Drinking Water and Wastewater Infrastructure Science Team

In recent years, per- and polyfluoroalkyl substances (PFAS), have gained attention for their environmental presence; however, the term "ubiquitous" used to describe them can be misleading. USGS scientists push to use more precise language such as "widespread" and “commonly detected” to avoid confusion and misinformation. This distinction is crucial for understanding the actual occurrence of PFAS...

The Potomac River is a major watershed in the eastern United States that serves as a crucial water supply for millions of people. USGS researchers conducted a comprehensive investigation to identify the contributions of municipal and industrial wastewater treatment plant effluent to the levels of per-and polyfluoroalkyl substances (PFAS) in the Potomac River. This study included measuring PFAS...

The USGS Environmental Health Program seeks to understand how environmental factors, especially contaminants and pathogens, influence human health and ecosystems. It focuses on studying the distribution and effects of toxic substances, environmental stressors, and their pathways. The program prioritizes collaboration with State, Federal and local governments; Tribes; non-government organizations...

The USGS Environmental Health (EH) Program research where per- and polyfluoroalkyl substances PFAS are found, how they move and change in the environment, how they might affect both ecosystems and human health, and ways to reduce their impact. The three teams focusing on these issues within the EH Program include: 1) the PFAS Integrated Science Team, 2) the PFAS Core Technology Team, and 3) the...

The growing concern of finding per- and polyfluoroalkyl substances (PFAS) in drinking water has led USGS scientists to conduct more comprehensive analyses that encompass an extensive list of compounds that can be found in drinking water. These analyses will develop a more complete drinking water contaminant list that managers can use to make more informed public health decisions.

The Environmental Health Program integrates multidisciplinary research to tackle the environmental challenges that impact the nation's natural resource assets. By providing comprehensive research and data, the program assesses both actual and perceived risks associated with environmental contaminants and pathogens while supporting a variety of uses of our natural resources.

The Per- and Polyfluoroalkyl Substance (PFAS) Core Technology Team (CTT) within the Environmental Health Program partners with external and internal stakeholders to develop and apply analytical methods for measuring PFAS in complex matrices, addressing environmental health issues related to transport, distribution, fate, effects, and exposure.

USGS recently (2024) released a strategic vision document that identifies science gaps and prioritizes research relevant to the mission, expertise, and capabilities of the USGS. The intention is for USGS and stakeholders to use this as a starting part for planning, prioritizing, and designing microplastic research projects.

U.S. Geological Survey (USGS) scientists investigated the movement of human-generated chemicals, such as pharmaceuticals and per- and polyfluorinated substances (PFAS), in groundwater along the South Rim of the Grand Canyon. This research led to a better understanding of the movement of wastewater into groundwater, of complex underground flow patterns, and of chemicals present in springs near...

The team studies toxicants and pathogens in water resources from their sources, through watersheds, aquifers, and infrastructure to human and wildlife exposures. That information is used to develop decision tools that protect human and wildlife health.

A new interactive dashboard is available to visualize PFAS measurements for 716 tap water samples collected at select sites across the nation between 2016 and 2021 from private and public supplies.

Per- and polyfluoroalkyl substances (PFAS) uptake and bioconcentration by fish and mussels ─ housed in mobile laboratories at a legacy fire-training area contaminated by aqueous film-forming foams ─ varied by species, sex, and compound. PFAS in passive samplers deployed at the same time mimicked uptake by fish but not mussels indicating that passive samplers might prove useful as screening tools...