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Breaking the strongest link triggered Big Baja Earthquake by Staff Writers Davis CA (SPX) Feb 18, 2016
A spate of major earthquakes on small faults could overturn traditional views about how earthquakes start, according to a study from researchers at the Centro de Investigacion Cientifica y de Educacion Superior in Ensenada, Mexico, and the University of California, Davis. The study, published in the journal Nature Geoscience, highlights the role of smaller faults in forecasting California's risk of large earthquakes. In the past 25 years, many of California's biggest earthquakes struck on small faults, away from the San Andreas Fault plate boundary. These events include the Landers, Hector Mine and Napa earthquakes. Several of the quakes were unexpected, rattling areas thought seismically quiet. A closer look at one of the surprise events, the magnitude-7.2 El Mayor-Cucapah earthquake, showed that small faults may often link together along a "keystone" fault. A keystone is the central stone that holds a masonry structure together. During the El Mayor-Cucapah earthquake, the keystone fault broke first, unlocking seven smaller faults, the study found. However, the research team discovered that of all the faults unzipped during the El Mayor-Cucapah earthquake, the keystone fault was not the one closest to breaking. "One of the important outcomes of this study is you can have a whole network of faults activated together by one underpinning fault, and that's an important concern," said study co-author Michael Oskin, a UC Davis professor of geology. "An earthquake involving a system of small faults can be more damaging than a single event because it increases the amount of seismic energy released."
House Of Cards The study reveals the underlying reason for this unusual pattern: a hidden fault buried at a shallow angle to the surface. Each of the seven faults steeply dips toward this hidden fault, linking up deep underground. Lead author John Fletcher, a professor at CICESE, likened the system to a house of cards - remove one key piece and the entire structure tumbles. "The trick here is the cards can bend, but it isn't until one particular fault goes that the whole set ruptures," Fletcher said.
Earthquake Risk The results suggest similar processes are at work in other areas where the Earth's crust accommodates major changes in shape. "This gives us insight into how those messy things between the main faults work," Oskin said. "This might be pretty common." In past events, the signal of a low-angle fault could have been masked because it activated a lot of high-angle faults in the same earthquake, the researchers said. The idea could also explain a longstanding mystery: why the central San Andreas fault is almost perpendicular to its stress field. Oskin said the central San Andreas fault may also behave like a keystone fault.
Related Links University of California - Davis Tectonic Science and News
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