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Seismic anisotropy beneath Cascadia and the Mendocino triple junction: Interaction of the subducting slab with mantle flow

Seismic anisotropy beneath Cascadia and the Mendocino triple junction: Interaction of the subducting slab with mantle flow
Seismic anisotropy beneath Cascadia and the Mendocino triple junction: Interaction of the subducting slab with mantle flow
Mantle flow associated with the Cascadia subduction zone and the Mendocino Triple Junction is poorly characterized due to a lack of shear wave splitting studies compared to other subduction zones. To fill this gap data was obtained from the Mendocino and FACES seismic networks that cover the region with dense station spacing. Over a period of 11–18 months, 50 suitable events were identified from which shear wave splitting parameters were calculated. Here we present stacked splitting results at 63 of the stations. The splitting pattern is uniform trench normal (N67°E) throughout Cascadia with an average delay time of 1.25 s. This is consistent with subduction and our preferred interpretation is entrained mantle flow beneath the slab. The observed pattern and interpretation have implications for mantle dynamics that are unique to Cascadia compared to other subduction zones worldwide. The uniform splitting pattern seen throughout Cascadia ends at the triple junction where the fast directions rotate almost 90°. Immediately south of the triple junction the fast direction rotates from NW–SE near the coast to NE–SW in northeastern California. This rotation beneath northern California is consistent with flow around the southern edge of the subducting Gorda slab.
Cascadia subduction, Mendocino Triple Junction, Gorda-Juan de Fuca plate, slab edge, shear wave splitting
0012-821X
627-632
Eakin, Caroline M.
767ea10a-757b-4db5-8705-0c79368f8606
Obrebski, Mathias
bbdec40a-7767-4f25-9c7b-f2fc5bee5c4f
Allen, Richard M.
48b2bfe7-eee3-41c5-b322-a6d7940f18f9
Boyarko, Devin C.
c9f784e6-c96d-4401-9e5b-aac97684c9d2
Brudzinski, Michael R.
ee75041e-765a-4e0d-8e36-05e48db12c64
Porritt, Robert
fc466bea-fccc-437e-9b0d-89939a265229
Eakin, Caroline M.
767ea10a-757b-4db5-8705-0c79368f8606
Obrebski, Mathias
bbdec40a-7767-4f25-9c7b-f2fc5bee5c4f
Allen, Richard M.
48b2bfe7-eee3-41c5-b322-a6d7940f18f9
Boyarko, Devin C.
c9f784e6-c96d-4401-9e5b-aac97684c9d2
Brudzinski, Michael R.
ee75041e-765a-4e0d-8e36-05e48db12c64
Porritt, Robert
fc466bea-fccc-437e-9b0d-89939a265229

Eakin, Caroline M., Obrebski, Mathias, Allen, Richard M., Boyarko, Devin C., Brudzinski, Michael R. and Porritt, Robert (2010) Seismic anisotropy beneath Cascadia and the Mendocino triple junction: Interaction of the subducting slab with mantle flow. Earth and Planetary Science Letters, 297 (3-4), 627-632. (doi:10.1016/j.epsl.2010.07.015).

Record type: Article

Abstract

Mantle flow associated with the Cascadia subduction zone and the Mendocino Triple Junction is poorly characterized due to a lack of shear wave splitting studies compared to other subduction zones. To fill this gap data was obtained from the Mendocino and FACES seismic networks that cover the region with dense station spacing. Over a period of 11–18 months, 50 suitable events were identified from which shear wave splitting parameters were calculated. Here we present stacked splitting results at 63 of the stations. The splitting pattern is uniform trench normal (N67°E) throughout Cascadia with an average delay time of 1.25 s. This is consistent with subduction and our preferred interpretation is entrained mantle flow beneath the slab. The observed pattern and interpretation have implications for mantle dynamics that are unique to Cascadia compared to other subduction zones worldwide. The uniform splitting pattern seen throughout Cascadia ends at the triple junction where the fast directions rotate almost 90°. Immediately south of the triple junction the fast direction rotates from NW–SE near the coast to NE–SW in northeastern California. This rotation beneath northern California is consistent with flow around the southern edge of the subducting Gorda slab.

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More information

Published date: September 2010
Keywords: Cascadia subduction, Mendocino Triple Junction, Gorda-Juan de Fuca plate, slab edge, shear wave splitting
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 373307
URI: http://eprints.soton.ac.uk/id/eprint/373307
DOI: doi:10.1016/j.epsl.2010.07.015
ISSN: 0012-821X
PURE UUID: 6a8c0b11-5959-4f94-a05c-4e55486b028d

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Date deposited: 14 Jan 2015 12:00
Last modified: 14 Mar 2024 18:51

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Contributors

Author: Caroline M. Eakin
Author: Mathias Obrebski
Author: Richard M. Allen
Author: Devin C. Boyarko
Author: Michael R. Brudzinski
Author: Robert Porritt

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