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Title	The Relative Contributions of Contaminants to Ecological Risk in the Upper San Francisco Estuary
Lead	Delta Stewardship Council - Delta Science Program
Description	This project developed methods to calculate risk of mixtures of pesticides for the Upper San Francisco Estuary (USFE). We used curve fitting to estimate the exposure-response curves for each individual chemical and then the mixture. For the mixtures, the models were normalized for specific ECx values. In that way, the curve fitting was optimized for effects that are comparable to most threshold values. A Bayesian network was built that incorporated five different pesticides and mercury. The input distributions of the contaminants were measured amounts from each of the six risk regions. We also explored three different methods of combining the results of the three pathways: additive, average, and expert judgement. The initial result was the BN model’s Predicted Fish Mortality (%). The Sensitivity analysis (mutual information) identified the most important components of the Bayesian network in determining the toxicity. The top two pathways were the Malathion/Diazinon Mortality pathway and the Mercury Mortality pathway. For the individual nodes Mercury, Bifenthrin and Season were key. Currently, we are completing the risk assessment network by adding Chinook salmon and Delta smelt population pathways to estimate risk to the six Risk Regions. A major accomplishment was the demonstration that curve fitting using additive models for mixtures can be used to estimate fish toxicity in this proof-of-concept model. Bifenthrin, the specific risk region, and season were the inputs that were most important to the calculation. Factors determining macroinvertebrate community structure were identified using multivariate tools. Water quality parameters were the most important in determining clusters of similar macrobenthic communities. Because contaminants were not statistically significant in determining these patterns, further analysis of macroinvertebrate community structure was postponed. At this time, the techniques applied in this program appear applicable to estimating risk due to the variety of chemicals and other stressors to the multiple endpoints under management in the USFE.
Science topics	None specified
Updated	November 12, 2025

Title	Delta Invasive Species Symposium
Lead	Delta Interagency Invasive Species Coordination Team [DIISCT]
Description	Since 2015, the DIISC Team has organized a biennial Delta Invasive Species Symposium. The symposium is a forum for Delta managers, researchers, and decision-makers to meet, share and synthesize information, and communicate best practices and lessons learned. https://deltaconservancy.ca.gov/diisc-team-activities/
Science topics	None specified
Updated	April 2, 2026

Title	Quick-Start Guide to Managing Invasive Aquatic Vegetation (IAV) in Tidal Wetland Habitats of the Sacramento-San Joaquin Delta and Suisun Marsh
Lead	Delta Interagency Invasive Species Coordination Team [DIISCT]
Description	This guide is intended to give land managers an introduction to managing invasive aquatic vegetation (IAV) in tidal wetland habitats, whether the site is established, has been recently restored, or tidal reconnection will soon occur. It addresses submerged aquatic vegetation (SAV), floating aquatic vegetation (FAV), and emergent aquatic vegetation (EAV). It compiles knowledge from land managers in the Delta and members of the Delta Interagency Invasive Species Coordination Team (DIISCT), whose purpose is to foster communication and collaboration among California state agencies, federal agencies, research and conservation groups, and other interested parties that detect, prevent, and manage invasive species and restore invaded habitats in the Delta. The authors hope this guide functions like asking an experienced colleague for recommendations as you start to consider your site’s IAV management. https://deltaconservancy.ca.gov/iav-quick-start-guide/
Science topics	Invasive and non native species
Updated	April 2, 2026

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The Relative Contributions of Contaminants to Ecological Risk in the Upper San Francisco Estuary

Delta Invasive Species Symposium

Quick-Start Guide to Managing Invasive Aquatic Vegetation (IAV) in Tidal Wetland Habitats of the Sacramento-San Joaquin Delta and Suisun Marsh