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Colorado Water Science Center

Welcome to the USGS Colorado Water Science Center!  Please use these pages to explore the hydrologic data and scientific investigations we conduct on Colorado water resources.

NOTICE: USGS is improving the way that sample data are stored and served to the public.

News

USGS provides easy access to Colorado River science with new online portal

USGS provides easy access to Colorado River science with new online portal

USGS hydrologic study to use non-toxic green dye in Lake Fork Creek

USGS hydrologic study to use non-toxic green dye in Lake Fork Creek

MEDIA ALERT: One of Colorado’s deadliest natural disasters on record began 47 years ago today

MEDIA ALERT: One of Colorado’s deadliest natural disasters on record began 47 years ago today

Publications

PFAS river export analysis highlights the urgent need for catchment-scale mass loading data

Source apportionment of per- and polyfluoroalkyl substances (PFAS) requires an understanding of the mass loading of these compounds in river basins. However, there is a lack of temporally variable and catchment-scale mass loading data, meaning identification and prioritization of sources of PFAS to rivers for management interventions can be difficult. Here, we analyze PFAS concentrations and loads
Authors
Patrick Byrne, William M. Mayes, Alun L. James, Sean Comber, Emma Biles, Alex Riley, Robert L. Runkel

Aquatic carbon export and dynamics in mountain headwater streams of the western U.S.

Mountain headwater streams actively cycle carbon, receiving it from terrestrial landscapes and exporting it through downstream transport and gas exchange with the atmosphere. Although their importance is now widely recognized, aquatic carbon fluxes in headwater streams remain poorly characterized. In this study, aquatic carbon fluxes were measured in 15 mountain headwater streams and were used in
Authors
David W. Clow, Garrett Alexander Akie, Robert G. Striegl, Colin Penn, Graham A. Sexstone, Gabrielle L. Keith

Snowpack relative permittivity and density derived from near-coincident lidar and ground-penetrating radar

Depth-based and radar-based remote sensing methods (e.g., lidar, synthetic aperture radar) are promising approaches for remotely measuring snow water equivalent (SWE) at high spatial resolution. These approaches require snow density estimates, obtained from in-situ measurements or density models, to calculate SWE. However, in-situ measurements are operationally limited, and few density models have
Authors
Randall Bonnell, Daniel McGrath, Andrew Hedrick, Ernesto Trujillo, Tate Meehan, Keith Williams, Hans-Peter Marshall, Graham A. Sexstone, John Fulton, Michael Ronayne, Steven R. Fassnacht, Ryan Webb, Katherine Hale

Science

Biologically Active Chemical Research Core Technology Team

About the Research. The Biologically Active Chemicals Research Core Technology Team (CTT) as part of the Environmental Health Program conducts field and laboratory research on the occurrence, fate, and effects of complex mixtures of biologically active organic and inorganic chemicals in aquatic environments.
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Biologically Active Chemical Research Core Technology Team

About the Research. The Biologically Active Chemicals Research Core Technology Team (CTT) as part of the Environmental Health Program conducts field and laboratory research on the occurrence, fate, and effects of complex mixtures of biologically active organic and inorganic chemicals in aquatic environments.
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Isotopic and environmental tracers for improved understanding of geochemical and hydrologic processes occurring near flooded mine workings

Draining mine tunnels contribute metals and acidity to streams throughout the western United States. One remediation strategy that is increasing in usage is the emplacement of hydraulic bulkheads to impound water within the subsurface. Potential secondary effects of bulkhead usage are difficult to quantify however because of the inherent complexity of most mountain hydrologic systems. In...
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Isotopic and environmental tracers for improved understanding of geochemical and hydrologic processes occurring near flooded mine workings

Draining mine tunnels contribute metals and acidity to streams throughout the western United States. One remediation strategy that is increasing in usage is the emplacement of hydraulic bulkheads to impound water within the subsurface. Potential secondary effects of bulkhead usage are difficult to quantify however because of the inherent complexity of most mountain hydrologic systems. In...
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USGS Science in the Three Lakes System

The Three Lakes System of Colorado includes Grand Lake, Shadow Mountain Reservoir, and Granby Reservoir. This system is located within the headwaters of the Upper Colorado River Basin and is near the west entrance of Rocky Mountain National Park. The town of Grand Lake is a popular recreational location within Colorado, and the Three Lakes System provides year-round activities including swimming...
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USGS Science in the Three Lakes System

The Three Lakes System of Colorado includes Grand Lake, Shadow Mountain Reservoir, and Granby Reservoir. This system is located within the headwaters of the Upper Colorado River Basin and is near the west entrance of Rocky Mountain National Park. The town of Grand Lake is a popular recreational location within Colorado, and the Three Lakes System provides year-round activities including swimming...
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