Tectonophysics2022,Vol.82416.DOI:10.1016/j.tecto.2022.229222

Plume-ridge interactions in the Central Indian Ocean Basin: Insights from new wide-angle seismic and potential field modelling

Ningthoujam, Lachit S. Pandey, Dhananjai K. Nair, Nisha Yadav, Rahul Khogenkumar, Shoraisam Negi, Sanjay S. Kumar, Amit
Tectonophysics2022,Vol.82416.DOI:10.1016/j.tecto.2022.229222
  • NSTL
  • Elsevier

Plume-ridge interactions in the Central Indian Ocean Basin: Insights from new wide-angle seismic and potential field modelling

Ningthoujam, Lachit S. 1Pandey, Dhananjai K. 1Nair, Nisha 1Yadav, Rahul 1Khogenkumar, Shoraisam 2Negi, Sanjay S. 1Kumar, Amit1
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作者信息

  • 1. Minist Earth Sci
  • 2. CSIR
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Abstract

The central Indian Ocean Basin (CIOB) comprises numerous tectonic elements related to the early-mid Cretaceous Antarctica-India rifting and subsequent formation of the Indian Ocean. A protracted rift-drift journey of the Indian plate was accompanied with frequent interactions between concurrent mantle plumes and spreading centres. In 2015, we acquired similar to 420-km long wide-angle reflection and refraction seismic profile in the CIOB south off Sri Lanka, which lies in close proximity to the Indian Ocean Geoid Low. Our primary aim is to decipher crustal and uppermost mantle structure variations with an emphasis on prior tectonics. Two dimensional traveltime tomographic inversion complemented by potential field modelling yields sub-surface velocity-interface structures of the CIOB. Results demonstrate presence of an anomalously thick crust (similar to 14 km) underneath the Comorin ridge, which gradually thins out in the east towards the centre of the geoidal low. We observe distinct evidence for an anomolously high velocity lower crust (velocities greater than 7 km/s across a similar to 160 km wide region) west of 79(0) E longitude. However, crust to the east of this point appears to be normal oceanic type. We attribute the lateral diversity in the crustal type to possible magmatic underplating beneath the Comorin ridge. We interpret that the concurrent plume-ridge interaction during the late Cretaceous India-Madagascar break-up may have caused this crustal underplating. These findings have significant implications towards better understanding of plume-ridge interaction processes along various passive margins as well as precise reconstruction of India-Madagascar dispersal.

Key words

Central Indian Ocean basin/Plume-ridge interaction/Wide-angle seismic/Crustal structure/SPREADING MAGNETIC-ANOMALIES/IBERIA ABYSSAL-PLAIN/CRUSTAL STRUCTURE/DEEP-STRUCTURE/UNDERPLATING BENEATH/CONTINENT TRANSITION/REFRACTION PROFILES/COMORIN RIDGE/HOT-SPOT/MADAGASCAR

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出版年

2022
Tectonophysics

Tectonophysics

EISCI
ISSN:0040-1951
被引量4
参考文献量79
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