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Generation of multiple low-K granitic magmas in the eastern Qilian orogen, NE Tibetan Plateau: implications for granite genesis and pluton construction.

Authors :
Yang, He
Luo, Biji
Zhang, Hongfei
Xiao, Wenjiao
Tao, Lu
Gao, Zhong
Zhang, Liqi
Chen, Xi
Source :
International Journal of Earth Sciences; Jun2024, Vol. 113 Issue 4, p1005-1027, 23p
Publication Year :
2024

Abstract

Granite genesis is crucial to understanding the evolution of continental crust, yet many concerns about granite genesis remain not well answered, such as whether I-type granite contains metasedimentary components, what controls granite compositional diversity, and how granitic plutons are constructed. To explore these issues, we conducted a detailed study on the two-mica plagiogranite, tonalite, and biotite plagiogranite units of the Wujinxia composite pluton in the eastern Qilian orogen, NE Tibetan Plateau. These units comprise two-mica plagiogranite, tonalite (with diorite enclave), and biotite plagiogranite. Zircon U–Pb data reveal that three granitic units formed at ~ 487 Ma, ~ 464 Ma, and ~ 430 Ma, respectively. Magmatic and xenocrystic garnet were identified from the tonalite and biotite plagiogranite, respectively. The two-mica plagiogranite, tonalite, and biotite plagiogranite all belong to low-K series rocks (K<subscript>2</subscript>O/Na<subscript>2</subscript>O = 0.10–0.26), and were derived from deep crustal sources mainly consisting of juvenile mafic rocks, with involvement of minor metasedimentary rocks in the magma sources of the two-mica plagiogranite and tonalite. The diorite enclave within the tonalite was probably derived from an enriched mantle-derived basaltic magma. Mineral compositions, thermobarometric calculations, and whole-rock geochemical data indicate that the low-K intrusive units of the Wujinxia composite pluton resulted from multiple magmatic systems at different depths. The results suggest that I-type granites can contain metasedimentary components by partial melting of a mixed crustal source, and high-Mn content helps the preservation of high-Ca garnet within such rocks. For a composite pluton spanning a large compositional variation, its compositional diversity is jointly controlled by magma source composition, melting condition and thermal evolution of individual magma pulses, and the resulted assembly style during pluton construction. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14373254
Volume :
113
Issue :
4
Database :
Complementary Index
Journal :
International Journal of Earth Sciences
Publication Type :
Academic Journal
Accession number :
177423446
Full Text :
https://doi.org/10.1007/s00531-024-02406-w