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| Copper isotope evidence reveals key mechanism in early martian evolution |
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| Sulfide segregation plays an important role in redistributing chalcophile elements during planetary differentiation, yet its efficiency on Mars remains poorly constrained. A research team from the Institute of Geochemistry, Chinese Academy of Sciences, in collaboration with researchers from China University of Geosciences (Beijing), applied the copper isotope system to investigate martian core-mantle differentiation, revealing that sulfide segregation is the key mechanism...
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Space-weathered rims on lunar ilmenite as an indicator for relative exposure ages of regolith(Guo, Z; Zhang, MW; Jia, BJ; Li, Y ; Fa, WZ ; Pang, Y; Zhu, CX; Wen, YY; Li, XY; Liu, JZ; Ouyang, ZY)(2024-08-27) |
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Relative importance of aceticlastic methanogens and hydrogenotrophic methanogens on mercury methylation and methylmercury demethylation in paddy soils(Hao, ZD; Zhao, L;Liu, J; Pu, Q ; Chen, J; Meng, B; Feng, XB)(2024-08-26) |
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Deciphering ore-forming fluid evolution processes of the Yuerya gold deposit, eastern Hebei, China: Insights from pyrite texture, trace element and sulfur isotope compositions(Guo RQ; Han SJ; Chen, YC)(2024-08-20) |
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Seminar on 2024-7-24: Germanium partitioning from sulfide deposition tooxidative weathering in MVT deposits fromSichuan-Yunnan-Guizhou triangle |
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Seminar on 2024-7-24: Key properties of mineral trace-element data and how to address them instatistical analysis and interpretation |
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