Monday, October 26, 2015

Rare Warning, NASA Predicts 99% Chance of Big Earthquake Within 3 Years

Signs pointing to the end-times

Rare Warning, NASA Predicts 99% Chance of Big Earthquake Within 3 Years

10/24/2015 16:43
"The study builds upon more than two decades of NASA-led research to develop new methods to better measure and monitor movements of the solid Earth using satellite and airborne data and advanced computer modeling." -Andrea Donnellan
(Washington, DC)—A new NASA-led analysis of a moderate magnitude 5.1 earthquake that shook Greater Los Angeles in 2014 finds that the earthquake deformed the Earth's crust across a broad region encompassing the northern Los Angeles Basin and northern Orange County. The shallow ground movements observed from this earthquake likely reflect strain accumulated on deeper faults, which remain locked and may be capable of producing future earthquakes. (Graphic via NASA.gov)
A team of NASA and university researchers led by geophysicist Andrea Donnellan of NASA's Jet Propulsion Laboratory, Pasadena, California, used GPS and NASA airborne radar data to measure surface deformation in the Earth's crust caused by the March 28, 2014, earthquake, which was centered in La Habra, California. The earthquake was felt widely in Orange, Los Angeles, Ventura, Riverside, San Bernardino, Kern and San Diego counties. While the earthquake was relatively moderate in size, the earthquake's depth (3.6 miles, or 5.85 kilometers) and location within a highly populated region resulted in more than $12 million in damage. Most of the damage occurred within a 3.7-mile (6-kilometer) radius of the epicenter, with a substantial amount of damage south of the main rupture.
Donnellan's team found the earthquake deformed (the) Earth's crust across a broad region, but mostly south of the main rupture, consistent with the observed damage. They measured 3.1 inches (80 millimeters) of northward horizontal motion and about 0.2 to 0.4 inches (5 to 10 millimeters) of upward motion.
They also discovered that the total amount of surface deformation associated with the La Habra earthquake was larger than what would be expected from the magnitude 5.1 main shock. Eighty-two percent of the surface motion was attributed to the earthquake itself, with the remaining 18 percent occurring aseismically, without producing any ground shaking. The amount of aseismic motion was greater than expected. The team's results show that even moderate earthquakes near Los Angeles can produce ground deformation and damage to water mains away from their epicenters. (Graphic via NASA.gov)
The team used computer models to explain the observed patterns of ground deformation and found that the best explanation for the observed ground deformation was shallow movement along several active buried fault-like zones in the West Coyote Hills in northern Orange County; in the Chino Hills on the border of Orange, Los Angeles and San Bernardino Counties; and in the San Gabriel Valley. The modeled movements identified by the team in the San Gabriel Valley and Chino Hills are part of a series of incompletely mapped active faults in a geologically complex region. It is likely the deeper portions of these faults remain locked and thus are capable of producing future earthquakes.
"The earthquake faults in this region are part of a system of faults," said Donnellan. "They can move together in an earthquake and produce measurable surface deformation, even during moderate magnitude earthquakes. This fault system accommodates the ongoing shortening of Earth's crust in the northern Los Angeles region." Tectonic motion across the Los Angeles region is distributed on an intricate network of horizontally and vertically moving faults that eventually release accumulated strain in the form of earthquakes, such as the destructive 1994 magnitude-6.7 Northridge earthquake.
Donnellan said a future earthquake to release the accumulated strain on these faults could occur on any one or several of these fault structures, which may not have been mapped at the surface. "Identifying specific fault structures most likely to be responsible for future earthquakes for this system of many active faults is often very difficult," she said. (Photo: 1994 Northridge Earthquake/via FEMA/Wikipedia)
The earthquake ground displacements were measured by combining pre-and post-earthquake continuous GPS data from the National Science Foundation's Plate Boundary Observatory with NASA's airborne radar data from the JPL-developed Uninhabited Aerial Vehicle Synthetic Aperture Radar (UAVSAR). UAVSAR is an L-band Interferometric SAR instrument mounted beneath a C-20A Earth science research aircraft from NASA's Armstrong Flight Research Center, Edwards, California. It detects minute (less than centimeter-level) changes in the Earth's surface that occur over time between flights. NASA has been using UAVSAR to monitor deformation across the Los Angeles region about every six months since 2009.
Co-author Lisa Grant Ludwig of the University of California, Irvine, said the team's analysis can be used by policymakers and government agencies to improve assessments of earthquake risk in the Los Angeles area that are critical for disaster planning.
"The study builds upon more than two decades of NASA-led research to develop new methods to better measure and monitor movements of the solid Earth using satellite and airborne data and advanced computer modeling," Donnellan said. "It also provides a means of using these technologies to identify which faults moved during earthquakes, to measure exactly how much Earth's surface deformed during earthquakes, and to use these measurements to estimate future earthquake potential."

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