(Irfan Khan / Los Angeles Times/TNS)

Scientists finally know how big earthquakes start: with many smaller ones

(LOS ANGELES) The vast majority of earthquakes we feel come soon after smaller ones, according to new research that offers new insights into how seismology works.

The finding offers unprecedented insight into what happens before moderate and large earthquakes _ and scientists are finding that the vast majority of them occur after smaller earthquakes start rippling underneath the ground, sometimes days or even weeks before the main shock.

“One of the biggest questions in earthquake seismology is how earthquakes get started,” said the study’s lead author, Daniel Trugman, seismologist at Los Alamos National Laboratory. “We’re finding that most, if not all, of (significant) earthquakes are preceded by foreshocks that we can detect” with a new computing technique.

Previously, scientists observed that only half of all moderate quakes had precursor smaller events. Now, this new study of earthquakes in Southern California of at least magnitude 4 between 2008 and 2017 finds that at least 72% of them had earlier, smaller quakes.

“Elevated foreshock activity is pervasive in Southern California,” the study concluded.

“It is surprising,” study coauthor Zachary Ross, Caltech assistant professor of geophysics, said. “It’s important for understanding the physics of earthquakes. Are they silent until this big event? Or is there a weakening process of the fault, or some evidence that the fault is changing before this larger event?”

The study shows how the answer is likely the latter explanation.

The discovery now gives scientists a better understanding about how most earthquakes generate. Understanding that even moderate quakes probably occur after a series of little ones gives added weight to the idea that earthquake sequences can grow, not unlike the spreading epidemic of a disease. In fact, the study shows the foreshock sequences ranged from starting 3 days to 35 days ahead of the mainshock.

The finding doesn’t mean we should all suddenly be worried about small quakes. Statistically speaking, only 5% of earthquakes are followed up by something worse.

It also doesn’t mean researchers are any closer to predicting the exact times and locations of big earthquakes, something widely seen as impossible.

“The vast majority of time that you have an earthquake, even if you see anomalous activity start up, it’s going to die down on its own _ that’s most of the time,” Ross said.

But understanding how quakes get bigger can only help scientists get better at aftershock forecasting. That would help the public understand when there’s a greater risk, like when the chance of a large quake rises from a background risk of 1-in-10,000 odds to 1-in-1,000 odds based on a previous quake.

“We are definitely moving toward forecasting that is statistical in nature,” Trugman said.

The discovery could also help improve the speed of earthquake early warning systems, Ross said. If the computer has detected microquakes close to a major fault, and knows that most major quakes are preceded by smaller foreshocks, that can help speed up the decision by the system to issue a warning in the early moments after an earthquake has begun rupturing along a fault.

The breakthrough in the study, published in the journal Geophysical Research Letters several weeks ago, was only made possible by the discovery of a new technique to find very small earthquakes _ quakes as small as magnitudes 0 and 1, and some as small as magnitude negative 2.

But detecting these microquakes is difficult to do. Currently, it can’t be done in real time, and can only be done by feeding past quakes into a supercomputer, which takes a couple of weeks.

Having a higher-definition look at earthquakes in Southern California suddenly allowed scientists to detect many foreshocks that had been invisible previously.

“This new information is coming from the tiniest magnitude events that were basically invisible before,” Ross said.

For the new study, Trugman and Ross decided to focus on 46 of the largest quakes in Southern California between 2008 and 2017 (while excluding those that were aftershocks of other larger events). They found that 33 of the 46 earthquakes had a statistically significant jump in foreshocks compared to the normal rate of earthquakes for that area.

They discovered a particularly lengthy foreshock sequence preceding the magnitude 5.1 La Habra earthquake of March 2014. There were foreshocks in the magnitude 0 and 1 range as early as 17 days ahead of the mainshock.

The 2010 Easter Sunday magnitude 7.2 earthquake widely felt in Southern California was not included in the analysis, since its epicenter was in Baja California. But that earthquake was preceded by a notable foreshock sequence.

The scientists could not determine a specific pattern to the foreshocks that would lead to a magnitude 4 or greater quake. Sometimes, it would appear as a burst of quakes near what would become the mainshock epicenter days or hours later. Other times, it would appear as a widespread increase in the earthquake rate in the general area before the mainshock.

They also found that shallower mainshocks tended to have more foreshocks, as do areas with higher heat flow, such as areas around the Coso Volcanic Field and the Salton Sea, which are warmed by magma.

The results help resolve a long mystery earthquake scientists couldn’t explain before. In lab experiments where scientists would simulate earthquakes with sensitive equipment, there would always be small earthquakes that came before the main quake. “It’s never just silent until the final failure,” Ross said of the lab earthquakes.

The results suggest that it’s possible that all moderate and large quakes are preceded by something smaller, but getting to that conclusion would require more studies.

“It’s hard to imagine this huge fault that stays completely silent until a single point just happens to start failing,” Ross said. “Physically, that seems a little difficult to imagine.”

By Rong-Gong Lin Ii, Los Angeles Times

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