PUBLIC INFORMATION OFFICE
JET PROPULSION LABORATORY
CALIFORNIA INSTITUTE OF TECHNOLOGY
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
PASADENA, CALIFORNIA 91109. TELEPHONE (818) 354-5011
http://www.jpl.nasa.gov
Contact: Mary A. Hardin
February 12, 1997
NEW GRANT WILL SUPPORT CALIFORNIA EARTHQUAKE NETWORK
Ten million dollars in grants from the W.M. Keck Foundation,
NASA and the National Science Foundation (NSF) will make Southern
California the best-surveyed area on the planet and provide a
powerful tool for scientists seeking to understand the region's
earthquake potential.
The grants were announced this week by the Southern
California Earthquake Center (SCEC), headquartered at the
University of Southern California. The Keck Foundation
contributed $5.6 million of the grant money, NASA furnished $2.4
million and NSF provided $2 million.
SCEC provides oversight and coordination for the Southern
California Integrated Global Positioning System Network (SCIGN),
which will use the new funds to expand -- from the current 45 to
250 sites -- an array of ground-based "monuments" that are used
to electronically track satellites of the Global Positioning
System (GPS).
GPS, a constellation of 24 navigation satellites operated by
the U.S. Department of Defense, permits points on the Earth's
surface to be located with high precision. The
resulting monument network will enable scientists to follow, in
unprecedented detail, movements of the Earth's crust in one of
the world's most seismically active and
highly populated areas.
"Thanks to the W.M. Keck Foundation, NASA and NSF, the
Southern California scientific community can pioneer the use of
the most promising new tool in geophysics since the invention of
the seismometer," said SCEC director Thomas Henyey, who announced
the grants at a special meeting of the SCIGN coordinating
committee. "Eventual completion of the 250-station array will
put the full potential of GPS technology to work in an
earthquake-prone region particularly suited to the task," added
Dr. Henyey, a professor of earth sciences at USC.
"GPS makes it possible to measure the position of the
monuments with extraordinary accuracy," said Mike Watkins of
NASA's Jet Propulsion Laboratory. "Although the monuments may be
separated by scores of miles, a change in their relative
positions of no more than a single millimeter (about 1/25th of an
inch) can be
detected by the GPS system."
In seismically active areas such as Southern California,
where plate tectonic forces are at work, substantial Earth
movements of millimeters to centimeters occur
continuously each year and are readily measurable by the state-
of-the-art GPS technology.
"These movements give scientists indications of how fast
strain is building up, where it's concentrated, and where
earthquakes might occur in the near future," noted
SCIGN chairman William Prescott of the U.S. Geological Survey
(USGS).
The array, which started with only four sites in 1990, has
already detected very small motions of the Earth's crust in
Southern California associated with the 1992 Landers and 1994
Northridge earthquakes.
"The GPS receivers operating during the Landers
earthquake were able to detect, for the first time, subtle
changes in the regional deformation pattern. Such changes
are potentially of great importance for studying the physics of
earthquakes and hazards mitigation" said Yehuda Bock, director of
the Scripps Orbit and Permanent Array Center at UC San Diego's
Scripps Institution of Oceanography.
"Before and after the January 1994 Northridge earthquake,
the few GPS monuments then in service revealed important
scientific clues about the processes
taking place far underground," said Ken Hudnut of the USGS in
Pasadena. "GPS technology is particularly valuable for studying
hidden faults, like the one that caused the
Northridge earthquake. Faults located far underground are more
difficult to study by other methods."
The current network was funded by earlier grants from NASA,
NSF and USGS to the Jet Propulsion Laboratory and the Scripps
Institution of Oceanography. According to SCEC science director
David Jackson of UCLA, SCIGN will use the funds to rapidly expand
the network of receiver stations.
"In addition to providing general coverage for the entire
25,000-square-mile area extending from the Tehachapi Mountains
south to the Mexican border, and from the Pacific Ocean to the
Colorado River, stations will be concentrated along a
tectonically critical corridor extending through the Los Angeles
basin. Each station will be monitored daily," Jackson said.
SCIGN is currently operated by three primary institutions --
NASA's Jet Propulsion Laboratory, UC San Diego's Scripps
Institution of Oceanography and the U.S. Geological Survey, with
participation by other SCEC institutions and local and state
government agencies.
The Keck, NASA and NSF funds also will be used to support
data collection, processing and archiving at the three main SCIGN
operating institutions. They in turn will make the processed
data available to the entire scientific community, where it will
be combined with data from other sources to create the most
accurate and detailed picture ever of the earthquake hazard in
Southern California.
Established in 1991, SCEC is an NSF Science and Technology
Center funded by separate grants from NSF and USGS. "The center
was conceived with the idea that a
better understanding of earthquakes in Southern California will
help protect the lives and property of the more than 15 million
people living here," Dr. Henyey said.
Working in partnership with USGS and JPL, the center
includes distinguished faculty members from six core academic
institutions - the California Institute of Technology, Columbia
University's Lamont-Doherty Earth Observatory, UC Santa Barbara,
UCLA, UC San Diego's Scripps Institution of Oceanography, and
USC.
One of the nation's largest foundations in terms of annual
grants, the W.M. Keck Foundation was established in 1954 by the
late William M. Keck, founder of the Superior Oil Co. The
foundation's primary focus is on universities and colleges
throughout the United States, with particular emphasis in the
fields of medical research, engineering and
earth sciences.
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