TOBI sidescan sonar imagery of the very slow-spreading Southwest Indian Ridge: evidence for along-axis magma distribution
TOBI sidescan sonar imagery of the very slow-spreading Southwest Indian Ridge: evidence for along-axis magma distribution
New deep tow sidescan sonar data from the Southwest Indian Ridge reveal complex volcanic/tectonic interrelationships in the axial zone of this ultra-slow spreading ridge. While some constructional volcanic features resemble examples documented at the slow-spreading Mid-Atlantic Ridge, such as axial volcanic ridges, hummocky and smooth lava flows, their distribution and dimensions differ markedly. The largest axial volcanic ridges occur at segment centres, but fresh-looking volcanic constructions also occur at segment ends and in the deep basins marking the non-transform discontinuities. The orientations of the dominant fault population and main volcanic ridges are controlled by tectonic processes such as orthogonal extension in the sections of the ridge perpendicular to the spreading direction and transtensional extension in the obliquely spreading sections of the ridge. Minor faults and small volcanic ridges striking parallel to the axis in the oblique part of the ridge are not controlled by these extensional regimes. This observation suggests that the ridge axis acts as a zone of weakness and that magmatic processes, with associated fractures opening in response to magma pressure, may control local emplacements of axial volcanic ridges at obliquely spreading ridges. This non-systematic pattern of ridge characteristics suggests an along-axis variation between focused and distributed magmatic supply, a model which is supported by our interpretation of low-amplitude mantle Bouguer anomalies calculated for the area. We propose that a change of the axial segmentation pattern, from two segments to the present-day three segments, may have introduced additional instability into the crustal accretion process.
side-scanning methods, volcanic features, tectonics, faults, segmentation, Southwest Indian Ridge, mid-ocean ridges, sea-floor spreading
81-95
Sauter, D.
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Parson, L.
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Mendel, V.
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Rommevauz-Jestin, C.
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Gomez, O.
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Briais, A.
c6257edb-5ac5-4649-81a7-799ee77e2403
Vel, C.
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Tamaki, K.
430153c9-45cc-4ead-a3c4-0a75a4f01c13
30 May 2002
Sauter, D.
968fb3cb-dd6b-4b84-bea4-7492334c5753
Parson, L.
8985a003-911e-402e-a858-3ecbd09d6771
Mendel, V.
1419f732-feab-4ac5-9f13-e4fa0207ba4e
Rommevauz-Jestin, C.
f0a1f98c-1211-43e7-9a7e-ccba10235316
Gomez, O.
5f6cdc42-123b-4078-ad70-bf0856490717
Briais, A.
c6257edb-5ac5-4649-81a7-799ee77e2403
Vel, C.
164490b9-b4ba-44be-a022-5541905905fd
Tamaki, K.
430153c9-45cc-4ead-a3c4-0a75a4f01c13
Sauter, D., Parson, L., Mendel, V., Rommevauz-Jestin, C., Gomez, O., Briais, A., Vel, C. and Tamaki, K.
(2002)
TOBI sidescan sonar imagery of the very slow-spreading Southwest Indian Ridge: evidence for along-axis magma distribution.
Earth and Planetary Science Letters, 199 (1-2), .
(doi:10.1016/S0012-821X(02)00543-5).
Abstract
New deep tow sidescan sonar data from the Southwest Indian Ridge reveal complex volcanic/tectonic interrelationships in the axial zone of this ultra-slow spreading ridge. While some constructional volcanic features resemble examples documented at the slow-spreading Mid-Atlantic Ridge, such as axial volcanic ridges, hummocky and smooth lava flows, their distribution and dimensions differ markedly. The largest axial volcanic ridges occur at segment centres, but fresh-looking volcanic constructions also occur at segment ends and in the deep basins marking the non-transform discontinuities. The orientations of the dominant fault population and main volcanic ridges are controlled by tectonic processes such as orthogonal extension in the sections of the ridge perpendicular to the spreading direction and transtensional extension in the obliquely spreading sections of the ridge. Minor faults and small volcanic ridges striking parallel to the axis in the oblique part of the ridge are not controlled by these extensional regimes. This observation suggests that the ridge axis acts as a zone of weakness and that magmatic processes, with associated fractures opening in response to magma pressure, may control local emplacements of axial volcanic ridges at obliquely spreading ridges. This non-systematic pattern of ridge characteristics suggests an along-axis variation between focused and distributed magmatic supply, a model which is supported by our interpretation of low-amplitude mantle Bouguer anomalies calculated for the area. We propose that a change of the axial segmentation pattern, from two segments to the present-day three segments, may have introduced additional instability into the crustal accretion process.
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Published date: 30 May 2002
Keywords:
side-scanning methods, volcanic features, tectonics, faults, segmentation, Southwest Indian Ridge, mid-ocean ridges, sea-floor spreading
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Local EPrints ID: 1389
URI: http://eprints.soton.ac.uk/id/eprint/1389
ISSN: 0012-821X
PURE UUID: 1b4b9cf9-d746-4211-8f17-046408aff347
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Date deposited: 26 Apr 2004
Last modified: 15 Mar 2024 04:43
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Author:
D. Sauter
Author:
L. Parson
Author:
V. Mendel
Author:
C. Rommevauz-Jestin
Author:
O. Gomez
Author:
A. Briais
Author:
C. Vel
Author:
K. Tamaki
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