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The Predictable Events Of The February Earthquake In Chile

September 9, 2010

The complex fracture pattern created by the earthquake in Concepci³n (Chile) on February 27, 2010 was to a certain extent predictable. GPS observations from the years before the earthquake showed the pattern of stresses that had accumulated through the plate movements during the past 175 years in this area. The stress distribution derived from the observations correlates highly with the subsequent fracture distribution. In all likelihood the tremor removed all the stress that had accumulated since the last earthquake in this region, which was observed by Charles Darwin in 1835. An earthquake of similar magnitude in this area is therefore unlikely in the near future. This result was presented by scientists of the GFZ German Centre for Geosciences (Helmholtz Association) in the latest edition of the scientific journal “Nature” (September 9, 2010).

“The Maule earthquake near Concepci³n, Chile, on the 27 February registered with a momentum magnitude of 8.8, makes it one of the largest earthquakes to have been recorded in its entirety via a modern network of space-geodetic and geophysical instruments on the ground,” says Professor Onno Oncken, head of the Department “Geodynamics” at GFZ. “It thus offers a unique opportunity to compare detailed observations prior to the earthquake with those taken during and after it, and to re-evaluate hypotheses regarding the predictability of such events.”

Measurements using the satellite navigation system GPS showed that the seafloor of the Nazca plate in the Pacific Ocean does not slide evenly under the western boundary of the South American continent. Rather, it appears from the GPS measurements that some parts of the ocean floor got locked with the subsurface of the continent. In the gaps, however, the Nazca plate continued to push under South America. The resulting uneven stress pattern was released by the earthquake of the 27 February in such a way that, just like a zipper, the locked patches were ruptured one after the other. As a result, this seismic gap off the Chilean westcoast is now closed, one last gap remains in northern Chile. Here, the GFZ scientists set up a plate boundary observatory, in order to make use of the entire range of geoscientific instruments to record the conditions before, during and after an earthquake- an important step in understanding the processes of plate tectonics.

Modern Earth science may still not be able to predict the location, time and magnitude of an earthquake. But the present study offers an optimistic perspective concerning the predictability of possible fracture patterns and magnitudes of expected earthquakes.

Marcos Moreno, Matthias Rosenau, Onno Oncken: “2010 Maule earthquake slip correlates with pre-seismic locking of Andean subduction zone”, Nature, Vol 467, issue 7312, pp 198-202; DOI: 10.1038/nature09349

Image Caption: Installation of a Creepmeter of the Plate-Boundary Observatory Chile, which measures tectonic motions to a hundredth of a millimeter along a fault zone. © GFZ

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