California Sinking Faster Than Thought, Aquifers Could Permanently Shrink
By Tia Ghose
4 hours ago
New NASA imagery reveals that parts of California are sinking at an astonishing rate, with some parts …
Editor's Note: This story was updated at 2:00 p.m. E.T.
"Groundwater acts as a savings account to provide supplies during drought, but the NASA report shows the consequences of excessive withdrawals as we head into the fifth year of historic drought," Corwin said. "We will work together with counties, local water districts, and affected communities to identify ways to slow the rate of subsidence and protect vital infrastructure such as canals, pumping stations, bridges and wells."
Follow Tia Ghose on Twitterand Google+. Follow Live Science @livescience, Facebook & Google+. Original article on Live Science.
California is sinking even faster than scientists had thought, new NASA satellite imagery shows.
Some areas of the Golden State are sinking more than 2 inches (5.1
centimeters) per month, the imagery reveals. Though the sinking, called
subsidence, has long been a problem in California, the rate is
accelerating because the state's extreme drought is fueling voracious
groundwater pumping.
"Because
of increased pumping, groundwater levels are reaching record lows — up
to 100 feet (30 meters) lower than previous records," Mark Cowin,
director of California's Department of Water Resources, said in a statement.
"As extensive groundwater pumping continues, the land is sinking more
rapidly, and this puts nearby infrastructure at greater risk of costly
damage." [It's Raining Spiders! The Weirdest Effects of California's Drought]
What's more, this furious groundwater pumping could have long-term
consequences. If the land shrinks too much, and for too long, it can permanently lose its ability to store groundwater, the researchers said.
The state's sinking isn't new: California has long suffered from
subsidence, and some parts are now a few dozen feet lower than they were
in 1925, according to the U.S. Geological Survey.
But the state's worst drought on record — 97 percent of the state is facing moderate to exceptional drought
— has only accelerated the trend. To quantify this accelerated sinking,
researchers at the Department of Water Resources and NASA's Jet
Propulsion Laboratory in Pasadena, California, compared satellite
imagery of California over time. Thanks to images taken from both
satellites and airplanes using a remote-sensing technique called
interferometric synthetic aperture radar (InSAR), which uses radar to
measure elevation differences, researchers can now map changes in the
surface height of the ground with incredible precision. For the current
study, the team stitched together imagery from Japan's satellite-based
Phased Array type L-band Synthetic Aperture Radar and Canada's Earth
Observation satellite Radarsat-2, as well as NASA's airplane-based
Uninhabited Aerial Vehicle Synthetic Aperture Radar.
Certain hotspots are shrinking at an astonishing rate — regions of the
Tulare Basin, which includes Fresno, sank 13 inches (33 cm) in just
eight months, they found. The Sacramento Valley is sinking about 0.5
inches (1.3 cm) per month. And the California Aqueduct — an intricate
network of pipes, canals and tunnels that funnels water from high in the
Sierra Nevada mountains in northern and central California to Southern
California — has sunk 12.5 inches (32 cm), and most of that was just in
the past four months, according to the new study.
The unquenchable thirst for groundwater in certain regions is largely a
result of agriculture: Most of the state's agricultural production
resides in the fast-sinking regions around some of the state's most
endangered river systems — the San Joaquin
and Sacramento rivers. As the heat and lack of rainfall have depleted
surface-water supplies, farmers have turned to groundwater to keep their
crops afloat.
Subsidence isn't just an aesthetic problem;
bridges and highways can sink and crack in dangerous ways, and
flood-control structures can be compromised. In the San Joaquin Valley,
the sinking Earth has destroyed the outer shell around thousands of
privately drilled wells."Groundwater acts as a savings account to provide supplies during drought, but the NASA report shows the consequences of excessive withdrawals as we head into the fifth year of historic drought," Corwin said. "We will work together with counties, local water districts, and affected communities to identify ways to slow the rate of subsidence and protect vital infrastructure such as canals, pumping stations, bridges and wells."
Follow Tia Ghose on Twitterand Google+. Follow Live Science @livescience, Facebook & Google+. Original article on Live Science.
- Dry and Dying: Images of Drought
- 6 Unexpected Effects of Climate Change
- Endangered River: Images of the San Joaquin
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