Radiguet M., Perfettini Hugo, Cotte N., Gualandi A., Valette Bernard, Kostoglodov V., Lhomme T., Walpersdorf A., Cano E. C., Campillo M. (2016). Triggering of the 2014 M(w)7.3 Papanoa earthquake by a slow slip event in Guerrero, Mexico. Nature Geoscience, 9 (11), p. 829-833 + 1. ISSN 1752-0894.
Titre du document
Triggering of the 2014 M(w)7.3 Papanoa earthquake by a slow slip event in Guerrero, Mexico
Since their discovery two decades ago(1,2), slow slip events have been shown to play an important role in accommodating strain in subduction zones. However, the physical mechanisms that generate slow slip and the relationships with earthquakes are unclear. Slow slip events have been recorded in the Guerrero segment of the Cocos-North America subduction zone(2,3). Here we use inversion of position time series recorded by a continuous GPS network to reconstruct the evolution of aseismic slip on the subduction interface of the Guerrero segment. We find that a slow slip event began in February 2014, two months before the magnitude (M-w) 7.3 Papanoa earthquake on 18 April. The slow slip event initiated in a region adjacent to the earthquake hypocentre and extended into the vicinity of the seismogenic zone. This spatio-temporal proximity strongly suggests that the Papanoa earthquake was triggered by the ongoing slow slip event. We demonstrate that the triggering mechanism could be either static stress increases in the hypocentral region, as revealed by Coulomb stress modelling, or enhanced weakening of the earthquake hypocentral area by the slow slip. We also show that the plate interface in the Guerrero area is highly coupled between slow slip events, and that most of the accumulated strain is released aseismically during the slow slip episodes.
