A new study published March 24 in the journal Science Advances shows that an overlooked strand of the southern San Andreas Fault is more likely to rupture than any other secondary faults in the region.
Called the Mission Creek strand, the segment spans the cities of Indio, Desert Hot Springs and San Bernardino. It has gone mostly unnoticed because it is thought to be one of the least active sections of the southern San Andreas Fault. But the new study indicates that the strand is actually the fastest moving fault in the region.
“This particular strand of the San Andreas failure has been interpreted to be not very active,” said Kimberly Blisniuk, an associate professor of geology at San Jose State University and the lead researcher of the study.
“It’s actually very active and is the fastest slipping fault for the San Andreas in Southern California. Therefore it has the highest likelihood of a large magnitude earthquake to occur on it in the future.”
The San Andreas Fault is an 800-mile strike-slip fault in which the Northern Pacific plate slides laterally past the North American plate. Seismic activity along the famed fault is associated with occasional large earthquakes, such as the disastrous San Francisco quake in 1906 and the deadly 1994 rumbler centered in the Los Angeles suburb, which occurred along one of San Andreas’ larger secondary faults.
All eyes are currently on the southern San Andreas Fault because this region hasn’t ruptured in nearly 300 years. Recent data also shows that it has already accumulated enough strain. However, it has been unclear which of the region’s multiple segments carries the bulk of this strain and therefore has the highest risk of a high-magnitude earthquake.
To that end, Blisniuk and her colleagues calculated the slip rates of the Banning and Mission Creek strands. Past estimates showed that the latter is less likely to rupture than the linkage comprising the Banning and Garnet Hill segments and the San Gorgonio Pass fault zone.
The researchers went to Pushawalla Canyon in Indio to gather records of fault motion that had been preserved over time in nearby landforms. They found evidence of geologically recent slips from the faults at the area, including streams carved out from rocks and gullies that date back to the Pleistocene Epoch.
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