Episodic stress and fluid pressure cycling in subducting oceanic crust during slow slip

TitleEpisodic stress and fluid pressure cycling in subducting oceanic crust during slow slip
Publication TypeJournal Article
Year of Publication2019
AuthorsWarren-Smith, E, Fry, B, Wallace, L, Chon, E, Henrys, S, Sheehan, A, Mochizuki, K, Schwartz, S, Webb, S, Lebedev, S
JournalNature Geoscience
Volume12
Pagination475–481
Date Publishedjun
ISSN1752-0908
Keywordsseismology, Tectonics
Abstract

Slow slip events are part of a spectrum of aseismic processes that relieve tectonic stress on faults. Their spatial distribution in subduction zones has been linked to perturbations in fluid pressure within the megathrust shear zone and subducting oceanic crust. However, physical observations of temporal fluid pressure fluctuations through slow slip cycles remain elusive. Here, we use earthquake focal mechanisms recorded on an ocean-bottom seismic network to show that crustal stresses and fluid pressures within subducting oceanic crust evolve before and during slow slip events. Specifically, we observe that the retrieved stress ratio, which describes the relative magnitudes of the principal compressive stresses, systematically decreases before slow slip events in New Zealand’s northern Hikurangi subduction zone, and subsequently increases during the evolution of each slow slip event. We propose that these changes represent the accumulation and release of fluid pressure within overpressured subducting oceanic crust, the episodicity of which may influence the timing of slow slip event occurrence on subduction megathrusts. This work contributes an improved understanding of the physical driving forces underlying slow subduction earthquakes, and a potential means by which to monitor stress and fluid pressure accumulation in such regions.

URLhttps://www.nature.com/articles/s41561-019-0367-x
DOI10.1038/s41561-019-0367-x

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