Sheila Murphy
Sheila Murphy is a Research Hydrologist for the USGS Water Resources Mission Area.
Sheila Murphy is a research hydrologist who focuses on how disturbances (such as wildfire, floods, hurricanes, land use change) alter watershed response, water quality, and water quantity. Her recent research has evaluated the effects of wildfire on water quality in the western U.S., and the hydrologic and geochemical responses to land cover change and hurricanes in a tropical forest in Puerto Rico.
Science and Products
Filter Total Items: 58
Effects of wildfire on source-water quality and aquatic ecosystems, Colorado Front Range
Watershed erosion can dramatically increase after wildfire, but limited research has evaluated the corresponding influence on source-water quality. This study evaluated the effects of the Fourmile Canyon wildfire (Colorado Front Range, USA) on source-water quality and aquatic ecosystems using high- frequency sampling. Dissolved organic carbon (DOC) and nutrient loads in stream water were...
Authors
Jeffrey H. Writer, R. Blaine McCleskey, Sheila F. Murphy
Water chemistry of surface waters affected by the Fourmile Canyon wildfire, Colorado, 2010-2011
In September 2010, the Fourmile Canyon fire burned about 23 percent of the Fourmile Creek watershed in Boulder County, Colo. Water-quality sampling of Fourmile Creek began within a month after the wildfire to assess its effects on surface-water chemistry. Water samples were collected from five sites along Fourmile Creek (above, within, and below the burned area) monthly during base flow...
Authors
R. Blaine McCleskey, Jeffrey H. Writer, Sheila F. Murphy
Water quality and landscape processes of four watersheds in eastern Puerto Rico
Humid tropical regions occupy about a quarter of Earth's land surface, yet they contribute a substantially higher fraction of the water, solutes, and sediment discharged to the world's oceans. Nearly half of Earth's population lives in the tropics, and development stresses can potentially harm soil resources, water quality, and water supply and in addition increase landslide and flood...
Authors
Sheila F. Murphy, Robert F. Stallard, Heather L. Contributions by Buss, William A. Gould, Matthew C. Larsen, Zhigang Liu, Sebastian Martinuzzi, Isabel K. Pares-Ramos, Arthur F. White, Xiaoming Zou
Wildfire effects on source-water quality--Lessons from Fourmile Canyon fire, Colorado, and implications for drinking-water treatment
Forested watersheds provide high-quality source water for many communities in the western United States. These watersheds are vulnerable to wildfires, and wildfire size, fire severity, and length of fire season have increased since the middle 1980s (Westerling and others, 2006). Burned watersheds are prone to increased flooding and erosion, which can impair water-supply reservoirs, water...
Authors
Jeffrey H. Writer, Sheila F. Murphy
Primary factors affecting water quality and quantity in four watersheds in Eastern Puerto Rico
As part of the U.S. Geological Survey (USGS) Water, Energy, and Biogeochemical Budgets (WEBB) program, four small watersheds in eastern Puerto Rico were monitored to identify and evaluate the effects of geology, landcover, atmospheric deposition, and other factors on stream water quality and quantity. Two catchments are located on coarse-grained granitic plutonic rocks, which weather to...
Authors
Sheila F. Murphy, Robert F. Stallard
Selected achievements, science directions, and new opportunities for the WEBB small watershed research program
Over nearly two decades, the Water, Energy, and Biogeochemical Budgets (WEBB) small watershed research program of the U.S. Geological Survey (USGS) has documented how water and solute fluxes, nutrient, carbon, and mercury dynamics, and weathering and sediment transport respond to natural and humancaused drivers, including climate, climate change, and atmospheric deposition. Together with...
Authors
Pierre D. Glynn, Matthew C. Larsen, Earl A. Greene, Heather L. Buss, David W. Clow, Randall J. Hunt, M. Alisa Mast, Sheila F. Murphy, Norman E. Peters, Stephen D. Sebestyen, James B. Shanley, John F. Walker
Boulder Creek: A stream ecosystem in an urban landscape
The Boulder Creek Watershed, within the Front Range region of Colorado, is typical of many western watersheds because it is composed of a high-gradient upper reach mostly fed by snowmelt, a substantial change in gradient at the range front, and an urban corridor within the lower gradient section. A stream ecosystem within an urban landscape not only can provide water for municipal...
Authors
Philip L. Verplanck, Sheila F. Murphy, Peter W. Birkeland, Pitlick, Larry B. Barber, Travis S. Schmidt
State of the watershed: Water quality of Boulder Creek, Colorado
No abstract available.
Authors
Sheila F. Murphy
Water quality of the Boulder Creek watershed, Colorado
No abstract available.
Authors
Philip L. Verplanck, Sheila F. Murphy, Larry Billingsley Barber
Comprehensive water quality of the Boulder Creek Watershed, Colorado, during high-flow and low-flow conditions, 2000
Executive SummaryThe Boulder Creek Watershed, Colorado, is 1160 square kilometers in area and ranges in elevation from 1480 to 4120 meters above sea level. Streamflow originates primarily as snowmelt near the Continental Divide, and thus discharge varies seasonally and annually (Chapter 1). Most of the water in Boulder Creek is diverted for domestic, agricultural, and industrial use...
Science and Products
Filter Total Items: 58
Effects of wildfire on source-water quality and aquatic ecosystems, Colorado Front Range
Watershed erosion can dramatically increase after wildfire, but limited research has evaluated the corresponding influence on source-water quality. This study evaluated the effects of the Fourmile Canyon wildfire (Colorado Front Range, USA) on source-water quality and aquatic ecosystems using high- frequency sampling. Dissolved organic carbon (DOC) and nutrient loads in stream water were...
Authors
Jeffrey H. Writer, R. Blaine McCleskey, Sheila F. Murphy
Water chemistry of surface waters affected by the Fourmile Canyon wildfire, Colorado, 2010-2011
In September 2010, the Fourmile Canyon fire burned about 23 percent of the Fourmile Creek watershed in Boulder County, Colo. Water-quality sampling of Fourmile Creek began within a month after the wildfire to assess its effects on surface-water chemistry. Water samples were collected from five sites along Fourmile Creek (above, within, and below the burned area) monthly during base flow...
Authors
R. Blaine McCleskey, Jeffrey H. Writer, Sheila F. Murphy
Water quality and landscape processes of four watersheds in eastern Puerto Rico
Humid tropical regions occupy about a quarter of Earth's land surface, yet they contribute a substantially higher fraction of the water, solutes, and sediment discharged to the world's oceans. Nearly half of Earth's population lives in the tropics, and development stresses can potentially harm soil resources, water quality, and water supply and in addition increase landslide and flood...
Authors
Sheila F. Murphy, Robert F. Stallard, Heather L. Contributions by Buss, William A. Gould, Matthew C. Larsen, Zhigang Liu, Sebastian Martinuzzi, Isabel K. Pares-Ramos, Arthur F. White, Xiaoming Zou
Wildfire effects on source-water quality--Lessons from Fourmile Canyon fire, Colorado, and implications for drinking-water treatment
Forested watersheds provide high-quality source water for many communities in the western United States. These watersheds are vulnerable to wildfires, and wildfire size, fire severity, and length of fire season have increased since the middle 1980s (Westerling and others, 2006). Burned watersheds are prone to increased flooding and erosion, which can impair water-supply reservoirs, water...
Authors
Jeffrey H. Writer, Sheila F. Murphy
Primary factors affecting water quality and quantity in four watersheds in Eastern Puerto Rico
As part of the U.S. Geological Survey (USGS) Water, Energy, and Biogeochemical Budgets (WEBB) program, four small watersheds in eastern Puerto Rico were monitored to identify and evaluate the effects of geology, landcover, atmospheric deposition, and other factors on stream water quality and quantity. Two catchments are located on coarse-grained granitic plutonic rocks, which weather to...
Authors
Sheila F. Murphy, Robert F. Stallard
Selected achievements, science directions, and new opportunities for the WEBB small watershed research program
Over nearly two decades, the Water, Energy, and Biogeochemical Budgets (WEBB) small watershed research program of the U.S. Geological Survey (USGS) has documented how water and solute fluxes, nutrient, carbon, and mercury dynamics, and weathering and sediment transport respond to natural and humancaused drivers, including climate, climate change, and atmospheric deposition. Together with...
Authors
Pierre D. Glynn, Matthew C. Larsen, Earl A. Greene, Heather L. Buss, David W. Clow, Randall J. Hunt, M. Alisa Mast, Sheila F. Murphy, Norman E. Peters, Stephen D. Sebestyen, James B. Shanley, John F. Walker
Boulder Creek: A stream ecosystem in an urban landscape
The Boulder Creek Watershed, within the Front Range region of Colorado, is typical of many western watersheds because it is composed of a high-gradient upper reach mostly fed by snowmelt, a substantial change in gradient at the range front, and an urban corridor within the lower gradient section. A stream ecosystem within an urban landscape not only can provide water for municipal...
Authors
Philip L. Verplanck, Sheila F. Murphy, Peter W. Birkeland, Pitlick, Larry B. Barber, Travis S. Schmidt
State of the watershed: Water quality of Boulder Creek, Colorado
No abstract available.
Authors
Sheila F. Murphy
Water quality of the Boulder Creek watershed, Colorado
No abstract available.
Authors
Philip L. Verplanck, Sheila F. Murphy, Larry Billingsley Barber
Comprehensive water quality of the Boulder Creek Watershed, Colorado, during high-flow and low-flow conditions, 2000
Executive SummaryThe Boulder Creek Watershed, Colorado, is 1160 square kilometers in area and ranges in elevation from 1480 to 4120 meters above sea level. Streamflow originates primarily as snowmelt near the Continental Divide, and thus discharge varies seasonally and annually (Chapter 1). Most of the water in Boulder Creek is diverted for domestic, agricultural, and industrial use...