Add to ORKGIn the mountains, snowmelt often provides most of the runoff. Operational estimates use imagery from optical and passive microwave sensors, but each has its limitations. An accurate approach, which we validate in Afghanistan and the Sierra Nevada USA, reconstructs spatially distributed snow water equivalent (SWE) by calculating snowmelt backward from a remotely sensed date of disappearance. However, reconstructed SWE estimates are available only retrospectively; they do not provide a forecast. To estimate SWE throughout the snowmelt season, we consider physiographic and remotely sensed information as predictors and reconstructed SWE as the target. The period of analysis matches the AMSR-E radiometer's lifetime from 2003 to 2011, for the mon...
Snowmelt makes up a large portion of the streamflow in the mountainous western United States. The sp...
To estimate snowpack water storage in mountain basins, this study presents a framework that couples ...
This study explores the use of a support vector machine (SVM) as the observation operator within a p...
In the mountains, snowmelt often provides most of the runoff. Operational estimates use imagery from...
We developed an approach to estimate snow water equivalent (SWE) through interpolation of spatially ...
Passive microwave estimates of snow water equivalent (SWE) were examined to determine their usefulne...
In regions with hydrologic regimes dominated by spring snowmelt, reliable water resources forecastin...
Accurately estimating basin-wide snow water equivalent (SWE) is the most important unsolved problem ...
The processes controlling snowpack mass balance are highly variable in time and space, requiring rem...
ABSRACT: Accurate spatial measurement of SWE in mountain watersheds is perhaps the most significant ...
Under a warming climate, an improved understanding of the water stored in snowpacks is becoming incr...
The spatial distribution of snowpack in relation to snow water equivalent (SWE) and covered extent i...
Water supply forecasts in the Sierra Nevada using ground-based measurements of snow water equivale...
We estimate the spatial distribution of daily melt-season snow water equivalent (SWE) over the Sierr...
Contemporary studies have predicted a vulnerable future for key water budget components across high ...
Snowmelt makes up a large portion of the streamflow in the mountainous western United States. The sp...
To estimate snowpack water storage in mountain basins, this study presents a framework that couples ...
This study explores the use of a support vector machine (SVM) as the observation operator within a p...
In the mountains, snowmelt often provides most of the runoff. Operational estimates use imagery from...
We developed an approach to estimate snow water equivalent (SWE) through interpolation of spatially ...
Passive microwave estimates of snow water equivalent (SWE) were examined to determine their usefulne...
In regions with hydrologic regimes dominated by spring snowmelt, reliable water resources forecastin...
Accurately estimating basin-wide snow water equivalent (SWE) is the most important unsolved problem ...
The processes controlling snowpack mass balance are highly variable in time and space, requiring rem...
ABSRACT: Accurate spatial measurement of SWE in mountain watersheds is perhaps the most significant ...
Under a warming climate, an improved understanding of the water stored in snowpacks is becoming incr...
The spatial distribution of snowpack in relation to snow water equivalent (SWE) and covered extent i...
Water supply forecasts in the Sierra Nevada using ground-based measurements of snow water equivale...
We estimate the spatial distribution of daily melt-season snow water equivalent (SWE) over the Sierr...
Contemporary studies have predicted a vulnerable future for key water budget components across high ...
Snowmelt makes up a large portion of the streamflow in the mountainous western United States. The sp...
To estimate snowpack water storage in mountain basins, this study presents a framework that couples ...
This study explores the use of a support vector machine (SVM) as the observation operator within a p...