[1] California’s spring snowpack provides a critical water resource that may be greatly reduced by greenhouse warming. However, warming over the past half century has had little effect on total summer water discharge. The region’s snowpack may therefore be less sensitive to temperature change than predicted by numerical models. In this study, 53 years of 1 April snow course measurements of snow-water equivalent (SWE) from the Sierra Nevada are used in a spatially distributed covariance model of SWE sensitivity to temperature and precipitation. This model is applied at a 2.5 arc min resolution using a multivariate parameter-surface interpolation scheme and Parameter-elevation Regressions on Independent Slopes (PRISM) climate grids. Total mod...
Mountain regions in arid and semi-arid climates, such as California, are considered particularly sen...
Graduation date: 2015In the mountains of the Western US, shifts in the timing and magnitude of snow ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...
[1] California's spring snowpack provides a critical water resource that may be greatly reduced by g...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Temperature variability impacts the distribution and persistence of the mountain snowpack, which cri...
An important part of the water supply in California and the western United States is derived from ru...
AbstractSeasonal snow water equivalent (SWE) accumulation in California’s Sierra Nevada is primarily...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
We used daily remotely sensed fractional snow-covered area (SCA) at 500 m resolution to estimate sno...
Sierra Nevada snowmelt and runoff is a key source of water for many of California’s 38 million resid...
Mountain regions in arid and semi-arid climates, such as California, are considered particularly sen...
Graduation date: 2015In the mountains of the Western US, shifts in the timing and magnitude of snow ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...
[1] California's spring snowpack provides a critical water resource that may be greatly reduced by g...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Anthropogenic climate change will continue to diminish the unique role that mountains perform as nat...
Temperature variability impacts the distribution and persistence of the mountain snowpack, which cri...
An important part of the water supply in California and the western United States is derived from ru...
AbstractSeasonal snow water equivalent (SWE) accumulation in California’s Sierra Nevada is primarily...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
The simulation of snow water equivalent (SWE) remains difficult for regional climate models. Accurat...
We used daily remotely sensed fractional snow-covered area (SCA) at 500 m resolution to estimate sno...
Sierra Nevada snowmelt and runoff is a key source of water for many of California’s 38 million resid...
Mountain regions in arid and semi-arid climates, such as California, are considered particularly sen...
Graduation date: 2015In the mountains of the Western US, shifts in the timing and magnitude of snow ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...