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姓名 陈伟 性别:
职称 研究员 学历 博士
电话 +86 0851-85891199 传真: +86 0851-85891199
Email: chenwei@mail.gyig.ac.cn 邮编: 550081
地址 贵州省贵阳市观山湖区林城西路99号
简历:

  2016年3月至今 中国科学院地球化学研究所    研究员 博士生导师

       2014年1月至2016年3月 于香港大学地球科学系 博士后及研究助理 

  2010年1月至2013年12月:香港大学地球科学系攻读博士学位                             

  2005年9月至2009年12月:中科院广州地球化学研究所攻读硕士学位                            

  2001年9月至2005年7月: 长安大学资源学院地质系攻读学士学位(地质学专业) 

研究方向:

      岩浆Fe-Ti-V-(P) 矿床 

      热液Fe-(Cu,Au) 矿床(IOCG 

      IOCG矿床中稀土矿化成因 

      白云鄂博Fe-REE-Nb矿床 

      与火成碳酸岩相关的稀土矿化成因 

承担科研项目情况:

国家自然科学基金-面上项目(2016

国家自然科学基金-优秀青年基金项目(2018)

专家类别:
职务:
研究员
社会任职:
 
获奖及荣誉:
 
代表论著:

第一/通讯作者:

22Zhang, W., Chen, W.T.*, Gao, J.F., Chen, H-K., Li, J-H., 2019. Two episodes of REE mineralization in the Qinling Orogenic Belt, Central China: In-situ U-Th-Pb dating of bastn?site and monazite. Mineralium Deposita 54: 1265-1280 (Corresponding author)

21Liu L., Chen, W.T.*, 2019. Geology, mineralization styles and age of ore-hosting rocks of the Proterozoic Longbohe–Sin Quyen Fe-Cu belt: Implications for regional metallogeny. Ore Geology Reviews, 111: in press (corresponding author)

20Chen, W.T., Zhou M.F., Li, XC, Gao JF, Bao Z, Yuan HL., 2019. In situ Pb-Pb isotopic dating of sulfides from hydrothermal deposits: a case study of the Lala Fe-Cu deposit, SW China. Mineralium Deposita, 54: 671-682 

19)陈 ,赵新福,李晓春,周美夫. 2019. 中国铁氧化物--(IOCG)矿床的基本特征及研究进展. 岩石学报, 35(1): 99-118邀请论文

18Chen, W.T., Sun, W.-H.*, Zhou, M.-F., Wang, W., 2018. Ca. 1050 Ma intra-continental rift-related A-type felsic rocks in the southwestern Yangtze Block, South China. Precambrian Research, 309: 22-44

17Chen, W.T.*, Zhou, M.-F., 2017. Hydrothermal alteration of magmatic zircon related to NaCl-rich brines: diffusion-reaction and dissolution-reprecipitation processes. American Journal of Sciences 317, 177-215.

16Wong, K.H., Zhou, M.F., Chen, W.T*., O'Brien H., Lahaye, Y., Chan, S.L.J., 2017. Constraints of fluid inclusions and in-situ S-Pb isotopic compositions on the origin of the North Kostobe sediment-hosted gold deposit, eastern Kazakhstan. Ore Geology Reviews 81, 256-269 (Corresponding author)

15Chen, W.T., Zhou, M.-F. *, Gao, J.F., Hu, RZ., 2015. Geochemistry of magnetite from Fe-Cu deposits in the Kangdian metallogenic province, SW China. Mineralium Deposita 50, 795-809

14Chen, W.T., Zhou, M.-F. *, 2015. Mineralogical and geochemical constraints on the mobilization and mineralization of rare earth elements in the Lala Fe-Cu-(Mo, REE) deposit, SW China. Americal Journal of Sciences 315, 671-711.

13Chen, W.T., Zhou, M.-F., Gao, J.-F., Zhao, T.P. *, 2015. Oscillatory Sr isotopic signature in plagioclase megacrysts from the Damiao anorthosite complex, North China. Chemical Geology 393-394, 1-15

12Chen, W.T., Zhou, M.-F. *, Li, XC., Gao, J.-F., Hou, KJ., 2015. In-situ LA-ICP-MS trace elemental analyses of magnetite: Cu-(Fe) deposits in the Khetri copper belt in Rajasthan province, NW India. Ore Geology Reviews 95, 929-939.

11Chen, W.T., Zhou, M.-F*.. 2014. Ages and compositions of primary and secondary allanite from the Lala Fe-Cu deposit, SW China: Implications for multiple episodes of hydrothermal events. Contributions to Mineralogy and Petrology 168, 1043.

10Chen, W.T., Sun, W.-H. *, Zhao, J.-H., Wang, W., Zhou, M.-F., 2014. “Grenvillian” intra-plate mafic magmatism in the southwestern Yangtze Block, SW China. Precambrian Research 242, 138-153.

9Chen, W.T., Zhou, M.-F. *, Gao, J.F., 2014. Constraints of Sr isotopic compositions of apatite and carbonates on the origin of Fe and Cu mineralizing fluids in the Lala Fe-Cu-(Mo, REE) deposit, SW China. Ore Geology Review 61: 96-106.

8Li YHM, Zhou MF, Lai KW, Chan LS, Chen W.T.*, 2014. Geochemical and geochronological constraints on late Jurassic volcanic rocks at Tuen Mun, Hong Kong with implications for the Paleo-pacific subduction. International Geological Review 56, 408-429. *corresponding author

7Chen, W.T., Zhou, M.-F., Zhao, T.-P. *, 2013. Differentiation of nelsonitic magmas in the formation of the ~1.74 Ga Damiao Fe-Ti-P ore deposit, North China. Contributions to Mineralogy and Petrology 165, 1341-1362.

6Chen, W.T., Zhou, M.-F. *, Zhao, X.F., 2013. Late Paleoproterozoic sedimentary and mafic rocks in the Hekou area, SW China: Implication for the reconstruction of the Yangtze Block in Columbia. Precambrian Research 231, 61-77.

5Wang, B.-Q., Zhou, M.-F., Chen, W.T.*, Gao, J.-F., Yan, D.-P., 2013. Petrogenesis and tectonic implications of the Triassic volcanic rocks in the northern Yidun Terrane, Eastern Tibet. Lithos 175-176, 285-301.*corresponding author

4Chen, W.T., Zhou, M.-F. *, 2012. Paragenesis, stable isotopes and molybdenite Re-Os isotopic age of the Lala iron-copper deposit, Southwest Chnia. Economic Geology 107, 459-480.

3)陈伟, 赵太平*, 徐勇航. 2008. 河北大庙Fe-Ti-P矿床中铁钛磷灰岩的成因:来自磷灰石的证据. 岩石学报, 24(10): 2301-2312.

2)陈伟, 赵太平*, 徐勇航. 2007. 大庙Fe-Ti-P矿床中铁钛磷灰岩的成因: 来自铁钛氧化物矿物化学的证据. 矿物学报, 27(增刊): 248-250.

1)陈伟, 赵太平*. 2007. 元古宙岩体型斜长岩的特征及研究现状. 高校地质学报,13(1): 117-126.

 

非第一及非通讯作者

32Leng, C-B., Gao, JF., Chen, WT., Zhang, X.C.,  Tian, Z.D., Guo, JH., 2018. Platinum-group elements, zircon Hf-O isotopes, and mineralogical constraints on magmatic evolution of the Pulang Porphyry Cu-Au system, SW China. Gondwana Research, 62: 163-177.

31Leng, C-B., Cooke DR., Hou, ZQ, Evans NJ, Zhang X-C, Chen WT, Danisik M, McInnes BIA., and Yang J.H., 2018. Quantifying exhumation at the giant Pulang porphyry Cu-Au deposit using U-Pb-he dating. Economic Geology, 113(5): 1077-1092

30Jin, C, Gao, X-Y., Chen, W.T., Zhao, T-P.*, 2018. Magmatic-hydrothermal evolution of the Donggou porphyry Mo deposit at the southern margin of the North China Craton: evidence from chemistry of biotite. Ore Geology Reviews 92, 84-96.

29Wang, W.*, Pandit, M.K., Zhao, J.H., Chen, W.T., Zheng, J.P., 2018. Slab break-off triggered lithosphere - asthenosphere interaction at a convergent margin: The Neoproterozoic bimodal magmatism in NW India. Lithos 296-299, 281-296

28Li, X.C., Zhou, M.F.*, Chen, W.T., Zhao, X.F., Tran, M.D., 2018. Uranium-lead dating of hydrothermal zircon and monazite from the Sin Quyen Fe-Cu-REE-Au-(U) deposit, northwestern Vietnam. Mineralium Deposita, 53: 399-416

27Hu, R.-Z.*, Chen, W.T., Xu, D.R., Zhou, M.F., 2017. Reviews and new metallogenic models of mineral deposits in South China: An introduction. a sepical issue in Journal Of Asian Earth Sciences 137, 1-8

26Zhao, X.F.*, Zhou, M.F., Su, Z.K., Li, X.C., Chen, W.T., Li, J.W., 2017. Geology, geochronology, and geochemistry of the Dahongshan Fe-Cu-(Au-Ag) deposit, Southwest China: implications for the formation of iron oxide copper-gold deposits in intracrationic rift settings. Economic Geology 112, 603-628.

25Wang, W.*, Cawood, P.A., Pandit, M.K., Zhou, M.F., Chen, W.T., 2017. Zircon U-Pb age and Hf isotope evidence for an Eoarchaean crustal remnant and episodic crustal reworking in response to supercontinent cycles in NW India. Journal of the Geological Society, 174: 759-772.

24Liu, P.P.*, Zhou, M.F., Zhao, G., Chung, S.L., Chen, W.T., Wang, F., 2017. Eocene granulite-facies metamorphism prior to deformation of the Mianhuadi mafic complex in the Ailao Shan-Red River shear zone, Yunnan Province, SW China. Journal of Asian Earth Sciences 145, 626-640.

23Zhao, W.W., Zhou, M.-F.*, Chen, W.T., 2016. Growth of hydrothermal baddeleyite and zircon in different stages of skarnization. American Mineralogist 101, 2689-2700.

22Li, X.C., Zhao, X.F., Zhou, M.F.*, Chen, W.T., Chu, Z.Y., 2015. Fluid inclusion and isotopic constraints on the origin of the Paleoproterozoic Yinachang Fe-Cu-(REE) deposit, Southwest China. Economic Geology 110, 1339-1369.

21Gao, J.-F.*, Zhou, M.-F., Qi, L., Chen, W.T., Huang, X.W., 2015. Chalcophile elemental compositions and origin of the Tuwu porphyry Cu deposit, NW China. Ore Geology Reviews 66, 403-421.

20Chung, D., Zhou, M.F.*, Gao, J.F., Chen, W.T., 2015. In-situ LA-ICP-MS trace elemental analyses of magnetite: the late palaeoproterozoic Sokoman iron formation in the Labrador Trough, Canada. Ore Geology Reviews 65, 917-928.

19Liu, P.P., Zhou, M.-F.*, Chen, W.T., Gao, J.F., Huang, X.W., 2015. In-situ LA-ICP-MS trace elemental analyses of magnetite: Fe-Ti-(V) oxide-bearing mafic-ultramafic layered intrusions of the Emeishan Large Igneous Province, SW China. Ore Geological Reviews 65, 853-871.

18Zhou, M.F.*, Zhao, X.F., Chen, W.T., Li, X.C., Wang, W., Yan, D.P., Qiu, H.N., 2014. Proterozoic Fe-Cu metallogeny and supercontinental cycles of the sourthwestern Yangtze Block, southern China and northern Vietnam. Earth-Science Reviews 139, 59-82.

17Gao, X.-Y., Zhao, T.-P.*, Chen W.T., 2014. Petrogenesis of the early Gretaceous Funiushan granites on the southern margin of the North China Craton: Implications for the Mesozoic geological evolution. Journal of Asian Earth Sciences 94, 28-44.

16Liu, P.P., Zhou, M.-F.*, Chen, W.T., Boone, M., Cnudde, V., 2014. Using Multiphase Solid Inclusions to Constrain the Origin of the Baima Fe-Ti-(V) Oxide Deposit, SW China. Journal of Petrology 55: 951-976

15Wang W., Zhou, M.F.*, Zhao, X.F., Chen, W.T., Yan, D.P., 2014. Late Paleoproterozoic to Mesoproterozoic rift sucessions in SW China: implication for the Yangtze Block-North Australia-Northwest Laurentia connection in the Columbia supercontinent. Sedimentray Geology 309, 33-47.

14Zhou, M.-F.*, Chen, W.T., Wang, C.Y., Prevec, S.A., Liu, P.P., Howarth, G.H., 2013. Two stages of immiscible liquid separation in the formation of Panzhihua-type Fe-Ti-V oxide deposits, SW China. Geoscience Frontiers 4, 481-502.

13Wang, B.-Q., Wang, W., Chen, W.T., Gao, J.-F., Zhao, X.-F., Yan, D.-P., Zhou, M.-F.*, 2013. Constraints of detrital zircon U-Pb ages and Hf isotopes on the provenance of the Triassic Yidun Group and tectonic evolution of the Yidun Terrane, Eastern Tibet. Sedimentary Geology, 289, 74-98.

12)王汾连,赵太平*陈伟. 2012. 铌钽矿研究进展和攀西地区铌钽矿成因初探. 矿床地质,312):293-308.

11)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矿床的挥发分组成和C-H-O同位素研究. 岩石学报,275):1500-1510.

10)胡国辉,胡俊良,陈伟,赵太平*. 2010. 华北克拉通南缘中条山-嵩山地区1.78Ga基性岩墙群的地球化学特征及构造环境. 岩石学报,265):1563-1576.

9)赵太平*, 陈伟, 卢冰. 2010. 斜长岩体中Fe-Ti-P矿床的特征与成因. 地学前缘,17(2): 106-117

8Zhao, T.-P*, Chen, W., Zhou, M.-F., 2009. Geochemical and Nd-Hf isotopic constraints on the origin of the ~1.74 Ga Damiao anorthosite complex, North China Craton. Lithos 113, 673-690.

7Zhao, T.-P*, Zhou, M.-F., Zhao, J.-H., Zhang, K.-J., Chen, W., 2008. Geochronolgy and geochemistry of the c. 80 Ma Rutog granitic pluton, northwestern Tibet: implications for the tectonic evolution of the Lhasa Terrance. Geological Magazine 145 (6), 845-857.

6)胡俊良,赵太平*,徐勇航,陈伟. 2008. 华北克拉通大红峪组高钾火山岩的地球化学特征及其岩石成因. 矿物岩石,274):70-77

5)徐勇航,赵太平*,胡俊良,陈伟. 2008. 华北陆块南部古元古代熊耳群硅质岩地球化学特征及其沉积环境. 沉积学报,264):63-70

4)徐勇航,赵太平*,张玉修,陈伟. 2008. 华北陆块南部古元古代熊耳群大古石组碎屑岩的地球化学特征及其地质意义. 地质论评,543):316-326

3)胡俊良,赵太平*陈伟,彭澎. 2007. 华北克拉通1.75 Ga基性岩墙群特征及其研究进展. 大地构造与成矿学,314):457-470

2)冷成彪,张兴春*,陈衍景,王守旭,苟体忠,陈伟. 2007.中国斑岩铜矿与埃达克(质)岩关系探讨. 地学前缘,145):199-210

1)赵太平,王建平,张忠慧,王凤云,章秉辰,王世炎,徐勇航,陈伟,著. 2005. 中国王屋山及邻区元古宙地质研究. 中国大地出版社

19)陈 ,赵新福,李晓春,周美夫. 2019. 中国铁氧化物--(IOCG)床的基本特征及研究进展. 岩石学报, 35(1): 99-118邀请论文