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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-王焰

本站小编 Free考研考试/2021-06-06


姓名:王焰
性别:
职务:中科院矿物学与成矿学重点实验室主任
职称:研究员
学历:博士
电话:
传真:
电子邮件:wang_yan@gig.ac.cn
通讯地址:广州市天河区科华街511号

简  历:
1990年毕业于西北大学地质学系地质学专业,获理学学士学位;1993年于西北大学地质学系获硕士学位;同年留校任教;2001年和2006年分别于中国科学院地质与地球物理研究所和香港大学地球科学系获博士学位。2007年在澳大利亚国立大学进行博士后工作。2008年至今,中国科学院广州地球化学研究所研究员。目前担任Earth-Science Reviews共同主编、《大地构造与成矿学》副主编、Lithos、《地球化学》和《地质论评》编委、《地学前缘》助理编委。
社会任职:

研究方向:
镁铁-超镁铁质岩浆作用与成矿

获奖及荣誉:
曾获第12届侯德封矿物岩石地球化学青年科学家奖(2008年)、第13届中国青年科技奖(2013年)、广东省科学技术奖一等奖(第3完成人)(2014)、南粤巾帼创新十杰(广东省三八红旗手标兵)(2016)、中国科学院”巾帼建功“先进个人(2019)和全国五一巾帼标兵(2019)。入选第四批国家高层次人才特殊支持计划、“广东特支计划”百千万工程领军人才。

代表论著:
2020
1.Xing C.-M., Wang C.Y.* 2020. Periodic mixing of magmas recorded by oscillatory zoning of the clinopyroxene macrocrysts from an ultrapotassic lamprophyre dyke. Journal of Petrology doi.org/10.1093/petrology/egaa103
2.Wang M.X., Wang C.Y.* Crystal size distributions and trace element compositions of the apatite from the Bijigou Fe-Ti oxide-bearing layered intrusion, Central China: insights for the expulsion processes of interstitial liquid from crystal mush. Journal of Petrology 61 (7): egaa069
3.Cao Y.H., Wang C.Y.*, Wei B. 2020. Magma oxygen fugacity of mafic-ultramafic intrusions in convergent margin settings: insights for the role of magma oxidation states on magmatic Ni-Cu sulfide mineralization. American Mineralogist 105: 1841-1856
4.王焰,钟宏,曹勇华,魏博,陈晨. 2020. 我国铂族元素、钴和铬主要矿床类型的分布特征及成矿机制. 科学通报 65: 3825-3838
5.暴宏天, 王焰*, 曹勇华. 2020. 新疆北山地区坡一岩体橄榄石成分特征及其对地幔源区的制约. 地球化学49: 353-367

2019
1. Wei B.,Wang C.Y.*,Lahaye Y., Xie L.H., Cao Y.H.2019. S and C isotopic constraints for mantle-derived sulfur source and organic carbon-induced sulfide saturation in magmatic Ni-Cu sulfide deposits of the central Asian orogenic belt in North China. Economic Geology114: 787-806
2. Cao Y.H.,Wang C.Y.*, Huang F.*, Zhang Z.F. 2019. Iron isotope systematics of the Panzhihua mafic layered intrusion associated with giant Fe-Ti oxide deposit in the Emeishan large igneous province, SW China.Journal of Geophysical Research: Solid Earth124: 358-375. https://doi.org/10.1029/2018JB016466
3. Cao Y.H.,Wang C.Y.*, Wei B. 2019. Magma oxygen fugacity of mafic-ultramafic intrusions in the central Asian orogenic belt: implications for mantle oxidation state and magmatic Ni-Cu sulfide mineralization in a post-subduction extensional setting.Journal of Asian Earth Sciences173: 250-262
2018
1.Wang C.Y., Wei B., Zhou M.-F., Minh D.H., Qi L. 2018. A synthesis of magmatic Ni-Cu-(PGE) sulfide deposits in the~260 Ma Emeishan large igneous province, SW China and Northern Vietnam.Journal of Asian Earth Sciences154: 162-186
2.王焰,邢长明. 2018.峨眉山大火成岩省二滩高钛玄武岩和白马层状岩体中单斜辉石的成分特征及其成因指示.矿物岩石地球化学通报37: 1019-1034
3. Wang M.X.,Wang C.Y.*, Wei B. 2018. Platinum-group elemental and Sr-Nd-Os isotopic geochemistry of the ~635 Ma mafic intrusions in the northern margin of the Yangtze Block: a link of metasomatized subcontinental lithospheric mantle and Ni-Cu-(PGE) sulfide mineralization.Precambrian Research309: 325-342
4. Wang K.,Wang C.Y.*, Ren Z.-Y*. 2018. Apatite-hosted melt inclusions from the Panzhihua gabbroic layered intrusion associated with giant Fe-Ti oxide deposit in SW China: insights for magma unmixing within a crystal mush.Contributions to Mineralogy and Petrology59(14). doi:10.1007/s00410-018-1484-z
2017
1.王焰,王坤,邢长明,魏博,董欢,曹永华. 2017.二叠纪峨眉山地幔柱岩浆成矿作用的多样性.矿物岩石地球化学通报36: 404-417
2.Xing C.M.,Wang C.Y.*, Tan W. 2017. Disequilibrium growth of olivine in mafic magmas revealed by phosphorus zoning patterns of olivine from mafic-ultramafic intrusions.Earth and Planetary Science Letters479: 108-119
3.董欢,邢长明,王焰*. 2017.攀西地区新街层状岩体粒间不混熔作用:来自斜长石环带结构的记录.大地构造与成矿学41: 369-380
4.Xing C.M.,Wang C.Y.2017. Cathodoluminescence images and trace element compositions of fluorapatite from the Hongge layered intrusion in SW China: a record of prolonged crystallization and overprinted fluid metasomatism.American Mineralogist102: 1390-1401
5.Cao J.,Wang C.Y., Xu Y.G., Xing C.M., Ren M.H. 2017. Triggers on sulfide saturation in Fe-Ti oxide-bearing, mafic-ultramafic layered intrusions in the Tarim large igneous province, NW China.Mineralium Deposita52: 471-494
6.Zhang L., Ren Z.Y.,Wang C.Y.2017. Melt inclusions in the olivine from the Nantianwan intrusion: Implications for the parental magma of Ni-Cu-(PGE) sulfide-bearing mafic-ultramafic intrusions of the ~260 Ma Emeishan large igneous province (SW China).Journal of Asian Earth and Sciences134: 72-85
2016
1.Wang M.X., Nebel O.,Wang C.Y.*. 2016. The flaw in the crustal zircon archive: mixed Hf isotope signatures record progressive contamination of late-stage liquid in mafic-ultramafic intrusions.Journal of Petrology57: 27-52
2.Tan W., He H.P.,Wang C.Y.*, Dong H., Liang X.L., Zhu J.X. 2016. Magnetite exsolution in ilmenite from the Fe-Ti oxide gabbro in the Xinjie intrusion (SW China) and sources of unusually strong remnant magnetization.American Mineralogist101: 2759-2767
3.Xu Y.H.,Wang C.Y., Zhao T.P. 2016. Using detrital zircons from river sands to constrain major tectono-thermal events of the Cathaysia Block, SE China.Journal of Asian Earth and Sciences124: 1-13
4.Tan W., Liu P., He H.P.,Wang C.Y., Liang X.L. 2016. Mineralogy and origin of exsolution in Ti-rich magnetite from different magmatic Fe-Ti oxide-bearing intrusions.The Canadian Mineralogist54: 1-15
2015
1.Wei B.,Wang C.Y.*, Arndt N.T., Prichard H.M., Fisher P.C. 2015. Textural relationship of sulfide ores, PGE and Sr-Nd-Os isotopic compositions of the Triassic Piaohechuan Ni-Cu sulfide deposit in NE China.Economic Geology110: 2041-2062
2.Tan W.,Wang C.Y., He H.P., Xing C.M., Liang X.L., Dong H. 2015.Magnetite-rutile symplectite derived from ilmenite-hematite solid solution in the Xinjie Fe-Ti oxide-bearing, mafic-ultramafic layered intrusion (SW China).American Mineralogist100:2348-2351
3.Wang F.L.,Wang C.Y., Zhao T.P. 2015. B isotopic constraints on the Nb and Ta mineralization hosted in syenitic dikes in the ~260 Ma Emeishan large igneous province, SW China.Ore Geology Review65: 1110-1126
2014
1.Wang C.Y., Campbell I.H., Reiners P.W., Allen C.M. 2014. Detrital zircon U-Pb-He double dating: An improved method of quantifying long-term and short-term exhumation rates in orogenic belts.SCIENCE CHINA Earth Sciences57: 2702-2711
2.Wang C.Y., Zhou M.-F., Yang S.H., Qi L., Sun Y.L. 2014. Geochemistry of the Abulangdang intrusion: Cumulates of ferropicritic magmas in the Emeishan large igneous province, SW China.Chemical Geology378-379: 24-39
3.Xing C.M.,Wang C.Y.*, Li C.Y. 2014. Trace elements of apatite from the middle zone of the Panzhihua layered intrusion, SW China: insights into the differentiation of P- and Si-rich melts.Lithos204: 188-202
4.Cao J.,Wang C.Y., Xing C.M., Xu Y.G. 2014. Origin of the early Permian Wajilitag igneous complex and associated Fe-Ti oxide mineralization in the Tarim large igneous province, NW China.Journal of Asian Earth Sciences84: 51-68
2013
1.Wang C.Y., Zhou M.-F. 2013. New textural and mineralogical constraints on the origin of the Hongge Fe-Ti-V oxide deposit, SW China.Mineralium Deposita48:787-798
2.Wang M.X.,Wang C.Y.*, Zhao J.H. 2013. Zircon U/Pb dating and Hf-O isotopes of the Zhouan ultramafic intrusion: constraints on the nature of mantle source underneath the northern margin of the Yangtze Block, SW China.Chinese Science Bulletin58: 777-787【王梦玺,王焰*,赵军红. 2012.扬子板块北缘周庵超镁铁质岩体锆石U/Pb年龄和Hf-O同位素特征:对源区性质的约束.科学通报34: 3283-3294】
3.Wang M.X.,Wang C.Y.*, Sun Y.L. 2013. Mantle source, magma differentiation and sulfide saturation of the ~637 Ma Zhouan mafic-ultramafic intrusion in the northern margin of the Yangtze Block, Central China.Precambrian Research228: 206-222
4.Wei B.,Wang C.Y.*, Li C., Sun Y.L. 2013. Origin of PGE-depleted Ni-Cu sulfide mineralization in the Triassic Hongqiling No.7 orthopyroxenite intrusion, Central Asian Orogenic Belt, northeastern China.Economic Geology108: 1813-1831
5.Gao J.F., Zhou M.-F., Lightfoot P.C.,Wang C.Y.*, Qi L., Sun M. 2013. Sulfide Saturation and Magma Emplacement in the Formation of the Permian Huangshandong Ni-Cu Sulfide Deposit, Xinjiang, Northwestern China.Economic Geology108: 1833-1848
6.Dong H., Xing C.M.,Wang C.Y.* 2013. Textures and mineral compositions of the Xinjie layered intrusion, SW China: Implications for the origin of magnetite and fractionation process of Fe-Ti-rich basaltic magmas.Geoscience Frontiers4 : 503-515
7.王坤,邢长明,任钟元,王焰*. 2013.攀枝花镁铁质层状岩体磷灰石中的熔融包裹体:岩浆不混熔的证据.岩石学报29: 3503-3518
8.邢长明,王焰,张传林. 2013.塔里木大火成岩省皮羌层状岩体的矿物结晶顺序和钒钛磁铁矿矿石成因探讨.地学前缘20: 285-298
9.徐义刚,王焰,位荀,何斌. 2013.与地幔柱有关的成矿作用及其主控因素.岩石学报29: 3307-3322
10.任明浩,王焰,倪康,孙亚莉. 2013.东天山二叠纪大草滩地区镁铁-超镁铁质岩体的岩浆演化过程和含矿性.岩石学报29: 3473-3486
11. Zhou M.-F., Chen W.T.,Wang C.Y., Prevec S.A., Liu P., Howarth G.H. 2013. Reviews and an integrated genetic model of magmatic Fe-Ti-V oxide deposits in the Emeishan Large Igneous Province, SW China and Northern Vietnam.Geoscience Frontiers4: 481-502
2012
1.Wang C.Y., Zhou M.-F., Sun Y.L., Arndt N.T. 2012. Differentiation, crustal contamination and emplacement of magmas in the formation of the Nantianwan mafic intrusion of the ~260 Ma Emeishan large igneous province, SW China.Contributions to Mineralogy and Petrology164: 281–301
2.Xing C.M.,Wang C.Y.*, Zhang M.J. 2012. Volatile and C-H-O isotopic compositions of giant Fe-Ti-V oxide deposits in the Panxi region and their implications for the sources of volatiles and the origin of Fe-Ti oxide ores.SCIENCE CHINA Earth Sciences55: 1782-1795【邢长明,王焰*,张铭杰. 2012.攀西地区超大型钒钛磁铁矿床挥发份组成及其C-H-O稳定同位素研究:对挥发份来源和矿石成因的约束.中国科学地球科学42: 1701-1715】
3.王梦玺,王焰*. 2012.扬子地块北缘~635Ma周庵超镁铁质岩体的矿物学特征及其对岩体成因和铜镍硫化物矿化的启示.矿床地质31: 179-194
4.Zhou M.-F, Robinson P.T.,Wang C.Y., Zhao J.H., Yan D.P., Gao J.F., Malpas J. 2012. Heterogeneous mantle source and magma differentiation of quaternary arc-like volcanic rocks from Tengchong, SE margin of the Tibetan Plateau.Contributions to Mineralogy and Petrology163: 841-860
5.Gao J.F., Zhou M.-F., Lightfoot P.C.,Wang C.Y., Qi L. 2012. Origin of PGE-poor and Cu-rich magmatic sulfides from the Kalatongke deposit, Xinjiang, NW china.Economic Geology107: 481-506
2011
1.Wang C.Y., Zhou M.-F., Qi L. 2011.Chalcophile element geochemistry and petrogenesis of high-Ti and low-Ti magmas in the Permian Emeishan large igneous province, SW China.Contributions to Mineralogy and Petrology161: 237-254
2.Wang C.Y., Campbell I.H., Stepanov A.S., Allen C.M., Burtsev I.N. 2011. Growth rate of the preserved continental crust: II. Constraints from Hf and O isotopes in detrital zircons from Greater Russian rivers.Geochimica et Cosmochimica Acta75: 1308-1345
3.邢长明,陈伟,王焰*,赵太平. 2011.华北克拉通北缘元古宙大庙Fe-Ti-P矿床的挥发份组成和C-H-O同位素研究.岩石学报27: 1500-1510
2010
1.Wang C.Y., Zhou M.-F., Qi L. 2010. Origin of extremely PGE-rich mafic magma system: An example from the Jinbaoshan ultramafic sill, Emeishan Large Igneous Province, SW China.Lithos119: 147-161
2009
1.Wang C.Y., Campbell I.H., Allen C.M., Williams I.S., Eggins S.M. 2009. Rate of growth of the preserved North American continental crust: evidence from Hf and O isotopes in Mississippi detrital zircons.Geochimica et Cosmochimica Acta73: 712-728
2.Shellnutt J.G.,Wang C.Y., Zhou M.-F., Yang Y.H. 2009. Zircon Lu-Hf isotopic compositions of metaluminous and peralkaline A-type granitic plutons of the Emeishan large igneous province (SW China): constraints on the mantle source.Journal of Asian Earth Science35: 45-55
2008
1.Wang C.Y., Prichard H.Z., Zhou M.F., Fisher P.C. 2008. Platinum-group minerals from the Jinbaoshan Pd–Pt deposit, SW China: evidence for magmatic origin and hydrothermal alteration.Mineralium Deposita43:791-803
2.Wang C.Y., Zhou M.-F., Zhao D.G. 2008. Fe-Ti-Cr oxides from the Permian Xinjie mafic-ultramafic layered intrusion in the Emeishan large igneous province, SW China: crystallization from Fe- and Ti-rich basaltic magmas.Lithos102: 198-217
3.Qi L.,Wang C.Y., Zhou M.-F. 2008. Controls on the PGE distribution of Permian Emeishan alkaline and peralkaline volcanic rocks in Longzhoushan, Sichuan Province, SW China.Lithos106: 222-236
4.Zhou M.-F., Arndt N.T., Malpas J.,Wang C.Y., Kennedy A.K. 2008.Two magma series and associated ore deposit types in the Permian Emeishan large igneous province, SW China.Lithos103: 352-368
5.王焰. 2008.云南二叠纪白马寨铜镍硫化物矿床的成因:地壳混染与矿化的关系.矿物岩石地球化学通报27(4): 332-343
2007
1.Wang C.Y., Zhou M.-F., Qi L. 2007. Permian flood basalts and mafic intrusions in the Jinping (SW China)-Song Da (northern Vietnam) district: mantle sources, crustal contamination and sulfide segregation.Chemical Geology243: 317-343
2.Lehmann J., Arndt N.T., Windley B., Zhou M.-F,Wang C.Y., Harris C. 2007.Field relationships and geochemical constraints on the emplacement of the Jinchuan intrusion and its Ni-Cu-PGE sulfide deposit, Gansu, China.Economic Geology102: 75-94
2006
1.Wang C.Y., Zhou M.-F. 2006. Genesis of the Permian Baimazhai magmatic Ni-Cu-(PGE) sulfide deposit, Yunnan, SW China.Mineralium Deposita41:771-783
2.Wang C.Y., Zhou M.-F., Qi L., Hou S.H., Gao H.G., Zhang Z.W., Malpas J. 2006. The Zhaotong native copper deposit associated with the Permian Emeishan Flood Basalts, Yunnan, SW China.International Geological Review48: 742-753
3.Wang C.Y., Zhou M.F., Keays R.R. 2006. Geochemical constraints on the origin of the Permian Baimazhai mafic-ultramafic intrusion and its Ni-Cu-(PGE) sulfide deposit, SW China.Contributions to Mineralogy and Petrology152: 309-321
4.Song X.Y., Zhou M.-F.,Wang C.Y., Qi L., Zhang C.J. 2006.Role of Crustal Contamination in Formation of the Jinchuan Intrusion and Its World-Class Ni-Cu-(PGE) Sulfide Deposit, Northwest China.International Geology Review48: 1113-1132
2005
1.Wang C.Y., Zhou M.-F., Zhao D. G. 2005. Mineral chemistry of chromite from the Permian Jinbaoshan Pt-Pd-sulphide-bearing ultramafic intrusion in SW China with petrogenetic implications.Lithos83: 47-66.
2.Wang C.Y., Zhang Q, Qian Q, Zhou M.-F. 2005. Geochemistry of the early Paleozoic Baiyin volcanic rocks (NW China): implications for the tectonic evolution of the North Qilian orogenic belt.Journal of Geology113: 83-94
2001
1.王焰,张旗. 2001.八达岭花岗杂岩的组成、地球化学特征及其意义.岩石学报17: 533-540
2.张旗,王焰,钱青,杨进辉,王元龙,赵太平,郭光军. 2001.中国东部燕山期埃达克岩的特征及其构造-成矿意义.岩石学报17: 236-244
3.张旗,王焰,王元龙. 2001.燕山期中国东部高原下地壳组成初探:埃达克质岩Sr、Nd同位素制约.岩石学报17: 505-513
2000
1.王焰,钱青,刘良,张旗. 2000.不同构造环境中双峰式火山岩的主要特征.岩石学报16: 169-173
2.王焰,张旗,钱青. 2000.埃达克岩(adakite)的地球化学特征及其构造意义.地质科学35: 251-256
承担科研项目情况:
1.国家自然科学基金重大研究计划项目(**):镁铁-超镁铁质岩中铂族元素和钴的赋存状态研究(2020.01-2024.12)
2. 国家自然科学基金重点基金(**):中亚造山带演化过程中的镁铁-超镁铁质岩浆成矿作用(2018.01-2022.12)
3. 中国科学院战略性先导科技专项(B类)“地球内部运行机制与表层响应”课题:地幔柱-板块相互作用与构造-岩浆记录(XDB**)(2016.07-2021.06)
4. 国家重点研究计划“华北克拉通成矿系统的深部过程与成矿机理”课题:华北东部中生代岩浆作用与成矿深部过程(2016YFC**)(2016.06-2021.06)
5. “广东特支计划”百千万人才工程领军人才()
6. 国家自然科学基金(**):二叠纪峨眉山大火成岩省正长岩和过碱性花岗岩成因的矿物微量元素和同位素约束(2015.01-2018.12)
7. 国家杰出青年科学基金(**):矿床学(2014.01-2017.12)
8. 国家重点基础研究发展计划(973计划) “二叠纪地幔柱构造与地表系统演变”课题:二叠纪岩浆成矿作用的多样性与壳幔相互作用(2011CB808903)(2011.01-2015.08)
9. 国家自然科学基金项目(**):攀枝花型钒钛磁铁矿和含矿层状岩体的成因探讨(2011.01-2013.12)
10. 中国科学院“引进海外杰出人才计划”择优资助项目:“与镁铁-超镁铁质岩体有关的成矿作用”(2010.01-2012.12)
11. 国家自然科学基金项目(**):河南周庵超镁铁质岩体的成因和铂族元素富集机理(2010.01-2012.12)
12. 中国科学院知识创新工程重要方向项目群“我国重要成矿域和特色成矿体系研究”项目:“峨眉山地幔柱成矿规律”(KZCX2-YW-Q04-06)(2009.01-2011.12)



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