Petrogenesis and tectonic setting of bimodal volcanism in the Sakoli Mobile Belt, Central Indian shield

Ahmad, T. and Longjam, K. C. and Fouzdar, B. and Bickle, M. J. and Chapman, H. J. (2009) Petrogenesis and tectonic setting of bimodal volcanism in the Sakoli Mobile Belt, Central Indian shield. Island Arc, 18 (1). pp. 155-174.

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Official URL: http://dx.doi.org/10.1111/j.1440-1738.2008.00651.x

Abstract

The Sakoli Mobile Belt comprises bimodal volcanic rocks that include metabasalt, rhyolite, tuffs, and epiclastic rocks with metapelites, quartzite, arkose, conglomerate, and banded iron formation (BIF). Mafic volcanic rocks are tholeiitic to quartz-tholeiitic with normative quartz and hypersthene. SiO2 shows a large compositional gap between the basic and acidic volcanics, depicting their bimodal nature. Both the volcanics have distinct geochemical trends but display some similarity in terms of enriched light rare earth element2013large ion lithophile element characteristics with positive anomalies for U, Pb, and Th and distinct negative anomalies for Nb, P, and Ti. These characteristics are typical of continental rift volcanism. Both the volcanic rocks show strong negative Sr and Eu anomalies indicating fractionation of plagioclases and K-feldspars, respectively. The high Fe/Mg ratios for the basic rocks indicate their evolved nature. Whole rock Sm2013Nd isochrons for the acidic volcanic rocks indicate an age of crystallization for these volcanic rocks at about 1675���180�Ma (initial 143Nd/144Nd�=�0.51017���0.00017, mean square weighted deviate [MSWD]�=�1.6). The 03B5Ndt (t�=�2000�Ma) varies between 22120.19 and +2.22 for the basic volcanic rock and between 22122.85 and 22124.29 for the acidic volcanic rocks. Depleted mantle model ages vary from 2000 to 2275�Ma for the basic and from 2426 to 2777�Ma for the acidic volcanic rocks, respectively. These model ages indicate that protoliths for the acidic volcanic rocks probably had a much longer crustal residence time. Predominantly basaltic magma erupted during the deposition of the Dhabetekri Formation and part of it pooled at crustal or shallower subcrustal levels that probably triggered partial melting to generate the acidic magma. The influence of basic magma on the genesis of acidic magma is indicated by the higher Ni and Cr abundance at the observed silica levels of the acidic magma. A subsequent pulse of basic magma, which became crustally contaminated, erupted as minor component along with the dominantly acidic volcanics during the deposition of the Bhiwapur Formation.

Item Type: Article
Uncontrolled Keywords: 08AREP; IA57;
Subjects: 01 - Climate Change and Earth-Ocean Atmosphere Systems
Divisions: 01 - Climate Change and Earth-Ocean Atmosphere Systems
Journal or Publication Title: Island Arc
Volume: 18
Page Range: pp. 155-174
Depositing User: Sarah Humbert
Date Deposited: 09 Mar 2009 10:59
Last Modified: 23 Jul 2013 09:54
URI: http://eprints.esc.cam.ac.uk/id/eprint/864

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