T12C-06
Seismic evidence for deep fluid circulation in the overriding plate of subduction zones

Monday, 14 December 2015: 11:35
304 (Moscone South)
Benoit Tauzin, LGLTPE Laboratoire de Géologie de Lyon : Terre, Planètes et Environnement, Villeurbanne Cedex, France, Bruno Reynard, Ecole Normale Supérieure Lyon, Lyon, France, Thomas Bodin, University Claude Bernard Lyon 1, Villeurbanne, France, Jean-Philippe Perrillat, Laboratoire de Geologie, Villeurbanne, France and Eric Debayle, CNRS, Paris Cedex 16, France
Abstract:
In subduction zones, non-volcanic tremors are associated with fluid circulations (Obara, 2002). Their sources are often located on the interplate boundary (Rogers and Dragert, 2003; Shelly et al, 2006; La Rocca, 2009), consistent with fluids released by the dehydration of subducted plates (Hacker et al., 2003). Reports of tremors in the overriding continental crust of several subduction zones in the world (Kao et al., 2005; Payero et al., 2008; Ide, 2012) suggest fluid circulation at shallower depths but potential fluid paths are poorly documented. Here we obtained seismic observations from receiver functions that evidence the close association between the shallow tremor zone, electrical conductivity, and tectonic features of the Cascadia overriding plate. A seismic discontinuity near 15 km depth in the crust of the overriding North American plate is attributed to the Conrad discontinuity. This interface is segmented, and its interruption is spatially correlated with conductive regions and shallow swarms of seismicity and non-volcanic tremors. These observations suggest that shallow fluid circulation, tremors and seismicity are controlled by fault zones limiting blocks of accreted terranes in the overriding plate (Brudzinski and Allen, 2007). These zones constitute fluid “escape” routes that may contribute unloading fluid pressure on the megathrust.
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