Geochemical characterization of the siliciclastic rocks of Chitravati Group, Cuddapah Supergroup: Implications for provenance and depositional environment

Geochemical characterization of the siliciclastic rocks of Chitravati Group, Cuddapah Supergroup: Implications for provenance and depositional environment

Petrological and geochemical studies have been carried out on Pulivendla and Gandikota Quartzite from Chitravati Group of Cuddapah Supergroup to decipher the provenance and depositional environment. Both the units are texturally mature with sub-rounded to well-rounded and moderately to well-sorted g...

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Veröffentlicht in:Journal of Earth System Science 2018-06, Vol.127 (4), p.1-27, Article 54
Hauptverfasser: Somasekhar, V, Ramanaiah, S, Sarma, D Srinivasa
Format: Artikel
Sprache:eng
Schlagworte:
Chemical weathering
Chondrites
Continental margins
Earth
Earth and Environmental Science
Earth Sciences
Feldspars
Frameworks
Geochemistry
Grains
Heavy minerals
Igneous rocks
Isotopes
Magma
Mica
Minerals
Plagioclase
Provenance
Quartz
Quartzite
Rare earth elements
Ratios
Rock
Scandium
Sediments
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Stone
Tectonics
Thorium
Trace elements
Weathering
Zirconium
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Ramanaiah, S
Sarma, D Srinivasa
description Petrological and geochemical studies have been carried out on Pulivendla and Gandikota Quartzite from Chitravati Group of Cuddapah Supergroup to decipher the provenance and depositional environment. Both the units are texturally mature with sub-rounded to well-rounded and moderately to well-sorted grains. Majority of the framework grains are quartz, in the form of monocrystalline quartz, followed by feldspars (K-feldspar and plagioclase), mica, rock fragments, heavy minerals, with minor proportion of the matrix and cement. Based on major element geochemical classification diagram, Pulivendla Quartzite is considered as quartz-arenite and arkose to sub-arkose, whereas Gandikota Quartzite falls in the field of lith-arenite and arkose to sub-arkose. Weathering indices like CIA, PIA, CIW, ICV, Th/U ratio and A–CN–K ternary diagram suggest moderate to intense chemical weathering of the source rocks of these quartzites. Whole rock geochemistry of quartzites indicate that they are primarily from the first-cycle sediments, along with some minor recycled components. Also their sources were mostly intermediate-felsic igneous rocks of Archean age. The tectonic discrimination plots, Th–Sc–Zr/10 of both these formations reflect active to passive continental margin setting. Chondrite-normalized rare earth element (REE) patterns, and various trace element ratios like Cr/Th, Th/Co, La/Sc and Th/Cr indicate dominantly felsic source with minor contribution from mafic source. Th/Sc ratios of Pulivendla and Gandikota Quartzite are in close proximity with average values of 2.83, 3.45 respectively, which is higher than AUCC ( Th/Sc = 0.97 ), demonstrating that the contributions from more alkali source rocks than those that contributed to AUCC.
doi_str_mv 10.1007/s12040-018-0955-y
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The tectonic discrimination plots, Th–Sc–Zr/10 of both these formations reflect active to passive continental margin setting. Chondrite-normalized rare earth element (REE) patterns, and various trace element ratios like Cr/Th, Th/Co, La/Sc and Th/Cr indicate dominantly felsic source with minor contribution from mafic source. 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Both the units are texturally mature with sub-rounded to well-rounded and moderately to well-sorted grains. Majority of the framework grains are quartz, in the form of monocrystalline quartz, followed by feldspars (K-feldspar and plagioclase), mica, rock fragments, heavy minerals, with minor proportion of the matrix and cement. Based on major element geochemical classification diagram, Pulivendla Quartzite is considered as quartz-arenite and arkose to sub-arkose, whereas Gandikota Quartzite falls in the field of lith-arenite and arkose to sub-arkose. Weathering indices like CIA, PIA, CIW, ICV, Th/U ratio and A–CN–K ternary diagram suggest moderate to intense chemical weathering of the source rocks of these quartzites. Whole rock geochemistry of quartzites indicate that they are primarily from the first-cycle sediments, along with some minor recycled components. Also their sources were mostly intermediate-felsic igneous rocks of Archean age. The tectonic discrimination plots, Th–Sc–Zr/10 of both these formations reflect active to passive continental margin setting. Chondrite-normalized rare earth element (REE) patterns, and various trace element ratios like Cr/Th, Th/Co, La/Sc and Th/Cr indicate dominantly felsic source with minor contribution from mafic source. Th/Sc ratios of Pulivendla and Gandikota Quartzite are in close proximity with average values of 2.83, 3.45 respectively, which is higher than AUCC ( Th/Sc = 0.97 ), demonstrating that the contributions from more alkali source rocks than those that contributed to AUCC.</abstract><cop>New Delhi</cop><pub>Springer India</pub><doi>10.1007/s12040-018-0955-y</doi><tpages>27</tpages><oa>free_for_read</oa></addata></record>
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source Indian Academy of Sciences; Springer Nature - Complete Springer Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Chemical weathering
Chondrites
Continental margins
Earth
Earth and Environmental Science
Earth Sciences
Feldspars
Frameworks
Geochemistry
Grains
Heavy minerals
Igneous rocks
Isotopes
Magma
Mica
Minerals
Plagioclase
Provenance
Quartz
Quartzite
Rare earth elements
Ratios
Rock
Scandium
Sediments
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Stone
Tectonics
Thorium
Trace elements
Weathering
Zirconium
title Geochemical characterization of the siliciclastic rocks of Chitravati Group, Cuddapah Supergroup: Implications for provenance and depositional environment
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