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Seismic and aseismic slip on the Central Peru megathrust

Perfettini, Hugo and Avouac, Jean-Philippe and Tavera, Hernando and Kositsky, Andrew and Nocquet, Jean-Mathieu and Bondoux, Francis and Chlieh, Mohamed and Sladen, Anthony and Audin, Laurence and Farber, Daniel L. and Soler, Pierre (2010) Seismic and aseismic slip on the Central Peru megathrust. Nature, 465 (7294). pp. 78-81. ISSN 0028-0836. doi:10.1038/nature09062.

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Slip on a subduction megathrust can be seismic or aseismic, with the two modes of slip complementing each other in time and space to accommodate the long-term plate motions. Although slip is almost purely aseismic at depths greater than about 40 km, heterogeneous surface strain suggests that both modes of slip occur at shallower depths, with aseismic slip resulting from steady or transient creep in the interseismic and postseismic periods. Thus, active faults seem to comprise areas that slip mostly during earthquakes, and areas that mostly slip aseismically. The size, location and frequency of earthquakes that a megathrust can generate thus depend on where and when aseismic creep is taking place, and what fraction of the long-term slip rate it accounts for. Here we address this issue by focusing on the central Peru megathrust. We show that the Pisco earthquake, with moment magnitude M_w = 8.0, ruptured two asperities within a patch that had remained locked in the interseismic period, and triggered aseismic frictional afterslip on two adjacent patches. The most prominent patch of afterslip coincides with the subducting Nazca ridge, an area also characterized by low interseismic coupling, which seems to have repeatedly acted as a barrier to seismic rupture propagation in the past. The seismogenic portion of the megathrust thus appears to be composed of interfingering rate-weakening and rate-strengthening patches. The rate-strengthening patches contribute to a high proportion of aseismic slip, and determine the extent and frequency of large interplate earthquakes. Aseismic slip accounts for as much as 50–70% of the slip budget on the seismogenic portion of the megathrust in central Peru, and the return period of earthquakes with M_w = 8.0 in the Pisco area is estimated to be 250  years.

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Perfettini, Hugo0000-0001-6829-5472
Avouac, Jean-Philippe0000-0002-3060-8442
Sladen, Anthony0000-0003-4126-0020
Additional Information:© 2010 Macmillan Publishers Limited. Received 31 August 2009; accepted 26 March 2010. We thank J. Freymueller and R. Burgmann for reviews that have helped improve this manuscript. We are grateful to A. Copley for help in editing the manuscript. This study has benefited from support from the Institute de Recherche pour le Developpement, the Gordon and Betty Moore Foundation through the Tectonics Observatory, and the National Science Foundation through grant EAR-0838495. Author Contributions: H.P. edited the paper and did modelling and field work; J.-P.A. edited the paper and did modelling; H.T. handled the IGP aftershocks data; A.K. did modelling of postseismic deformation; J.-M.N. did the GPS processing; F.B. was in charge of the GPS network; M.C. did modelling of interseismic deformation; A.S. did modelling of the co-seismic deformation; L.A. did field work; D.L.F. did field work, and helped with editing the paper; P.S. helped with logistics.
Group:Caltech Tectonics Observatory, Seismological Laboratory
Funding AgencyGrant Number
Institute de Recherche pour le DeveloppementUNSPECIFIED
Gordon and Betty Moore FoundationUNSPECIFIED
Issue or Number:7294
Record Number:CaltechAUTHORS:20100526-140621794
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Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:18464
Deposited By: Tony Diaz
Deposited On:27 May 2010 02:42
Last Modified:08 Nov 2021 23:44

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