Litcius/Paper detail

Barium isotope evidence for a magmatic fluid-dominated petrogenesis of LCT-type pegmatites

Guohong Deng, Dexin Jiang, Guoping Li, Xu Zhou, Fang Huang

2024Geochemical Perspectives Letters12 citationsDOIOpen Access PDF

Abstract

Understanding the petrogenesis of granitic pegmatites associated with Li mineralisation is fundamental in constraining rare metal enrichment mechanisms.However, there is still significant controversy surrounding the central issue of the nature of pegmatite-forming liquids.Here, we report Ba isotope data for a 3000 m borehole in the Jiajika pegmatite field that hosts the largest hard rock-type Li deposit in Asia.The pegmatites exhibit markedly lower δ 138/134 Ba than the wall rocks and the average upper continental crust, which cannot be attributed to low degree anatexis of metasedimentary or crystal fractionation of highly evolved granitic magmas.Instead, modelling suggests that their low δ 138/134 Ba most likely results from substantial involvement (10-40 %) of isotopically light hydrothermal fluids exsolved from the underlying magmatic reservoirs.In the context of transcrustal magmatic system, these magmatic fluid components may be a key medium in extracting, concentrating, and transporting Li to provide a material source for mineralisation in granitic pegmatites.

Topics & Concepts

PegmatitePetrogenesisGeologyGeochemistryAnatexisIgneous differentiationContext (archaeology)MagmaBatholithPetrologyCrustIgneous rockPartial meltingMantle (geology)PaleontologyTectonicsVolcanoGeological and Geochemical AnalysisGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of Fossils