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Petrogenesis of Permian-Triassic intraplate gabbro-granitic rocks in the Russian Altai. / Gavryushkina, Оlga; Kruk, Nikolay N.; Semenov, Ivan V. и др.

в: Lithos, Том 326-327, 01.02.2019, стр. 71-89.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Gavryushkina, О, Kruk, NN, Semenov, IV, Vladimirov, AG, Kuibida, YV & Serov, PA 2019, 'Petrogenesis of Permian-Triassic intraplate gabbro-granitic rocks in the Russian Altai', Lithos, Том. 326-327, стр. 71-89. https://doi.org/10.1016/j.lithos.2018.12.016

APA

Vancouver

Gavryushkina О, Kruk NN, Semenov IV, Vladimirov AG, Kuibida YV, Serov PA. Petrogenesis of Permian-Triassic intraplate gabbro-granitic rocks in the Russian Altai. Lithos. 2019 февр. 1;326-327:71-89. doi: 10.1016/j.lithos.2018.12.016

Author

BibTeX

@article{60c2ade188da4f7bb9f8d0040343bd00,
title = "Petrogenesis of Permian-Triassic intraplate gabbro-granitic rocks in the Russian Altai",
abstract = "New data have been obtained from typical Permian–Triassic gabbro-granite suites from the Russian Altai. These suites were emplaced in an intraplate setting over a short period of time between 254 and 244 Ma concurrently with the formation of the Siberian and Khangai large igneous provinces (LIPs). While the sampled igneous rocks share some similar features, they also differ considerably in their mineralogy, petrography, major- and trace-element geochemistry, and Sr and Nd isotope systematics. The gabbro samples are depleted in high field strength elements (HFSEs), and their parent magma was formed by melting of the lithospheric mantle. The highest HFSE and rare earth element (REE) enrichment is observed in intermediate rocks (syenite and monzodiorite), which owe their origin to fractional crystallisation of mantle magmas with minor crustal contamination. The granitic rocks are I- and A-types. Because their compositions evolved towards a higher silica content, the HFSE and REE content decreased progressively, while the Nd isotope composition approached that of the host crustal rocks. Therefore, the granitic magma is a result of melting of the lower crust, promoted by mantle heat and fluids. The mixing of monzodiorite or syenite magmas with granitic anatectic melts appears to be the most probable mechanism for the origin of the granodiorite and syenogranite lithologies.",
keywords = "Intraplate gabbro-granite suite, Mantle-crust interaction, Permian-Triassic, Russian Altai, Siberian large igneous province, LARGE IGNEOUS PROVINCES, A-TYPE GRANITES, ISOTOPIC SYSTEMATICS, MAGMATISM, NOMENCLATURE, ORIGIN, DISCRIMINATION, ND, PETROLOGY, GORNY ALTAI",
author = "Оlga Gavryushkina and Kruk, {Nikolay N.} and Semenov, {Ivan V.} and Vladimirov, {Alexander G.} and Kuibida, {Yana V.} and Serov, {Pavel A.}",
note = "Publisher Copyright: {\textcopyright} 2018",
year = "2019",
month = feb,
day = "1",
doi = "10.1016/j.lithos.2018.12.016",
language = "English",
volume = "326-327",
pages = "71--89",
journal = "Lithos",
issn = "0024-4937",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Petrogenesis of Permian-Triassic intraplate gabbro-granitic rocks in the Russian Altai

AU - Gavryushkina, Оlga

AU - Kruk, Nikolay N.

AU - Semenov, Ivan V.

AU - Vladimirov, Alexander G.

AU - Kuibida, Yana V.

AU - Serov, Pavel A.

N1 - Publisher Copyright: © 2018

PY - 2019/2/1

Y1 - 2019/2/1

N2 - New data have been obtained from typical Permian–Triassic gabbro-granite suites from the Russian Altai. These suites were emplaced in an intraplate setting over a short period of time between 254 and 244 Ma concurrently with the formation of the Siberian and Khangai large igneous provinces (LIPs). While the sampled igneous rocks share some similar features, they also differ considerably in their mineralogy, petrography, major- and trace-element geochemistry, and Sr and Nd isotope systematics. The gabbro samples are depleted in high field strength elements (HFSEs), and their parent magma was formed by melting of the lithospheric mantle. The highest HFSE and rare earth element (REE) enrichment is observed in intermediate rocks (syenite and monzodiorite), which owe their origin to fractional crystallisation of mantle magmas with minor crustal contamination. The granitic rocks are I- and A-types. Because their compositions evolved towards a higher silica content, the HFSE and REE content decreased progressively, while the Nd isotope composition approached that of the host crustal rocks. Therefore, the granitic magma is a result of melting of the lower crust, promoted by mantle heat and fluids. The mixing of monzodiorite or syenite magmas with granitic anatectic melts appears to be the most probable mechanism for the origin of the granodiorite and syenogranite lithologies.

AB - New data have been obtained from typical Permian–Triassic gabbro-granite suites from the Russian Altai. These suites were emplaced in an intraplate setting over a short period of time between 254 and 244 Ma concurrently with the formation of the Siberian and Khangai large igneous provinces (LIPs). While the sampled igneous rocks share some similar features, they also differ considerably in their mineralogy, petrography, major- and trace-element geochemistry, and Sr and Nd isotope systematics. The gabbro samples are depleted in high field strength elements (HFSEs), and their parent magma was formed by melting of the lithospheric mantle. The highest HFSE and rare earth element (REE) enrichment is observed in intermediate rocks (syenite and monzodiorite), which owe their origin to fractional crystallisation of mantle magmas with minor crustal contamination. The granitic rocks are I- and A-types. Because their compositions evolved towards a higher silica content, the HFSE and REE content decreased progressively, while the Nd isotope composition approached that of the host crustal rocks. Therefore, the granitic magma is a result of melting of the lower crust, promoted by mantle heat and fluids. The mixing of monzodiorite or syenite magmas with granitic anatectic melts appears to be the most probable mechanism for the origin of the granodiorite and syenogranite lithologies.

KW - Intraplate gabbro-granite suite

KW - Mantle-crust interaction

KW - Permian-Triassic

KW - Russian Altai

KW - Siberian large igneous province

KW - LARGE IGNEOUS PROVINCES

KW - A-TYPE GRANITES

KW - ISOTOPIC SYSTEMATICS

KW - MAGMATISM

KW - NOMENCLATURE

KW - ORIGIN

KW - DISCRIMINATION

KW - ND

KW - PETROLOGY

KW - GORNY ALTAI

UR - http://www.scopus.com/inward/record.url?scp=85058804241&partnerID=8YFLogxK

U2 - 10.1016/j.lithos.2018.12.016

DO - 10.1016/j.lithos.2018.12.016

M3 - Article

AN - SCOPUS:85058804241

VL - 326-327

SP - 71

EP - 89

JO - Lithos

JF - Lithos

SN - 0024-4937

ER -

ID: 17928132