Asperities and barriers on the seismogenic zone in North Chile: state-of-the-art after the 2007 Mw 7.7 Tocopilla earthquake inferred by GPS and InSAR data | INSTITUT DE PHYSIQUE DU GLOBE DE PARIS

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  Asperities and barriers on the seismogenic zone in North Chile: state-of-the-art after the 2007 Mw 7.7 Tocopilla earthquake inferred by GPS and InSAR data

Type de publication:

Journal Article

Source:

Geophysical Journal International, Volume 183, Ticket 1, p.390-406 (2010)

ISBN:

0956-540X

Numéro d'accès:

ISI:000281902600030

URL:

http://onlinelibrary.wiley.com/doi/10.1111/j.1365-246X.2010.04748.x/abstract

Mots-clés:

UMR 7154 ; Géologie des systèmes volcaniques ; Tectonique et mécanique de la lithosphère ; N° Contribution : 3032 ; Satellite geodesy; Earthquake ground motions; Subduction zone processes; South America

Résumé:

P>The Mw 7.7 2007 November 14 earthquake had an epicentre located close to the city of Tocopilla, at the southern end of a known seismic gap in North Chile. Through modelling of Global Positioning System (GPS) and radar interferometry (InSAR) data, we show that this event ruptured the deeper part of the seismogenic interface (30-50 km) and did not reach the surface. The earthquake initiated at the hypocentre and was arrested similar to 150 km south, beneath the Mejillones Peninsula, an area already identified as an important structural barrier between two segments of the Peru-Chile subduction zone. Our preferred models for the Tocopilla main shock show slip concentrated in two main asperities, consistent with previous inversions of seismological data. Slip appears to have propagated towards relatively shallow depths at its southern extremity, under the Mejillones Peninsula. Our analysis of post-seismic deformation suggests that small but still significant post-seismic slip occurred within the first 10 d after the main shock, and that it was mostly concentrated at the southern end of the rupture. The post-seismic deformation occurring in this period represents similar to 12-19 per cent of the coseismic deformation, of which similar to 30-55 per cent has been released aseismically. Post-seismic slip appears to concentrate within regions that exhibit low coseismic slip, suggesting that the afterslip distribution during the first month of the post-seismic interval complements the coseismic slip. The 2007 Tocopilla earthquake released only similar to 2.5 per cent of the moment deficit accumulated on the interface during the past 130 yr and may be regarded as a possible precursor of a larger subduction earthquake rupturing partially or completely the 500-km-long North Chile seismic gap.

Notes:

Bejar-Pizarro, M. Carrizo, D. Socquet, A. Armijo, R. Barrientos, S. Bondoux, F. Bonvalot, S. Campos, J. Comte, D. de Chabalier, J. B. Charade, O. Delorme, A. Gabalda, G. Galetzka, J. Genrich, J. Nercessian, A. Olcay, M. Ortega, F. Ortega, I. Remy, D. Ruegg, J. C. Simons, M. Valderas, C. Vigny, C.