杏吧原创

Ultra-thin fault caused gravity-distorting Japan quake

Slippery clay in an unusually slim fault zone produced the huge slip seen in the Tohoku quake of 2011, which has even changed the local gravity field
Even the gravity has altered
Even the gravity has altered
(Image: Kyodo/Reuters)

An ultra-thin fault zone packed with slippery clay was behind the massive seismic slip during Japan鈥檚 devastating Tohoku earthquake of 2011. The quake was so great that it permanently changed the region鈥檚 gravitational field, and was 鈥渉eard鈥 from space.

To find out how such a large slip 鈥 in excess of 50 metres in places 鈥 happened, teams of seismologists on board Japan鈥檚 deep-sea research vessel Chikyu drilled into the seabed around the plate boundary that ruptured during the Tohoku earthquake. They took measurements in boreholes reaching 844 metres beneath the seabed.

The results, published in a collection of studies this week, revealed a significant presence of smectite, a slippery clay largely responsible for many major landslides in Europe (). Temperature measurements confirmed the fault had a coefficient of friction of only 0.1, making it very likely to shift. Most rocks slip at about 0.5 or 0.6, says James Mori of the Disaster Prevention Research Institute at Kyoto University ().

What鈥檚 more, the fault zone was found to be less than 5 metres thick, tens of times thinner than at other subduction zones.

鈥淥ne of the main goals was to try and explain the massive slip, which we had never seen before in an earthquake,鈥 says Mori. It seems that subduction zones with particularly thin fault zones and a lot of smectite can produce slips of more than 50 metres, he adds, and potentially give rise to large tsunamis.

Infrasound

The Tohoku slip was so big that the infrasound waves generated by the quake propagated more than 200 kilometres through the atmosphere. That disturbed the orbit of the European Space Agency鈥檚 GOCE satellite ().

Video: Japan earthquake heard from space

GOCE measures small variations in Earth鈥檚 gravity field, which changes with the shape of the landscape and density of the crust. Yesterday, researchers at the German Geodetic Research Institute in Munich and Delft University of Technology in the Netherlands released more GOCE data showing that the quake has caused subtle changes in the local gravity field.

鈥淭his will continue to help us explain the mechanism of future earthquakes,鈥 says Robert Geller, a seismologist at the University of Tokyo, 鈥渂ut I don鈥檛 think it is going to help us to say when or where the next one will occur.鈥

Topics: earthquakes