures using ammonia and Cu will be made on the developing
larvae to ascertain similar sensitivity of test populations and to develop a dose response measure
for one of the potential contaminants from Buck Gully (ammonia).
Task 2 and 3 Methods
Four locations for mussel deployments are recommended. A site will be located at the mid
intertidal zone where water from Buck Gully first mixes with the intertidal zone. A subtidal site
will be set below the mid intertidal site, within the mixing zone. To evaluate exposure of
contaminants within Newport Bay from those specific to Buck Gully a Newport Bay control will
be located north of the mixing zone within the channel. Weston will work with Everest and Rick
Ware to determine the best location to deploy mussels for evaluating Upper Newport Bay effects
from Buck Gully effects. To evaluate physical impacts due to tide height from freshwater flow
from Buck Gully, a mid intertidal control site will be located just north of Little Corona.
Bioaccumulation and toxicity testing will be conducted twice a year in order to determine if these
organisms exhibit seasonal patterns in uptake and health within Newport Harbor that may be
related to wet and dry weather patterns. The seasonal difference in contaminant concentrations
will be compared at each site. If the seasonal differences are greater at the site adjacent to Buck
Gully, this may be evidence of the degree of Buck Gully influence on those tissues. If the
seasonal differences are similar across all sites, this may be evidence that Buck Gully does not
have a greater influence than Newport Bay as a whole. The cf ccts of contaminants associated
with Upper Newport Bay may be so great that they mask any cf ccts associated with proximity to
Buck Gully.
Mussels secured in bags attached to the intertidal and subtidal zones will be collected in April and
October in order to evaluate large scale differences between wet weather and dry weather
exposures. These dates may change to reflect adequate spawning condition of the test organisms
in areas adjacent to the study site. New mussels will also be deployed at the same time that
exposed mussels are retrieved. If the mussels located within the intertidal zones are vandalized,
stations will be moved to deeper - subtidal areas. Weston will work with Rick Ware and his team
for all field components of this proposal. This is more cost effective due to his labor pool and
proximity to Little Corona.
All tissues will be analyzed for a full suite of environmental contaminants currently measured in
the Mussel Watch program. These include PCB, PAHs, chlorinated and OP pesticides and trace
metals (As, Cd, Cu, Hg, Ni, Pb, Sc, Zn). Pyrethroids, an emerging pollutant, have been identified
as potential contaminants of concern in Buck Gully and therefore will also be analyzed in the
mussel tissue. Fecal and total coliform bacteria will also be measured in these test organisms. UC
Irvine will use the same tissue collection for analysis of Vibrio bacteria, an opportunistic human
pathogen; coliphage, an indicator of fecal contamination in the water; and human adenovirus, an
indicator of human waste pollution. Mussel tissues will also be extracted and analyzed for the
concentration of domoic acid. The same suite of assays will be performed using samples collected
in the Mussel Watch program. The data from these two sources will be compared.
Depending on this studies findings, toxicity and bioaccumulation evaluations may be
recommended in the monitoring plan, however, the level of effort collecting base -line information
may be greater than what is necessary for long -term monitoring. The analyte list may be scaled
back during the monitoring program to target specific analytes that have been found to be the
contaminants of concern within the ASBS.
Task 4. Stone Effluent toxicity testing on Kelp Germination
In February of 2006, effluent from Buck Gully was evaluated for acute and chronic toxicity using
three standardized marine toxicity tests with Macrocystts pyrifera (giant kelp), Mysidopsis bahia
(mysid shrimp), and Strongylocentrotus purpuratus (purple urchin). Testing found significant
reduction in kelp spore germination within the Buck Gully mixing zone, no toxicity was observed
using the shrimp or urchin. While cadmium in the mixing zone sample was found at
concentrations in exceedance of the water quality objectives, it is uncertain whether this analyte
contributed to the observed toxicity. It was suggested that kelp spore germination may have been
effected by increased suspended solids (from stormwater runoff and physical processes that cause
flocculation during the brining of the sample prior to testing). To determine if the observed
toxicity is due to dissolved contaminates of concern or the presence of particulates in the water
samples, kelp will be tested in unaltered effluent and effluent that has had the opportunity to settle
prior to testing. To examine the presence of dose - response relationships between effluent and
kelp germination success, kelp will be tested in effluent collected at the discharge point, in the
mixing zone and at the edge of the mixing zone. Again, Weston will work with Rick Ware and
his team for stormwater sample collection. Kelp toxicity is proposed as a one -time experiment to
determine if the physical presence of particulates may have confounded the interpretation of
toxicity test data or if the dissolved components of the effluent were the true cause of toxicity.
Task 5. Report Deliverables:
• Bioassay laboratory reports: Bioassay reports will be provided to the City of Newport
within 60 days of sample date.
• Bioaccumulation chemistry summary report: Raw chemistry results and summary tables
will be provided to the City of Newport within 60 days of sample date.
• Bioaccumulation microbiology summary report: Raw microbiological measurements and
results and summary tables will be provided to the City of Newport within 90 days of
sample date.
• A draft Buck Gully Water Flow Bioassay Impact Report will be written and submit to the
City of Newport and the Technical Advisory Committee for comment and review.
• A final Buck Gully Water Flow Bioassay Impact Report will be written and submit to the
City of Newport.
Task 6. Coordinationmith CalState Fullerton's Renovation Plan.
Experiments on the optimal methods for rock weed reintroduction into Little Corona will be
conducgted by CalState Fullerton. Weston will coordinate with CalState Fullerton to update the
Sampling QAPP and Monitoring Plans when the exactmethodology has been determined.
Schedule by Task
Task 1. Update of QAPP to include mussel deployment and collection methods.
• Updated QAPP will be completed by November 1, 2006, prior to deployment of mussel
bags.
Task 2. Mussel Bioaccumulation Study
• Mussels deployed in November 2006 at 4 stations (Winter Exposure Test 2006, WET
2006).
• WET 2006 mussels retrieved and deployment of Summer Exposure Test 2007 (SET
2007) in April 2007. Bioaccumulation tissue analysis to be initiated within 7 days of
retrieval.
• Summary chemistry report provided to the City of Newport within 60 days of mussel
retrieval events.
• Summary microbiological report provided to the City of Newport within 60 days of
mussel retrieval events.
Task 3. Mussel Toxicity Testing
WET 2006 mussels retrieved in April 2007. Mussel toxicity testing to be initiated within
7 days of retrieval.
Summary toxicity report provided to the City of Newport within 60 days of collection.
Task 4. Storm Effluent toxicity testing on Kelp Germination
• Prior to March 2007 effluent from a storm event collected during peak flow will be
collected. Kelp bioassays will be initiated within 36 hours of collection.
• Summary toxicity report provided to the City of Newport within 60 days of collection.
Task 5. Project Management and Report Deliverables:
• Interim chemistry and toxicity test results provided within 60 days of data collection.
• Draft Buck Gully Water Flow Bioassay Impact Report will be presenented and a hard
copy submitted to the City of Newport and the Technical Advisory Committee for
comment and review in January 2008.
• A final Buck Gully Water Flow Bioassay Impact Report will be written and submit to the
City of Newport within 15 days of receipt of comments.
Task 6. Rock weed Renovation: Coordination with CalState Fullerton, QAPP update, inclusion of
methods in Monitoring Plan
•. QAPP update and inclusion of renovation methods in Monitoring Plan to be completed
prior to restoration work, which is scheduled for January 2007..
Costs by Task
Task
Activity.
Cost
Task
Cost
Task 1
Update of QAPP to include mussel deployment and
$1,500
$1,500
collection.
Mussel bag set -up, deployment and retrieval. (3
$4,000
events)
Tissue chemistry: (4 locations + tissue control) x 2
$15,000
events = 10 samples
Tissue bacteriology (4 locations + tissue control) x 2
Task 2
events = 10 Samples (testing at Weston
$2,000
$32,000
Microbiological Certified Laboratory)
UCI subcontract for bacteria (i.e., Vibrio spp.), v.nvws
(i.e., coliphage and human viruse) and domoic acid in
$10,000
the mussels
Coordination with UCI and data review
$1,000
Mussel bioassays: 10 fertilization and reference
$5,000
toxicant tests (copper and ammonia)
Task 3
$11,000
Mussel bioassays: 10 development and reference
$6,000
toxicant tests (copper and ammonia)
Buck Gully discharge sampling (one event)
$1,500
Task 4
Kelp bioassays' 2 treatments x 3 locations = 6
$4,500
$6,000
germination tests and reference toxicant tests
Analysis, Reporting and QA/QC
$10,000
Task 5
Meetings and Coordination based on two people
$2,500
$14,500
aqMding 2 meetings
Project Management
$2,000
Rock weed Renovation Coordination with CalState
Task 6
Fullerton, QAPP update, inclusion of methods in
$4,500
$4,500
Monitoring Plan
Total
$69,500
Newport Coast and La-una Beach ASBS Protection and Restoration
Tash Schedule
Task 1- Update QAPP
Proorain
Start Date- Notice to Proceed
October 2006
Draft Submitted to RWQCB
October 30, 2006
Review by RWQCB
November 14, 2006
Finalized QAPP monitoring plan review to Newport
November 16, 2006
Task 2- Mussel Bioaccumulation Study
Wet Weather Program
Preparation and Installation of Mussel Plantings
December 2006
Mussel Field Program - Bioaccumulation
by December 18, 2006
Mussel Collection and Tissue Analytical Analysis
April 2007.
Dry Weather Program
Preparation and Installation of Mussel Plantings
Aril 2007
Mussel Field Program - Bioaccumulation
by April 30, 2007
Mussel Collection and Tissue Analytical Analysis
October 2007
Task 3- Mussel Reproduction and Development
Mussel Field Program
December 2006/April 2007
Tonicity Testing of Mussels
December 2006/April 2007
Testing to start within 3 days of delivery from supplier or retrieval from field
Task 4- Storm Water Toxicity Testing on Kelp Germination
Stormwater Sample Collection
January 2007+
Target the fast large (>(IS" rainfall) storm event beginning in January
Bioassay Toxicity Testing of Kelp
January 2007+
Within 36 hours of stormwater sample collection
Task 5- Report Deliverables
Bioaccumulation Reports
June 2007/December 2007
Chemistry lab reports to be delivered within 60 days of testing
Bioassay Laboratory Reports
June 2007/December 2007
Bioassay lab reports to be deliveredwithin 60 days of testing
Draft Bioassay hnpact Report
January 31, 2008.
Draft Review by the City and Agencies
February 2008
Final Bioassay Impact Report
March 2008