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Seismic reflection imaging of two megathrust shear zones in the northern Cascadia subduction zone

Andrew J. Calvert ()
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Andrew J. Calvert: Simon Fraser University

Nature, 2004, vol. 428, issue 6979, 163-167

Abstract: Abstract At convergent continental margins, the relative motion between the subducting oceanic plate and the overriding continent is usually accommodated by movement along a single, thin interface known as a megathrust1. Great thrust earthquakes occur on the shallow part of this interface where the two plates are locked together2. Earthquakes of lower magnitude occur within the underlying oceanic plate, and have been linked to geochemical dehydration reactions caused by the plate's descent3,4,5,6,7. Here I present deep seismic reflection data from the northern Cascadia subduction zone that show that the inter-plate boundary is up to 16 km thick and comprises two megathrust shear zones that bound a >5-km-thick, ∼110-km-wide region of imbricated crustal rocks. Earthquakes within the subducting plate occur predominantly in two geographic bands where the dip of the plate is inferred to increase as it is forced around the edges of the imbricated inter-plate boundary zone. This implies that seismicity in the subducting slab is controlled primarily by deformation in the upper part of the plate. Slip on the shallower megathrust shear zone, which may occur by aseismic slow slip, will transport crustal rocks into the upper mantle above the subducting oceanic plate and may, in part, provide an explanation for the unusually low seismic wave speeds that are observed there8,9.

Date: 2004
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DOI: 10.1038/nature02372

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