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中国科学院广州地球化学研究所导师教师师资介绍简介-李元

本站小编 Free考研考试/2021-06-06


姓名:李元
性别:
职务:
职称:研究员
学历:博士研究生
电话:
传真:
电子邮件:yuan.li@gig.ac.cn
通讯地址:广东省广州市天河区五山科华街511号

简  历:
李元,研究员,博士生导师,2006年本科毕业于合肥工业大学地质系,2009和2013年分别获德国拜罗伊特大学Bayerisches Geoinstitut(BGI) 高温高压实验地球科学硕士和博士学位。2013年9月到2016年5月,在美国Rice大学地球科学学院从事博士后研究工作。从2016年5月开始,任中国科学院广州地球化学研究所研究员。国家高层次人才计划入选者。主要从事实验岩石学、实验地球化学的研究。主要成果包括:(1)系统研究了壳幔条件下大量金属元素在不同硫化物体系、硅酸盐体系以及流体体系中的地球化学行为,揭示了壳幔分异的规律以及矿产资源的形成机制;(2)系统研究了氮的地球化学行为,限制了地球氮的形成和演化;(3)发现俯冲带C-H-O流体不混溶,提出俯冲带碳循环机制模型;(4)提出地球碳、硫成因模型。已发表国际SCI论文30多篇。论文主要发表在Nature Geoscience, Geochemical Perspectives Letters, Earth and Planetary Science Letters, Geochimica et Cosmochimica Acta等期刊 ,被引用近1000次。

教育经历
2002-2006:地质学,本科,合肥工业大学,资源与环境工程学院。
2006-2007:硕士,中科院玉泉路研究生院/中科院广州地球化学研究所。
2007-2009:硕士,实验地球科学,Bayerisches Geoinstitut, University of Bayreuth, 德国。2009-2013: 博士,实验地球科学,Bayerisches Geoinstitut, University of Bayreuth, 德国。2012: 美国加州大学洛杉矶分校UCLA。
社会任职:

研究方向:
通过研究金属元素和挥发性元素C-N-S-H的溶解和分配行为来研究:(1)早期地球、月球、火星、水星的形成过程和物质来源;(2)核幔、壳幔分异过程及化学机制;(3) 壳幔流体与成岩成矿
研究手段:
高温高压实验设备: 汽水热液高压釜、活塞圆筒、多面砧大压机、金刚石压腔等
分析测试设备: 电子探针、离子探针(SIMS)、红外光谱、拉曼光谱、LA-ICP-MS、稀有气体质谱等
学术服务:
长期受邀为下列国际期刊/基金审稿: Nature Geoscience, Geochemical Perspectives Letters, Earth and Planetary Science Letters, Geochimica et Cosmochimica Acta, American Mineralogist, Chemical Geology, Ore Geology Reviews, Journal of Asian Earth Sciences, Lithos, Geochemistry Geophysics Geosystems, Earth-science Reviews, Geofluids, Elements, Contributions to Mineralogy and Petrology, AGU books, PNAS, Geophysical Research Letter, National Science Foundation (USA), DFG (German Research Foundation).
招生与国际合作:
常期招生、招聘有志于地球科学领域研究的硕士生、博士生、博士后、助理研究员以及副研究员。欢迎具有行星科学、岩浆岩石学、变质岩石学、地球化学、矿床学等任一背景的博士毕业生进行博士后交叉合作研究。有意者,请附带个人简历邮件联系(Yuan.Li@gig.ac.cn)。
课题组与以下单位建立了良好的合作关系:德国拜罗伊特大学Bayerisches Geoinsitut (BGI), 美国Rice大学地球科学学院,加州大学(洛杉矶分校)地球与空间科学学院,法国国家研究中心(CNRS),德国GFZ,美国Woods Hole Oceanographic Institution,日本东京大学及英国牛津大学。
获奖及荣誉:

代表论著:
https://scholar.google.com/citations?user=djiKUBQAAAAJ&hl=en
1.Li, Y., Feng, L., Kiseeva, E.S., Gao, Z., Guo, H., Du, Z., Wang, F. and Shi, L. 2019. An essential role for sulfur in sulfide-silicate melt partitioning of gold and magmatic gold transport at subduction settings. Earth and Planetary Science Letters. 528.
2.Feng, L., Li, Y. 2019. Comparative partitioning of Re and Mo between sulfide phases and silicate melt and implications for the behavior of Re during magmatic processes. Earth and Planetary Science Letters. 517. 14-25.
3.Lin, Y., Hui, H., Li, Y., Xu, Y., van Westrenen, W. 2019. Evidence for extensive degassing in the early Moon from a lunar hygrometer based on plagioclase-melt partitioning of water. Geochemical Perspectives Letters. 10, 14-19.
4.Eguchi, J., Li, Y., Manning, C.E. 2019. Experimental Determination of Calcite Solubility in H2O-KCl-NaCl-LiCl Solutions at 700 °C and 8 kbar. In: Manning, C.E., Lin, J.F., Mao, W.L., Eds, Carbon in Earth's Interior, Geophysical Monograph 249, American Geophysical Union, John Wiley and Sons, p. 245-257.
5.Grewal, D.S., Dasgupta, R., Holmes, A.K., Costin, G., Li, Y. and Tsuno, K. 2019. The fate of nitrogen during core-mantle separation on Earth. Geochimica et Cosmochimica Acta. 251, 87-115.
6.Li, Y. 2018. Temperature and pressure effects on the partitioning of V and Sc between clinopyroxene and silicate melt: Implications for mantle oxygen fugacity. American Mineralogist. 103, 819-823.
7.Wang, Z., Becker, H., Liu, Y., Hoffmann, E., Chen, C., Zou, Z., and Li, Y. 2018. Constant Cu/Ag in upper mantle and oceanic crust: Implications for the role of cumulates during the formation of continental crust. Earth and Planetary Science Letters. 493, 25-35.
8.Mallik, A., Li, Y., Wiedenbeck, M. 2018. Nitrogen evolution within Earth’s atmosphere-mantle system assessed by recycling in subduction zones. Earth and Planetary Science Letters. 482, 556-566.
9.Liu, X., Matsukage, K., Li, Y., Takahashi, E., Suzuki, T., Nishihara, Y., Xiong. X. 2018. Aqueous fluid connectivity in subducting oceanic crust at the mantle transition zone conditions. Journal of Geophysical Research: Solid Earth. 123. https://doi.org/10.1029/2018JB015973.
10.Li, Y., Dasgupta, R., Tsuno, K. 2017. Carbon contents in reduced basalts at graphite saturation: Implications for the degassing of Mars, Mercury, and the Moon. Journal of Geophysical Research: Planets. 122, doi:10.1002/2017JE005289.
11.Liu, J., Li, Y., Zhou, Z., Ouyang, H. 2017. The Ordovician igneous rocks with high Sr/Y at the Tongshan porphyry Cu-Mo-Au deposit, satellite of the Duobaoshan Deposit, and their metallogenic role. Ore Geology Reviews. 86, 600-614.
12. Li, Y. 2017. Immiscible C-H-O fluids formed at subduction zone conditions. Geochemical Perspectives Letters. 3, 12-21.
13. Li, Y., Dasgupta, R., Tsuno, K., Monteleone, B., Shimizu, N. 2016. The carbon and sulfur budget of the silicate Earth explained by the accretion of differentiated planetary embryos. Nature Geoscience. 9, 781-785.
14. Li, Y. Marty, B., Shcheka, S., Zimmermann, L., Keppler, H. 2016. Nitrogen isotope fractionation during terrestrial core-mantle separation. Geochemical Perspectives Letters. 2, 138-147.
15. Li, Y., Huang, R., Wiedenbeck, M., Keppler, H. 2015. Nitrogen distribution between magmatic melt and aqueous fluids. Earth and Planetary Science Letters. 411, 218-228.
16. Liu X., Xiong, X., Audetat, A., Li, Y. 2015. Partitioning of Cu between mafic minerals, Fe-Ti oxides and intermediate to felsic melts. Geochimica et Cosmochimica Acta. 151, 86-102.
17. Li, Y., Dasgupta, R., Tsuno, K. 2015. The effects of sulfur, silicon, water, and oxygen fugacity on carbon solubility and partitioning in Fe-rich alloy and silicate melt systems at 3 GPa and 1600 °C- Implications for core-mantle differentiation and degassing of magma oceans and reduced planetary mantles. Earth and Planetary Science Letters. 415, 54-66.
18. Li, Y., Audetat, A. 2015. Effects of temperature, silicate melt composition, and oxygen fugacity on the partitioning of V, Mn, Co, Ni, Cu, Zn, As, Mo, Ag, Sn, Sb, W, Au, Pb, and Bi between sulfide phases and silicate melt. Geochimica et Cosmochimica Acta. 162,25-45.
19. Liu, J., Wu, G., Qiu, H., Li, Y. 2014. 40Ar/39Ar dating, fluid inclusions and S-Pb isotope systematics of the Shabaosi gold deposit, Heilongjiang Province, China: A case study of orogenic gold deposits and related tectonic setting. Geological Journal. DOI: 10.1002/gj.2577.
20. Li, Y., and Keppler, H. 2014. Nitrogen speciation in mantle and crustal fluids. Geochimica et Cosmochimica Acta. 129, 13-32.
21. Liu, X., Xiong, X., Audetat, A., Li, Y., Song, M., Li, L., Sun, W., Ding, X. 2014. Partitioning of copper between olivine, orthopyroxene, clinopyroxene, spinel, garnet and silicate melts at upper mantle conditions. Geochimica et Cosmochimica Acta. 125, 1-22.
22. Li, Y. 2014. Chalcophile element partitioning between sulfide phases and hydrous mantle melt: Applications to mantle melting and the formation of ore deposits. Journal of Asian Earth Sciences. 94, 77-93.
23. Li, Y. 2014. Comparative geochemistry of rhenium in oxidized arc magmas and MORB and rhenium partitioning during magmatic differentiation. Chemical Geology. 386, 101-114.
24. Li, Y., Wiedenbeck, M., Shcheka, S., Keppler, H. 2013. Nitrogen solubility in upper mantle minerals. Earth and Planetary Science Letters. 377-378, 311-323.
25. Gou, H., Steinle-Neumann, G., Bykova, E., Nakajima, Y., Miyajima, N., Li, Y., Ovsyannikov, S., Dubrovinsky, L., and Dubrovinskaia, N. 2013. Stability of MnB2 with AlB2-type structure revealed by first-principles calculations and experiments. Applied Physics Letters. 102, http://dx.doi.org/10.1063/1.**.
26. Li, Y., Audétat, A. 2013. Gold solubility and partitioning between sulfide liquid, monosulfide solid solution, and hydrous mantle melts: Implications for the formation of Au-rich magmas and crust-mantle differentiation. Geochimica et Cosmochimica Acta. 118, 247-262.
27. Liu, J., Wu, G., Li, Y., Zhu, M., Zhong, W. 2012. Re-Os sulfide (chalcopyrite, pyrite and molybdenite) systematics and fluid inclusion study of the Duobaoshan porphyry Cu (Mo) deposit, Heilongjiang Province, China. Journal of Asian Earth Sciences. 49(0), 300-312.
28. Li, Y., Audétat, A. 2012. Partitioning of V, Mn, Co, Ni, Cu, Zn, As, Mo, Ag, Sn, Sb, W, Au, Pb, and Bi between sulfide phases and hydrous basanite melt at upper mantle conditions. Earth and Planetary Science Letters. 355-356, 327-340.
29. Xiong, X., Liu, X., Zhu, Z., Li, Y., Xiao, W., Song, M., Zhang, S., Wu, J. 2011. Adakitic rocks and destruction of North China Craton: evidence from experimental petrology and geochemistry. Science China: Earth Sciences. 54, 858–870.
30. Xiong, X., Keppler, H., Audétat, A., Ni, H., Sun, W., Li, Y. 2011. Partitioning of Nb and Ta between rutile and felsic melt and the fractionation of Nb/Ta during partial melting of hydrous metabasalt. Geochimica et Cosmochimica Acta. 75, 1673-1692.
31. Li, Y., Audétat, A. 2009. A method to synthesize large fluid inclusions in quartz at controlled times and under unfavorable growth conditions. American Mineralogist. 94, 367-371.
32. Xiong, X., Keppler, H., Audétat, A., Gudfinnsson, G., Sun, W., Song, M., Xiao, W., Li, Y. 2009. Experimental constraints on rutile saturation during partial melting of metabasalt at the amphibolite to eclogite transition, with applications to TTG genesis. American Mineralogist. 59, 1175-1186.
33. Li, Y., Audétat, A., Lerchbaumer, L., Xiong, X.L. 2009. Rapid Na, Cu exchange between synthetic fluid inclusions and external aqueous solutions: Evidence from LA-ICP-MS analysis. Geofluids. 9, 321-329.

承担科研项目情况:
1. 2017-2020,国家自然科学基金委面上项目“氮在类地行星以及月球岩浆海中的溶解和分配行为”
2. 2016-2020,中科院先导专项B子课题项目“C-N-S在矿物、流体和熔体之间的分配行为”
3. 2019-2025,中国科学院基础前沿科学研究计划 “从0到1”原始创新项目“高温高压实验研究氮地球化学行为”
4. 2019-2014,国家重点研发计划项目子课题两项“俯冲带流熔体活动及元素循环“及”高温高压实验限制成矿元素地球化学行为“




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