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Structural evolution of an inner accretionary wedge and forearc basin initiation, Nankai margin, Japan

Structural evolution of an inner accretionary wedge and forearc basin initiation, Nankai margin, Japan
Structural evolution of an inner accretionary wedge and forearc basin initiation, Nankai margin, Japan
Core recovered during Integrated Ocean Drilling Program (IODP) Expedition 319 from below the Kumano forearc basin of Japan's Nankai margin provides some of the only in situ samples from an inner accretionary wedge, and sheds light on the tectonic history of a seismically hazardous region. The 84 m of core comprises Miocene-age well-bedded muds, silts, and volcaniclastic sediments. Beds increase in dip with depth, and are cut by (i) soft-sediment deformation bands (“vein structures”), (ii) ?1-cm thick shear zones within ?10-cm thick regions of high shear strain, and (iii) <1-mm thick slickensided faults which are the youngest structures in the core and highly localized. Microstructural analyses of the shear zones suggest that they formed via multiple increments of shear localization and a mixed granular and cataclastic flow. Kinematic analysis of slip indicators in shear zones further reveals that they formed via north–south shortening. In contrast, the faults cut the shear zones with mixed slip kinematics, and accommodated northwest–southeast shortening, roughly parallel to the modern shortening direction. The entire section was also rotated ?15° counterclockwise about a roughly vertical axis. Therefore the principle strain axes and stratigraphic section rotated during or postdating development of the major sub-basin (?5.6–3.8 Ma) unconformity, a time that generally coincides with a change in the Philippine Sea plate convergence direction. Forearc basin development therefore postdates a protracted geologic evolution of shear-zone development, tectonic rotations, and inner-wedge development, the last of which coincides with a rheological evolution toward localized frictional faulting.
accretionary prisms, fault mechanics, Integrated Ocean Drilling Program, D/V Chikyu, Expedition 319, Site C0009
0012-821X
163-172
Hayman, Nicholas W.
11ecd365-e773-45ea-b8e3-75562edba8fa
ByrneTimothy B., Timothy B.
510894fe-7490-450f-9a19-e837e0dd6c20
McNeill, Lisa C.
1fe6a1e0-ca1a-4b6f-8469-309d0f9de0cf
Kanagawa, Kyuichi
8b66f0a4-bb20-4f3f-abe3-ffe3135f751c
Kanamatsu, Toshiya
95f0f932-451d-4cb2-a5f4-744720d7c781
Browne, Cassandra M
7ae2d3b0-cda4-47c4-8c85-0e82c4c107ad
Schleicher, Anja M.
86d98770-5a6d-447a-8c6e-5154fdbdd8e8
Huftile, Gary J.
476a6645-7c4c-43f9-915b-a67c1a9c9099
Hayman, Nicholas W.
11ecd365-e773-45ea-b8e3-75562edba8fa
ByrneTimothy B., Timothy B.
510894fe-7490-450f-9a19-e837e0dd6c20
McNeill, Lisa C.
1fe6a1e0-ca1a-4b6f-8469-309d0f9de0cf
Kanagawa, Kyuichi
8b66f0a4-bb20-4f3f-abe3-ffe3135f751c
Kanamatsu, Toshiya
95f0f932-451d-4cb2-a5f4-744720d7c781
Browne, Cassandra M
7ae2d3b0-cda4-47c4-8c85-0e82c4c107ad
Schleicher, Anja M.
86d98770-5a6d-447a-8c6e-5154fdbdd8e8
Huftile, Gary J.
476a6645-7c4c-43f9-915b-a67c1a9c9099

Hayman, Nicholas W., ByrneTimothy B., Timothy B., McNeill, Lisa C., Kanagawa, Kyuichi, Kanamatsu, Toshiya, Browne, Cassandra M, Schleicher, Anja M. and Huftile, Gary J. (2012) Structural evolution of an inner accretionary wedge and forearc basin initiation, Nankai margin, Japan. Earth and Planetary Science Letters, 353-354, 163-172. (doi:10.1016/j.epsl.2012.07.040).

Record type: Article

Abstract

Core recovered during Integrated Ocean Drilling Program (IODP) Expedition 319 from below the Kumano forearc basin of Japan's Nankai margin provides some of the only in situ samples from an inner accretionary wedge, and sheds light on the tectonic history of a seismically hazardous region. The 84 m of core comprises Miocene-age well-bedded muds, silts, and volcaniclastic sediments. Beds increase in dip with depth, and are cut by (i) soft-sediment deformation bands (“vein structures”), (ii) ?1-cm thick shear zones within ?10-cm thick regions of high shear strain, and (iii) <1-mm thick slickensided faults which are the youngest structures in the core and highly localized. Microstructural analyses of the shear zones suggest that they formed via multiple increments of shear localization and a mixed granular and cataclastic flow. Kinematic analysis of slip indicators in shear zones further reveals that they formed via north–south shortening. In contrast, the faults cut the shear zones with mixed slip kinematics, and accommodated northwest–southeast shortening, roughly parallel to the modern shortening direction. The entire section was also rotated ?15° counterclockwise about a roughly vertical axis. Therefore the principle strain axes and stratigraphic section rotated during or postdating development of the major sub-basin (?5.6–3.8 Ma) unconformity, a time that generally coincides with a change in the Philippine Sea plate convergence direction. Forearc basin development therefore postdates a protracted geologic evolution of shear-zone development, tectonic rotations, and inner-wedge development, the last of which coincides with a rheological evolution toward localized frictional faulting.

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More information

Published date: 1 November 2012
Keywords: accretionary prisms, fault mechanics, Integrated Ocean Drilling Program, D/V Chikyu, Expedition 319, Site C0009
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 346888
URI: http://eprints.soton.ac.uk/id/eprint/346888
ISSN: 0012-821X
PURE UUID: 0fc5febf-d520-41fc-8c08-b70202f76c23
ORCID for Lisa C. McNeill: ORCID iD orcid.org/0000-0002-8689-5882

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Date deposited: 10 Jan 2013 17:18
Last modified: 15 Mar 2024 03:09

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Contributors

Author: Nicholas W. Hayman
Author: Timothy B. ByrneTimothy B.
Author: Lisa C. McNeill ORCID iD
Author: Kyuichi Kanagawa
Author: Toshiya Kanamatsu
Author: Cassandra M Browne
Author: Anja M. Schleicher
Author: Gary J. Huftile

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