Martha A Scholl
Martha Scholl is a research hydrologist in the Earth System Processes Division, Water Cycle Branch of the USGS Water Resources Mission Area. Her work includes synthesizing stable isotope tracer methods with precipitation and land cover characteristics to determine climate patterns that control groundwater recharge and streamflow.
M.S. 1989 University of Virginia, Environmental Sciences (Hydrology)
B.S. 1985 University of Minnesota Duluth, Geology
Research topics:
Water availability in forested mountain watersheds: Mountain forests provide a steady, sustainable supply of high-quality water, and our research aims to improve understanding of the geologic, land cover and atmospheric interactions that affect this important resource.
Ecohydrology of cloud forests and coastal fog systems: Cloud water and fog inputs sustain important coastal and mountain ecosystems on six continents. Our research aims to quantify this unmeasured precipitation source in the water balance, including contributions to soil moisture, transpiration suppression, recharge and streamflow.
Science and Products
Stable hydrogen and oxygen isotopic compositions of precipitation samples from selected Colorado and Utah National Atmospheric Deposition Program (NADP) sites
Stable hydrogen and oxygen isotopic compositions of precipitation samples from selected Delaware, Maryland, New Jersey, New York, and Pennsylvania National Atmospheric Deposition Program (NADP) sites
Temperature, relative humidity and cloud immersion data for Luquillo Mountains, eastern Puerto Rico, 2014-2019
Geospatial data for Luquillo Mountains, Puerto Rico: Mean annual precipitation, elevation, watershed outlines, and rain gage locations
Supplementary Data for Method for Quantifying Cloud Immersion in a Tropical Mountain Forest Using Time-Lapse Photography
Extreme rainstorms drive exceptional organic carbon export from forested humid-tropical rivers in Puerto Rico
Forest cover lessens the impact of drought on streamflow in Puerto Rico
Anomalous noble gas solubility in liquid cloud water: Possible implications for noble gas temperatures and cloud physics
Drought stress and hurricane defoliation influence mountain clouds and moisture recycling in a tropical forest
Mountain ranges generate clouds, precipitation, and perennial streamflow for water supplies, but the role of forest cover in mountain hydrometeorology and cloud formation is not well understood. In the Luquillo Experimental Forest of Puerto Rico, mountains are immersed in clouds nightly, providing a steady precipitation source to support the tropical forest ecosystems and human uses. A severe drou
Groundwater dynamics at Kīlauea Volcano and vicinity, Hawaiʻi
A 42 year inference of cloud base height trends in the Luquillo Mountains of northeastern Puerto Rico
Seasonality of stable isotope composition of atmospheric water input at the southern slopes of Mt. Kilimanjaro, Tanzania
A method for quantifying cloud immersion in a tropical mountain forest using time-lapse photography
Reassessing rainfall in the Luquillo Mountains, Puerto Rico: Local and global ecohydrological implications
Analyzing cloud base at local and regional scales to understand tropical montane cloud forest vulnerability to climate change
Noble gas signatures in the Island of Maui, Hawaii: Characterizing groundwater sources in fractured systems
Tropical river suspended sediment and solute dynamics in storms during an extreme drought
Science and Products
Stable hydrogen and oxygen isotopic compositions of precipitation samples from selected Colorado and Utah National Atmospheric Deposition Program (NADP) sites
Stable hydrogen and oxygen isotopic compositions of precipitation samples from selected Delaware, Maryland, New Jersey, New York, and Pennsylvania National Atmospheric Deposition Program (NADP) sites
Temperature, relative humidity and cloud immersion data for Luquillo Mountains, eastern Puerto Rico, 2014-2019
Geospatial data for Luquillo Mountains, Puerto Rico: Mean annual precipitation, elevation, watershed outlines, and rain gage locations
Supplementary Data for Method for Quantifying Cloud Immersion in a Tropical Mountain Forest Using Time-Lapse Photography
Extreme rainstorms drive exceptional organic carbon export from forested humid-tropical rivers in Puerto Rico
Forest cover lessens the impact of drought on streamflow in Puerto Rico
Anomalous noble gas solubility in liquid cloud water: Possible implications for noble gas temperatures and cloud physics
Drought stress and hurricane defoliation influence mountain clouds and moisture recycling in a tropical forest
Mountain ranges generate clouds, precipitation, and perennial streamflow for water supplies, but the role of forest cover in mountain hydrometeorology and cloud formation is not well understood. In the Luquillo Experimental Forest of Puerto Rico, mountains are immersed in clouds nightly, providing a steady precipitation source to support the tropical forest ecosystems and human uses. A severe drou