Characteristics of Cd isotopic compositions and their genetic significance in the lead-zinc deposits of SW China |
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Authors: | ChuanWei Zhu HanJie Wen YuXu Zhang HaiFeng Fan ShaoHong Fu Juan Xu TingRong Qin |
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Institution: | 1. State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550002, China 2. University of Chinese Academy of Sciences, Beijing, 100049, China 3. State Key Laboratory of Marine Environment Science (Xiamen University), Xiamen, 361005, China 4. Non-Ferrous Metals and Nuclear Industry Geological Exploration Bureau of Guizhou, Liupanshui, 553004, China
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Abstract: | Up to now, the evaporation and condensation, as well as the biological absorption and inorganic absorptions, have been proved to be major factors in Cd isotope fractionation. And Cd isotopes have been widely applied in studies on the universal evolution and marine environment and so on. However, only a few researches have been conducted in applying Cd isotopes to trace the source of metallogenic material and the evolution of the ore-forming fluid in a complex mineralization environment, especially in a hydrothermal ore-formation system. We measured the Cd isotopic compositions of sphalerite, galena, and ores from five lead-zinc deposits in SW China, and found that the δ 114/110Cd values varied from ?1.53‰ to 0.34‰, with a total range of 1.87‰, which is greater than most of measured geological samples. Meanwhile, through contrasting the Cd content with Cd isotopic compositions of different deposits, it may be concluded that different genetic lead-zinc deposits have different Cd content and isotopic compositions, which could be a tool for the studies on the origin of ore deposits. Also, the biomineralization and crystal fractionation may also result in Cd isotope fractionation. In a word, although the research of Cd isotopes is presently at the preliminary stage (especially in hydrothermal ore-formation system), this study demonstrated that Cd isotopes can give a clue in tracing the evolution of ore-forming fluid and metallogenic environment. |
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