FUJI Dome: A large detachment fault near 64°E on the very slow-spreading southwest Indian Ridge
FUJI Dome: A large detachment fault near 64°E on the very slow-spreading southwest Indian Ridge
A continuous, domed detachment surface (FUJI Dome) has been imaged on the very slow-spreading southwest Indian Ridge using deep-towed side-scan sonar, and has been investigated by manned submersible and sea-surface geophysics. The Dome is morphologically similar to other oceanic detachments, core complexes or mega-mullions. In addition to bathymetric mullions observed in ship-borne bathymetry, finer scale spreading-parallel striations were imaged with the side scan. On the detachment surface, metabasalt crops out near the termination, probably as part of a thin fault sliver. Gabbro and troctolite probably crop out near the summit of the dome. The rest of the detachment surface is covered with sediment and rubble which is basaltic except for a single sample of serpentinite. Most of the detachment surface dips toward the ridge axis at 10°–20°, but near the breakaway it is strongly rotated outward, and dips away from the axis at up to 40°. Normal, undeformed volcanic seafloor crops out adjacent to the detachment. Modeling of sea surface magnetic data suggest the detachment was active from 1.95 Ma for about 1 Ma during a period of reduced and asymmetric magmatic accretion. Modeling of sea surface and seafloor gravity requires laterally fairly uniform but high density material under the Dome, and precludes steeply dipping contacts between bodies with large density contrasts at shallow levels under the Dome.
Southwest Indian Ridge, detachment, submersible, magnetic, gravity.
Art. 09105
Searle, R.C.
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Cannat, M.
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Fujioka, K.
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Mevel, C.
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Fujimoto, H.
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Bralewska, J.
ac6874d0-9146-481f-9bc5-36005c097206
Parson, L.
8985a003-911e-402e-a858-3ecbd09d6771
2003
Searle, R.C.
aacbd084-421e-4813-86b7-ac7d84da376f
Cannat, M.
a20fa97e-e8ff-4fee-a35b-3dd86bf27f1a
Fujioka, K.
b0abe3bd-2556-4b09-9d8f-5f9d4a479649
Mevel, C.
fb124522-0785-4292-9e7b-95d684666904
Fujimoto, H.
15fc17f8-bbe4-40e8-8cfc-0a1c6e0b3bdc
Bralewska, J.
ac6874d0-9146-481f-9bc5-36005c097206
Parson, L.
8985a003-911e-402e-a858-3ecbd09d6771
Searle, R.C., Cannat, M., Fujioka, K., Mevel, C., Fujimoto, H., Bralewska, J. and Parson, L.
(2003)
FUJI Dome: A large detachment fault near 64°E on the very slow-spreading southwest Indian Ridge.
Geochemistry, Geophysics, Geosystems, 4 (8), .
(doi:10.1029/2003GC000519).
Abstract
A continuous, domed detachment surface (FUJI Dome) has been imaged on the very slow-spreading southwest Indian Ridge using deep-towed side-scan sonar, and has been investigated by manned submersible and sea-surface geophysics. The Dome is morphologically similar to other oceanic detachments, core complexes or mega-mullions. In addition to bathymetric mullions observed in ship-borne bathymetry, finer scale spreading-parallel striations were imaged with the side scan. On the detachment surface, metabasalt crops out near the termination, probably as part of a thin fault sliver. Gabbro and troctolite probably crop out near the summit of the dome. The rest of the detachment surface is covered with sediment and rubble which is basaltic except for a single sample of serpentinite. Most of the detachment surface dips toward the ridge axis at 10°–20°, but near the breakaway it is strongly rotated outward, and dips away from the axis at up to 40°. Normal, undeformed volcanic seafloor crops out adjacent to the detachment. Modeling of sea surface magnetic data suggest the detachment was active from 1.95 Ma for about 1 Ma during a period of reduced and asymmetric magmatic accretion. Modeling of sea surface and seafloor gravity requires laterally fairly uniform but high density material under the Dome, and precludes steeply dipping contacts between bodies with large density contrasts at shallow levels under the Dome.
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More information
Published date: 2003
Keywords:
Southwest Indian Ridge, detachment, submersible, magnetic, gravity.
Identifiers
Local EPrints ID: 1274
URI: http://eprints.soton.ac.uk/id/eprint/1274
ISSN: 1525-2027
PURE UUID: 82cbd70d-3838-4b03-a153-7958fdaf3d66
Catalogue record
Date deposited: 07 Apr 2004
Last modified: 15 Mar 2024 04:42
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Contributors
Author:
R.C. Searle
Author:
M. Cannat
Author:
K. Fujioka
Author:
C. Mevel
Author:
H. Fujimoto
Author:
J. Bralewska
Author:
L. Parson
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