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Fluid generation and distribution in the highest sediment input accretionary margin, the Makran

Fluid generation and distribution in the highest sediment input accretionary margin, the Makran
Fluid generation and distribution in the highest sediment input accretionary margin, the Makran
Fluids in subduction zones can influence seismogenic behaviour and prism morphology. The Eastern Makran subduction zone, offshore Pakistan, has a very thick incoming sediment section of up to 7.5 km, providing a large potential fluid source to the accretionary prism. A hydrate-related bottom simulating reflector (BSR), zones of high amplitude reflectivity, seafloor seep sites and reflective thrust faults are present across the accretionary prism, indicating the presence of fluids and suggesting active fluid migration. High amplitude free gas zones and seep sites are primarily associated with anticlinal hinge traps, and fluids here appear to be sourced from shallow biogenic sources and migrate to the seafloor along minor normal faults. There are no observed seep sites associated with the surface expression of the wedge thrust faults, potentially due to burial of the surface trace by failure of the steep thrust ridge slopes. Thrust fault reflectivity is restricted to the upper 3 km of sediment and the deeper décollement is non-reflective. We interpret that fluids and overpressure are not common in the deeper stratigraphic section. Thermal modelling of sediments at the deformation front suggests that the deeper sediment section is relatively dewatered and not currently contributing to fluid expulsion in the Makran accretionary prism.
Makran, subduction zone, accretionary prism, fluid transport, seismic reflection data, BSR
0012-821X
131-143
Smith, Gemma L.
b7a65fcd-0bfc-48ef-8d9c-a68aa6cddd39
McNeill, Lisa C.
1fe6a1e0-ca1a-4b6f-8469-309d0f9de0cf
Henstock, Timothy J.
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Arraiz, Daniel
943d8135-9a4b-454c-87bc-633196c29f71
Spiess, Volkhard
23e8aa28-1d20-4dde-b981-242c96bbc4b7
Smith, Gemma L.
b7a65fcd-0bfc-48ef-8d9c-a68aa6cddd39
McNeill, Lisa C.
1fe6a1e0-ca1a-4b6f-8469-309d0f9de0cf
Henstock, Timothy J.
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Arraiz, Daniel
943d8135-9a4b-454c-87bc-633196c29f71
Spiess, Volkhard
23e8aa28-1d20-4dde-b981-242c96bbc4b7

Smith, Gemma L., McNeill, Lisa C., Henstock, Timothy J., Arraiz, Daniel and Spiess, Volkhard (2014) Fluid generation and distribution in the highest sediment input accretionary margin, the Makran. Earth and Planetary Science Letters, 403, 131-143. (doi:10.1016/j.epsl.2014.06.030).

Record type: Article

Abstract

Fluids in subduction zones can influence seismogenic behaviour and prism morphology. The Eastern Makran subduction zone, offshore Pakistan, has a very thick incoming sediment section of up to 7.5 km, providing a large potential fluid source to the accretionary prism. A hydrate-related bottom simulating reflector (BSR), zones of high amplitude reflectivity, seafloor seep sites and reflective thrust faults are present across the accretionary prism, indicating the presence of fluids and suggesting active fluid migration. High amplitude free gas zones and seep sites are primarily associated with anticlinal hinge traps, and fluids here appear to be sourced from shallow biogenic sources and migrate to the seafloor along minor normal faults. There are no observed seep sites associated with the surface expression of the wedge thrust faults, potentially due to burial of the surface trace by failure of the steep thrust ridge slopes. Thrust fault reflectivity is restricted to the upper 3 km of sediment and the deeper décollement is non-reflective. We interpret that fluids and overpressure are not common in the deeper stratigraphic section. Thermal modelling of sediments at the deformation front suggests that the deeper sediment section is relatively dewatered and not currently contributing to fluid expulsion in the Makran accretionary prism.

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More information

Published date: 1 October 2014
Keywords: Makran, subduction zone, accretionary prism, fluid transport, seismic reflection data, BSR
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 366972
URI: http://eprints.soton.ac.uk/id/eprint/366972
DOI: doi:10.1016/j.epsl.2014.06.030
ISSN: 0012-821X
PURE UUID: f9c8906d-5422-4129-af2e-1790d38f3414
ORCID for Lisa C. McNeill: ORCID iD orcid.org/0000-0002-8689-5882
ORCID for Timothy J. Henstock: ORCID iD orcid.org/0000-0002-2132-2514

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Date deposited: 16 Jul 2014 10:56
Last modified: 15 Mar 2024 03:09

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Contributors

Author: Gemma L. Smith
Author: Lisa C. McNeill ORCID iD
Author: Timothy J. Henstock ORCID iD
Author: Daniel Arraiz
Author: Volkhard Spiess

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