朱永峰
近期热点
资料介绍
个人简历
教育经历 1982.09--1986.07学士长春地质学院1986.09--1988.12硕士长春地质学院1988.12--1993.05博士莫斯科大学,俄罗斯工作经历 1993.05--1995.07北京大学地质学系,博士后1995.08--2004.04北京大学地质学系,副教授1999.10--2002.02日本早稻田大学(Visiting professor)2004.10--2005.02德国Stuttgart大学(德国DAAD项目)2004.04--至今北京大学地球与空间科学学院,教授(博导)承担项目目前主持的科研项目:新疆萨尔托海石英菱镁岩及相关金矿成因研究(No.41372062,NSFC);新疆萨尔托海豆荚状铬铁矿矿床成因及其变质改造工程研究(No. 41672047,NSFC)。环巴尔喀什-西准噶尔大型矿集区预测合作研究(2010DFB23390,国家国际科技合作重点项目);该项目成果入选国家“十二五”科技创新成就展(2016年5月31日-6月7日,北京展览馆)。出版教材和学术专著6部,发表学术论文130多篇,SCI引用1900多次,连续3年入选Elsevier 中国高被引学者(Most Cited Chinese Researchers)榜单。专著和教材:[1] 朱永峰,张传情(1996) 硅酸盐熔体结构学。地质出版社[2] 朱永峰,孙世华(2000) 矿产资源经济学。中国经济出版社[3] 朱永峰(2007) 矿产资源经济概论。北京大学出版社[4] 朱永峰(2012) 矿床地球化学导论。 北京大学出版社[5] 朱永峰,等(2013) 新疆哈图及其周边金铜成矿规律和深部找矿预测。地质出版社[6] 朱永峰,等(2014) 中亚成矿域核心区地质演化与成矿作用。地质出版社International Meeting[27] Zhu YF. 2016. Different styles of hydrothermal alteration recorded in gold deposits: implications for gold exploration in west Junggar (Xinjiang), NW China. Goldschmidt Conference 2016, Abstract 121, Japan, 2016 (Invited)[26] Zhu YF. 2015. Geology and geochemistry of metamorphic rocks in the Baijiantan-Baikouquan ophiolitic mélanges: Implications for geology evolution of west Junggar, NW China. Second International Workshop on Tethyan Orogenesis and Metallogeny in Asia and Silk Road Higher Education Cooperation Forum, 16 - 21 October, 2015. Extended Abstract Volume, Wuhan (Invited)[25] Zhu YF. 2015. Geology, geochronology, and Sr-Nd-Hf geochemistry of metamorphic rocks in the Baijiantan- Baikouquan ophiolitic mélanges: Implications for geology evolution of west Junggar, Xinjiang, China. 12th International Conference on Gondwana to Asia, Tsukuba, Japan, October 21-23, 2015: Abstract Volume IAGR Conference Series No. 21: 150-152.[24] Zhu YF. 2014. Geological evolution and related gold deposits in west Junggar, Xinjiang, China. 14th Quadrennial International Association on the Genesis of Ore Deposits Symposium, Kunming, 2014 (Invited).[23] Zhu YF. 2014. Petrology and geochemistry of the late Paleozoic volcanic rocks in the west Tianshan, NW China. Geological Society of America, Canada, Vancouver. Abstracts with Programs. Vol. 46, No. 6, p.425[22] Zhu YF. 2014. Petrology and geochemistry of the Baijiantan-Baikouquan ophiolitic melanges: implications for geology evolution of west Junggar, China. Geological Society of America, Canada, Vancouver. Abstracts with Programs. Vol. 46, No. 6, p.758[21] Zhu YF. 2011. Recent advances in geology and exploration in the Balkash-western Junggar region (Kazakhstan and Xinjiang, China): International workshop on the large Balkash-western Junggar copper- gold province, Karamay, 2011 (Invited).Zhu YF. 2011. Geology and geochemistry of the shear zone-related Tianger gold deposit in Tianshan Mts., north Xinjiang, NW China. Annual Meeting of the Geological Association of Canada, the Mineralogical Association of Canada, the Society of Economic Geologists and the Society for Geology Applied to Mineral Deposits (GAC® - MAC – SEG - SGA), 25-27 may, 2011, Ottawa, Canada.[20] Zhu YF, An F. 2011. Native minerals found in the Baogutu gold deposit, west Junggar (Xinjiang, NW China). Annual Meeting of the Geological Association of Canada, the Mineralogical Association of Canada, the Society of Economic Geologists and the Society for Geology Applied to Mineral Deposits (GAC® - MAC – SEG - SGA), 25-27 may, 2011, Ottawa, Canada. (Poster)[19] Zhu YF. 2011. Geology and geochemistry of the shear zone-related gold deposits in west Tianshan, Xinjiang, NW China. The 34th Annual Winter Meeting of MDSG, 5-7 January 2011, London[18] Zhu YF, Chen B, Tan JJ. 2011. Geology and tectonic implications of Early Paleozoic ophiolitic belts in west Junggar, Xinjiang, NW China: The 34th Annual Winter Meeting of MDSG, 5-7 January 2011, London (poster).[17] An F, Zhu YF. 2010. Native minerals found in the Baogutu gold deposit, west Junggar (Xinjiang, NW China). The 20th General Meeting of the International Mineralogical Association. 21-27 Aug, 2010, Budapest, Hungary (Poster).[16] Zhu YF. 2010. The forming mechanism of the shear zone related gold deposit: take the Tianger gold deposit as an example (Xinjiang, NW China). The 20th General Meeting of the International Mineralogical Association. 21-27 Aug, 2010, Budapest, Hungary.[15] Zhu YF, Chen B. 2008. Garnet amphibolite found in Baikouquan ophiolitic mélange: A clue to a HP metamorphic belt in Junggar, Xinjiang. Goldschmidt Conference, July 2008, Vancouver, CANADA. Geochimica Cosmochimica Acta, 72 (12): A1104-A1104 (poster).[14] Zhu YF, Chen B, Massonne HJ, Xu X. 2008. An Early Paleozoic high-pressure metamorphic belt established in western Junggar, Xinjiang (central Asia), NW China. Abstract of the IGC 33th, ISA-05. Oslo 2008 (CD-ROM)[13] Zhu YF, An F, Tang JJ. 2008. Gold and rare metal deposits formed during Triassic in Central Asia, NW China. Abstract of the IGC 33th, MRD-10. Oslo 2008 (CD-ROM) poster[12] Zhu YF, 2007. International workshop on “central Asia Orogenesis and Metallogeny”, Urumqi, China, September 18-24, 2007 (Invited).[11] Zhu YF, Xuan Guo, Lifei Zhang, Song B. 2007. Studies on Late Paleozoic volcanic rocks in north Xinjiang: geochemistry and zircon SHRIMP chronology. Third International Workshop- IGCP480, Beijing, 6-15 Aug, 2007, 37-38pp.[10] Zhu YF, Guo X, Zhang LF, Song B. 2006. Geochemistry and zircon SHRIMP dating on the Late Paleozoic volcanic rocks in west Tianshan Mountains (Central Asia, Xinjiang). Goldschmidt Conference Abstracts, doi: 10.1016/ j.gca. 2006.06.1361, Geochimica Cosmochimica Acta, Suppl., A755 (poster)[9] Zhu YF, Massonne HJ. T. THEYE T., 2006. Eclogites from the CCSD: Petrology and Different exhumation paths. In: Sino-German Workshop 2006, Geodynamic Evolution of Central Asia in the Paleozoic and Mesozoic. Abstracts, Dec. 408, 2006, Beijing, page 29.[8] Zhu YF. 2005. Geochemistry of the Tianger shear zone-hosted gold deposit (west Tianshan, northwest China). The eighth biennial SGA meeting, Beijing, 2005.[7] Zhu YF, 2005. K-rich glasses in harzburgite from Damaping mantle xenoliths, Northern east China. The Origin, evolution and present state of subcontinental lithosphere. IUGS-SECE Conference, June 25-30, Beijing, China[6] Zhu YF, 2004. Dolomite decomposition structure in UHP marble: evidence for deep subduction (>200 km) of continental crust. Abstract of 32nd IGC, Italiy Florence.[5] Zhu YF, Ogasawara Y, 2001. Clinopyroxene phenocryst from the Kokchetav shoshonitic volcanic rocks: implications for the multi-stage magma processes. UHPM Workshop 2001, Fluid/Slab/Mantle Interactions and Ultrahigh-P Minerals, Waseda Univ., Tokyo, 170-173[4] Zhu YF, Ogasawara Y., 2000. Permian volcanism in east Inner Mongolia (east China): geochemistry and tectonic significance. EOS, Transactions, Vol. 81, No. 22 supplement, WPGM Meeting, Tokyo, 251.[3] Zhu YF, Ogasawara Y., 2000. The recycling of oceanic lithosphere in the Mongolia orogenic zone – evidence from the Permian volcanic rocks. EOS, Transactions, Vol. 81, No. 19 supplement, AGU Spring Meeting, Washington DC, 439-440.[2] Zhu YF, Ai YF. 1998. The relationship of liquid immiscibility between felsic magma and mineralization. Ninth Quadrennial IAGOD Symposium, Beijing, 1998.[1] Zhu YF. 1996. Liquid immiscibility in felsic magma and its ore-forming potentiality. 30th International Geological Congress, Beijing, 1996.邀请报告[1]. Zhu YF. 2016. Different styles of hydrothermal alteration recorded in gold deposits: implications for gold exploration in west Junggar (Xinjiang), NW China. Goldschmidt Conference 2016, Abstract 121, Japan, 2016 (Invited)[2]. Zhu YF. 2015. Geology and geochemistry of metamorphic rocks in the Baijiantan-Baikouquan ophiolitic mélanges: Implications for geology evolution of west Junggar, NW China. Second International Workshop on Tethyan Orogenesis and Metallogeny in Asia and Silk Road Higher Education Cooperation Forum, 16th - 21th October, 2015. Extended Abstract Volume, Wuhan (Invited)[3]. Recent advances in geology and exploration in the Balkash-western Junggar region (Kazakhstan and Xinjiang, China): International workshop on the large Balkash-western Junggar copper- gold province, Karamay, 2011.[4]. Geological evolution and related gold deposits in west Junggar, Xinjiang, China. 14th Quadrennial International Association on the Genesis of Ore Deposits Symposium, Kunming, 2014.获奖情况中国矿物岩石地球化学学会“侯德封”青年科学家奖(1998年);入选“教育部新世纪优秀人才支持计划”(2005年);北京大学优秀博士学位论文指导教师(2011年);中国有色金属工业科学技术奖(一等奖,2015年)近期论文
学术成果Papers published in English[141] Qiu T, Zhu YF. 2018. Listwaenite in the Sartohay ophiolitic mélange (Xinjiang, China): A genetic model based on petrology, U-Pb chronology and trace element geochemistry. Lithos 302–303, 427–446[140] Qiu T, Zhu YF. 2018. Chromian spinels in highly altered ultramafic rocks from the Sartohay ophiolitic mélange, Xinjiang, NW China. Journal of Asian Earth Sciences 159, 155–184[139] Jiang JY, Zhu YF. 2017. Geology and geochemistry of the Jianchaling hydrothermal nickel deposit: T–pH–fO2–fS2 conditions and nickel precipitation mechanism. Ore Geology Reviews, http://dx.doi.org/10.1016/j.oregeorev.2017.10.005[138] Zhang HC, Zhu YF (2017). Genesis of the Mandongshan gold deposit (Xinjiang, NW China): T-P-f S2 and phase equilibria constraints from the Au-As-Fe-S system. Ore Geology Reviews 83: 135–151.[137] Zhang HC, Zhu YF, Fen WY, Tan YW, An F, Zheng JH, 2017 Paleozoic intrusive rocks in the Nalati mountain range (NMR), southwest Tianshan: geodynamic evolution based on petrology and geochemical studies. Journal of Earth Science, 28(2): 196-217[136] An F, Zhu YF. 2017. Geology and geochemistry of the Early Permian Axi low-sulfidation epithermal gold deposit in North Tianshan (NW China). Ore Geology Reviews (2017), http://dx.doi.org/10.1016/j.oregeorev.2017.03.021[135] Zheng JH, Mao JW, Yang FQ, Chai FM, Zhu Y-F. 2017. Mineralogy, fluid inclusions, and isotopes of the Cihai iron deposit, eastern Tianshan, NW China: Implication for hydrothermal evolution and genesis of subvolcanic rocks-hosted skarn-type deposits. Ore Geology Reviews, 86, 404-425[134] An F, Zhu Y-F, Wei SN, Lai SC (2017). The zircon U–Pb and Hf isotope constraints on the basement nature and Paleozoic evolution in northern margin of yili block, NW China. Gondwana Research,43,41-54[133] Zhu YF, Tang JJ, Qiu T (2016) Platinum group mineral (PGM) and Fe–Ni–As–S minerals in the Sartohay chromitite, Xinjiang (NW China): Implications for the mobility of Os, Ir, Sb, and As during hydrothermal processes. Ore Geology Reviews 72: 299–312.[132] Zhu YF, An F, Feng WY, Zhnag HC (2016) Geological Evolution and Huge Ore-Forming Belts in the Core Part of the Central Asian Metallogenic Region. Journal of Earth Science, Vol. 27(3), 491-506, doi:10.1007/s12583-016-0673-7.[131] Zhang HC, Zhu YF (2016) Geology and geochemistry of the Huilvshan gold deposit, Xinjiang, China: Implications for mechanism of gold precipitation. Ore Geology Reviews, 79, 218-240[130] Yu M, Feng CM, Zhu Y-F, Mao JW, Zhao YM, Li DX. 2016. Multistage amphiboles from the Galinge iron skarn deposit in Qiman Tagh, western China: evidence of igneous rocks replacement. Mineralogy and Petrology 111, 81-97[129] Zhu YF, Chen B, Qiu T (2015). Geology and geochemistry of the Baijiantan-Baikouquan ophiolitic mélanges: Implications for geologic evolution of west Junggar, Xinjiang, NW China. Geological Magazine, 152, 41–69.[128] Qiu T, Zhu YF*(2015). Geology and geochemistry of listwaenite-related gold mineralization in the Sayi gold deposit, Xinjiang, NW China. Ore Geology Reviews 70, 61–79[127] Wang L, Zhu YF*(2015). Multi-stage pyrite and hydrothermal mineral assemblage of the Hatu gold district (west Junggar, Xinjiang, NW China): Implications for metallogenic evolution. Ore Geology Reviews, 69, 243-267[126] Zheng B, Zhu YF*, An F, Huang QY, Qiu T (2015). As–Sb–Bi–Au mineralization in the Baogutu gold deposit, Xinjiang, NW China. Ore Geology Reviews, 69, 17–32[125] Zheng JH, Mao JW, Yang FQ, Liu F, Zhu YF*(2015). The post-collisional Cihai iron skarn deposit, eastern Tianshan, Xinjiang, China. Ore Geology Reviews, 67, 244–254[124] Zhu YF, An F, Qiu T. 2014. Geological evolution and related gold deposits in west Junggar, Xinjiang, China. Acta Geologica Sinica (English edition), 88 (supp. 2): 1550-1551[123] Tan JJ, Zhu YF. 2014. Millerite-maucherite-pentlandite-heazlewoodite in the Sartohay chromite deposit, west Junggar, Xinjiang, China. Acta Geologica Sinica (English edition), 88 (supp. 2): 314-315[122] Qiu T, Zhu YF. 2014. Gold Mineralization in Listvenite, the Sayi Gold Deposit, Xinjiang. Acta Geologica Sinica (English edition), 88 (supp. 2): 108-109[121] Zhu YF, Chen B, Xu X, Qiu T, An F. 2013. A new geological map of the western Junggar, north Xinjiang (NW China): implications for Paleoenvironmental reconstruction. Episodes, 36(3), 205-220.[120] An F, Zhu YF, Wei SN, Lai SC. 2013. An Early Devonian to Early Carboniferous volcanic arc in North Tianshan, NW China: Geochronological and geochemical evidence from volcanic rocks. Journal of Asian Earth Sciences, 78, 100-113[119] Proyer A, Rolfo F, Zhu YF, Castelli D, Compagnoni R. 2013. Ultrahigh-pressure metamorphism in the magnesite + aragonite stability field: evidence from two impure marbles from the Dabie–Sulu UHPM belt. J. metamorphic Geol., 31, 35–48.[118] Zhu YF. 2012. Trace the Missing Carbon: The Deeply Subducted Carbonate. In Editors: Joana Dobrev and Petra Markoviæ (eds.): Calcite: Formation, Properties and Applications. Nova Science Publishers Inc., pp. 147-168 (ISBN: 978-1-61470-782-0).[117] Zhu YF. 2011. Zircon U-Pb and muscovite 40Ar/39Ar geochronology of the gold-bearing Tianger mylonitized granite, granite, Xinjiang, northwest China: Implications for radiometric dating of mylonitized magmatic rocks. Ore Geology Reviews, 40, 108-121[116] Zhu YF, An F, Tan JJ. 2011. Geochemistry of hydrothermal gold deposits: A review. Geoscience Frontiers, 2(3), 367-374[115] An F, Zhu YF*. 2010. Native antimony in the Baogutu gold deposit (west Junggar, NW China): Its occurrence and origin. Ore Geology Reviews 37, 214–223[114] An F, Zhu YF*. 2009. Native arsenic found in Baogutu gold deposit. Chinese Science Bulletin, 54(10), 1744-1749[113] Zhu YF, Xuan G, Song B, Zhang LF, Gu LB. 2009. Petrology, Sr–Nd–Hf isotopic geochemistry and zircon chronology of the Late Palaeozoic volcanic rocks in the southwestern Tianshan Mountains, Xinjiang, NW China. Journal of the Geological Society, London, 166, 1085–1099.[112] Zhu YF, Massonne H-J, Zhu MF. 2009. Petrology of low-temperature, ultrahigh pressure marbles and interlayered coesite eclogites near Sanqingge, Sulu terrane, eastern China. Mineralogical Magazine, 73(2), 307-332[111] Zhu YF. 2008. K- and Si-rich glasses in harzburgite from Damaping, north China. Island Arc, 17, 560-576[110] Zhu YF, Massonne HJ, Theye T. 2007. Eclogites from the Chinese continental scientific drilling borehole, their petrology and different P-T evolutions. Island Arc, 16(4): 508-536[109] Zhu YF, Zhou J, Zeng YS. 2007. The Tianger (Bingdaban) shear zone hosted gold deposit, west Tianshan, NW China: petrographic and geochemical characteristics. Ore Geology Reviews, 32: 337-365[108] Zhu YF, Zeng YS, Gu LB. 2006. Geochemistry of the rare metal-bearing pegmatite no.3 vein and related granites in the Keketuohai region, Altay mountains, northwest China. Journal of Asian Earth Sciences, 27, 61-77.[107] Zhu YF, Massonne H-J. 2007. Pyrrhotite exsolution texture of apatite in the main borehole of the Chinese Continental Scientific Drilling (CCSD). Acta Petrologica Sinica, 23, 3249-3254.[106] Zhu YF, Zhang LF, Gu LB, Guo X, Zhou J. 2005. The zircon SHRIMP chronology and trace element geochemistry of the Carboniferous volcanic rocks in western Tianshan Mountains. Chinese Science Bulletin, 50, 2201-2212. Citation 138[105] Zhu YF, Zhou J, 2005. Geochemistry of the Tianger shear zone-hosted gold deposit (west Tianshan, northwest China). In: Mao JW & Bierlein FP (Eds.), Mineral Deposit Research: Meeting the Global Challenge. Berlin, Springer, 2005, 1131-1134.[104] Zhou J, Zhu YF, 2005, Geochemistry of the Tianger gold deposit in west Tianshan, Xinjiang. In: Mao JW & Bierlein FP (Eds.), Mineral Deposit Research: Meeting the Global Challenge. Berlin, Springer, 2005, 1127-1129.[103] Zhu YF, Ogasawara Y. 2004, Clinopyroxene phenocrysts (with green salite cores) in trachybasalts: Implications for two magma chambers under the Kokchetav UHP massif, North Kazakhstan. Journal of Asian Earth Sciences, 22, 517-527.[102] Zhu YF, Ogasawara Y. 2002. Carbon recycled into the deep Earth: Evidenced by dolomite dissociation in subduction-zone rocks. Geology, 30, 947-950.[101] Zhu YF. 2003. Comments on ‘‘Crystal-melt equilibria involving potassium- bearing clinopyroxene as indicator of mantle-derived ultrahigh-potassic liquids: an analytical review’’ by L.L. Perchuk, O.G. Safonov, V.O. Yapaskurt, and J.M. Barton Jr. [Lithos 60 (2002) 89–111]: K-feldspar in metamorphic clinopyroxene, from exsolution to potassium replacement. Lithos, 68, 115-119.[100] Zhu YF, Ogasawara Y, Ayabe T. 2002. The mineralogy of the Kokchetav \学术及社会任职地球化学研究所 所长(2008年-现在)中国地质学会区域地质及成矿专业委员会委员;《矿床地质》副主编;《Geoscience Frontiers》、《中国矿物岩石地球化学通报》、《新疆地质》编委。 相关热点