Water Quality of San Francisco Bay Research and Monitoring Project
Since 1969, the U.S. Geological Survey has maintained a research project in the San Francisco Bay-Delta system to measure and understand how estuarine systems and tidal river deltas function and change in response to hydro-climatic variability and human activities.
Project Overview
Estuaries are the interface of rivers, ocean, atmosphere, and dense human settlement. As such, their variability is driven by a large array of natural and anthropogenic forces. This website describes the long-term research and observation project in the San Francisco Bay-Delta that serves to measure and understand changes in water quality due to these forces.
For the past five decades, the USGS has conducted ship-based measurements of water quality along a 145-kilometer-deep water transect that spans the length of the entire system from ocean to inland delta. We sample the full salinity gradient on monthly cruises aboard the R/V Peterson and historically on the R/V Polaris. Read more about where and when we collect measurements.
We measure the basic elements of water quality that define the sustainability of the Bay as habitat for fish and organisms of the lower trophic levels. Using both oceanographic sensors and discrete water collection, we measure salinity, temperature, light extinction coefficient, chlorophyll-a, dissolved oxygen, suspended particulate matter, nitrate, nitrite, ammonium, silicate, and phosphate. Take a closer look at what we measure and how our measurements are made.
Data availability
Access the Water Quality of San Francisco Bay Data Query to download measurements from 1969 to our most recent cruise.
These publicly available data are used to measure, model, and understand how estuaries function as transitional ecosystems between land and sea where seawater and freshwater meet. We provide examples of the diversity of applications of these data used in many different disciplines that range from tidal circulation and transport processes and sediment-water nutrient exchange, to phytoplankton productivity and responses to climate variability.
Data visualizations for each cruise will be added to this site in the near future.
Science Communications
- Patterns and Processes of Change Where Rivers Meet Oceans: presentation by James Cloern for Moss Landing Marine Laboratories, 2021.
- Chasing the Spring Phytoplankton Bloom: presentation by Tara Schraga at the Exploratorium museum, 2021.
- USGS R/V Polaris Retires: We reflect on what she taught us: poster, 2016.
- How is San Francisco Bay Doing?: presentation by James Cloern for the USGS Public Lecture Series, 2011.
- Four Decades of Water Quality Research in San Francisco Bay: poster, 2009.
- Inside the Golden Gate: Part 1 and Part 2: NOVA television special, filmed aboard the R/V Polaris in 1976
Our Science in the News
- Feel Like the SF Bay Used to Be Bluer? You're Not Imagining It: KQED Podcast and Article, 2019.
- Public radio KALW show, 2016.
- Bay Belle Retires; Catamaran Carries On. Estuary News, 2016.
- Monitoring San Francisco Bay water critical for future. ABC13 News, 2014.
- San Francisco Bay waters are becoming clearer, but that may mean threats from algal growth. San Jose Mercury News, 2013.
- Climate change may transform California's Bay Area. Scientific American, 2011.
Agencies Supporting the Program of Water-Quality Data Collection and Dissemination
- U.S. Geological Survey Water Resources Division (2017 to present), National Research Program (until 2017)
- U.S. Geological Survey San Francisco Bay Priority Landscapes Program
- U.S. Geological Survey California Water Science Center
- San Francisco Estuary Institute: The Regional Monitoring Program
- San Francisco Estuary Institute: San Francisco Bay Nutrient Management Strategy
This work complements the Interagency Ecological Program for the San Francisco Bay/Delta Ecosystem.
Below are other science pages associated with the Water Quality of San Francisco Bay project.
Directly measured parameter data (depth, chlorophyll-a, dissolved oxygen, suspended particulate matter, extinction coefficient, salinity, temperature, nutrients) are available from the locations below:
Below are multimedia items associated with the Water Quality of San Francisco Bay project.
Below are publications associated with the Water Quality of San Francisco Bay project.
Phytoplankton primary production in the world's estuarine-coastal ecosystems
Comparative biogeochemistry-ecosystem-human interactions on dynamic continental margins
Resource selection and space use by sea ducks during the non-breeding season: Implications for habitat conservation planning in urbanized estuaries
Factors controlling floc settling velocity along a longitudinal estuarine transect
A step decrease in sediment concentration in a highly modified tidal river delta following the 1983 El Niño floods
Distribution of biologic, anthropogenic, and volcanic constituents as a proxy for sediment transport in the San Francisco Bay Coastal System
A sediment budget for the southern reach in San Francisco Bay, CA: Implications for habitat restoration
Integration of bed characteristics, geochemical tracers, current measurements, and numerical modeling for assessing the provenance of beach sand in the San Francisco Bay Coastal System
Over 150 million m3 of sand-sized sediment has disappeared from the central region of the San Francisco Bay Coastal System during the last half century. This enormous loss may reflect numerous anthropogenic influences, such as watershed damming, bay-fill development, aggregate mining, and dredging. The reduction in Bay sediment also appears to be linked to a reduction in sediment supply and recent
Influence of estuarine processes on spatiotemporal variation in bioavailable selenium
Drivers of change in estuarine-coastal ecosystems: Discoveries from four decades of study in San Francisco Bay
Changing restoration rules: exotic bivalves interact with residence time and depth to control phytoplankton productivity
Projected evolution of California's San Francisco bay-delta-river system in a century of climate change
Directly measured parameter data (depth, chlorophyll-a, dissolved oxygen, suspended particulate matter, extinction coefficient, salinity, temperature, nutrients) are available from the locations below:
Since 1969, the U.S. Geological Survey has maintained a research project in the San Francisco Bay-Delta system to measure and understand how estuarine systems and tidal river deltas function and change in response to hydro-climatic variability and human activities.
Project Overview
Estuaries are the interface of rivers, ocean, atmosphere, and dense human settlement. As such, their variability is driven by a large array of natural and anthropogenic forces. This website describes the long-term research and observation project in the San Francisco Bay-Delta that serves to measure and understand changes in water quality due to these forces.
For the past five decades, the USGS has conducted ship-based measurements of water quality along a 145-kilometer-deep water transect that spans the length of the entire system from ocean to inland delta. We sample the full salinity gradient on monthly cruises aboard the R/V Peterson and historically on the R/V Polaris. Read more about where and when we collect measurements.
We measure the basic elements of water quality that define the sustainability of the Bay as habitat for fish and organisms of the lower trophic levels. Using both oceanographic sensors and discrete water collection, we measure salinity, temperature, light extinction coefficient, chlorophyll-a, dissolved oxygen, suspended particulate matter, nitrate, nitrite, ammonium, silicate, and phosphate. Take a closer look at what we measure and how our measurements are made.
Data availability
Access the Water Quality of San Francisco Bay Data Query to download measurements from 1969 to our most recent cruise.
These publicly available data are used to measure, model, and understand how estuaries function as transitional ecosystems between land and sea where seawater and freshwater meet. We provide examples of the diversity of applications of these data used in many different disciplines that range from tidal circulation and transport processes and sediment-water nutrient exchange, to phytoplankton productivity and responses to climate variability.
Data visualizations for each cruise will be added to this site in the near future.
Science Communications
- Patterns and Processes of Change Where Rivers Meet Oceans: presentation by James Cloern for Moss Landing Marine Laboratories, 2021.
- Chasing the Spring Phytoplankton Bloom: presentation by Tara Schraga at the Exploratorium museum, 2021.
- USGS R/V Polaris Retires: We reflect on what she taught us: poster, 2016.
- How is San Francisco Bay Doing?: presentation by James Cloern for the USGS Public Lecture Series, 2011.
- Four Decades of Water Quality Research in San Francisco Bay: poster, 2009.
- Inside the Golden Gate: Part 1 and Part 2: NOVA television special, filmed aboard the R/V Polaris in 1976
Our Science in the News
- Feel Like the SF Bay Used to Be Bluer? You're Not Imagining It: KQED Podcast and Article, 2019.
- Public radio KALW show, 2016.
- Bay Belle Retires; Catamaran Carries On. Estuary News, 2016.
- Monitoring San Francisco Bay water critical for future. ABC13 News, 2014.
- San Francisco Bay waters are becoming clearer, but that may mean threats from algal growth. San Jose Mercury News, 2013.
- Climate change may transform California's Bay Area. Scientific American, 2011.
Agencies Supporting the Program of Water-Quality Data Collection and Dissemination
- U.S. Geological Survey Water Resources Division (2017 to present), National Research Program (until 2017)
- U.S. Geological Survey San Francisco Bay Priority Landscapes Program
- U.S. Geological Survey California Water Science Center
- San Francisco Estuary Institute: The Regional Monitoring Program
- San Francisco Estuary Institute: San Francisco Bay Nutrient Management Strategy
This work complements the Interagency Ecological Program for the San Francisco Bay/Delta Ecosystem.
Below are other science pages associated with the Water Quality of San Francisco Bay project.
Directly measured parameter data (depth, chlorophyll-a, dissolved oxygen, suspended particulate matter, extinction coefficient, salinity, temperature, nutrients) are available from the locations below:
Below are multimedia items associated with the Water Quality of San Francisco Bay project.
Below are publications associated with the Water Quality of San Francisco Bay project.
Phytoplankton primary production in the world's estuarine-coastal ecosystems
Comparative biogeochemistry-ecosystem-human interactions on dynamic continental margins
Resource selection and space use by sea ducks during the non-breeding season: Implications for habitat conservation planning in urbanized estuaries
Factors controlling floc settling velocity along a longitudinal estuarine transect
A step decrease in sediment concentration in a highly modified tidal river delta following the 1983 El Niño floods
Distribution of biologic, anthropogenic, and volcanic constituents as a proxy for sediment transport in the San Francisco Bay Coastal System
A sediment budget for the southern reach in San Francisco Bay, CA: Implications for habitat restoration
Integration of bed characteristics, geochemical tracers, current measurements, and numerical modeling for assessing the provenance of beach sand in the San Francisco Bay Coastal System
Over 150 million m3 of sand-sized sediment has disappeared from the central region of the San Francisco Bay Coastal System during the last half century. This enormous loss may reflect numerous anthropogenic influences, such as watershed damming, bay-fill development, aggregate mining, and dredging. The reduction in Bay sediment also appears to be linked to a reduction in sediment supply and recent
Influence of estuarine processes on spatiotemporal variation in bioavailable selenium
Drivers of change in estuarine-coastal ecosystems: Discoveries from four decades of study in San Francisco Bay
Changing restoration rules: exotic bivalves interact with residence time and depth to control phytoplankton productivity
Projected evolution of California's San Francisco bay-delta-river system in a century of climate change
Directly measured parameter data (depth, chlorophyll-a, dissolved oxygen, suspended particulate matter, extinction coefficient, salinity, temperature, nutrients) are available from the locations below: