The University of Southampton
University of Southampton Institutional Repository

Structure and tectonic history of the southern Kerguelen Plateau (Indian Ocean) deduced from seismic reflection data

Structure and tectonic history of the southern Kerguelen Plateau (Indian Ocean) deduced from seismic reflection data
Structure and tectonic history of the southern Kerguelen Plateau (Indian Ocean) deduced from seismic reflection data
Early single-channel and recent multichannel seismic reflection data together reveal major tectonic events in the history of the Southern Kerguelen Plateau (SKP). The SKP was created by Early Cretaceous volcanism which was mainly subaerial. We estimate the age of the adjacent ocean basins to be similar to that of the plateau. Following termination of the main volcanism, the SKP began to subside and to accumulate sediment. A lower sedimentary megasequence was deposited at this time, primarily in depressions on the plateau. At about 88 Ma, tectonism affected the eastern Raggatt Basin; this tectonism may be related to faulting which created the steep eastern margin of the SKP. At about 72 Ma, predominant tectonic activity, characterized by widespread extension and uplift forming the tilted block morphology, occurred over large areas of the SKP. The extension centered along several NW-SE trending rift systems, in places creating well-preserved axial rifts. The largest structure of this kind, the Central SKP Uplift, lies along the center of the SKP; its relief increases from the southernmost part of the plateau toward the NW. The northernmost part of this uplift, the Banzare Bank, was elevated during rifting above sea level and was eroded. A second extensional structure, the SW Uplift, lies in the SW corner of the plateau, and other, smaller structures may also be present. The extension appears to have culminated in the initiation of the Southeast Indian Ridge at 43 Ma, but, at least in the Raggatt Basin, the two events were not continuous. Tectonic subsidence that was associated with the extension corresponds to deposition of a second megasequence, estimated to be about 1000 m thick on Banzare Bank. The subparallel trend of the rift systems on the SKP to the Southeast Indian Ridge and their timing suggest that the rearrangement of spreading in the South Indian Ocean at 43 Ma was not solely the result of the collision of India with Asia; it started earlier in association with other plate motions in the area.
0278-7407
1332-1347
Rotstein, Y.
df81074b-1406-4c7d-9784-82040c82ff05
Schlich, R.
f0dcbefb-120f-4680-b6d2-acabe29b91d4
Munschy, M.
59888679-1199-4c7d-a184-eade10c558b2
Coffin, M.F.
b8285650-5efd-4129-ae91-1cf3f5911e89
Rotstein, Y.
df81074b-1406-4c7d-9784-82040c82ff05
Schlich, R.
f0dcbefb-120f-4680-b6d2-acabe29b91d4
Munschy, M.
59888679-1199-4c7d-a184-eade10c558b2
Coffin, M.F.
b8285650-5efd-4129-ae91-1cf3f5911e89

Rotstein, Y., Schlich, R., Munschy, M. and Coffin, M.F. (1992) Structure and tectonic history of the southern Kerguelen Plateau (Indian Ocean) deduced from seismic reflection data. Tectonics, 11 (6), 1332-1347.

Record type: Article

Abstract

Early single-channel and recent multichannel seismic reflection data together reveal major tectonic events in the history of the Southern Kerguelen Plateau (SKP). The SKP was created by Early Cretaceous volcanism which was mainly subaerial. We estimate the age of the adjacent ocean basins to be similar to that of the plateau. Following termination of the main volcanism, the SKP began to subside and to accumulate sediment. A lower sedimentary megasequence was deposited at this time, primarily in depressions on the plateau. At about 88 Ma, tectonism affected the eastern Raggatt Basin; this tectonism may be related to faulting which created the steep eastern margin of the SKP. At about 72 Ma, predominant tectonic activity, characterized by widespread extension and uplift forming the tilted block morphology, occurred over large areas of the SKP. The extension centered along several NW-SE trending rift systems, in places creating well-preserved axial rifts. The largest structure of this kind, the Central SKP Uplift, lies along the center of the SKP; its relief increases from the southernmost part of the plateau toward the NW. The northernmost part of this uplift, the Banzare Bank, was elevated during rifting above sea level and was eroded. A second extensional structure, the SW Uplift, lies in the SW corner of the plateau, and other, smaller structures may also be present. The extension appears to have culminated in the initiation of the Southeast Indian Ridge at 43 Ma, but, at least in the Raggatt Basin, the two events were not continuous. Tectonic subsidence that was associated with the extension corresponds to deposition of a second megasequence, estimated to be about 1000 m thick on Banzare Bank. The subparallel trend of the rift systems on the SKP to the Southeast Indian Ridge and their timing suggest that the rearrangement of spreading in the South Indian Ocean at 43 Ma was not solely the result of the collision of India with Asia; it started earlier in association with other plate motions in the area.

This record has no associated files available for download.

More information

Published date: 1992

Identifiers

Local EPrints ID: 52410
URI: http://eprints.soton.ac.uk/id/eprint/52410
ISSN: 0278-7407
PURE UUID: 4ea0ce8e-3822-4e56-a5df-09220c89da0a

Catalogue record

Date deposited: 25 Jun 2008
Last modified: 11 Dec 2021 17:30

Export record

Contributors

Author: Y. Rotstein
Author: R. Schlich
Author: M. Munschy
Author: M.F. Coffin

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×