GEOSCAN, résultats de la recherche


TitreStrain release at the trench during shallow slow slip: The example of Nicoya Peninsula, Costa Rica
AuteurJiang, Y; Liu, Z; Davis, E E; Schwartz, S Y; Dixon, T H; Voss, N; Malservisi, R; Protti, M
SourceGeophysical Research Letters vol. 44, 10, 2017 p. 4846-4854, (Accès ouvert)
Séries alt.Ressources naturelles Canada, Contribution externe 20181994
ÉditeurBlackwell Publishing Ltd
Documentpublication en série
Mediapapier; en ligne; numérique
ProgrammeRisques géologique du tremblement de terre, Géoscience pour la sécurité publique
Diffusé2017 05 29
Résumé(disponible en anglais seulement)
The near-trench behavior of subduction megathrust faults is critical for understanding earthquake hazard and tsunami generation. The shallow subduction interface is typically located in unconsolidated sediments that are considered too weak to accumulate elastic strain. However, the spectrum of shallow fault slip behavior is still elusive, due in large part to the lack of near-field observations. Here we combine measurements from seafloor pressure sensors near the trench and an onshore GPS network in a time-dependent inversion to image the initiation and migration of a well-documented slow slip event (SSE) in 2007 at the Nicoya Peninsula, Costa Rica. Our results show that the shallow SSE initiated on the shallow subduction interface at a depth of ~15Êkm, where pore fluid pressure is inferred to be high, and propagated all the way to the trench. The migrating event may have triggered a second subevent that occurred 1Êmonth later. Our results document the release of elastic strain at the shallow part of the subduction megathrust and suggest prior accumulation of elastic strain. In conjunction with near-trench shallow slow slip recently reported for the Hikurangi subduction zone and trench breaching ruptures revealed in some large earthquakes, our results suggest that near-trench strain accumulation and release at the shallower portions of the subduction interface is more common than previously thought. ©2017. Her Majesty the Queen in Right of Canada. Geophysical Research Letters. Reproduced with the permission of the Minister of Natural Resources Canada.