Add to ORKGWe assessed the response of densely forested watersheds with little apparent annual water limitation to forest disturbance and climate variability, by studying how past wildfires changed forest evapotranspiration, and what past evapotranspiration patterns imply for the availability of subsurface water storage for drought resistance. We determined annual spatial patterns of evapotranspiration using a top-down statistical model, correlating measured annual evapotranspiration from eddycovariance towers across California with NDVI (Normalized Difference Vegetation Index) measured by satellite, and with annual precipitation. The study area was the Yuba and American River watersheds, two densely forested watersheds in the northern Sierra Nevada. ...
We combined observations from four eddy covariance towers with remote sensing to better understand t...
The studies within this dissertation use a suite of long-term flux-tower, remotely sensed, and spati...
The association between climate and vegetation distribution has long been acknowledged, but quantify...
We assessed the response of densely forested watersheds with little apparent annual water limitation...
We investigated the potential magnitude and duration of forest evapotranspiration (ET) decreases res...
We used Landsat-based measures of annual evapotranspiration (ET) to explore the effects of wildfires...
The mountain watersheds of the Sierra Nevada supply the majority of California's water, but this sup...
Water availability in mountain forests affects vegetation response to drought, which in turn changes...
Watershed managers require accurate, high-spatial-resolution evapotranspiration (ET) data to evaluat...
Spatially resolved annual evapotranspiration was calculated across the 14 main river basins draining...
The work presented here was motivated by a need to better understand components of the water balance...
California has recently experienced one of the worst droughts on record, negatively impacting forest...
The relative greenness and wetness of Giant Sequoia (Sequoiadendron giganteum, SEGI) groves and the ...
Forest Management, wildfire, and climate impacts on the hydrology of Sierra Nevada mixed-conifer wat...
We combined observations from four eddy covariance towers with remote sensing to better understand t...
The studies within this dissertation use a suite of long-term flux-tower, remotely sensed, and spati...
The association between climate and vegetation distribution has long been acknowledged, but quantify...
We assessed the response of densely forested watersheds with little apparent annual water limitation...
We investigated the potential magnitude and duration of forest evapotranspiration (ET) decreases res...
We used Landsat-based measures of annual evapotranspiration (ET) to explore the effects of wildfires...
The mountain watersheds of the Sierra Nevada supply the majority of California's water, but this sup...
Water availability in mountain forests affects vegetation response to drought, which in turn changes...
Watershed managers require accurate, high-spatial-resolution evapotranspiration (ET) data to evaluat...
Spatially resolved annual evapotranspiration was calculated across the 14 main river basins draining...
The work presented here was motivated by a need to better understand components of the water balance...
California has recently experienced one of the worst droughts on record, negatively impacting forest...
The relative greenness and wetness of Giant Sequoia (Sequoiadendron giganteum, SEGI) groves and the ...
Forest Management, wildfire, and climate impacts on the hydrology of Sierra Nevada mixed-conifer wat...
We combined observations from four eddy covariance towers with remote sensing to better understand t...
The studies within this dissertation use a suite of long-term flux-tower, remotely sensed, and spati...
The association between climate and vegetation distribution has long been acknowledged, but quantify...