Neonicotinoids, a widely used class of systemic insecticides, have received lots of attention in recent years with research demonstrating a variety of lethal and sub-lethal impacts on bees and on other beneficial insects. There is also evidence of the effects of neonicotinoids on aquatic systems, with a growing number of studies showing impacts in prairie pothole wetlands of the northern Great Plains. With this as background, Xerces Society scientists began analyzing information about how neonicotinoids harm aquatic invertebrates and found a valuable resource in the detailed water quality sampling and pesticide-use records available from the California Department of Pesticide Regulation (DPR). This analysis found evidence of neonicotinoids in surface water at levels that will harm or even kill invertebrates. The findings are summarized in a new fact sheet, based on the results from our report, Neonicotinoids in California’s Surface Waters, which identifies the threats associated with contamination of California’s rivers and streams from the use of neonicotinoids, including the impacts such contamination may have on aquatic invertebrates and their habitat.
Because neonicotinoids are water-soluble, they can move easily from where they are applied into surface water. In comparing levels of neonicotinoids found in California’s surface waters with those known from studies to be harmful to aquatic invertebrates, our analysis shows that levels of imidacloprid (the oldest and most commonly used neonicotinoid) are frequently found in California’s surface water at levels that can harm and even kill sensitive aquatic invertebrates such as mayflies and other species critical to maintaining healthy freshwater ecosystems. Our findings also signal potential risks from other neonicotinoids, whose use is on the rise in California.
Neonicotinoid contamination has also been identified in other regions of the country, including a recent USGS study that found complex mixtures of pesticides in streams throughout the Midwest. Imidacloprid was a major contributor to toxicity in the samples analyzed, both from agricultural and urban settings. Research has also found that imidacloprid is not removed in many water treatment plants.
Despite many studies showing that neonicotinoids commonly occur in surface water at levels which may cause harm, the U.S. EPA has still not proposed any federal action to protect aquatic systems, and has set comparatively high water-quality reference values for imidacloprid. These values determine the level at which the concentration of the insecticide in a body of water is high enough to trigger action. In comparison, the European Union and Canada have established vastly lower levels at which contamination from imidacloprid would prompt a regulatory response.
California DPR has been involved in assessing the risks of neonicotinoids along with U.S. EPA, and has expressed concerns about aquatic contamination. DPR has the knowledge and authority to act in addressing the risks associated with neonicotinoid contamination of the state’s rivers and streams. In the face of abundant science and research into the risks associated with neonicotinoid contamination of our rivers and streams, Xerces urges DPR to take a greater role to protect California’s fragile aquatic ecosystems.
Further Reading
Report: Neonicotinoids in California’s Surface Waters
Protecting Waters from Pesticides
Scientists Urge Action to Protect Waters from Neonicotinoid Insecticides
Smarter Pest Management: Protecting Pollinators at Home
Aimée Code joined the Xerces Society in 2013 to direct its new pesticide program. In that role, she has built a program focused on securing practices and policies that promote ecologically sound pest management. She and her staff evaluate the risks of pesticides, develop technical guidance, and advocate for actions that reduce reliance on and risks of pesticide use in both urban and agricultural settings. Aimée received her master's of science in environmental health with a minor in toxicology from Oregon State University.
