An enormous Cascadia earthquake that sent a tsunami all the way to Japan in 1700 may have been one of a sequence of dangerous quakes, instead of a single devastating temblor.
The 1700 Cascadia earthquake is known from oral histories of local tribes living in what is today British Columbia, Washington, Oregon and northern California, as well as from geological records of broken rocks and tsunami deposits. Researchers are confident that the earthquake, with its estimated magnitude of 8.7 to 9.2, hit on Jan. 26: Written records in Japan tell of a tsunami on that date that corresponds to the oral histories and geological record on the other side of the Pacific.
Now, though, new research suggests that the 1700 quake may have been slightly smaller than previously believed, and that it was just one of a series of several large earthquakes that struck within a few years. The study, presented April 20 at the annual meeting of the Seismological Society of America, used a modeling approach to find that a single large quake isn't the only possible explanation for the geological evidence left behind from the 1700s.
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"The tradition has been only 'a mega-quake explains everything,' and what I found is that's not true," said study author Diego Melgar, an earthquake seismologist at the University of Oregon. "A megaquake still can explain everything, but so can a sequence of events."
If the 1700 quake was in fact a sequence, it could have implications for what kind of earthquakes might happen on the fault in the future.
Melgar's main line of research focuses on tsunami warning systems. Part of that research involves creating databases of simulated earthquakes and their associated tsunamis. With this database at his disposal, he decided to see if he could compare the simulations with the geological evidence left behind after 1700. He wanted to know, he said, if there were any earthquake scenarios he could rule out.
He found that the traditional view of a magnitude-9 or so quake hitting on Jan. 26, 1700, and breaking hundreds of miles of fault in one fell swoop is indeed possible. But the geological evidence is also consistent with a quake that was slightly less powerful and that broke only about half of the length previously predicted.
The rest of the coastline subsidence would have then occurred in a series of several other large quakes over the course of a decade. Instead of a single magnitude-9 quake, Melgar said, perhaps the Jan. 26 temblor was an 8.7, followed a few years later by an 8.4, then an 8.3 or an 8.2 the year after that. As long as the subsequent quakes were less than a magnitude 8.6, they would not have led to another tsunami in Japan.
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"The tsunami might not be as large from an 8.1, but the shaking can be really intense," Melgar said. "It's just dangerous in a different way."
Indeed, a decade in which giant quakes hit every two or three years might even be more devastating to people living in the region than a single quake hitting every few hundred years. That's why it's important to get to the bottom of which scenario is more likely, Melgar told Live Science. This work would involve more detailed, high-tech modeling of tsunami waves from a magnitude-8 or magnitude-9 quake, as well as a closer look at the damage from 1700.
"We need to do a lot more fieldwork up and down Oregon, Washington, California and British Columbia," he said.
Originally published on Live Science.