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Crustal Mercury Addition Into the Giant Jinchuan Ni‐Cu Sulfide Deposit, China, and Its Geological Implications

Lingjian Gao, Ting‐Mao Long, Deyou Sun, Changzhou Deng, Zhendong Tian, Xie‐Yan Song, Runsheng Yin

2022Geochemistry Geophysics Geosystems11 citationsDOIOpen Access PDF

Abstract

Abstract Mercury (Hg) isotopes have shown their power of tracing Hg pollution sources in ecosystems, but their potentials for petrogenetic tracing are yet to be explored. Here we conducted Hg isotope analysis for samples collected from major orebodies of the world‐class Jinchuan Ni‐Cu sulfide deposit, China. These samples show large variations of δ 202 Hg (−2.65 to +0.19‰) and Δ 199 Hg (−0.16 to +0.19‰). Some of the Δ 199 Hg values significantly deviate from current estimates on the primitive mantle (Δ 199 Hg: 0.0 ± 0.1‰, 2SD). The pronounced Hg mass‐independent fractionation (Hg‐MIF) signals, with significant positive (>0.1‰) and negative (<0.1‰) Δ 199 Hg values similar to marine sediments and terrestrial soils, respectively, suggests the addition of crustal materials into the Jinchuan deposit, via crustal assimilation during mantle‐derived magma ascending to the crust. These samples show δ 34 S values (−1.09 to +1.38‰) identical to that of the primitive mantle (0.0 ± 2.0‰), which may indicate a major sulfur source from the mantle. However, δ 34 S provides poor constraints on the sulfur source, and the early reported anomalous Δ 33 S values (+0.12 to +2.67‰) in the Jinchuan deposit support the involvement of external sulfur from Archean and Proterozoic sedimentary rocks during the formation of this deposit, similar to the case of Hg. This study shows the powerful use of Hg isotopes as a petrogenic tracer and highlights the importance of interaction between mantle‐derived magmas and crustal materials on the formation of the Jinchuan Cu‐Ni sulfide deposit.

Topics & Concepts

GeologyGeochemistryMantle (geology)Sedimentary rockArcheanSulfideMercury (programming language)SulfurChemistryComputer scienceProgramming languageOrganic chemistryMercury impact and mitigation studiesHeavy metals in environmentGeochemistry and Elemental Analysis
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