Basal erosion is a prevalent process at subduction zones and plays an important role in the mass balance of global plate tectonics. In contradiction with the theoretical expectation that basal erosion requires high basal friction and hence compression in the upper plate, extensional faulting is commonly observed in submarine wedges that undergo such erosion. Here we propose a model to explain this apparent paradox in terms of stress fluctuations during earthquake cycles. In this model, basal erosion occurs during large earthquakes when the shallow, rate-strengthening part of the plate interface strengthens and its overlying wedge weakens, but extension occurs during inters
Read More
Temporary deformation in great earthquake cycles and permanent shear deformation associated with oblique plate convergence both provide critical clues for understanding geodynamics and earthquake hazard at subduction zones. In the region affected by the Mw 9.5 great Chile earthquake of 1960, we have obtained GPS observations that provide information on both types of deformation. The new observations revealed a pattern of opposing (roughly arc-normal) motion of coastal and inland sites, consistent with what was reported earlier for the northern part of this region. The new observations also provide the first geodetic evidence for the dextral motion of an intravolcanic arc
Read More
In this work, we proposed three primary deformation processes that control the earthquake cycle deformation of subduction zones, that is, the viscoelastic relaxation of the earthquake-induced stresses in the upper mantle, the continuous aseismic slip of the fault (afterslip), and the relocking of the fault. We used the following unified mechanical model to study three different subduction zones that are at different stages of an earthquake cycle. The model well fits the present GPS observations. Model results indicate that rheological structure and properties may be similar at different subduction zones. This work was published on Nature as a review article. Wang, K., Y. H
Read MoreCopyright © Geodynamics Research Center,USTC All Rights Reserved