Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling

The Cauvery-Palar basin is a major peri-cratonic rift basin located along the Eastern Continental Margin of India (ECMI) that had formed during the rift-drift events associated with the breakup of eastern Gondwanaland (mainly India-Sri Lanka-East Antarctica). In the present study, we carry out an in...

Full description

Bibliographic Details
Published in:Journal of Earth System Science
Main Authors: TWINKLE, D, RAO, GS, RADHAKRISHNA, M, MURTHY, KSR
Format: Article in Journal/Newspaper
Language:English
Published: INDIAN ACAD SCIENCES 2016
Subjects:
Magnetic Anomaly Data
Aeromagnetic Data
Peninsular Shield
Geophysical-Data
Bengal Fan
Gravity
Coast
Evolution
Depth
Bay
Crustal Structure
Gravity And Magnetic
Seismic
Cauvery-Palar Basin
Eastern Continental Margin Of India (Ecmi)
East Antarctica
Indian
Antarc*
Antarctica
Online Access:https://doi.org/10.1007/s12040-016-0669-y
id ftiitbombay:oai:dsapce.library.iitb.ac.in:123456789/18801
record_format openpolar
spelling ftiitbombay:oai:dsapce.library.iitb.ac.in:123456789/18801 2023-05-15T14:00:31+02:00 Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling TWINKLE, D RAO, GS RADHAKRISHNA, M MURTHY, KSR 2016 https://doi.org/10.1007/s12040-016-0669-y English eng INDIAN ACAD SCIENCES JOURNAL OF EARTH SYSTEM SCIENCE,125(2)329-342 0253-4126 0973-774X http://dx.doi.org/10.1007/s12040-016-0669-y Magnetic Anomaly Data Aeromagnetic Data Peninsular Shield Geophysical-Data Bengal Fan Gravity Coast Evolution Depth Bay Crustal Structure Gravity And Magnetic Seismic Cauvery-Palar Basin Eastern Continental Margin Of India (Ecmi) Article 2016 ftiitbombay https://doi.org/10.1007/s12040-016-0669-y 2021-06-03T17:53:28Z The Cauvery-Palar basin is a major peri-cratonic rift basin located along the Eastern Continental Margin of India (ECMI) that had formed during the rift-drift events associated with the breakup of eastern Gondwanaland (mainly India-Sri Lanka-East Antarctica). In the present study, we carry out an integrated analysis of the potential field data across the basin to understand the crustal structure and the associated rift tectonics. The composite-magnetic anomaly map of the basin clearly shows the onshore-to-offshore structural continuity, and presence of several high-low trends related to either intrusive rocks or the faults. The Curie depth estimated from the spectral analysis of offshore magnetic anomaly data gave rise to 23 km in the offshore Cauvery-Palar basin. The 2D gravity and magnetic crustal models indicate several crustal blocks separated by major structures or faults, and the rift-related volcanic intrusive rocks that characterize the basin. The crustal models further reveal that the crust below southeast Indian shield margin is similar to 36 km thick and thins down to as much as 13-16 km in the Ocean Continent Transition (OCT) region and increases to around 19-21 km towards deep oceanic areas of the basin. The faulted Moho geometry with maximum stretching in the Cauvery basin indicates shearing or low angle rifting at the time of breakup between India-Sri Lanka and the East Antarctica. However, the additional stretching observed in the Cauvery basin region could be ascribed to the subsequent rifting of Sri Lanka from India. The abnormal thinning of crust at the OCT is interpreted as the probable zone of emplaced Proto-Oceanic Crust (POC) rocks during the breakup. The derived crustal structure along with other geophysical data further reiterates sheared nature of the southern part of the ECMI. Article in Journal/Newspaper Antarc* Antarctica East Antarctica DSpace@IIT Bombay (Indian Institute of Technology) East Antarctica Indian Journal of Earth System Science 125 2 329 342
institution Open Polar
collection DSpace@IIT Bombay (Indian Institute of Technology)
op_collection_id ftiitbombay
language English
topic Magnetic Anomaly Data
Aeromagnetic Data
Peninsular Shield
Geophysical-Data
Bengal Fan
Gravity
Coast
Evolution
Depth
Bay
Crustal Structure
Gravity And Magnetic
Seismic
Cauvery-Palar Basin
Eastern Continental Margin Of India (Ecmi)
spellingShingle Magnetic Anomaly Data
Aeromagnetic Data
Peninsular Shield
Geophysical-Data
Bengal Fan
Gravity
Coast
Evolution
Depth
Bay
Crustal Structure
Gravity And Magnetic
Seismic
Cauvery-Palar Basin
Eastern Continental Margin Of India (Ecmi)
TWINKLE, D
RAO, GS
RADHAKRISHNA, M
MURTHY, KSR
Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
topic_facet Magnetic Anomaly Data
Aeromagnetic Data
Peninsular Shield
Geophysical-Data
Bengal Fan
Gravity
Coast
Evolution
Depth
Bay
Crustal Structure
Gravity And Magnetic
Seismic
Cauvery-Palar Basin
Eastern Continental Margin Of India (Ecmi)
description The Cauvery-Palar basin is a major peri-cratonic rift basin located along the Eastern Continental Margin of India (ECMI) that had formed during the rift-drift events associated with the breakup of eastern Gondwanaland (mainly India-Sri Lanka-East Antarctica). In the present study, we carry out an integrated analysis of the potential field data across the basin to understand the crustal structure and the associated rift tectonics. The composite-magnetic anomaly map of the basin clearly shows the onshore-to-offshore structural continuity, and presence of several high-low trends related to either intrusive rocks or the faults. The Curie depth estimated from the spectral analysis of offshore magnetic anomaly data gave rise to 23 km in the offshore Cauvery-Palar basin. The 2D gravity and magnetic crustal models indicate several crustal blocks separated by major structures or faults, and the rift-related volcanic intrusive rocks that characterize the basin. The crustal models further reveal that the crust below southeast Indian shield margin is similar to 36 km thick and thins down to as much as 13-16 km in the Ocean Continent Transition (OCT) region and increases to around 19-21 km towards deep oceanic areas of the basin. The faulted Moho geometry with maximum stretching in the Cauvery basin indicates shearing or low angle rifting at the time of breakup between India-Sri Lanka and the East Antarctica. However, the additional stretching observed in the Cauvery basin region could be ascribed to the subsequent rifting of Sri Lanka from India. The abnormal thinning of crust at the OCT is interpreted as the probable zone of emplaced Proto-Oceanic Crust (POC) rocks during the breakup. The derived crustal structure along with other geophysical data further reiterates sheared nature of the southern part of the ECMI.
format Article in Journal/Newspaper
author TWINKLE, D
RAO, GS
RADHAKRISHNA, M
MURTHY, KSR
author_facet TWINKLE, D
RAO, GS
RADHAKRISHNA, M
MURTHY, KSR
author_sort TWINKLE, D
title Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
title_short Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
title_full Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
title_fullStr Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
title_full_unstemmed Crustal structure and rift tectonics across the Cauvery-Palar basin, Eastern Continental Margin of India based on seismic and potential field modelling
title_sort crustal structure and rift tectonics across the cauvery-palar basin, eastern continental margin of india based on seismic and potential field modelling
publisher INDIAN ACAD SCIENCES
publishDate 2016
url https://doi.org/10.1007/s12040-016-0669-y
geographic East Antarctica
Indian
geographic_facet East Antarctica
Indian
genre Antarc*
Antarctica
East Antarctica
genre_facet Antarc*
Antarctica
East Antarctica
op_relation JOURNAL OF EARTH SYSTEM SCIENCE,125(2)329-342
0253-4126
0973-774X
http://dx.doi.org/10.1007/s12040-016-0669-y
op_doi https://doi.org/10.1007/s12040-016-0669-y
container_title Journal of Earth System Science
container_volume 125
container_issue 2
container_start_page 329
op_container_end_page 342
_version_ 1766269701542903808

Similar Items