Seismic evidence for megathrust fault-valve behavior during episodic tremor and slip

Fault slip behavior during episodic tremor and slow slip (ETS) events, which occur at the deep extension of subduction zone megathrust faults, is believed to be related to cyclic fluid processes that necessitate fluctuations in pore-fluid pressures. In most subduction zones, a layer of anomalously l...

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Veröffentlicht in:	Science advances 2020-01, Vol.6 (4), p.eaay5174-eaay5174
Hauptverfasser:	Gosselin, Jeremy M, Audet, Pascal, Estève, Clément, McLellan, Morgan, Mosher, Stephen G, Schaeffer, Andrew J
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creator	Gosselin, Jeremy M Audet, Pascal Estève, Clément McLellan, Morgan Mosher, Stephen G Schaeffer, Andrew J
description	Fault slip behavior during episodic tremor and slow slip (ETS) events, which occur at the deep extension of subduction zone megathrust faults, is believed to be related to cyclic fluid processes that necessitate fluctuations in pore-fluid pressures. In most subduction zones, a layer of anomalously low seismic wave velocities [low-velocity layer (LVL)] is observed in the vicinity of ETS and suggests high pore-fluid pressures that weaken the megathrust. Using repeated seismic scattering observations in the Cascadia subduction zone, we observe a change in the seismic velocity associated with the LVL after ETS events, which we interpret as a response to fluctuations in pore-fluid pressure. These results provide direct evidence of megathrust fault-valve processes during ETS.
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title	Seismic evidence for megathrust fault-valve behavior during episodic tremor and slip
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