The FMWT was initiated to determine the relative abundance and distribution of age-0 striped bass (Morone saxatilis), delta smelt (Hypomesus transpacificus), longfin smelt (Spirinchus thaleichthys), American shad (Alosa sapidissima), splittail (Pogonichthys macrolepidotus), and threadfin shad (Dorosoma petenense) in the estuary. FMWT has sampled annually since it's inception in 1967, with the exceptions of 1974 and 1979, when sampling was not conducted. The FMWT samples 122 stations each month from September to December and a subset of these data is used to calculate an annual abundance index.
The FMWT conducts compliance monitoring in collaboration with USBR and DWR to meet permit obligations to the SWRCB (and DRCB) via Water Rights Decisions (D-1485 and D-1641) and USFWS-NMFS biological opinions for Delta Smelt (Hypomesus transpacificus) and salmonids, and for incidental take permits issued by CDFW for operation of the State Water Project (SWP), and the USBR BA/ROD. FMWT also informs Natural Resource Agency Delta Smelt Resiliency Strategy management actions including the Suisun Marsh Salinity Control Gate re-operation and the North Delta Food Web Managed Flow actions. FMWT is used to inform Effects of Outflow Alteration upon Delta Smelt Habitat, Condition, and Survival and Summer-Fall Habitat Action monitoring.
Project Objectives • To annually measure the abundance and distribution of selected species of pelagic fishes in the estuary. • To gain understanding of the factors affecting abundance, distribution, and survival of pelagic fishes in the estuary. • To detect introductions of new exotic fish and invertebrates. • Provide baseline data to evaluate management plans and habitat restoration projects. • To measure availability of fall planktonic food resources.
The Summer Townet Survey (STN) is a long-term effort to monitor young pelagic fishes in the upper San Francisco Estuary. Since 1959, STN has sampled locations from eastern San Pablo Bay to Rio Vista on the Sacramento River, and to Stockton on the San Joaquin River; and a single station in the lower Napa River. The study area was expanded in 2011 to include the Sacramento Deep Water Ship Chanel and Cache Slough. Currently, 40 stations are sampled as a survey every other week June through August for a total of 6 surveys. Fish sampling uses a conical, fixed-frame net, which is pulled obliquely through the water column 2 to 3 times at each station. Data collected at 31 stations are used to calculate annual relative abundance indices for age-0 Striped Bass (Morone saxatilis) and Delta Smelt (Hypomesus transpacificus). The remaining 8 stations are sampled to increase our understanding of juvenile fish abundance and distribution in the lower Napa River and the north Delta. Starting in 2005, a zooplankton net was added to assess fish food resources at each station and a subset of the fish collected are retained for diet analysis by CDFW researchers. Zooplankton sampling informs several management actions focused on Delta Smelt habitat improvements including collections of additional zooplankton samples for the Suisun Marsh Salinity Control Gate re-operation. Finally, the STN also measures environmental variables including water temperature, water clarity and specific conductivity. Managers and researchers use data collected by STN to inform decisions and improve and understand the health of the upper San Francisco Estuary.
Due to pervasive anthropogenic influences (e.g., habitat alteration, climate change), current rates of biodiversity loss in the Sacramento-San Joaquin Delta are unprecedented. Application of appropriate management regimes and mitigation measures thus require effective biological monitoring to adaptively manage systems. Non-invasive environmental DNA (eDNA)-based tools for endangered species monitoring have gained attention as a complementary approach to traditional sampling because of their increased sensitivity and accurate quantification. However, the unique characteristics of environmental RNA (eRNA) make it a novel tool, allowing us to gain additional information that is not possible to obtain with eDNA. Using novel eRNA tools to improve detection and quantify health status of Smelt has only been theorized and remains to be empirically tested. Both Delta and Longfin Smelt species were historically ubiquitous in the Sacramento-San Joaquin Delta, but have declined precipitously over the past several decades. One source of mortality is entrainment into the south Delta water export pumps. Although the entrainment of juvenile and adult smelt has been regularly monitored at fish salvage facilities, entrainment of larval smelt (< 20 mm) is not quantified, thus remains largely unknown. Moreover, given the current climate change effect (e.g., increased heat stress), an understanding of how these endangered species will respond to acute stress response in the wild is lacking.
SacPAS serves to provide information integration services to the Central Valley Project Improvement Act and practitioners working on matters related to ESA-listed fishes. The web-based services relate fish passage to environmental conditions and provide resources for evaluating the effects of river management and environmental conditions on salmon passage and survival.
The work performed as part of this agreement includes developing, maintaining, and making accessible query tools and decision support tools to access: historical, real-time and forecasted data; data summaries and visualizations; and hindcasts, forecasts, and scenario-derived predictions from statistical and mechanistic models. More specifically, the objectives are to:
1) Maintain and extend a secondary data repository of historical, real-time, and forecasted fish, environmental, and operational data from the Sacramento River and other river systems in the Central Valley, integrated from primary, public databases.
2) Maintain and improve the data query and visualization tools and services provided through the SacPAS website (https://www.cbr.washington.edu/sacramento/) for historical, real-time, and forecasted environmental and fish data.
3) Conduct research and provide access to modeling tools for fish survival and migration, through the SacPAS website, in support of Reclamation-funded and ESA-mandated activities, especially in efforts to predict, track, and evaluate the efficacy of proposed or actual actions.
The Wetland Regional Monitoring Program (WRMP) Fish and Fish Habitat Monitoring project is a collaborative effort to track biological responses to tidal wetland restoration in the San Francisco Estuary. Monthly sampling is conducted across a network of benchmark, reference, and project restoration sites in the South Bay and North Bay, with the goal of evaluating how wetland restoration influences fish assemblages, habitat use, and ecological condition.
The study uses primarily otter trawls to monitor fish and macroinvertebrate communities. Standardized field methods align with those used in long-term monitoring programs to ensure comparability and data integration across regions. Environmental data, including water temperature, salinity, and dissolved oxygen, are collected in tandem with biological sampling to assess habitat quality and seasonal dynamics.
The program addresses WRMP Guiding Question #4: How do policies, programs, and projects to protect and restore tidal marshes affect the distribution, abundance, and health of fish and wildlife? The data support adaptive management, regulatory compliance, and science-based restoration planning by identifying key habitats, tracking restoration performance, and detecting regional patterns in species composition and abundance over time.
