Structure and early evolution of the Arabian Sea and East Somali Basin

The Laxmi Ridge is a large‐scale basement high buried beneath the sediments of the Indus Fan. The location of the ocean–continent transition (OCT) on this margin has previously been proposed at either the southern edge of the Laxmi Ridge or beyond it towards the India–Pakistan shelf. The former expl...

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Bibliographic Details
Published inGeophysical journal international Vol. 134; no. 3; pp. 876 - 888
Main Authors Miles, P. R., Munschy, M., Ségoufin, J.
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.09.1998
Subjects
Anomalies
Arabian Sea
aseismic ridge
Basements
Basins
continental margins
gravity anomalies
magnetic anomalies
Position (location)
Ridges
Sea beds
sea‐floor spreading
Somalia
Spreading
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Summary:The Laxmi Ridge is a large‐scale basement high buried beneath the sediments of the Indus Fan. The location of the ocean–continent transition (OCT) on this margin has previously been proposed at either the southern edge of the Laxmi Ridge or beyond it towards the India–Pakistan shelf. The former explains the margin‐parallel Laxmi Basin as thinned continental crust, the latter as a failed rift of earlier seafloor spreading. To examine the structure of this margin, a reassessment of marine magnetic data has detailed seafloor‐spreading magnetic anomalies prior to anomaly 24 in both the Arabian and East Somali basins. The previously identified anomaly 28 is not interpreted as a seafloor‐spreading anomaly but as a magnetized basement feature adjacent to, and merging with, the ridge—the Laxmi Spur. New gravity models across the Laxmi Ridge and adjacent margin using ship and satellite data corroborate the existence of underplated crust beneath the Laxmi Ridge and Basin and the location of the OCT at the southern edge of the Ridge. The results are not compatible with the existence of a pre‐anomaly 28 phase of seafloor spreading, although large‐scale intrusions may be the origin of some of the basement features in the Laxmi Basin. The models also identify the Laxmi Spur as a low‐density feature with a natural remanent magnetization (NRM) compatible with serpentinization. The Laxmi Ridge is mapped to the southeast, where it appears to terminate at a point coinciding with the appearance of E–W magnetic lineations and gravity anomalies at 15.5°N. Thereafter it becomes indistinct. This is interpreted as necessary in the reconstruction to the Mascarene Plateau to avoid continental overlap.
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ISSN:0956-540X
1365-246X
DOI:10.1046/j.1365-246x.1998.00625.x