Monday, December 14, 2009

NASA Data Reveal Major Groundwater Loss in California's Heartland

New space observations reveal that since October 2003, the aquifers for California's primary agricultural region -- the Central Valley -- and its major mountain water source -- the Sierra Nevadas -- have lost nearly enough water combined to fill Lake Mead, America's largest reservoir. The findings, based on data from the NASA/German Aerospace Center Gravity Recovery and Climate Experiment (Grace), reflect California's extended drought and increased rates of groundwater being pumped for human uses, such as irrigation.

In research being presented this week at the American Geophysical Union meeting in San Francisco, scientists from NASA and the University of California, Irvine, detailed California's groundwater changes and outlined Grace-based research on other global aquifers. The twin Grace satellites monitor tiny month-to-month changes in Earth's gravity field primarily caused by the movement of water in Earth's land, ocean, ice and atmosphere reservoirs. Grace's ability to directly 'weigh' changes in water content provides new insights into how Earth's water cycle may be changing.

Combined, California's Sacramento and San Joaquin drainage basins have shed more than 30 cubic kilometers of water since late 2003, said professor Jay Famiglietti of the University of California, Irvine. A cubic kilometer is about 264.2 billion gallons, enough to fill 400,000 Olympic-size pools. The bulk of the loss occurred in California's agricultural Central Valley. The Central Valley receives its irrigation from a combination of groundwater pumped from wells and surface water diverted from elsewhere.

"Grace data reveal groundwater in these basins is being pumped for irrigation at rates that are not sustainable if current trends continue," Famiglietti said. "This is leading to declining water tables, water shortages, decreasing crop sizes and continued land subsidence. The findings have major implications for the U.S. economy, as California's Central Valley is home to one sixth of all U.S. irrigated land, and the state leads the nation in agricultural production and exports."

"By providing data on large-scale groundwater depletion rates, Grace can help California water managers make informed decisions about allocating water resources," said Grace Project Scientist Michael Watkins of NASA's Jet Propulsion Laboratory, Pasadena, Calif., which manages the mission for NASA's Science Mission Directorate, Washington.

Preliminary studies show most of the water loss is coming from the more southerly located San Joaquin basin, which gets less precipitation than the Sacramento River basin farther north. Initial results suggest the Sacramento River basin is losing about 2 cubic kilometers of water a year. Surface water losses account for half of this, while groundwater losses in the northern Central Valley add another 0.6 cubic kilometers annually. The San Joaquin Basin is losing 3.5 cubic kilometers a year. Of this, more than 75 percent is the result of groundwater pumping in the southern Central Valley, primarily to irrigate crops.

Famiglietti said recent California legislation decreasing the allocation of surface waters to the San Joaquin Basin is likely to further increase the region's reliance on groundwater for irrigation. "This suggests the decreasing groundwater storage trends seen by Grace will continue for the foreseeable future," he said.

The California results come just months after a team of hydrologists led by Matt Rodell of NASA's Goddard Space Flight Center, Greenbelt, Md., found groundwater levels in northwest India have declined by 17.7 cubic kilometers per year over the past decade, a loss due almost entirely to pumping and consumption of groundwater by humans.

"California and India are just two of many regions around the world where Grace data are being used to study droughts, which can have devastating impacts on societies and cost the U.S. economy $6 to $8 billion annually," said Rodell. Other regions under study include Australia, the Middle East – North Africa region and the southeastern United States, where Grace clearly captured the evolution of an extended drought that ended this spring. In the Middle East – North Africa region, Rodell is leading an effort to use Grace and other data to systematically map water- and weather-related variables to help assess regional water resources. Rodell added Grace may also help predict droughts, since it can identify pre-existing conditions favorable to the start of a drought, such as a deficit of water deep below the ground.

NASA is working with the National Oceanic and Atmospheric Administration and the University of Nebraska-Lincoln to incorporate Grace data into NOAA's U.S. and North American Drought Monitors, premier tools used to minimize drought impacts. The tools rely heavily on precipitation observations, but are limited by inadequate large-scale observations of soil moisture and groundwater levels. "Grace is the only satellite system that provides information on these deeper stores of water that are key indicators of long-term drought," Rodell said.

Grace is a partnership of NASA and the German Aerospace Center (DLR). The University of Texas Center for Space Research, Austin, has overall mission responsibility. JPL developed the satellites. DLR provided the launch, and GeoForschungsZentrum Potsdam, Germany, operates the mission. For more on Grace, see http://www.csr.utexas.edu/grace/ and http://grace.jpl.nasa.gov/ . Other media contacts: Margaret Baguio, University of Texas Center for Space Research, 512-471-6922; Jennifer Fitzenberger, University of California, Irvine, 949-824-3969.

JPL is managed for NASA by the California Institute of Technology in Pasadena.

Trends Due to Surface Mass Variations From GRACE 2003-2009

Trends in surface mass variations as observed by the GRACE mission over the period 2003 to 2009.
Trends in surface mass variations as observed by the GRACE mission over the period 2003 to 2009. The bluer tones indicate areas of mass loss, while warmer red tones indicate mass gains. Units are centimeters of equivalent surface water.
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GRACE animation (Greenland)

The twin Grace satellites monitor tiny month-to-month changes in Earth's gravity.
The twin Grace satellites monitor tiny month-to-month changes in Earth's gravity field primarily caused by the movement of water in Earth's land, ocean, ice and atmosphere reservoirs. Grace's ability to directly 'weigh' changes in water content provides new insights into how Earth's water cycle may be changing.
› Play animation (MP4 1.3Mb) | › Play animation (MOV 3.3Mb) | › Play animation High Def.(MOV 12.5 Mb)




The combined Sacramento and San Joaquin River Basins

Cover an area of approximately 154,000 km sq.
The combined Sacramento and San Joaquin River Basins cover an area of approximately 154,000 square kilometers. They include California's major mountain water source, the snowpack in the Sierra Nevada mountain range; and the Central Valley, the state's primary agricultural region.



Water storage changes in the Sacramento-San Joaquin River Basins from GRACE and supplementary data, October, 2003 – March, 2009

Water storage changes in the Sacramento-San Joaquin River Basins .

Since GRACE sees all the water storage changes on land, in order to estimate the groundwater in storage change signal, the snow, surface water and soil moisture mass changes must be estimated and removed.
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Groundwater storage changes in the Sacramento-San Joaquin River Basins from GRACE and supplementary data, October, 2003 – March, 2009

Water stored in the combined Sacramento-San Joaquin River Basin decreased by over 31 km cu.
In the 66-month period analyzed, the water stored in the combined Sacramento and San Joaquin Basin decreased by more than 31 cubic kilometers, or nearly the volumne of Lake Mead. Nearly two-thirds of this came from changes in groundwater storage, primarily from the Central Valley.



Groundwater storage changes in the Sacramento-San Joaquin River Basins from GRACE and supplementary data, October, 2003 – March, 2009

Preliminary analyses suggest that as much as 75% of the groundwater loss is occurring in the San Joaquin River Basin.
Observed ground water trends in the Sacramento and San Joaquin River basins, Oct. 2003 to March 2009.

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GRACE Can Monitor Human-induced Groundwater Depletion

The water table in NW India is declining at an average rate of 17.7 km3/yr

GRACE Can Monitor Human-induced Groundwater Depletion.
GRACE measures groundwater level variations, including groundwater depletion in northwest India. Since 2002, groundwater has been lost from that region at a rate of 17.7 km3 per year, largely due to pumping for irrigation.
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GRACE Satellites Provide a Unique Perspective on Drought
Observations reflect the cumulative effect of long-term precipitation anomalies

GRACE Satellites Provide a Unique Perspective on Drought.
GRACE terrestrial water storage observations show the persistence of a long-term drought which has gripped southeastern Australia.
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GRACE Satellites Provide a Unique Perspective on Drought
GRACE observes groundwater and deep soil moisture, key indicators of drought


GRACE observes groundwater and deep soil moisture, key indicators of drought.
GRACE captured the evolution of the 2007-08 drought in the southeastern U.S., and may soon contribute to drought monitoring and prediction.
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GRACE will soon contribute to drought monitoring and prediction tools

GRACE will soon contribute to drought monitoring and prediction tools.
GRACE is the only satellite system able to monitor deep soil moisture and groundwater, hence there is great potential for it to contribute to drought monitoring tools, which currently lack that information. NASA, NOAA, and the University of Nebraska are testing the incorporation of GRACE data into two premier drought products, the U.S. and North American Drought Monitors.
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GRACE Applied to Water Resources Management
GRACE data are combined with other observations and hydrology models


GRACE data are combined with other observations and hydrology models.
NASA, USAID, and partners in the Middle East North Africa region are teaming up to improve water resources assessments in that region by combining observations from GRACE and a variety of other sources.
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