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Pinole Creek Sediment Source Assessment: Pavon Creeks Sub-basin. SFEI Contribution No. 515. San Francisco Estuary Institute. p 67.
2006. (51.71 MB) (25.63 MB)Pinole Creek Watershed Sediment Source Assessment. A technical report of the Regional Watershed Program, San Francisco Estuary Institute (SFEI), Oakland, California. (report only -- no appendix). SFEI Contribution No. 316. San Francisco Estuary Institute: Oakland, CA.
2005. (4.28 MB)Pinole Creek Watershed Sediment Source Assessment. A technical report of the Regional Watershed Program, San Francisco Estuary Institute (SFEI), Oakland, California. (appendix only). SFEI Contribution No. 316. San Francisco Estuary Institute: Oakland, CA.
2005. (1.29 MB)Pollutant Monitoring in the North Richmond Pump Station: A Pilot Study for Potential Dry Flow and Seasonal First Flush Diversion for Wastewater Treatment. San Francisco Estuary Institute: Richmond, CA.
2012. (1.4 MB)Pollutants of concern (POC) loads monitoring data progress report, water year (WY) 2012. SFEI: Richmond, CA.
2013. (2.33 MB)Pollutants of Concern (POC) Loads Monitoring Data Progress Report: Water Years (WYs) 2012 and 2013. SFEI Contribution No. 708. SFEI: Richmond, CA. pp 1-84.
2014. (1.91 MB)Pollutants of Concern (POC) Loads Monitoring Data, Water Year (WY) 2011. San Francisco Estuary Institute: Richmond, CA.
2012. (1.03 MB)Pollutants of concern (POC) loads monitoring progress report, water years (WYs) 2012, 2013, and 2014. SFEI Contribution No. 741.
2016. (2.58 MB)Pollutants of concern (POC) reconnaissance monitoring final progress report, water year (WY) 2015. SFEI Contribution No. 787.
2016. (2.71 MB)Pollutants of concern reconnaissance monitoring final progress report, water years 2015 and 2016. SFEI Contribution No. 817.
2017. (4.01 MB)Polychlorinated biphenyls in the exterior caulk of San Francisco Bay Area buildings, California, USA. Environment International 66, 38-43.
2014. (267.06 KB)Polychlorinated biphenyls (PCBs) in San Francisco Bay. Environmental Research 105, 67-86 . SFEI Contribution No. 526.
2007. (1 MB)Reducing methylmercury accumulation in the food webs of San Francisco Bay and its local watersheds. Environmental Research 119, 3-26.
2012. (1.32 MB)Reducing Methylmercury Accumulation in the Food Webs of San Francisco Bay and Its Local Watersheds. SFEI Contribution No. 707. San Francisco Estuary Institute: Richmond, CA.
2014. (1.87 MB)A Regional Mass Balance of Methylmercury in San Francisco Bay, California, USA. Environmental Toxicology and Chemistry . SFEI Contribution No. 619.
2010. (306.73 KB) (275.24 KB)The Regional Monitoring Program for Water Quality in San Francisco Bay, California, USA: Science in support of managing water quality. Regional Studies in Marine Science 4.
2016. The Regional Monitoring Program for Water Quality in San Francisco Bay (RMP) is a novel partnership between regulatory agencies and the regulated community to provide the scientific foundation to manage water quality in the largest Pacific estuary in the Americas. The RMP monitors water quality, sediment quality and bioaccumulation of priority pollutants in fish, bivalves and birds. To improve monitoring measurements or the interpretation of data, the RMP also regularly funds special studies. The success of the RMP stems from collaborative governance, clear objectives, and long-term institutional and monetary commitments. Over the past 22 years, high quality data and special studies from the RMP have guided dozens of important decisions about Bay water quality management. Moreover, the governing structure and the collaborative nature of the RMP have created an environment that allowed it to stay relevant as new issues emerged. With diverse participation, a foundation in scientific principles and a continual commitment to adaptation, the RMP is a model water quality monitoring program. This paper describes the characteristics of the RMP that have allowed it to grow and adapt over two decades and some of the ways in which it has influenced water quality management decisions for this important ecosystem.
Regional Watershed Spreadsheet Model (RWSM) Year 5 Progress Report. SFEI Contribution No. 788.
2016. (1.82 MB)Regional Watershed Spreadsheet Model (RWSM): Year 6 Progress Report. SFEI Contribution No. 811. San Francisco Estuary Institute: Richmond, CA.
2017. (1.79 MB)Removal efficiencies of a bioretention system for trace metals, PCBs, PAHs, and dioxins in a semiarid environment. Journal of Environmental Engineering.
2014. Report of Science Advisors: Solano County Natural Community Conservation Plan Habitat Conservation Plan. SFEI Contribution No. 272.
2002. (585.78 KB)Results of the Estuary Interface Pilot Study, 1996-1999, Final Report. (Technical Report of the Sources Pathways and Loading Work Group (SPLWG) of the San Francisco Estuary Regional Monitoring Program for Trace Substances (RMP)). SFEI Contribution No. 50. San Francisco Estuary Institute: Oakland, CA.
2002. (1.66 MB)Review of methods to reduce urban stormwater loads. SFEI Contribution No. 429. San Francisco Estuary Institute: Oakland. p 150xx.
. 2006. (6.43 MB)Review of sediment gauging in Alameda Creek Watershed in relation to District needs. SFEI Contribution No. 571.
2009. (1.26 MB)Review of sediment gauging studies in Alameda Creek Watershed. SFEI Contribution No. 571. San Francisco Estuary Institute.
2008. A review of urban runoff processes in the Bay Area: Existing knowledge, conceptual models, and monitoring recommendations. SFEI Contribution No. 66. San Francisco Estuary Institute: Oakland, CA.
2003. (1.89 MB)RMP Small Tributaries Loading Strategy. San Francisco Estuary Institute: Richmond, CA.
2009. (566.89 KB)San Francisco State University Site 1 Vegetated Infiltration Basin (Case Study Site and Technical Reports). SFEI Contribution No. 794.
2014. (770.95 KB) (882.14 KB)San Francisco State University Site 3 Basin and Swale System (Case Study Site and Technical Reports). SFEI Contribution No. 795.
2014. (718.98 KB) (1.02 MB)San Pedro Creek Watershed Sediment Source Analysis, Volume III: Tributary sediment source assessment. SFEI Contribution No. 87. San Francisco Estuary Institute: Oakland, CA.
2004. (16.74 MB)A Sediment Budget for Two Reaches of Alameda Creek. SFEI Contribution No. 550. San Francisco Estuary Institute.
2008. (26.45 MB)Sediment loads transported from the Delta: Implications for management of pollutants of concern. SFEI Contribution No. 231. San Francisco Estuary Institute.
2001. (1.3 MB)Sediment Supply, deposition, and transport in the Flood Control Facilities of Arroyo Mocho and Arroyo Las Positas from 2006-2014. . SFEI Contribution No. 771. San Francisco Estuary Institue: Richmond, CA.
2015. (61.71 MB)Sediment transport in the San Francisco Bay Coastal System: An overview. Marine Geology Special Issue: A multi-discipline approach for understanding sediment transport and geomorphic evolution in an estuarine-coastal system.
2013. Small Tributaries Pollutants of Concern Reconnaissance Monitoring: Loads and Yields-based Prioritization Methodology Pilot Study. SFEI Contribution No. 817. San Francisco Estuary Institute: Richmond, CA.
2019. (1.48 MB)Sources, Pathways, and Loadings: 5-Year Work Plan (2005-2009). SFEI Contribution No. 406. San Francisco Estuary Institute. p 25.
2005. (4.19 MB)Sources, Pathways and Loadings: Multi-Year Synthesis with a Focus on PCBs and Hg. SFEI Contribution No. 773.
2016. (3.93 MB)Sources, Pathways and Loadings Workgroup: Five-Year Workplan (2008-12). SFEI Contribution No. 567. San Francisco Estuary Institute: Oakland.
2008. Spatiotemporal variation of turbidity in Alameda Creek and selected tributaries: August thru December 2007. SFEI Contribution No. 547. San Francisco Estuary Institute.
2008. (16.66 MB)Stream Inventory Report for La Honda Creek: Prepared for the Midpeninsula Regional Open Space District. SFEI Contribution No. 529. San Francisco Estuary Institute.
2007. (29.72 MB)Summary of existing information in the watershed of Sonoma Valley in relation to the Sonoma Creek Watershed Restoration Study and recommendations on how to proceed. SFEI Contribution No. 345. San Francisco Estuary Institute.
2000. Sunset Circle Vegetated Swale and Infiltration System (Case Study Site and Technical Reports). SFEI Contribution No. 796.
2014. (38.4 MB) (22.9 MB)Suspect Screening and Chemical Profile Analysis of Storm-Water Runoff Following 2017 Wildfires in Northern California. Environmental Toxicology and Chemistry . SFEI Contribution No. 1089.
2022. The combustion of structures and household materials as well as firefighting during wildfires lead to releases of potentially hazardous chemicals directly into the landscape. Subsequent storm-water runoff events can transport wildfire-related contaminants to downstream receiving waters, where they may pose water quality concerns. To evaluate the environmental hazards of northern California fires on the types of contaminants in storm water discharging to San Francisco Bay and the coastal marine environment, we analyzed storm water collected after the northern California wildfires (October 2017) using a nontargeted analytical (NTA) approach. Liquid chromatography quadrupole time-of-flight mass spectrometric analysis was completed on storm-water samples (n = 20) collected from Napa County (impacted by the Atlas and Nuns fires), the city of Santa Rosa, and Sonoma County (Nuns and Tubbs fires) during storm events that occurred in November 2017 and January 2018. The NTA approach enabled us to establish profiles of contaminants based on peak intensities and chemical categories found in the storm-water samples and to prioritize significant chemicals within these profiles possibly attributed to the wildfire. The results demonstrated the presence of a wide range of contaminants in the storm water, including surfactants, per- and polyfluoroalkyl substances, and chemicals from consumer and personal care products. Homologs of polyethylene glycol were found to be the major contributor to the contaminants, followed by other widely used surfactants. Nonylphenol ethoxylates, typically used as surfactants, were detected and were much higher in samples collected after Storm Event 1 relative to Storm Event 2. The present study provides a comprehensive approach for examining wildfire-impacted storm-water contamination of related contaminants, of which we found many with potential ecological risk. Environ Toxicol Chem 2022;00:1–14. © 2022 SETAC
2000.
The Transport of contaminants to San Francisco Bay by stormwater. SFEI Contribution No. 344. Vol. 9, pp 5-7.
2000. Watershed Specific and Regional Scale Suspended Sediment Load Estimates for Bay Area Small Tributaries. SFEI Contribution No. 566. Oakland, Ca.
2009. (983.2 KB)Wildcat Creek Watershed: A Scientific Study of Physical Processes and Land Use Effects. SFEI Contribution No. 363. San Francisco Estuary Institute: Richmond, CA.
2001. (31.51 MB) (98.29 MB) (2.11 MB) (16.39 MB) (107 MB) (3.19 MB) (14.02 MB)