Deep-Earth Tremor Detected For First Time: Study

Scientists have detected a rare deep-Earth tremor for the first time and traced its location to a distant and powerful storm, New Scientist reported.

It’s the first time scientists have observed this particular type of tremor on the sea floor, known as an S wave microseism.

The study published in the U.S. journal Science, could help experts learn more about the Earth’s inner structure and improve detection of earthquakes and oceanic storms.

Groups of waves sloshed and pounded the ocean floor during the storm, which struck between Greenland and Iceland.

Using seismic equipment on land and on the seafloor that usually detects the Earth’s crust crumbling during earthquakes, researchers found something they had not detected before—a tremor known as an S wave microseism.

Microseisms are very faint tremors.

Earthquakes and storms both trigger two types of disturbance in the Earth

Earthquakes and storms both trigger two types of disturbance in the Earth
Deep-Earth tremor

Another kind of tremor, known as P waves, or primary wave microseisms, can be detected during major hurricanes.

P waves are fast-moving, and animals can often sense them just before an earthquake hits.

The elusive S waves, or secondary waves, are slower, and move only through rock, not liquid. Humans feel them during earthquakes.

Using more than 200 stations operated by the National Research Institute for Earth Science and Disaster Prevention in Japan’s Chugoku district, researchers Kiwamu Nishida and Ryota Takagi “successfully detected not only P wave microseisms triggered by a severe and distant North Atlantic storm, known as a weather bomb, but also S wave microseisms, too,” said the study.

Deep-Earth tremor Study Is First Of It’s Kind

“The discovery marks the first time scientists have observed… an S wave microseism.”

Microseism S waves are so faint that they occur in the 0.05 to 0.5 Hz frequency range.

The study in the journal Science details how researchers traced the direction and distance to the waves’ origins, and the paths they traveled.

The discovery “gives seismologists a new tool with which to study Earth’s deeper structure,” said Peter Gerstoft and Peter Bromirski of the University of California, San Diego in an accompanying Perspective article.

Learning more about microseismic S waves may “add to our understanding of the deeper crust and upper mantle structure.”

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