Northern Chile intermediate-depth earthquakes controlled by plate hydration

Cabrera, Leoncio; Ruiz, Sergio; Poli, Piero; Contreras-Reyes, Eduardo; Osses, Axel; Mancini, Renzo

Abstract

We investigate the variations of the seismic source properties and aftershock activity using kinematic inversions and template-matching for six large magnitude intermediate-depth earthquakes occurred in northern Chile. Results show similar rupture geometry and stress drop values between 7 and 30 MPa. Conversely, aftershock productivity systematically decreases for the deeper events within the slab. Particularly, there is a dramatic decrease in aftershock activity below the 400-450 degrees C isotherm depth, which separates high- and low-hydrated zones. The events exhibit tensional focal mechanisms at unexpected depths within the slab, suggesting a deepening of the neutral plane, where the extensional regimen reaches the 700-800 degrees C isotherm depth. We interpret the reduction of aftershocks in the lower part of the extensional regime as the absence of a hydrated-slab at those depths. Our finding highlights the role of the thermal structure and fluids in the subducting plate in controlling the intermediated-depth seismic activity and shed new light in their causative mechanism.

Más información

Título según WOS: Northern Chile intermediate-depth earthquakes controlled by plate hydration
Título de la Revista: GEOPHYSICAL JOURNAL INTERNATIONAL
Volumen: 226
Número: 1
Editorial: OXFORD UNIV PRESS
Fecha de publicación: 2021
Página de inicio: 78
Página final: 90
DOI:

10.1093/gji/ggaa565

Notas: ISI