Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust

The Precambrian basement of the Schirmacher Hills, Queen Maud Land, East Antarctica has evolved through multiple episodes of deformation and metamorphism. The rocks have suffered at least five phases of deformation. The imprint of the early deformation, D 1 , is preserved in some mafic isolated encl...

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Bibliographic Details
Main Authors: Dasgupta, Somnath, Sengupta, Sudipta, Bose, Santanu, Fukuoka, Masato, Dasgupta, Sreemati
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier Science 2001
Subjects:
QE Geology
East Antarctica
Queen Maud Land
Schirmacher Hills
Antarc*
Antarctica
Online Access:http://repository.ias.ac.in/64667/
http://www.sciencedirect.com/science/article/pii/S1342937X05703348
id ftindianacasci:oai:repository.ias.ac.in:64667
record_format openpolar
spelling ftindianacasci:oai:repository.ias.ac.in:64667 2023-05-15T13:46:14+02:00 Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust Dasgupta, Somnath Sengupta, Sudipta Bose, Santanu Fukuoka, Masato Dasgupta, Sreemati 2001-07 http://repository.ias.ac.in/64667/ http://www.sciencedirect.com/science/article/pii/S1342937X05703348 unknown Elsevier Science Dasgupta, Somnath Sengupta, Sudipta Bose, Santanu Fukuoka, Masato Dasgupta, Sreemati (2001) Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust Gondwana Research, 4 (3). pp. 337-357. ISSN 1342-937X QE Geology Article PeerReviewed 2001 ftindianacasci 2013-01-20T12:26:32Z The Precambrian basement of the Schirmacher Hills, Queen Maud Land, East Antarctica has evolved through multiple episodes of deformation and metamorphism. The rocks have suffered at least five phases of deformation. The imprint of the early deformation, D 1 , is preserved in some mafic isolated enclaves. The second and the third deformations (D 2 and D 3 ) are the dominant deformations of this area and produced isoclinal folds with transposition of earlier cleavages. The later deformations, D 4 and D 5 , produced two sets of open, upright folds. Detailed mineralogical, textural, mineral chemical studies and geothermobarometry on khondalite, leptynite as well as different varieties of enderbite and mafic granulites have revealed that the rocks suffered two phases of metamorphism under granulite facies conditions followed by an amphibolite facies overprint. M 1 is broadly coeval with D 1 only in mafic granulite enclaves within enderbitic gneiss, and took place at ca. 10 Kbar, 900°C. The mafic magma, parental to the enclaves, probably crystallized at 11.2 Kbar. Following post-peak near isobaric cooling, the mafic granulites were transported to shallower levels by the enderbitic magma. M 2 , recorded in all the lithologies, occurred at ca. 8 Kbar, 800-850°C and synchronous with D 2 . Post peak M 2 evolution of the rocks was characterized by a pressure — temperature drop of 2 Kbar and 200°C respectively and textures indicative of both cooling and decompression are preserved in different rocks. The relative timing of the two, however, cannot be worked out. M 3 , synchronous with D 3 , took place at 6 Kbar, 600-650°C and evolved hydrous fluid flux. Correlation with available structural and geochronological data shows that both M 1 and M 2 could be of Grenvillian event. M 3 could well be Pan-African age. Article in Journal/Newspaper Antarc* Antarctica East Antarctica Queen Maud Land Indian Academy of Sciences: Publication of Fellows East Antarctica Queen Maud Land ENVELOPE(12.000,12.000,-72.500,-72.500) Schirmacher Hills ENVELOPE(11.667,11.667,-70.750,-70.750)
institution Open Polar
collection Indian Academy of Sciences: Publication of Fellows
op_collection_id ftindianacasci
language unknown
topic QE Geology
spellingShingle QE Geology
Dasgupta, Somnath
Sengupta, Sudipta
Bose, Santanu
Fukuoka, Masato
Dasgupta, Sreemati
Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
topic_facet QE Geology
description The Precambrian basement of the Schirmacher Hills, Queen Maud Land, East Antarctica has evolved through multiple episodes of deformation and metamorphism. The rocks have suffered at least five phases of deformation. The imprint of the early deformation, D 1 , is preserved in some mafic isolated enclaves. The second and the third deformations (D 2 and D 3 ) are the dominant deformations of this area and produced isoclinal folds with transposition of earlier cleavages. The later deformations, D 4 and D 5 , produced two sets of open, upright folds. Detailed mineralogical, textural, mineral chemical studies and geothermobarometry on khondalite, leptynite as well as different varieties of enderbite and mafic granulites have revealed that the rocks suffered two phases of metamorphism under granulite facies conditions followed by an amphibolite facies overprint. M 1 is broadly coeval with D 1 only in mafic granulite enclaves within enderbitic gneiss, and took place at ca. 10 Kbar, 900°C. The mafic magma, parental to the enclaves, probably crystallized at 11.2 Kbar. Following post-peak near isobaric cooling, the mafic granulites were transported to shallower levels by the enderbitic magma. M 2 , recorded in all the lithologies, occurred at ca. 8 Kbar, 800-850°C and synchronous with D 2 . Post peak M 2 evolution of the rocks was characterized by a pressure — temperature drop of 2 Kbar and 200°C respectively and textures indicative of both cooling and decompression are preserved in different rocks. The relative timing of the two, however, cannot be worked out. M 3 , synchronous with D 3 , took place at 6 Kbar, 600-650°C and evolved hydrous fluid flux. Correlation with available structural and geochronological data shows that both M 1 and M 2 could be of Grenvillian event. M 3 could well be Pan-African age.
format Article in Journal/Newspaper
author Dasgupta, Somnath
Sengupta, Sudipta
Bose, Santanu
Fukuoka, Masato
Dasgupta, Sreemati
author_facet Dasgupta, Somnath
Sengupta, Sudipta
Bose, Santanu
Fukuoka, Masato
Dasgupta, Sreemati
author_sort Dasgupta, Somnath
title Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
title_short Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
title_full Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
title_fullStr Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
title_full_unstemmed Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
title_sort polymetamorphism in the schirmacher hills granulites, east antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust
publisher Elsevier Science
publishDate 2001
url http://repository.ias.ac.in/64667/
http://www.sciencedirect.com/science/article/pii/S1342937X05703348
long_lat ENVELOPE(12.000,12.000,-72.500,-72.500)
ENVELOPE(11.667,11.667,-70.750,-70.750)
geographic East Antarctica
Queen Maud Land
Schirmacher Hills
geographic_facet East Antarctica
Queen Maud Land
Schirmacher Hills
genre Antarc*
Antarctica
East Antarctica
Queen Maud Land
genre_facet Antarc*
Antarctica
East Antarctica
Queen Maud Land
op_relation Dasgupta, Somnath
Sengupta, Sudipta
Bose, Santanu
Fukuoka, Masato
Dasgupta, Sreemati (2001) Polymetamorphism in the Schirmacher Hills granulites, East Antarctica: implications for tectonothermal reworking of an isobarically cooled deep continental crust Gondwana Research, 4 (3). pp. 337-357. ISSN 1342-937X
_version_ 1766238725128323072

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