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Name: Jin-Sheng Zhou
Title: Associate Professor
 
Resume:
Education:
2014.09–2017.11 Peking University, Doctor of Philosophy in Geology
2012.09–2014.08 Chinese Academy of Geological Sciences, Master student
2008.09–2012.06 Chengdu University of Technology, Bachelor in Geochemistry
Research experience:
2022.07–present Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Associate Professor
2018.01–2022.06 Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Postdoc

Research Interests:
I am currently focusing on studying:
· Magma plumbing system and volcano eruption;
· Growth and dynamics of magma reservoir;
· Crystal growth in magmas;
· Ore-forming processes of magma-associated ore deposits;
· Magma volatiles and its environmental effects.

Recent Publications:

1. Zhou JS, Huang CC, Wang Q, Ren ZY, Ma L, Hao LL and Zhang L. 2022a. Olivines and their melt inclusions in potassic volcanic rocks record mantle heterogeneity beneath the southern Tibet. Journal of Petrology, in press.

2. Zhou JS, Wang Q, Wyman DA, Zhao ZH, Zhang L and He PL. 2022b. The efficiency of copper extraction from magma bodies: Implications for mineralization potential and fluid-silicate melt partitioning of copper. American Mineralogist, 107: 1681-1696.

3. Zhou JS, Wang Q, Xing CM, Ma L, Hao LL, Li QW, Wang ZL and Huang TY. 2021a. Crystal growth of    clinopyroxene in mafic alkaline magmas. Earth and Planetary Science Letters, 568: 117005.

4. Zhou JS, Wang Q, Xu YG, Cempírek J, Wang H, Ma JL, Wei GJ, Huang TY, Zhu GH and Zhang L. 2021b. Geochronology, petrology, and lithium isotope geochemistry of the Bailongshan granite-pegmatite system, northern Tibet: Implications for the ore-forming potential of pegmatites. Chemical Geology, 584: 120484.

5. Zhou JS, Yang ZS, Wang Q, Zheng YC, Hou ZQ and Wyman DA. 2020a. Extraction of high-silica granites from an upper crustal magma reservoir: insights from the Narusongduo magmatic system, Gangdese arc. American Mineralogist, 105: 1572-1584.

6. Zhou JS, Yang ZS, Hou ZQ and Wang Q. 2020b. Amphibole-rich cumulate xenoliths in the Zhazhalong intrusive suite, Gangdese arc: Implications for the role of amphibole fractionation during magma evolution. American Mineralogist, 105: 262-375.

7. Zhou JS, Wang Q, Wyman DA and Zhao ZH. 2020c. Petrologic reconstruction of the Tieshan magma plumbing system: Implications for the genesis of magmatic-hydrothermal ore deposits within originally water-poor magmatic systems. Journal of Petrology, 61(5): egaa056.

8. Zhou JS, Yang ZS, Hou ZQ, Liu YC, Zhao XY, Zhang X, Zhao M and Ma W. 2017. The geochemical evolution of syncollisional magmatism and the implications for significant magmatic-hydrothermal lead–zinc mineralization (Gangdese, Tibet). Lithos, 288, 143-155.

9. Zhou JS and Wang Q. 2022. Magma dynamics in the crust and its resource and environmental effects. Acta Petrologica Sinica, 38(5): 1399-1418. (review, in Chinese)
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