期刊
CHEMICAL GEOLOGY
卷 641, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.chemgeo.2023.121777
关键词
Mercury isotopes; Iron oxide-copper-gold (IOCG) hydrothermal; systems; Deep mercury cycling; Intracontinental setting
This study investigates the Hg isotopic compositions of ore minerals from IOCG deposits in the Kangdian region, South China, and finds that the Hg components in the IOCG system are dominated by a lithospheric mantle source. The results shed light on deep Hg cycling and confirm the use of Hg isotopes as a tracer for metal sources in hydrothermal ore systems.
Mercury isotopes display unique mass-independent fractionation (MIF), typically expressed as Delta 199Hg, which relates to photochemical reactions occurring at Earth's surface. Pronounced Hg-MIF signals have been observed in various hydrothermal systems in both convergent margins and intracontinental settings, highlighting the recycling of Hg from marine or terrestrial reservoirs into shallow continental hydrothermal systems. However, the geochemical fate of Hg in deep continental environments of intracontinental settings remains poorly understood. Iron oxide-copper-gold (IOCG) hydrothermal systems typically involve the circulation of fluids from both deep magmatism and continental basins, providing an opportunity to investigate this issue. Here, we present the Hg isotopic compositions of ore minerals from five representative IOCG deposits in the Kangdian region, South China. All the studied ore samples display large mass-dependent fractionation with delta 202Hg of-3.23 to 1.06%, but a relatively narrow range of Delta 199Hg of-0.17 to 0.11%. These isotopic signatures support the hypothesis of binary mixing of Hg from two sources: (1) a magmatic endmember (-two thirds) derived from the lithospheric mantle with low delta 202Hg (-3 to - 1%) and near-zero Delta 199Hg, and (2) a crustal source (-one third) originating from the basement rocks with relatively higher delta 202Hg (-1 to 1%) and negative Delta 199Hg (-0.2 to 0%). Compared to the shallow Pb-Zn-Au-Sb hydrothermal systems which formed in intracontinental basins through the circulation of fluids in the upper crust, the Hg components (and by analogy, the ore metals) in the Kangdian IOCG system are dominated by a lithospheric mantle source. Our study sheds light on deep Hg cycling and confirms the Hg isotope tracer as a tool for revealing metal sources in hydrothermal ore systems.
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