Migrating pattern of deformation prior to the Tohoku-Oki earthquake revealed by GRACE data

Understanding how and when far-field continuous motions lead to giant subduction earthquakes remains a challenge. An important limitation comes from an incomplete description of aseismic mass fluxes at depth along plate boundaries. Here we analyse Earth’s gravity field variations derived from GRACE...

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Veröffentlicht in:Nature geoscience 2018-05, Vol.11 (5), p.367-373
Hauptverfasser: Panet, Isabelle, Bonvalot, Sylvain, Narteau, Clément, Remy, Dominique, Lemoine, Jean-Michel
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Sprache:eng
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Zusammenfassung:Understanding how and when far-field continuous motions lead to giant subduction earthquakes remains a challenge. An important limitation comes from an incomplete description of aseismic mass fluxes at depth along plate boundaries. Here we analyse Earth’s gravity field variations derived from GRACE satellite data in a wide space-time domain surrounding the M w  9.0 2011 Tohoku-Oki earthquake. We show that this earthquake is the extreme expression of initially silent deformation migrating from depth to the surface across the entire subduction system. Our analysis indeed reveals large-scale gravity and mass changes throughout three tectonic plates and connected slabs, starting a few months before March 2011. Before the Tohoku-Oki earthquake rupture, the gravity variations can be explained by aseismic extension of the Pacific plate slab at mid-upper mantle depth, concomitant with increasing seismicity in the shallower slab. For more than two years after the rupture, the deformation propagated far into the Pacific and Philippine Sea plate interiors, suggesting that subduction accelerated along 2,000 km of the plate boundaries in March 2011. This gravitational image of the earthquake’s long-term dynamics provides unique information on deep and crustal processes over intermediate timescales, which could be used in seismic hazard assessment. Deformation migrated from depth towards the surface in the months leading up to the 2011 Tohoku-Oki earthquake, according to analyses of satellite gravity data.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-018-0099-3