Benthic macrofaunal species distribution along transects by scuba divers at the Carlsbad Desalination Plant, Southern California 2014-2016 (Effluent Impacts on Coastal Ecology project)

Website: https://www.bco-dmo.org/dataset/716341
Data Type: Other Field Results
Version:
Version Date: 2017-09-19

Project
» Brine Discharge From Desalination Plants - Impacts On Coastal Ecology, Public Perception, and Public Policy (Effluent Impacts on Coastal Ecology)
ContributorsAffiliationRole
Paytan, AdinaUniversity of California-Santa Cruz (UCSC)Principal Investigator
Haddad, BrentUniversity of California-Santa Cruz (UCSC)Co-Principal Investigator
Potts, DonaldUniversity of California-Santa Cruz (UCSC)Co-Principal Investigator
Petersen, Karen LykkeboUniversity of California-Santa Cruz (UCSC)Student, Contact
Copley, NancyWoods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager


Coverage

Spatial Extent: N:33.1459 E:-117.336641 S:33.1355 W:-117.35295
Temporal Extent: 2014-12-01 - 2016-11-30

Dataset Description

This dataset contains the percent distribution of macrofauna species counted along transects and in  1mx1m quadrats at the Carlsbad Desalination Plant, obtained in December 2014, Sept. 2015, May 2016 and November 2016.

Related datasets:
Benthic macrofaunal abundance
Phytoplankton cell count
Sediment fauna and plastic
Sediment grain size
Water chemistry


Methods & Sampling

Samples were collected in a perimeter of ~1 km offshore of the discharge channel of Carlsbad Desalination Plant, Carlsbad Beach, California (33°08'18.9"N 117°20'21.3"W).

Samples were collected in four trips:
Pre-discharge: Dec 2nd-4th 2014 and Sep 21st-24th 2015.
Post-discharge: May 9th-12th 2016 and Nov 8th-11th 2016

Transect lines were deployed going from the discharge channel (Outflow) and the Intake to 1000 m offshore. Sampling was done every 25 m until 200 m offshore, then at 400, 600, 800 and 1000 m (“stations”). The "Parallel" transect ran continuous parallel to the beach ~200 m offshore and samples stations were deployed every ~100 m. Station 1 is the southern-most sampling point (south of discharge channel). At each station surface (~1 m depth) and bottom water samples were taken and a sediment sample. Bottom samples were collected at a depth range of 4m - 17m.

The benthic surveys were done continuously at the first 200 m offshore if water conditions allowed. At station 400, 600, 800 and 1000 and on the parallel stations, ten 1x1m quadrates were deployed. Organisms larger than 2.5 cm were counted. Organisms identified in the following classes were counted: Sponge, Anthozoa, Gastropoda, Clam, octopus, Polychaete, Echinodermata, Arthropoda, fish and algae.


Data Processing Description

The organisms counted for each species were summed for each sampling site and the percent distribution calculated.

BCO-DMO Processing:
- added conventional header with dataset name, PI name, version date
- modified parameters to BCO-DMO standard
- renamed parameter: Fieldtrip to date_Fieldtrip; Algea to Algae
- added year column


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Data Files

File
species_distribution.csv
(Comma Separated Values (.csv), 993 bytes)
MD5:1834bf9a5e95bc7508b6bae5c0584930
Primary data file for dataset ID 716341

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Parameters

ParameterDescriptionUnits
yearyear of sampling unitless
date_Fieldtriplocal date formatted as Mon-yyyy unitless
Sitesampling location relative to inflow and outflow unitless
SpongePercent composition of sponges percent
AnthozoaPercent composition of anthozoa percent
GastropodaPercent composition of gastropoda percent
ClamPercent composition of clams percent
OctopusPercent composition of octopus percent
PolychaetaPercent composition of polychaeta percent
EchinodermataPercent composition of echinodermata percent
ArthropodaPercent composition of arthropoda percent
FishPercent composition of fish percent
AlgaePercent composition of algae percent

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Deployments

Paytan_2014

Website
Platform
shoreside Carlsbad Desalination Plant
Start Date
2014-12-02
End Date
2014-12-04
Description
study of desalination plant effluent


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Project Information

Brine Discharge From Desalination Plants - Impacts On Coastal Ecology, Public Perception, and Public Policy (Effluent Impacts on Coastal Ecology)


Coverage: Carlsbad, California


Description from NSF award abstract:
Desalination of seawater accounts for a worldwide water production of about 70 million cubic meters per day. Despite the many benefits the technology has to offer, there are concerns over potential negative impacts on the environment. A key issue that has not been thoroughly investigated is the impact of effluent discharge on coastal marine ecosystems. This project will provide quantitative scientific assessment of the potential impacts of effluent discharge on coastal ecosystems in California and assess how such data influences public perception and public policy. The team of social and natural scientists has experience related to coastal pollution, California coastal ecology, marine biogeochemistry, toxicology, environmental policy and economics, water policy and management, and utility-stakeholder communications. Established relations with desalination facilities in California will ensure an integrative framework for research on the human and environmental aspects related to the increasing abundance of desalination facilities along the California coast, and contribute to both securing freshwater resources and sustaining productive and healthy coastal communities and coastal environments.

The objectives of this project are to (1) determine how effluent discharges from facilities for seawater desalination by reverse osmosis affect key organisms of the California coastal ecosystem with implications for ecosystem structure and function, (2) describe the spatial extent of the effect for different discharge schemes, and (3) evaluate how results from this and similar environmental impact studies influence public perception and decision making regarding desalination plant construction and operation. The project will combine in situ field chemical and biological measurements, controlled laboratory experiments, and assessments of how people and organizations interpret and use this data for making environmentally sound and sustainable decisions. Field studies will be performed at three different desalination plants to identify and quantify the possible effects of stressors associated with effluent discharge on local biota. Observed effects will be validated through controlled laboratory bioassay experiments. The scientific results will be communicated to the general public and decision makers to assess how scientific data is used by different stakeholders.

This project is supported under NSF's Coastal SEES (Science, Engineering and Education for Sustainability) program.



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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)

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