Study Shows Mountain Runoff Vulnerability

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Study Shows Mountain Runoff Vulnerability

By the End of This Century, Communities Dependent on Fresh Water from Mountain-fed Rivers Could See Significantly Less Water, According to a New Climate Model Released by University of California Researchers

UC Merced professor Roger Bales and UC Irvine professor Michael L. Goulden have been looking into how climate change affects certain plant functions in upper elevations of the Sierra Nevada.

The results of their work, "Mountain Runoff Vulnerability to Increased Evapotranspiration with Vegetation Expansion," were published recently in the Proceedings of the National Academy of Sciences of the United States of America.

The research is another way UC Merced seeks to add to the base of knowledge about climate change and the development of solutions to the challenges it presents.

Bales and Goulden examined the evapotranspiration of plants in the mountains. Evapotranspiration is water evaporation from the land plus the loss of water through plant leaves during transpiration. The more evapotranspiration, the less water remaining in drainage basins, such as meadows, where it runs off to rivers.

As the climate warms, higher elevations that are usually snow-dominated see milder temperatures, with plants that normally go dormant during the winter snows remaining active longer.

Higher-elevation plants usually evapotranspire less than plants with year-round growing seasons because they rest for part of the year.

But if they are not resting, they are using up more of the water that people and animals downstream rely on.

"The dramatic changes that Goulden and Bales found in forest water use and runoff could not have been made without having made the necessary measurements to make the forest-water-climate linkage," UC Merced engineering professor Martha Conklin said. "Expanding their approach throughout the state's source-water area would provide a scientific basis for managing these areas."

Using water-vapor emission rates and remote-sensing data, Bales and Goulden determined relationships between elevation, climate and evapotranspiration.

The data shows that freshwater mountain runoff is highly sensitive to changes in temperature and vegetation growth. With a 4.1 degree Celsius increase in the Sierra Nevada, which is projected by climate models for 2100, vegetation growth would result in a 28 percent increase in evapotranspiration.

The researchers' work shows the relationships between evapotranspiration, temperature and vegetation growth were similar across a broader area of the Sierra Nevada, suggesting that the impact of climate change on evapotranspiration and fresh water availability could be widespread.

Source: Modbee

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