The overarching AIS goal is that "Risks of aquatic invasive species invasions are substantially reduced, and their economic, ecological, and human health impacts are minimized. This goal is addressed through a series of performance and workload measures. The AIS Program provides funding for Aquatic Invasive Species Coordinators for each Region within the Service and their respective aquatic nuisance species activities. These coordinators work closely with the public and private sector to develop and implement invasive species projects. One of the primary initiatives of the program is the prevention of invasive species via boats through the "100th Meridian Initiative" (overseen by individual AIS regional coordinators). This initiative aims to prevent the spread of aquatic invasive species by boats personal watercraft and other pathways. Through boat inspections and boaters assessments along the 100th meridian, partners can learn how to prevent the spread of zebra mussels and other AIS via transport of boats and personal watercraft.
The National Wetland Condition Assessment (NWCA) is a statistical survey that begins to address some of the gaps in our understanding of wetland health by providing information on the ecological condition of the nation's wetlands and stressors most commonly associated with poor condition. The NWCA is designed to answer basic questions about the extent to which our nation's wetlands support healthy ecological conditions and the prevalence of key stressors at the national and regional scale. It is intended to complement and build upon the achievements of the U.S. Fish and Wildlife Service Wetland Status and Trends Program, which characterizes changes in wetland acreage across the conterminous United States. Paired together, these two efforts provide government agencies, wetland scientists, and the public with comparable, scientifically defensible information documenting the current status and, ultimately, trends in both wetland quantity (i.e., area) and quality (i.e., ecological condition).
Invasive aquatic vegetation (IAV) is a threat to aquatic ecosystems worldwide, leading to a major loss of biodiversity and extensive damages and costs to human uses of those ecosystems. The Sacramento-San Joaquin River Delta (the “Delta”) is the hub of California’s water system, supporting over 35 million water users and a $54 billion agricultural industry. The Delta reform act mandates management decisions meet both water supply needs while maintaining the ecological function of the system. The Delta is a global biodiversity hotspot, and the focal point of $750-$950 million in restoration. It has also been called one of the most invaded estuaries in the world. Over the past 15 years, submerged and floating IAV have more than doubled in extent, threatening water supply and ecosystem health of the Delta. There is mounting evidence that herbicide treatments are not effective, and that water management actions, and wetland restoration may be having huge impacts on IAV. This presents both a risk to increasing IAV, but also an opportunity to prevent and even effectively combat IAV through considered water management actions and better restoration planning, meeting the state’s co-equal goals of water security and Delta ecosystem conservation.
This project will meet the needs of multiple state agencies by advancing operational Earth observation-based monitoring program for community-level submerged aquatic vegetation (SAV) and genus-level floating aquatic vegetation (FAV) and modeling tools to enable the Delta management community to assess the effect of previous management actions on IAV and forecast the effects of future actions to inform multi-agency decision making. Specifically, this work will 1) Operationalize IAV class mapping using Sentinel-2 satellite imagery, 2) Finalize and validate species distribution Models (SDM) for SAV community and FAV at genus-level to assess the impacts of previous water actions on IAV and predict IAV distribution in future scenarios, 3) Co-design IAV-based performance metrics to inform future actions.
The proposed project fills a critical data gap in monitoring for state and federal agencies and stakeholders by implementing the first sustainable mapping effort for IAV. Monthly and seasonal estimates of SAV and FAV coverage will enable the Delta Stewardship Council to improve their performance metrics for evaluation of the Delta Plan and will help the Interagency Ecological Program assess whether management is meeting the co-equal goals for the Delta. Species distribution models will enable Department of Water Resources to evaluate how previous restoration flow actions have affected the spread and persistence of IAV and incorporate what they learn into future Structured Decision Making to better account for negative consequences of IAV when setting future restoration targets and implementing actions.
Water primrose (Ludwigia spp.) is a highly invasive, non-native floating macrophyte in the Delta. In recent years, water primrose has extended its niche into marsh habitat, causing extensive mortality of marsh macrophytes including tules and cattails. The goal of this project is to determine whether the growth strategy of water primrose, its allelopathic properties, or factors related to plant community structure are the cause of marsh loss following water primrose invasion in the Delta. Part of this study will identify and map the marshes most vulnerable to loss and quantify the spatial trajectory of marsh loss during the past 15 years. The ultimate benefit will be an improved understanding of the water primrose invasion processes in the Delta, which can be used to prioritize herbicide treatment of this highly invasive plant in marshes most vulnerable to invasion and with the highest habitat value.
Objectives:
Invasive aquatic macrophytes (aquatic weeds) cover increased dramatically in the Sacramento-San Joaquin Delta (Delta) during the 2013-2015 drought and the 2021-2023 drought. This trend toward increasing dominance of these invasive aquatic weeds has profound implications for delta/marsh habitat, as aquatic weeds are known to significantly alter the physical environment by slowing water velocities, increasing water clarity, providing habitat for invasive fishes, and reducing open water habitat. These habitat effects are thought to negatively impact the endangered Delta Smelt and other pelagic species that rely on turbid, open water habitat. During the drought of 2021- 2023, aquatic weeds have continued to spread into new habitats, therefore there is an urgent need to identify effective control measures, which requires increased understanding of ecosystem responses to drought and associated environmental conditions in the waterways (e.g., water temperature, flow rates, turbidity, etc.), and specific control measures.
The work covered in this contract includes the 2021-2023 Emergency Drought Salinity Barrier Monitoring Plan mandated under DWR’s Incidental Take Permit. Research has focused on understanding invasion patterns in Franks Tract and contrasting them with patterns in channels surrounding Liberty Island and restoration sites. We also analyze Suisun marsh to assess the condition near the salinity drought barrier on Montezuma Slough, and its impacts across the length of Montezuma Slough and relate observed patterns to salinity conditions in Suisun Slough.
Extensive field work has been conducted throughout the Delta and in Suisun Marsh to acquire data that is used to train and evaluate remotely sensed maps of aquatic weed distribution and link these to measurements of water quality. This project extends the time period of continued mapping of aquatic vegetation in the Delta through summer of 2027, for a time series that goes back to 2004, covering 19 years of high spatial resolution hyperspectral imagery data. This dataset now encompasses the full range of hydrologic conditions that extend from wet years to extremely dry years which can potentially form the basis for interpreting causal relationships and changes in trait distributions of aquatic weeds. Aquatic weed mapping combined with an extensive field campaign within the Suisun Marsh extends the Suisun time series to seven years. This growing time series of vegetation maps for both the Delta and Suisun Marsh can be leveraged to look at the evolution of tidal wetland restoration sites developed by DWR’s Fish Restoration Program (FRP) as part of the Incidental Take Permit. This analysis covers construction to current time period to see if different restoration strategies (pre-planting, no pre-action, treating invasive species outside the site, etc.) have an impact on the growth and maturity of a site, invasibility, etc. Additionally, the full time series will be evaluated for trends related to weather/climate, water conditions, and management actions.
Invasive aquatic macrophytes (aquatic weeds) cover increased dramatically in the Sacramento-San Joaquin Delta during the 2013-2015 drought and the 2021-2023 drought. This trend toward increasing dominance of these invasive aquatic weeds has profound implications for delta/marsh habitat, as aquatic weeds are known to significantly alter the physical environment by slowing water velocities, increasing water clarity, providing habitat for invasive fishes, and reducing open water habitat. These habitat effects are thought to negatively impact the endangered Delta Smelt and other pelagic species that rely on turbid, open water habitat.
Different state and federal agencies have funded the acquisition of airborne spectroscopy data over the legal Delta since 2004. However, this long dataset has a critical 5-year gap in data acquisition during one of the most severe droughts that California has seen. This project is focused on inventorying any high spatial resolution satellite imagery that may have been taken over the legal delta, processing and analyzing it and mapping it to fill this 5-year gap in the only existing large-scale monitoring and mapping effort focused on aquatic macrophytes in the Delta.
The main objective of the study is map the satellite "gap-fill" imagery using the same methods used for the spectroscopy airborne data and creating and publishing a time series of those maps that could then potentially be used as a 21-year continuous dataset of floating and submerged aquatic macrophytes distribution in the Delta. Further, these maps will be used to study the effect of nutrients and management activities on the distribution of these invasive species.
