Two USGS scientists collecting surface water samples in the Rabenberg Waterfowl Protection Area, Montana, as part of an effort to study if historic oil and gas production in the Williston Basin has impacted amphibians in the Prairie Pothole Region.
Chauncey Anderson
Welcome to the Staff Profile for Chauncey Anderson, Hydrologist and Water Quality Specialist at USGS Oregon Water Science Center in Portland, Oregon.
Chauncey Anderson is a Hydrologist and Water Quality Specialist for the USGS Oregon Water Science Center (ORWSC), where he has worked since 1991. He studies the effects of land and water management on aquatic resources; primarily water quality, sediment, and ecosystem responses, in Oregon and nationally. He has worked extensively around the hydrologic impacts of reservoir operations. In 2009-2013, he was Co-Chair of the Water Quality Subteam for the Secretarial Determination on the Klamath Hydroelectric Settlement Agreement, and currently works on other Klamath Basin issues. Since 2000 he has also studied hydrologic and water quality effects on amphibians as part of USGS's Amphibian Research and Monitoring Initiative, or ARMI. He is the author of the USGS' national protocol on measurement of turbidity in water, which led him to work on the use of turbidity and other continuously measured surrogates to estimate real-time concentrations of suspended sediment and other constituents in water.
Education and Certifications
B.S. Chemistry, Lewis and Clark College, Portland, Oregon (1982)
M.S.E. Environmental Engineering/Limnology, University of Washington, Seattle, Washington (1991)
Science and Products
Upper Klamath Basin Studies and Data Collection
Klamath Dam Removal Studies
Dam removal: synthesis of ecological and physical responses
Input and output data for the Precipitation-Runoff Modeling System (PRMS) used to predict seasonal water availability during 2000-2015 in the Upper Klamath River Basin, Oregon and California
Sediment grain-size data from the Klamath estuary, California
Sediment grain-size data from the Klamath estuary, California
Chloride in water, metals in sediment and amphibian tissues and amphibian capture information from wetlands in the Williston Basin of Montana and North Dakota, 2015-2017
Two USGS scientists collecting surface water samples in the Rabenberg Waterfowl Protection Area, Montana, as part of an effort to study if historic oil and gas production in the Williston Basin has impacted amphibians in the Prairie Pothole Region.
Harmful Algal Blooms (HABs) in Oregon
A call for strategic water-quality monitoring to advance assessment and prediction of wildfire impacts on water supplies
Monitoring wetland water quality related to livestock grazing in amphibian habitats
Refining the Baseline Sediment Budget for the Klamath River, California
Four dams in the Klamath River Hydroelectric Project (KHP) in Oregon and California (Figure 1) are currently scheduled to be removed over a period of a few weeks or months, beginning in January 2021. The Klamath dam removal will be the largest in the world by almost all measures, and is an unprecedented opportunity to advance science of river responses to such events. The KHP contains approximatel
Predicting attenuation of salinized surface- and groundwater-resources from legacy energy development in the Prairie Pothole Region
Associations between environmental pollutants and larval amphibians in wetlands contaminated by energy-related brines are potentially mediated by feeding traits
Conceptualizing ecological responses to dam removal: If you remove it, what's to come?
Effects of persistent energy-related brine contamination on amphibian abundance in national wildlife refuge wetlands
Widespread legacy brine contamination from oil production reduces survival of chorus frog larvae
Dam removal: Listening in
Landscape context and the biophysical response of rivers to dam removal in the United States
Potential concerns with analytical Methods Used for the detection of Batrachochytrium salamandrivorans from archived DNA of amphibian swab samples, Oregon, USA
Science and Products
Upper Klamath Basin Studies and Data Collection
Klamath Dam Removal Studies
Dam removal: synthesis of ecological and physical responses
Input and output data for the Precipitation-Runoff Modeling System (PRMS) used to predict seasonal water availability during 2000-2015 in the Upper Klamath River Basin, Oregon and California
Sediment grain-size data from the Klamath estuary, California
Sediment grain-size data from the Klamath estuary, California
Chloride in water, metals in sediment and amphibian tissues and amphibian capture information from wetlands in the Williston Basin of Montana and North Dakota, 2015-2017
Two USGS scientists collecting surface water samples in the Rabenberg Waterfowl Protection Area, Montana, as part of an effort to study if historic oil and gas production in the Williston Basin has impacted amphibians in the Prairie Pothole Region.
Two USGS scientists collecting surface water samples in the Rabenberg Waterfowl Protection Area, Montana, as part of an effort to study if historic oil and gas production in the Williston Basin has impacted amphibians in the Prairie Pothole Region.
Harmful Algal Blooms (HABs) in Oregon
A call for strategic water-quality monitoring to advance assessment and prediction of wildfire impacts on water supplies
Monitoring wetland water quality related to livestock grazing in amphibian habitats
Refining the Baseline Sediment Budget for the Klamath River, California
Four dams in the Klamath River Hydroelectric Project (KHP) in Oregon and California (Figure 1) are currently scheduled to be removed over a period of a few weeks or months, beginning in January 2021. The Klamath dam removal will be the largest in the world by almost all measures, and is an unprecedented opportunity to advance science of river responses to such events. The KHP contains approximatel