Powerful seismic waves from Japan’s 2011 earthquake struck Earth’s core and bounced back up, moving island eastward

In 2011, Japan reeled from the effects of a devastating magnitude 9.0 earthquake. But unnoticed in the chaos resulting from the quake, its major aftershocks and the tsunami it caused, something strange happened. About 16 minutes after the earthquake, but before the aftershocks hit, Japan’s GPS stations registered an eastward lurch—across the entire country—but unconnected to any specific quake or aftershock. A new analysis of data from the quake, led by University of Chicago geophysicist Sunyoung Park, suggests an extraordinary answer: The waves from the earthquake traveled downwards to the Earth’s core and then back up, displacing the tectonic plates further. This permanently moved the entire island of Japan eastward by up to six millimeters. Seismologists knew that large waves from earthquakes can travel through the Earth and even reverberate off the core. But this is the first time the phenomenon has been identified to have caused tectonic plates to slip near the Earth’s surface. “It’s striking because this is both an unprecedented length and area for a seismic event, and it is a previously unrecognized source of seismic hazard,” said Park. The study is published in Science on June 18. Traveling to the core and back The 2011 earthquake, localized off the coast of the Tohoku region of Japan, ranks among the strongest ever recorded; the combination of quake and tsunami killed 20,000 people. It was also one of the most thoroughly documented. Because Japan has a long history of earthquakes, the country has thousands of monitoring stations. Scientists immediately began poring over the data recorded to try to understand what happened, and hundreds of papers were published.

But years later, a strange wiggle in the data was still bothering Park, an assistant professor in the UChicago Department of the Geophysical Sciences. After the quake itself, but before the major aftershocks, GPS had stations picked up a sudden shift eastward. This shift didn’t correlate with any of the aftershocks registered at the surface. But, strangely, it was registered at precisely the same time by stations across Japan. “Most of the time, we would see an offset like this when there's actual earthquake happening. But here there was no known aftershock at this time, so we were quite curious,” Park said. With collaborators Hiroo Kanamori of Caltech and Luis Rivera of the University of Strasbourg, Park began to rule out possible causes. An undersea landslide didn’t fit the data—too localized. Same problem for a slow slide at one of the faults. Instead, the team came to believe it was due to a wave of energy from the quake that had radiated downwards through the planet, struck the Earth’s outer core—which is a liquid metal alloy—and reverberated back up to the crust. There, it triggered another slip along two major plate boundaries around Japan. The journey down and back up, about 3,600 miles (5,800 kilometers) round-trip, took about 15 minutes. Broadest seismic event on record Even as we get better at understanding and predicting hurricanes or tornadoes, earthquakes have remained difficult to study. They occur infrequently—especially large quakes—and take place over a very large area. And of course, most of the action takes place deep below ground, or worse, under the ocean, where few measurements are possible. Scientists, including Park, are coming up with new and innovative ways to study seismology. But the recent finding adds a wrinkle to our understanding of large quakes and tectonic plate movement.