New geological-geophysical data on the structure of the Ninetyeast Ridge
DRS at CSIR-National Institute of Oceanography
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Title |
New geological-geophysical data on the structure of the Ninetyeast Ridge
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Creator |
Levchenko, O.V.
Sager, W.W. Frey, F.A. Pringle, M.S. Krishna, K.S. Rao, D.G. Gauntlett, E. Mervine, E.E. Marinova, Y.G. Piotrowski, A.A. Paul, S.F. Huang, S. Eisin, A.E. |
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Subject |
geophysical data
geological data bottom topography magnetic fields |
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Description |
The Ninetyeast (or East Indian) Ridge is one of the longest aseismic volcanic ridges in the World Ocean and one of the longest linear structures of the Earth. It is 200 km wide on average, and it extends in the meridional direction via the entire eastern part of the Indian Ocean for almost 5000 km. The ridge is distinctly expressed in the bottom topography from its intersection with the West Australian Ridge in the 31 degrees S area to 10 degrees, where it disappears under sediments of the Bengal fan. Farther up to 17 degrees N, the Ninetyeast Ridge is traceable in the form of a buried anticlinal uplift of the oceanic basaltic basement. There are many hypotheses proposed for explaining the origin of this enigmatic structure, of which two are most popular at present. Many Russian and some foreign scientists believe that the Ninetyeast Ridge resulted from magmatic activity along a giant transform fault. The overwhelming majority of foreign scientists and some Russian scientists consider the formation of the ridge to have resulted from hot spot magmatism in the course of the Indian Australian lithospheric plate movement above the ascending mantle plume similar to the classical Hawaiian-Emperor volcanic chain. The main argument in favor of the last hypothesis is provided by the regular successive increase in basalt ages along the ridge from 43 Ma in the south to 77 Ma in the north. Despite the fact that ages of basalts from drilled holes form a linear succession, the avail able seven points are insufficient for discovery of the assumed reverse age trends in its southern part, which follow from the analysis of the anomalous magnetic field. New geological-geophysical data were obtained during Cruise KNOX06RR of the R/V Roger Revelle carried out in the Ninetyeast Ridge area in 2007 [6]. Prior to this cruise, it was assumed that dredging along the ridge should yield samples for representative radiometric dating and geochemical analysis of basalts, which is necessary for testing the ‘hot spot’ hypothesis. The second task of the cruise was a detailed geophysical site survey in areas of planned drilling on the ridge with deep (up to 200-300 m) penetration into basalts
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Date |
2010-09-17T11:35:26Z
2010-09-17T11:35:26Z 2010 |
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Type |
Journal Article
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Identifier |
Doklady Earth Sciences, vol.434(1); 1208-1213
http://drs.nio.org/drs/handle/2264/3709 |
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Language |
en
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Rights |
Copyright [2010]. All efforts have been made to respect the copyright to the best of our knowledge. Inadvertent omissions, if brought to our notice, stand for correction and withdrawal of document from this repository. |
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Publisher |
Pleiades Publishing
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