NASA Opens New Era in Measuring Western U.S. Snowpack

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May 02, 2013

Steve Cole 
Headquarters, Washington      
202-358-0918 
stephen.e.cole@xxxxxxxx 

Alan Buis 
Jet Propulsion Laboratory, Pasadena, Calif. 
818-354-0474 
alan.buis@xxxxxxxxxxxx 


RELEASE: 13-131

NASA OPENS NEW ERA IN MEASURING WESTERN U.S. SNOWPACK

WASHINGTON -- A new NASA airborne mission has created the first maps 
of the entire snowpack of two major mountain watersheds in California 
and Colorado, producing the most accurate measurements to date of how 
much water they hold. 

The data from NASA's Airborne Snow Observatory mission will be used to 
estimate how much water will flow out of the basins when the snow 
melts. The data-gathering technology could improve water management 
for 1.5 billion people worldwide who rely on snowmelt for their water 
supply. 

"The Airborne Snow Observatory is on the cutting edge of snow 
remote-sensing science," said Jared Entin, a program manager in the 
Earth Science Division at NASA Headquarters in Washington. "Decision 
makers like power companies and water managers now are receiving 
these data, which may have immediate economic benefits." 

The mission is a collaboration between NASA's Jet Propulsion 
Laboratory (JPL) in Pasadena, Calif., and the California Department 
of Water Resources in Sacramento. 

A Twin Otter aircraft carrying NASA's Airborne Snow Observatory began 
a three-year demonstration mission in April that includes weekly 
flights over the Tuolumne River Basin in California's Sierra Nevada 
and monthly flights over Colorado's Uncompahgre River Basin. The 
flights will run through the end of the snowmelt season, which 
typically occurs in July. The Tuolumne watershed and its Hetch Hetchy 
Reservoir are the primary water supply for San Francisco. The 
Uncompahgre watershed is part of the Upper Colorado River Basin that 
supplies water to much of the western United States. 

The mission's principal investigator, Tom Painter of JPL, said the 
mission fills a critical need in an increasingly thirsty world, 
initially focusing on the western United States, where snowmelt 
provides more than 75 percent of the total freshwater supply. 

"Changes in and pressure on snowmelt-dependent water systems are 
motivating water managers, governments and others to improve 
understanding of snow and its melt," Painter said. "The western 
United States and other regions face significant water resource 
challenges because of population growth and faster melt and runoff of 
snowpacks caused by climate change. NASA's Airborne Snow Observatory 
combines the best available technologies to provide precise, timely 
information for assessing snowpack volume and melt." 
The observatory's two instruments measure two properties most critical 
to understanding snowmelt runoff and timing. Those two properties 
have been mostly unmeasured until now. 

A scanning lidar system from the Canadian firm Optech Inc. of Vaughan, 
Ontario, measures snow depth to determine the first property, snow 
water equivalent with lasers. Snow water equivalent represents the 
amount of water in the snow on a mountain. It is used to calculate 
the amount of water that will run off. 

An imaging spectrometer built by another Canadian concern, ITRES of 
Calgary, Alberta, measures the second property, snow albedo. Snow 
albedo represents the amount of sunlight reflected and absorbed by 
snow. Snow albedo controls the speed of snowmelt and timing of its 
runoff. 

By combining these data, scientists can tell how changes in the 
absorption of sunlight cause snowmelt rates to increase. 
The Airborne Snow Observatory flies at an altitude of 17,500 feet - 
22,000 feet (5,334 to 6,705 meters) to produce frequent maps that 
scientists can use to monitor changes over time. It can calculate 
snow depth to within about 4 inches (10 centimeters) and snow water 
equivalent to within 5 percent. Data are processed on the ground and 
made available to participating water managers within 24 hours. 
Before now, Sierra Nevada snow water equivalent estimates have been 
extrapolated from monthly manual ground snow surveys conducted from 
January through April. These survey sites are sparsely located, 
primarily in lower to middle elevations that melt free of snow each 
spring, while snow remains at higher elevations. Water managers use 
these survey data to forecast annual water supplies. The information 
affects decisions by local water districts, agricultural interests 
and others. The sparse sampling can lead to large errors. In 
contrast, the NASA observatory can map all the snow throughout the 
entire snowmelt season. 

"The Airborne Snow Observatory is providing California water managers 
the first near-real-time, comprehensive determination of basin-wide 
snow water equivalent," said Frank Gehrke, mission co-investigator 
and chief of the California Cooperative Snow Surveys Program for the 
California Department of Water Resources. "Integrated into models, 
these data will enhance the state's reservoir operations, permitting 
more efficient flood control, water supply management and 
hydroelectric power generation." 

Gehrke said the state will continue to conduct manual surveys while it 
incorporates the Airborne Snow Observatory data. "The snow surveys 
are relatively inexpensive, help validate observatory data and 
provide snow density measurements that are key to reducing errors in 
estimating snow water equivalent," he said. 

Painter plans to expand the airborne mapping program to the entire 
Upper Colorado River Basin and Sierra Nevada. 
"We believe this is the future of water management in the western 
United States," he said. 

For more information about the Airborne Snow Observatory, visit: 

http://aso.jpl.nasa.gov/ 

	
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