Sheila Murphy
Sheila Murphy is a Research Hydrologist for the USGS Water Resources Mission Area.
Sheila Murphy is a hydrologist who works on assessing and predicting how disturbances (such as wildfire and floods) affect water availability. In 2023 Sheila received a Superior Service Award from the Department of the Interior for making fundamental advancements in understanding the effects that wildfire can have on water supplies.
Science and Products
Filter Total Items: 60
Anthropocene landscape change and the legacy of nineteenth- and twentieth-century mining in the Fourmile Catchment, Colorado Front Range Anthropocene landscape change and the legacy of nineteenth- and twentieth-century mining in the Fourmile Catchment, Colorado Front Range
Human impacts on earth surface processes and materials are fundamental to understanding the proposed Anthropocene epoch. This study examines the magnitude, distribution, and long-term context of nineteenth- and twentieth-century mining in the Fourmile Creek catchment, Colorado, coupling airborne LiDAR topographic analysis with historical documents and field studies of river banks exposed...
Authors
David P. Dethier, William B. Ouimet, Sheila F. Murphy, Maneh Kotikian, Will Wicherski, Rachel M. Samuels
A method for quantifying cloud immersion in a tropical mountain forest using time-lapse photography A method for quantifying cloud immersion in a tropical mountain forest using time-lapse photography
Quantifying the frequency, duration, and elevation range of fog or cloud immersion is essential to estimate cloud water deposition in water budgets and to understand the ecohydrology of cloud forests. The goal of this study was to develop a low-cost and high spatial-coverage method to detect occurrence of cloud immersion within a mountain cloud forest by using time-lapse photography...
Authors
Maoya Bassiouni, Martha A. Scholl, Angel J. Torres-Sanchez, Sheila F. Murphy
Reassessing rainfall in the Luquillo Mountains, Puerto Rico: Local and global ecohydrological implications Reassessing rainfall in the Luquillo Mountains, Puerto Rico: Local and global ecohydrological implications
Mountains receive a greater proportion of precipitation than other environments, and thus make a disproportionate contribution to the world’s water supply. The Luquillo Mountains receive the highest rainfall on the island of Puerto Rico and serve as a critical source of water to surrounding communities. The area’s role as a long-term research site has generated numerous hydrological...
Authors
Sheila F. Murphy, Robert F. Stallard, Martha A. Scholl, Grizelle Gonzalez, Angel J. Torres-Sanchez
Critical zone properties control the fate of nitrogen during experimental rainfall in montane forests of the Colorado Front Range Critical zone properties control the fate of nitrogen during experimental rainfall in montane forests of the Colorado Front Range
Several decades of research in alpine ecosystems have demonstrated links among the critical zone, hydrologic response, and the fate of elevated atmospheric nitrogen (N) deposition. Less research has occurred in mid-elevation forests, which may be important for retaining atmospheric N deposition. To explore the fate of N in the montane zone, we conducted plot-scale experimental rainfall...
Authors
Eve-Lyn S. Hinckley, Brian A. Ebel, Rebecca T. Barnes, Sheila F. Murphy, Suzanne P. Anderson
Water-quality response to a high-elevation wildfire in the Colorado Front Range Water-quality response to a high-elevation wildfire in the Colorado Front Range
Water quality of the Big Thompson River in the Front Range of Colorado was studied for 2 years following a high‐elevation wildfire that started in October 2012 and burned 15% of the watershed. A combination of fixed‐interval sampling and continuous water‐quality monitors was used to examine the timing and magnitude of water‐quality changes caused by the wildfire. Prefire water quality...
Authors
M. Alisa Mast, Sheila F. Murphy, David W. Clow, Colin A. Penn, Graham A. Sexstone
The role of precipitation type, intensity, and spatial distribution in source water quality after wildfire The role of precipitation type, intensity, and spatial distribution in source water quality after wildfire
Storms following wildfires are known to impair drinking water supplies in the southwestern United States, yet our understanding of the role of precipitation in post-wildfire water quality is far from complete. We quantitatively assessed water-quality impacts of different hydrologic events in the Colorado Front Range and found that for a three-year period, substantial hydrologic and...
Authors
Sheila F. Murphy, Jeffrey H. Writer, R. Blaine McCleskey, Deborah A. Martin
Science and Products
Filter Total Items: 60
Anthropocene landscape change and the legacy of nineteenth- and twentieth-century mining in the Fourmile Catchment, Colorado Front Range Anthropocene landscape change and the legacy of nineteenth- and twentieth-century mining in the Fourmile Catchment, Colorado Front Range
Human impacts on earth surface processes and materials are fundamental to understanding the proposed Anthropocene epoch. This study examines the magnitude, distribution, and long-term context of nineteenth- and twentieth-century mining in the Fourmile Creek catchment, Colorado, coupling airborne LiDAR topographic analysis with historical documents and field studies of river banks exposed...
Authors
David P. Dethier, William B. Ouimet, Sheila F. Murphy, Maneh Kotikian, Will Wicherski, Rachel M. Samuels
A method for quantifying cloud immersion in a tropical mountain forest using time-lapse photography A method for quantifying cloud immersion in a tropical mountain forest using time-lapse photography
Quantifying the frequency, duration, and elevation range of fog or cloud immersion is essential to estimate cloud water deposition in water budgets and to understand the ecohydrology of cloud forests. The goal of this study was to develop a low-cost and high spatial-coverage method to detect occurrence of cloud immersion within a mountain cloud forest by using time-lapse photography...
Authors
Maoya Bassiouni, Martha A. Scholl, Angel J. Torres-Sanchez, Sheila F. Murphy
Reassessing rainfall in the Luquillo Mountains, Puerto Rico: Local and global ecohydrological implications Reassessing rainfall in the Luquillo Mountains, Puerto Rico: Local and global ecohydrological implications
Mountains receive a greater proportion of precipitation than other environments, and thus make a disproportionate contribution to the world’s water supply. The Luquillo Mountains receive the highest rainfall on the island of Puerto Rico and serve as a critical source of water to surrounding communities. The area’s role as a long-term research site has generated numerous hydrological...
Authors
Sheila F. Murphy, Robert F. Stallard, Martha A. Scholl, Grizelle Gonzalez, Angel J. Torres-Sanchez
Critical zone properties control the fate of nitrogen during experimental rainfall in montane forests of the Colorado Front Range Critical zone properties control the fate of nitrogen during experimental rainfall in montane forests of the Colorado Front Range
Several decades of research in alpine ecosystems have demonstrated links among the critical zone, hydrologic response, and the fate of elevated atmospheric nitrogen (N) deposition. Less research has occurred in mid-elevation forests, which may be important for retaining atmospheric N deposition. To explore the fate of N in the montane zone, we conducted plot-scale experimental rainfall...
Authors
Eve-Lyn S. Hinckley, Brian A. Ebel, Rebecca T. Barnes, Sheila F. Murphy, Suzanne P. Anderson
Water-quality response to a high-elevation wildfire in the Colorado Front Range Water-quality response to a high-elevation wildfire in the Colorado Front Range
Water quality of the Big Thompson River in the Front Range of Colorado was studied for 2 years following a high‐elevation wildfire that started in October 2012 and burned 15% of the watershed. A combination of fixed‐interval sampling and continuous water‐quality monitors was used to examine the timing and magnitude of water‐quality changes caused by the wildfire. Prefire water quality...
Authors
M. Alisa Mast, Sheila F. Murphy, David W. Clow, Colin A. Penn, Graham A. Sexstone
The role of precipitation type, intensity, and spatial distribution in source water quality after wildfire The role of precipitation type, intensity, and spatial distribution in source water quality after wildfire
Storms following wildfires are known to impair drinking water supplies in the southwestern United States, yet our understanding of the role of precipitation in post-wildfire water quality is far from complete. We quantitatively assessed water-quality impacts of different hydrologic events in the Colorado Front Range and found that for a three-year period, substantial hydrologic and...
Authors
Sheila F. Murphy, Jeffrey H. Writer, R. Blaine McCleskey, Deborah A. Martin