Study Shows Slow Snowmelt, Water Availability In West
September 4, 2016 Western communities are facing effects of a warming climate with slower and earlier snowmelt, reducing streamflows and possibly the amount of water reaching reservoirs used for drinking water and agriculture, according to a recently published study.
“As the climate warms, there is actually a slower snowmelt – both in timing and rates, which makes for a less efficient streamflow,” Adrian Harpold, ecohydrologist at the University of Nevada, Reno, said. Harpold, who initiated the study two years ago at the University of Colorado (UC) Boulder, is a co-author of the paper published in American Geophysical Union’s publications ‘Geophysical Research Letters.’
“I know, it’s counterintuitive, but with a warming climate snowmelt starts sooner in the season, and at a slower rate because the warming occurs earlier when days are shorter and we have less sunlight,” he said. “What makes runoff less efficient is that slower snowmelt reduces the amount of moisture being pushed deep into the subsurface where it is less likely to evaporate”
Higher snow melt rates can develop a pressure gradient that forces moisture deeper into the ground. With lower snow melt rates less water leaves the subsurface where the root systems of trees, bushes, and grasses can access the water, which increases the amount of evapotranspiration into the atmosphere.
“It’s ubiquitous in the Western U.S.; the trends are consistent to all mountain ranges across the West,” Harpold said.
The researchers used an exclusive modeling system to study the effects of slower snowmelt across various regions of the Western U. S. including the Cascade range, the Sierra Nevada range, the Wasatch range and the Rocky Mountains. All of these areas see significant seasonal snow accumulation and generate water resources for downstream communities.
“Of all the regions we studied, streamflow from Colorado’s Rocky Mountains is most sensitive to a change in snowmelt,” said lead author of the study Theodore Barnhart, a graduate researcher at the Institute for Arctic and Alpine Research at CU Boulder. “This analysis suggests that all of the regions studied will experience a decrease in streamflow with a decrease in snowmelt rate, with some regions exhibiting more streamflow sensitivity than others.”
“The Sierra is affected similarly and, besides the Truckee River basin, Northern California will feel an impact from the reduced and early streamflows,” Harpold said. “The snowpack in the Sierra is one massive reservoir that our communities, forests and river environments have come to rely on.”
“Given that 60 million people in the western U.S. depend on snowmelt for their water supply, the future decline in snowmelt-derived streamflow may place additional stress on over-allocated water supplies,” said Noah Molotch the director of the Center for Water Earth Science & Technology CWEST in the CU Boulder Department of Geography and also a co-author of the paper.
Additional co-authors of the study “Snowmelt rate dictates streamflow” are, from UC Boulder, Ben Livneh, John Knowles, and Dominik Schneider. The study was funded through the National Science Foundation with additional assistance from USDA and a NASA Earth and Space Science Fellowship.
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