Building and reworking of Archean continental crust in the nucleus of the Yangtze Craton: Constraint from 3.4 Ga and 2.94 Ga granitoid gneisses in the Southern Kongling Complex

•3.4 Ga granitic gneisses were identified in the Southern Kongling Complex.•The 3.4 Ga granitic gneisses formed by reworking of a pre-existing Eoarchean (ca. 3.73 Ga) tonalitic crust and underwent anatexis at ca.3.0 Ga.•The ca. 2.94 Ga trondhjemitic gneisses represent neosome generated by partial me...

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Published in:Precambrian research 2023-10, Vol.397, p.107198, Article 107198
Main Authors: Han, Qingsen, Peng, Songbai, Zi, Jianwei, Peng, Hongtao, Jiang, Xingfu
Format: Article
Language:English
Subjects:
Crustal Reworking
Granitoid Gneisses
Paleoarchean
Southern Kongling Complex
Yangtze Craton
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Summary:•3.4 Ga granitic gneisses were identified in the Southern Kongling Complex.•The 3.4 Ga granitic gneisses formed by reworking of a pre-existing Eoarchean (ca. 3.73 Ga) tonalitic crust and underwent anatexis at ca.3.0 Ga.•The ca. 2.94 Ga trondhjemitic gneisses represent neosome generated by partial melting of Paleoarchean low-K basaltic crust. The TTG gneisses, a dominant lithological assemblage within Archean cratonic provinces, provide a window into the early evolution of the continental crust. The Kongling complex in South China preserves voluminous Archean granitoids, recording the early formation and evolution history of the Yangtze Craton. We present results of a comprehensive study involving field investigation, petrographic characterization, zircon U–Pb geochronology and Lu-Hf isotope tracing, and whole-rock geochemistry for the Archean granitoid gneisses from the Southern Kongling Complex. Igneous zircons from two granitic gneisses yielded weighted mean 207Pb/206Pb ages of 3399 ± 15 Ma (MSWD = 0.99, n = 24) and 3389 ± 12 Ma (MSWD = 1.02, n = 20). Zircons from the 3.4 Ga granitic gneiss also record a ca.3.0 Ga anatexis event which is contemporaneous with the widespread granitoid gneisses in the Kongling Complex. Geochemical and zircon Hf isotope data (εHf(t) values of − 3.41 to + 0.77 and two-stage Hf model ages of 3.65–3.80 Ga) for the granitic gneisses support a derivation from pre-existing Eoarchean (TDM2 = 3.73 Ga) crust. LA-ICP-MS zircon U-Pb dating yielded emplacement ages of 2948 ± 17 Ma for a migmatized trondhjemitic gneiss, and 2928 ± 14 Ma for a quartz monzonite gneiss. These two gneisses have similar zircon Hf model ages (TDM2 = 3.45 Ga) and both were emplaced during a major phase of mafic magma diapiric process that significantly reworked the old crust. The occurrences of 2.94 Ga trondhjemite and associated mafic blocks suggest intra-crustal differentiation by partial melting of low-K mafic rocks. We suggest that intra-crustal remelting and differentiation played a key role in the formation, evolution, and maturation of the micro-continents in Kongling during the Paleo- to Meso-Archean. The whole-rock geochemical and zircon Hf isotopic compositions of the different generations of granitoid gneisses from the Southern Kongling Complex are similar to those of the coeval gneisses (3.45 Ga and 2.95 Ga) from the northern part of the Kongling Complex, indicating a common tectono-magmatic history shared by both segments tracing back to as early a
ISSN:0301-9268
DOI:10.1016/j.precamres.2023.107198