General
TAO/Yan, PH.D, Institute of Geochemistry, C.A.S.
Email: taoyan@vip.gyig.ac.cn
Telephone: 0851-5891665
Address: 550002, Guanshui road #46, Guiyang,PR China
Postcode: 550002
Email: taoyan@vip.gyig.ac.cn
Telephone: 0851-5891665
Address: 550002, Guanshui road #46, Guiyang,PR China
Postcode: 550002
Research Areas
①geochemistry on Mafic-ultramafic rocks and associated mineralization:
study the origin, evolution and mineralization of basaltic magma, focus on magma plumbing system, crust-mantle interaction and diversity of mineralization in Emeishan large igneous province.
②hydrothermal ore deposit geochemistry:
study ages of regional mineralization, the relationship between major geological events and regional metallogeny, and ore-forming dynamic background. The research focuses on sedmentary hosted Pb-Zn deposit in Qinghai-Tibet plateau and Sanjiang region.
③exploration geochemistry:
based on geochemical theory and geochemical exploration methods, to explore concealed ore deposits. The research works focus on exploration of hydrothermal ore deposits.
study the origin, evolution and mineralization of basaltic magma, focus on magma plumbing system, crust-mantle interaction and diversity of mineralization in Emeishan large igneous province.
②hydrothermal ore deposit geochemistry:
study ages of regional mineralization, the relationship between major geological events and regional metallogeny, and ore-forming dynamic background. The research focuses on sedmentary hosted Pb-Zn deposit in Qinghai-Tibet plateau and Sanjiang region.
③exploration geochemistry:
based on geochemical theory and geochemical exploration methods, to explore concealed ore deposits. The research works focus on exploration of hydrothermal ore deposits.
Education
9/1996-8/1999: Chengdu University of Technology, graduate student for Ph.D, major in Exploration of Mineral deposits.
9/1985-7/1988: Chengdu College of Geology, graduate student for Master Degree, major in Petrology.
9/1979-7/1983: Chengdu College of Geology, Geology of Mineral Deposits, Bachelor.
9/1985-7/1988: Chengdu College of Geology, graduate student for Master Degree, major in Petrology.
9/1979-7/1983: Chengdu College of Geology, Geology of Mineral Deposits, Bachelor.
Experience
Work Experience
1/2009-now: Institute of Geochemistry, Chinese Academy of Sciences, Research fellow.
10/200-12/2005: Indiana university, visiting scholar, collaborative study.
10/2002-10/2008: Institute of Geochemistry, Chinese Academy of Sciences, associated Researcher.
9/1999-9/2002: Institute of Geochemistry, Chinese Academy of Sciences ,Post Doctorial Researcher.
10/200-12/2005: Indiana university, visiting scholar, collaborative study.
10/2002-10/2008: Institute of Geochemistry, Chinese Academy of Sciences, associated Researcher.
9/1999-9/2002: Institute of Geochemistry, Chinese Academy of Sciences ,Post Doctorial Researcher.
Publications
Papers
[1]. Tao Yan, Li Chusi, Hu RuiZhong, Ripley EM, Qi Liang, Qu WenJun and Du AnDao. 2010. Re-Os isotopic constraints on the genesis of the Limahe Ni-Cu deposit in the Emeishan large igneous province, SW China. Lithos, 119: 137-146.
[2]Tao Y, Ma YS, Miao LC, Zhu FL. 2009. SHRIMP U-Pb zircon age of the Jinbaoshan ultramafic intrusion, Yunnan Province, SW China. Chinese Science Bulletin. 54(1): 168-172.
[3]Tao Y, Li C, Song XY, Ripley EM. 2008. Mineralogical, petrological, and geochemical studies of the Limahe mafic–ultramatic intrusion and associated Ni–Cu sulfide ores, SW China. Mineralium Deposita. 43:849–872.
[4]Tao Y, Li C, Hu R Z, Ripley EM, Du AD, Zhong H. 2007. Petrogenesis of the Pt–Pd mineralized Jinbaoshan ultramafic intrusion in the Permian Emeishan Large Igneous Province, SW China. Contributions to Mineralogy and Petrology 153: 321-337.
[5]MA Yansheng, TAO Yan, ZHONG Hong, ZHU Feilin, and ZHOU Jiaxi. 2009. Geochemical characteristics of the platinum-group elements in the Abulangdang ultramafic intrusion, Sichuan Province, China. Chin.J.Geochem. 28:320–327.
[6]Li C, Ripley EM, Tao Y, Mathez EA. 2008. Cr-spinel/olivine and Cr-spinel/liquid nickel partition coeffcients from natural samples. Geochimica et Cosmochimica Acta 72: 1678-1684.
[7]Song XY, Zhou M-F, Tao Y, Xiao J F. 2008. Controls on the metal compositions of magmatic sul.de deposits in the Emeishan large igneous province, SW China. Chemical Geology 253: 38-49.
[2]Tao Y, Ma YS, Miao LC, Zhu FL. 2009. SHRIMP U-Pb zircon age of the Jinbaoshan ultramafic intrusion, Yunnan Province, SW China. Chinese Science Bulletin. 54(1): 168-172.
[3]Tao Y, Li C, Song XY, Ripley EM. 2008. Mineralogical, petrological, and geochemical studies of the Limahe mafic–ultramatic intrusion and associated Ni–Cu sulfide ores, SW China. Mineralium Deposita. 43:849–872.
[4]Tao Y, Li C, Hu R Z, Ripley EM, Du AD, Zhong H. 2007. Petrogenesis of the Pt–Pd mineralized Jinbaoshan ultramafic intrusion in the Permian Emeishan Large Igneous Province, SW China. Contributions to Mineralogy and Petrology 153: 321-337.
[5]MA Yansheng, TAO Yan, ZHONG Hong, ZHU Feilin, and ZHOU Jiaxi. 2009. Geochemical characteristics of the platinum-group elements in the Abulangdang ultramafic intrusion, Sichuan Province, China. Chin.J.Geochem. 28:320–327.
[6]Li C, Ripley EM, Tao Y, Mathez EA. 2008. Cr-spinel/olivine and Cr-spinel/liquid nickel partition coeffcients from natural samples. Geochimica et Cosmochimica Acta 72: 1678-1684.
[7]Song XY, Zhou M-F, Tao Y, Xiao J F. 2008. Controls on the metal compositions of magmatic sul.de deposits in the Emeishan large igneous province, SW China. Chemical Geology 253: 38-49.
Research Interests
①geochemistry on Mafic-ultramafic rocks and associated mineralization:
study the origin, evolution and mineralization of basaltic magma,
focus on magma plumbing system, crust-mantle interaction and diversity of mineralization in Emeishan large igneous province.
②hydrothermal ore deposit geochemistry:
study ages of regional mineralization, the relationship between major geological events and regional metallogeny, and ore-forming dynamic background. The research focuses on sedmentary hosted Pb-Zn deposit in Qinghai-Tibet plateau and Sanjiang region.
③exploration geochemistry:
based on geochemical theory and geochemical exploration methods, to explore concealed ore deposits. The research works focus on exploration of hydrothermal ore deposits.
study the origin, evolution and mineralization of basaltic magma,
focus on magma plumbing system, crust-mantle interaction and diversity of mineralization in Emeishan large igneous province.
②hydrothermal ore deposit geochemistry:
study ages of regional mineralization, the relationship between major geological events and regional metallogeny, and ore-forming dynamic background. The research focuses on sedmentary hosted Pb-Zn deposit in Qinghai-Tibet plateau and Sanjiang region.
③exploration geochemistry:
based on geochemical theory and geochemical exploration methods, to explore concealed ore deposits. The research works focus on exploration of hydrothermal ore deposits.