B. K. Bansal scite author profile

We present crustal thickness and Poisson's ratio determinations from receiver function analyzes at 32 sites on the Archaean and Proterozoic terrains of South India. The crustal thickness in the late Archaean (2.5 Ga) Eastern Dharwar Craton varies from 34–39 km. Similar crustal thickness is observed beneath the Deccan Volcanic Province and the Cuddapah basin. The most unexpected result is the anomalous present‐day crustal thickness of 42–51 km beneath the mid‐Archaean (3.4–3.0 Ga) segment of the Western Dharwar Craton. Since the amphibolite‐grade metamorphic mineral assemblages (5–7 Kbar paleopressures) in this part of Western Dharwar Craton equilibrated at the depths of 15–20 km, our observations suggest the existence of an exceptionally thick (57–70 km) crust 3.0 Ga ago. Beneath the exhumed granulite terrain in southernmost India, the crustal thickness varies between 42–60 km. The Poisson's ratio ranges between 0.24–0.28 beneath the Precambrian terrains, indicating the presence of intermediate rock type in the lower crust. These observations of thickened crust suggest significant crustal shortening in South India during the Archaean.

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Q of the Indian Shield

Singh¹,

García²,

Pacheco³

et al. 2004

Bulletin of the Seismological Society of America

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Investigations related to scientific deep drilling to study reservoir-triggered earthquakes at Koyna, India

Gupta

Rao

Roy

et al. 2014

Int J Earth Sci (Geol Rundsch)

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high-quality magnetotelluric data at 100 stations, provide both regional information about the thickness of the Deccan Traps and the occurrence of localized density heterogeneities and anomalous conductive zones in the vicinity of the hypocentral zone. Acquisition of airborne LiDAR data to obtain a high-resolution topographic model of the region has been completed over an area of 1,064 km 2 centred on the Koyna seismic zone. Seismometers have been deployed in the granitic basement inside two boreholes and are planned in another set of six boreholes to obtain accurate hypocentral locations and constrain the disposition of fault zones.

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Source study of two small earthquakes of Delhi, India, and estimation of ground motion from future moderate, local events

Bansal

Singh²,

Dharmaraju

et al. 2008

J Seismol

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Seismotectonics and seismogenesis of Mw7.8 Gorkha earthquake and its aftershocks

Arora

Bansal

Prajapati

et al. 2017

Journal of Asian Earth Sciences

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B. K. Bansal

The nature of the crust in southern India: Implications for Precambrian crustal evolution

Q of the Indian Shield

Investigations related to scientific deep drilling to study reservoir-triggered earthquakes at Koyna, India

Source study of two small earthquakes of Delhi, India, and estimation of ground motion from future moderate, local events

Seismotectonics and seismogenesis of Mw7.8 Gorkha earthquake and its aftershocks

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