Boulders Near San Andreas Suggest the ‘Big One’ May Be Less Destructive
The San Andreas Fault runs west-northwest toward the Big Bend where it turns northwest beyond the pinched far west end of the Mojave Desert
Mary ManleyThe San Andreas is a major fracture of the Earth’s crust that runs through the US state of California. These tectonic plates are responsible for tens of thousands of earthquakes in the US state each year.For years, geologic records have pointed to the Big One: an earthquake that is at least a 7.8 magnitude and is predicted to destroy much of Southern California.But new data suggests the Big One may not be as destructive as previously thought: at a meeting of the American Geophysical Union in mid-December, data was presented suggesting that the Big One will shake Los Angeles 65% less violently than previously predicted.The data was collected from rocks that are balanced precariously on top of each other in Lovejoy Buttes, a region that is located in northern Los Angeles just 15 kilometers (9.3 miles) from the fault. Thus far the best option for seismologists has been to base their predictions on the extrapolations from historical quakes, but those can be uncertain.The rocks that were observed in Lovejoy Buttes, however, can tell scientists how strong the shaking from previous earthquakes have been, and their timescale for these quakes is expansive: one boulder holds seismic data from the last 50,000 years.
"Basically, the fundamental problem we're trying to address here is that we've only been recording earthquakes with seismometers not even 100 years," said lead researcher Anna Rood, a seismic hazard scientist at Imperial College London. "They're really uncertain as to what these rare large earthquakes might mean for ground shaking. So this is where the geological data comes in."
“That this rock has been recording and surviving these earthquake events for 50,000 years is a crazy amount of data,” Rood says.Taking samples from the rocks in 2021 and 2022, Rood and her researchers tested the sample levels of an isotope known as beryllium-10, which is produced when rocks are exposed to the atmosphere and consistent contact with cosmic rays. Doing so helps the researchers figure out when, exactly, the rocks became more fragile and off-kilter.Beyond PoliticsIcelandic Volcano Erupts Following Earthquake on Reykjanes Peninsula19 December 2023, 02:02 GMTThe researchers also added tape to the rocks, in the same way that Hollywood does with their actors, and digitally recreated and analyzed the shapes in structural models, calculating how much shaking they could take without falling over. The researchers’ findings will not only allow Los Angeles residents to sleep more peacefully, it could also have a serious impact on a multitude of earthquake preparations including building codes, disaster preparation plans, and even insurance premiums.