4.7 Article

Mercury abundance and isotopic composition in granitic rocks: Implications for Hg cycling in the upper continental crust

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GEOCHIMICA ET COSMOCHIMICA ACTA
卷 361, 期 -, 页码 200-209

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.gca.2023.09.019

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Mercury isotopes; Granite; Upper continental crust; Mass-independent fractionation

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This study reports the Hg isotopic compositions of granitic rocks and metasedimentary enclaves from the South China Craton. The results show different isotopic compositions for different types of granites, suggesting significant isotopic fractionation during magmatic processes. By combining with previously published data, the Hg abundance and isotopic composition of the upper continental crust are estimated to be higher than that of the primitive mantle.
Mercury (Hg) is a highly volatile metal exhibiting both isotope mass-dependent (MDF, defined as delta 202Hg) and mass-independent (MIF, expressed as A199Hg) fractionation. Assessing the Hg isotopic composition of the upper continental crust is crucial for the use of this new geochemical tool for petrogenetic tracing, particularly for understanding crust-mantle interaction. Here, we report Hg isotopic compositions of granitic rocks with distinct source affinity (I-, A-, and S-type) and of metasedimentary enclaves from the South China Craton. The results of more than 100 rock samples show large delta 202Hg variations of-2.03 to 0.47 %o and small A199Hg variations of-0.16 to 0.09 %o. The S-type granites studied here exhibit higher delta 202Hg values (-0.58 to 0.00 %o; n = 57) than their sedimentary protoliths (metasedimentary enclaves;-2.03 to-0.91 %o; n = 7), suggesting significant Hg-MDF during magmatic processes. The A199Hg values of S-type granites (-0.08 to 0.09 %o) are indistinguish-able from their sedimentary protoliths (-0.16 to 0.02 %o), suggestive of the absence of Hg-MIF during crustal anatexis and subsequent magmatic differentiation. The I-and A-type granites studied have smaller A199Hg variations of-0.11 to 0.04 %o (n = 28) and-0.07 to 0.04 %o (n = 15), respectively, but are within the range of the S-type granites. The compositional range of all granite variants may be explained by the variable intensity of large-scale MASH (melting-assimilation-storage-homogenization) processes. Our new data combined with pre-viously published data of igneous, sedimentary, and metamorphic rocks allow us to estimate that the upper continental crust (UCC) has a Hg abundance of 13.5 ppb and a weighted average delta 202Hg of-1.15 +/- 1.01 %o (2SD), both of which are higher than the corresponding values of the primitive mantle. However, the weighted average A199Hg value of the UCC (0.03 +/- 0.15 %o; 2SD) is nondistinguished from the primitive mantle, sug-gesting no obvious Hg-MIF during the formation and differentiation of the continental crust.

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