Petrology and geochemistry of high-titanium and low-titanium mafic dykes from the Damodar valley, Chhotanagpur Gneissic Terrain, eastern India and their relation to Cretaceous mantle plume(s)

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dc.contributor.author Srivastava, Rajesh K.
dc.contributor.author Kumar, Suresh
dc.contributor.author Sinha, Anup K.
dc.contributor.author Rao, N.V. Chalapathi
dc.date.accessioned 2015-12-08T06:58:17Z
dc.date.accessioned 2021-02-12T10:44:16Z
dc.date.available 2015-12-08T06:58:17Z
dc.date.available 2021-02-12T10:44:16Z
dc.date.issued 2014
dc.identifier.citation Journal of Asian Earth Sciences, v.84, p.34–50, 2014, doi: 10.1016/j.jseaes.2013.07.044 en_US
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/794
dc.description.abstract The Damodar valley within the Chhotanagpur Gneissic terrain at the northern-most margin of the Singhbhum craton, eastern India, is perhaps the only geological domain in the entire Indian shield which hosts the early Cretaceous Rajmahal as well as the late Cretaceous Deccan igneous activities. A number of Cretaceous mafic dykes intrude the Gondwana sedimentary formations and are focus of the present study. One set of these dykes strike NNE to ENE, are very fresh and mainly exposed within the Jharia, Bokaro and Karanpura basins; whereas the other set of dykes (including the well-known Salma mega dyke) trend NW to NNW, intrude mainly the Raniganj basin and show meagre hydrothermal alteration. Majority of the samples from both these dyke groups display ophitic or sub-ophitic textures and are essentially composed of augite/titan augite and plagioclase. On the basis of petrographic and geochemical characteristics the NNE to ENE dykes are identified as high-Ti dolerite (HTD) dykes and the NW to NNW dykes are referred to as low-Ti dolerite (LTD) dykes. Apart from the first-order distinction on their titanium contents, both these groups also show conspicuous geochemical differences. The HTD dykes contain relatively high values of iron, and high-field strength elements than those from the LTD dykes with an overlapping MgO contents. Although available field, paleomagnetic and limited geochronological data for most of the studied dykes suggests their emplacement during early Cretaceous period (110–115 Ma), the Salma dyke, dated to be of Deccan-age at ∼65 Ma, is an exception. Geochemically all the studied samples show an undoubted plume-derived character but their unequivocal affinity to either the early Cretaceous Kerguelen (Rajmahal) or the late-Cretaceous Reunion (Deccan) plume is not straightforward since they share bulk-rock characteristics of rocks derived from both these plumes. Even though, the spatial and temporal association of the mafic dykes of present study with the Rajmahal Traps are suggestive of their linkage to the Kerguelen plume activity, robust geochronological and paleomagnetic constraints are clearly required to understand the relative contributions of the two Cretaceous mantle plumes in the genesis of the mafic igneous activity in this interesting domain. en_US
dc.language.iso en en_US
dc.subject Petrology en_US
dc.subject Geochemistry en_US
dc.subject Mafic dykes en_US
dc.subject Damodar valley en_US
dc.subject Eastern India en_US
dc.subject Kerguelen plume en_US
dc.subject Rèunion plume en_US
dc.title Petrology and geochemistry of high-titanium and low-titanium mafic dykes from the Damodar valley, Chhotanagpur Gneissic Terrain, eastern India and their relation to Cretaceous mantle plume(s) en_US
dc.type Article en_US
dc.identifier.accession 091458


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