Macquarie Island’s Finch-Langdon fault: a ridge-transform inside corner structure
Macquarie Island’s Finch-Langdon fault: a ridge-transform inside corner structure
Macquarie Island consists of uplifted oceanic crust, uniquely situated in the ocean basin where it formed, thus allowing onshore structures to be placed into their regional oceanic tectonic context. The Finch-Langdon fault, the most significant spreading-related structure on the island, juxtaposes upper-crust rocks against lower-crust and upper-mantle rocks. It consists of dominantly oblique strike-slip, northwest-, west-northwest–, and north-northeast–striking fault segments that bear hydrothermal mineralization indicative of faulting during seafloor spreading. Talus breccias and graywackes overlain by volcanic flows proximal to the fault indicate a long-lived submarine fault scarp that exposed diabase dikes and gabbros during volcanism. Swath reflectivity and bathymetry reveal ridge-parallel spreading fabric and perpendicular fracture zones, the closest 7 km east of the island. On the basis of field and swath data, we propose that this fault zone formed near the inside corner of a ridge-transform intersection and that structures on the island are conformable with those in the surrounding seafloor.
Macquarie Island, ophiolite, transform, spreading center, ocean crust
661-664
Wertz, K.
a554337b-f842-4591-93cb-51751d88b8d2
Mosher, S.
5dd6d126-f515-44b4-99db-90bea3bb28c8
Daczko, N.
b8f4f801-01b9-4db5-be23-2a3a06d9f6ea
Coffin, M.F.
b8285650-5efd-4129-ae91-1cf3f5911e89
August 2003
Wertz, K.
a554337b-f842-4591-93cb-51751d88b8d2
Mosher, S.
5dd6d126-f515-44b4-99db-90bea3bb28c8
Daczko, N.
b8f4f801-01b9-4db5-be23-2a3a06d9f6ea
Coffin, M.F.
b8285650-5efd-4129-ae91-1cf3f5911e89
Wertz, K., Mosher, S., Daczko, N. and Coffin, M.F.
(2003)
Macquarie Island’s Finch-Langdon fault: a ridge-transform inside corner structure.
Geology, 31 (8), .
(doi:10.1130/G19441.1).
Abstract
Macquarie Island consists of uplifted oceanic crust, uniquely situated in the ocean basin where it formed, thus allowing onshore structures to be placed into their regional oceanic tectonic context. The Finch-Langdon fault, the most significant spreading-related structure on the island, juxtaposes upper-crust rocks against lower-crust and upper-mantle rocks. It consists of dominantly oblique strike-slip, northwest-, west-northwest–, and north-northeast–striking fault segments that bear hydrothermal mineralization indicative of faulting during seafloor spreading. Talus breccias and graywackes overlain by volcanic flows proximal to the fault indicate a long-lived submarine fault scarp that exposed diabase dikes and gabbros during volcanism. Swath reflectivity and bathymetry reveal ridge-parallel spreading fabric and perpendicular fracture zones, the closest 7 km east of the island. On the basis of field and swath data, we propose that this fault zone formed near the inside corner of a ridge-transform intersection and that structures on the island are conformable with those in the surrounding seafloor.
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Published date: August 2003
Keywords:
Macquarie Island, ophiolite, transform, spreading center, ocean crust
Identifiers
Local EPrints ID: 52442
URI: http://eprints.soton.ac.uk/id/eprint/52442
ISSN: 0091-7613
PURE UUID: 9f3b5cdd-f467-469d-a05b-80d5288655b5
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Date deposited: 26 Jun 2008
Last modified: 15 Mar 2024 10:37
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Contributors
Author:
K. Wertz
Author:
S. Mosher
Author:
N. Daczko
Author:
M.F. Coffin
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