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Active faulting within the offshore western Gulf of Corinth, Greece: implications for models of continental rift deformation

Active faulting within the offshore western Gulf of Corinth, Greece: implications for models of continental rift deformation
Active faulting within the offshore western Gulf of Corinth, Greece: implications for models of continental rift deformation
Discrimination between different lithospheric extension models focusing on the roles of low-angle vs. high-angle faulting, and how strain is distributed, requires high-fidelity imaging of brittle deformation. High-resolution seismic reflection and multibeam bathymetric data in the western Gulf of Corinth continental rift were collected to establish the contribution of offshore faults to extension. Onshore fault slip here is significantly less than expected from geodetic strain rates. The rift at this location is a half-graben tilted to the north by S-dipping faults within the uppermost crust. A basement horst on the northern margin is uplifted by the North and South Eratini faults, and the axial channel is fault controlled. Subsided lowstand shorelines in the hanging wall of the North Eratini and the well-studied Aigion fault suggest that the faults have similar displacements. Summed extension from the four major faults across this part of the rift (Eliki, Subchannel, South Eratini, North Eratini) is 8–16 mm/yr, thereby reconciling geologic and geodetic data sets. Distributed deformation across isolated multiple faults can model this part of the rift without recourse to, and potentially incompatible with, an underlying low-angle detachment.
rifts, Corinth, Greece, normal faults, bathymetry, seismic reflection profiles
0091-7613
241-244
McNeill, L.C.
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Cotterill, C.J.
256cbaac-35fb-424d-aee1-338cdfe025ab
Henstock, T.J.
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Bull, J.M.
974037fd-544b-458f-98cc-ce8eca89e3c8
Stefatos, A.
228aa1e4-b8ad-4cf8-aed4-b1f2e297760a
Collier, R.E.L.
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Papatheoderou, G.
f65febd1-3257-420a-9086-e555bc6feea1
Ferentinos, G.
9953a8a8-ed48-40af-9c3a-6c5e3bc23197
Hicks, S.E.
1967e5e4-8cdb-46f0-9c16-e7d3d052d480
McNeill, L.C.
1fe6a1e0-ca1a-4b6f-8469-309d0f9de0cf
Cotterill, C.J.
256cbaac-35fb-424d-aee1-338cdfe025ab
Henstock, T.J.
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Bull, J.M.
974037fd-544b-458f-98cc-ce8eca89e3c8
Stefatos, A.
228aa1e4-b8ad-4cf8-aed4-b1f2e297760a
Collier, R.E.L.
4568b663-a810-44d7-8712-41a6fe1dd40a
Papatheoderou, G.
f65febd1-3257-420a-9086-e555bc6feea1
Ferentinos, G.
9953a8a8-ed48-40af-9c3a-6c5e3bc23197
Hicks, S.E.
1967e5e4-8cdb-46f0-9c16-e7d3d052d480

McNeill, L.C., Cotterill, C.J., Henstock, T.J., Bull, J.M., Stefatos, A., Collier, R.E.L., Papatheoderou, G., Ferentinos, G. and Hicks, S.E. (2005) Active faulting within the offshore western Gulf of Corinth, Greece: implications for models of continental rift deformation. Geology, 33 (4), 241-244. (doi:10.1130/G21127.1).

Record type: Article

Abstract

Discrimination between different lithospheric extension models focusing on the roles of low-angle vs. high-angle faulting, and how strain is distributed, requires high-fidelity imaging of brittle deformation. High-resolution seismic reflection and multibeam bathymetric data in the western Gulf of Corinth continental rift were collected to establish the contribution of offshore faults to extension. Onshore fault slip here is significantly less than expected from geodetic strain rates. The rift at this location is a half-graben tilted to the north by S-dipping faults within the uppermost crust. A basement horst on the northern margin is uplifted by the North and South Eratini faults, and the axial channel is fault controlled. Subsided lowstand shorelines in the hanging wall of the North Eratini and the well-studied Aigion fault suggest that the faults have similar displacements. Summed extension from the four major faults across this part of the rift (Eliki, Subchannel, South Eratini, North Eratini) is 8–16 mm/yr, thereby reconciling geologic and geodetic data sets. Distributed deformation across isolated multiple faults can model this part of the rift without recourse to, and potentially incompatible with, an underlying low-angle detachment.

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Published date: 2005
Keywords: rifts, Corinth, Greece, normal faults, bathymetry, seismic reflection profiles
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Identifiers

Local EPrints ID: 15880
URI: http://eprints.soton.ac.uk/id/eprint/15880
DOI: doi:10.1130/G21127.1
ISSN: 0091-7613
PURE UUID: b879ef9a-bc2d-46a9-9532-e973311fec18
ORCID for L.C. McNeill: ORCID iD orcid.org/0000-0002-8689-5882
ORCID for T.J. Henstock: ORCID iD orcid.org/0000-0002-2132-2514
ORCID for J.M. Bull: ORCID iD orcid.org/0000-0003-3373-5807

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Date deposited: 13 Jun 2005
Last modified: 16 Mar 2024 03:20

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Contributors

Author: L.C. McNeill ORCID iD
Author: C.J. Cotterill
Author: T.J. Henstock ORCID iD
Author: J.M. Bull ORCID iD
Author: A. Stefatos
Author: R.E.L. Collier
Author: G. Papatheoderou
Author: G. Ferentinos
Author: S.E. Hicks

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