南京大学 地球科学与工程学院

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  • 个人简历
 
  • 简历
    2004.12-2006.12:南京大学地球科学系讲师,2006.12-2011.12,构造地质学副教授,硕士生导师,2011.12-至今,构造地质学教授,2013年起聘为博导。


    学历
    1992.9-1996.6:南京大学地球科学系,构造地质学专业,学士
    1996.9-1999.6:南京大学地球科学系,构造地质学专业,硕士
    1999.9-2000.6:南京大学地球科学系,构造地质学专业,博士研究生
    2001.1-2004.11:加拿大蒙特利尔工学院民用工程、地质与采矿系,矿物工程专业,博士


    社会任职
    Member of Science Advisory Group of International Scientific Continental Drilling Program (ICDP) (2013-2016)
    Member of the Education and Outreach Committee of the AGU-VGP session (2009-2010)

    中国地质学会地壳-地幔专业委员会委员,中国地震学会构造物理专业委员会委员,江苏省地质学会青年专业委员会主任,中国矿物岩石地球化学学会会员,美国地球物理联合会(AGU)会员,美国地质学会(GSA)会员

    Tectonophysics, Journal of Geodynamics编委


    获奖及荣誉

    2006年:第11届“侯德封矿物岩石地球化学青年科学家奖”,江苏省“青蓝工程”优秀青年骨干教师
    2008年:教育部“新世纪人才计划”,美国杜邦公司“杜邦青年教授奖”
    2010年:南京大学优秀中青年学科带头人培养计划


    主要教学情况
    主讲本科生课程《构造地质学》,《岩石物理学》,参与研究生课程《构造物理学专题》、《地球物理学》。建设《Rock Phycics》研究生院精品课程,《Minerals and Human Health》国际化课程,参与组织2012年教育部研究生暑期学校《岩石物理与地震资料解译》。


    研究方向
    石的地震波速度和各向异性、电导率
    超高压变质岩和橄榄岩的组构、含水量和变形机制
    不同构造环境下的上地幔流变学性质
    华北克拉通岩石圈的物质组成和破坏机制

    科研情况
    研项目:

    1)主持国家自然科学基金委重大项目子课题《水对壳幔矿物和岩石流变性质的影响与俯冲带地震成因》(2016.1-2020.12 

    2)主持国家重点研发计划课题《中国大陆壳幔结构与燕山期成矿的深部动力学》(2017YFC06014062017.7-2021.6  

    3)主持国家自然科学基金委杰出青年科学基金项目《流变学与岩石物理》(2019.1-2023.12) 


    已完成的主要项目:

    1)主持国家自然科学基金委面上项目《华北克拉通麻粒岩和橄榄岩的地震波性质和导电率》(2012.1-2015.12

    2)主持国家自然科学基金委面上项目,《华北克拉通橄榄岩包体的显微构造、含水量与地震波性质》(2009.1-2012.12
    3)主持国家自然科学基金委青年基金项目苏鲁地区超高压变质岩的岩石组构与地震波性质2006.1-2008.12

    4)主持教育部留学回国人员启动基金项目《多相岩石混合率的研究》(2006.1-2009.12)

    5)参加科技部“973”项目《中国南方古生界页岩气赋存富集机理和资源潜力评价》(2012.1-2016.12

    6专题负责《青藏高原地壳的物质组成和流变学》、《不同构造环境下地幔岩的组构、地震波各向异性与流变学性质》(2012.1-2013.12

    7)主持美国杜邦公司青年教授奖项目,《Petrophysical Study of Fluid Stability and Distribution in Sedimentary Rocks2009.1-2011.12

    8)主持美国杜邦公司项目,《曲塘凹陷深井选址研究》(2011.6-2011.10
    9主持Sino-Swiss Science and Technology Cooperation project,《Seismic anisotropy and permeability of shales from South China》(No.EG01-032016, 2016

    10主持Sino-Swiss Science and Technology Cooperation project,《Petrofabrics and physical anisotropies of peridotites from the ultrahigh-pressure metamorphic terranes(No. EG 39-032010, 2011)
    11)参加国家自然科学基金委重点项目,《鄂尔多斯东缘-太行山地区地壳上地幔结构与新生代地球动力学》(批准号406340212007.1-2010.12
    12)参加科技部“973”项目《大陆板块会聚边界的地幔动力学与现代地壳作用》
    13)参加国家自然科学基金委员会重大项目《中国大陆科学钻探样品与资料的多学科综合研究》


    论文发表情况

    1.       Machev, P., O’Bannon, E.F., Bozhilov, K.N., Wang, Q., Dobrzhinetskaya, L., 2018. Not all moissanites are created equal: New constraints on moissanite from metamorphic rocks of Bulgaria. Earth and Planetary Science Letters, 498, 387-396.    

    2.       Dobrzhinetskaya, L., Mukhin, P., Wang, Q., Wirth, R., O'Bannon, E., Zhao, W., 2018. Moissanite (SiC) with metal-silicide and silicon inclusions from tuff of Israel: Raman spectroscopy and electron microscope studies. Lithos, 310-311, 355-368.   

    3.       Zhang, W., Wang, Q.*, 2018. Permeability anisotropy and gas slippage of shales from the Sichuan Basin in South China. International Journal of Coal Geology 194, 22-32.   

    4.       Shatsky, V.S., Malkovets, V.G., Belousova, E.A., Tretiakova, I. G., Griffin, W.L., Ragozin, A.L., Wang, Q., Gibsher, A.A., O’Reilly, S.Y., 2018. Multi-stage modification of Paleoarchean crust beneath the Anbar tectonic province (Siberia craton). Precambrian Research 305, 125-144.   

    5.       Ni, H.W., Zheng, Y.F., Mao, Z., Wang, Q., Chen, R.X., Zhang, L., 2017. Distribution, cycling and impact of water in the Earth’s interior. National Science Review, 4, 879–891.   

    6.       Zhang, W., Wang, Q.*, Ye, J., Zhou, J., 2017. Fracture development and fluid pathways in shales during granite intrusion. International Journal of Coal Geology, 183, 25-37.   

    7.       Liao, J., Wang, Q., Gerya, T., Ballmer, M. D., 2017. Modeling craton destruction by hydration-induced weakening of the upper mantle. Journal of Geophysical Research: Solid Earth, 122, doi.org/10.1002/2017JB014157   

    8.       Xu, Z.Q., Yang, J.S., Wang, C.S., An, Z.S., Li, H.B., Wang, Q.*, Su, D.*, 2017. Fifteen years of the Chinese Continental Scientific Drilling Program. Scientific Drilling, 22, 1–18.   

    9.       Webb, A. A.G., Guo, H., Clift, P.D., Husson, L., Müller, T., Costantino, D., Yin, A., Xu, Z.Q., Cao, H., Wang, Q., 2017. The Himalaya in 3D: Slab dynamics controlled mountain building and monsoon intensification. Lithosphere, doi:10.1130/L636.1.   

    10.   Wang, Q.* , 2016. Homologous temperature of olivine: Implications for creep of the upper mantle and fabric transition in olivine.  Science China Earth Sciences, doi: 10.1007/s11430-016-5310-z.   

    11.   Wang, Q. *, Bagdassarov, N., Shatsky, V.S., 2016. Origin of high-velocity anomalies beneath the Siberian craton: A fingerprint of multistage magma underplating since the Neoarchean.  Russian Geology and Geophysics, 57, 713-722.   

    12.   Shen, L.W., Yu, J.H., O’Reilly, S.Y., Griffin, W.L., Wang, Q., 2016. Widespread Paleoproterozoic basement in the eastern Cathaysia Block: Evidence from metasedimentary rocks of the Pingtan–Dongshan metamorphic belt, in southeastern China. Precambrian Research, 285, 91-108.    

    13.   Li, X., Wang, Q.*, Zhang, W., Yin, H., 2016.  Contact metamorphism of shales intruded by a granite dike: implications for shale gas preservation. International Journal of Coal Geology, 159, 96-106.    

    14.   Xu, Z.*, Wang, Q.*, Cai, Z., Dong, H., Li, H., Chen, X., Duan, X., Cao, H., Li, J., Burg, J.-P., 2015. Kinematics of the Tengchong Terrane in SE Tibet from the late Eocene to early Miocene: Insights from coeval mid-crustal detachments and strike-slip shear zones. Tectonophysics 665, 127-148.   

    15.   Wang, Q.*,  Bagdassarov, N., Xia, Q., Zhu, B., 2014. Water contents and electrical conductivity of peridotite xenoliths from the North China Craton: Implications for water distribution in the upper mantle. Lithos, 189, 105-126.   

    16.   Liao, J., Gerya, T., Wang, Q., 2013. Layered structure of the lithospheric mantle changes dynamics of craton extension. Geophysical Research Letters, 40, 5861–5866, doi:10.1002/2013GL058081.   

    17.   Wang, Q .*, Bagdassarov, N., Ji, S., 2013. The Moho as a transition zone: A revisit from seismic and electrical properties of minerals and rocks. Tectonophysics, 609, 395-422.   

    18.   Wang, Q .*, Xia, Q.K., O’Reilly, S.Y., Griffin, G.L., Beyer, E.E., Brueckner, H. K., 2013. Pressure- and stress-induced fabric transition in olivine from peridotites in the Western Gneiss Region (Norway ): implications for mantle seismic anisotropy. Journal of Metamorphic Geology, 31, 91-111.   

    19.   Xu, Z.Q.*, Wang, Q.*, Pêcher, A., Liang, F.H., Qi, X.X., Cai, Z.H., Li, H.Q., Zeng, L.S., Cao, H., 2013. Orogen-parallel extension and extrusion of the Greater Himalaya in the late Oligocene and Miocene. Tectonics, 32, doi:10.1002/tect.20021.   

    20.   Yu, J.-H., Liu, Q., Hu, X.M., Wang, Q., O’Reilly, S.Y., 2013. Late Paleozoic magmatism in South China: Oceanic subduction or intracontinental orogeny? Chinese Science Bulletin  58, 788-795.   

    21.     Mao, X.L., Wang, Q.*, Liu, S.W.*, Xu, M.J., Wang, L.S., 2012. Effective elastic thickness and mechanical anisotropy of South China and surrounding regions. Tectonophysics , 550-553, 47-56.   

    22.     Liu, Q., Yu, J.-H., Wang, Q., Su, B., Zhou, M.-F., Xu, H., Cui, X., 2012. Ages and geochemistry of granites in the PingtanDongshan Metamorphic Belt, Coastal South China: New constraints on Late Mesozoic magmatic evolution. Lithos  150, 268-286.   

    23.     Wang, Q ., 2010. A review of water contents and ductile deformation mechanisms of olivine: implications for the lithosphere–asthenosphere boundary of continents. Lithos  120, 30-41.   

    24.     Wang, Q.* , Burlini, L., Mainprice, D., Xu, Z.Q., 2009. Geochemistry, petrofabrics and seismic properties of eclogites from the Chinese Continental Scientific Drilling boreholes in the Sulu UHP terrane, eastern China . Tectonophysics , 475, 251-266.   

    25.     Xu, Z.Q., Wang, Q.*, Tang, Z.M., Chen, F.Y., 2009. Fabric kinematics of ultrahigh-pressure metamorphic rocks from the main borehole of the Chinese Continental Scientific Drilling Project: implications for continental subduction and exhumation. Tectonophysics , 475, 235-250.   

    26.     Xu, Z.Q., Yang, W.C., Ji, S.C. , Zhang, Z.M., Yang, J.S., Wang, Q., Tang, Z.M., 2009. Deep root of a continent–continent collision belt: Evidence from the Chinese Continental Scientific Drilling (CCSD) deep borehole in the Sulu ultrahigh-pressure (HP–UHP) metamorphic terrane, China . Tectonophysics , 475, 204-219.   

    27.     Ji , S.C.  , Wang, Q., Xu, Z.Q., 2007. Reply to the comments of S. Karato on “Petrofabrics and seismic properties of garnet peridotites from the UHP Sulu terrane (China )”. Tectonophysics , 429, 291-296.    

    28.      Xu, Z.Q., Wang, Q., Ji, S.C., Chen, J., Zeng, L.S., Yang, J.S., Chen, F.Y., Liang, F.H., Wenk, H.R., 2006. Petrofabrics and seismic properties of garnet peridotite from the UHP Sulu terrane (China ): Implications for olivine deformation mechanism in a cold and dry subducting continental slab. Tectonophysics , 421, 111-127.     

    29.     Wang, Q ., Ji, S.C., Salisbury, M., Xia, B., Pan, M., Xu, Z.Q., 2005. Shear wave properties and Poisson’s ratios of ultrahigh-pressure metamorphic rocks from the Dabie-Sulu orogenic belt, China: implications for the crustal composition. Journal of Geophysical Research , 110, doi:10.1029/2004JB003435.    

    30.     Wang, Q ., Ji, S.C., Salisbury, M., Pan, M., Xia, B., Xu, Z.Q., 2005. Pressure dependence and anisotropy of P-wave velocities in ultrahigh-pressure metamorphic rocks from the Dabie-Sulu orogenic belt (China): implications for seismic properties of subducted slabs and origin of mantle reflections. Tectonophysics , 398, 67-99.    

    31.    Ji, S.C., Wang, Q., Xia, B., Marcotte, D., 2004. Mechanical properties of multiphase materials and rocks: a phenomenological approach using generalized means. Journal of Structural Geology , 26, 1377-1390.   

    32.     Ji, S.C., Wang, Q., Xia, B. 2003. P-wave velocities of polymineralic rocks: comparison of theory and experiment and test of elastic mixture rules. Tectonophysics , 366, 165-185.    

    33.     许志琴*,王勤*,孙卫东,李忠海,2018. 地球的层圈结构与穿越层圈构造. 地质论评,64, 261-282.    

    34.    闫浩洁,王勤*. 2018. 电子背散射衍射和傅里叶变换红外光谱结合测量橄榄石的原位含水量. 高校地质学报, 24, 1-12.    

    35.     许志琴,王勤,李忠海,李化启,蔡志慧,梁凤华,董汉文,曹汇,陈希节,黄学猛,吴婵,许翠萍,2016. 印度-亚洲碰撞:从挤压到走滑的构造转换.地质学报,90, 1-23.   

    36.      张文,王勤*,杨晓松,段庆宝,叶建国,李霞,周洁,2015. 扬子地块古生界泥页岩孔隙度和渗透率特征. 天然气地球科学, 26, 1534-1539.    

    37.     李霞,王勤,黄志诚,2015. 页岩孔隙结构研究进展及下扬子古生界页岩孔隙特征. 地质学刊, 39, 13-24.   

    38.     门清波,王勤* Bagdassarov, N,夏群科,樊祺诚2013. 石榴辉石岩的电导率及对岩浆底侵的约束. 岩石矿物学杂志, 32, 652-662.   

    39.     许志琴; 王勤; 曾令森; 梁凤华; 李化启; 戚学祥; 蔡志慧; 李忠海; 曹汇,2013. 高喜马拉雅的三维挤出模式,中国地质, 3, 671-680.   

    40.      许海, 王勤* , 马中高, 周枫, 王良书, 2011. 华南地区典型岩石的地震波性质研究. 高校地质学报, 17, 469-478.    

    41.      刘潜, 于津海, 苏斌, 王勤, 唐红峰, 许海, 崔翔, 2011. 福建锦城187Ma 花岗岩的发现———对华南沿海早侏罗世构造演化的制约. 岩石学报, 27(12):3575 -3589.    

    42.     许志琴,王勤梁凤华,陈方远,许翠萍,2009. 电子背散射衍射(EBSD)技术在大陆动力学研究中的应用.  岩石学报, 25(7), 1721-1736.   

    43.     朱蓓蓓,王勤* ,王良书,陈立辉,张宏福,2009. 河北阳原新生代玄武岩中橄榄岩捕虏体的含水量研究. 高校地质学报, 15(2), 263-272.   

    44.     王勤* ,嵇少丞,许志琴,2007. 橄榄石的晶格优选定向、含水量与地震波各向异性:对大陆俯冲带变形环境的约束. 岩石学报, 23, 3065-3077.   

    45.      嵇少丞,王茜,王勤,许志琴,2007. 苏鲁-大别超高压变质岩的弹性力学性质与密度的关系. 岩石学报, 23, 3054-3064.    

    46.      王勤*2007. 岩石地震波性质的理论与实验研究. 矿物岩石地球化学通报, 26, 118-126.    

    47.     许志琴,王勤,陈方远,梁凤华,唐哲民,2006. 榴辉岩组构运动学与大陆深俯冲——中国大陆科学钻探主孔榴辉岩的EBSD研究. 岩石学报, 22, 1799-1809.   

    48.      王勤* , 嵇少丞, 许志琴, Salisbury, M. H.,夏斌,潘明宝,2005. 榴辉岩的地震波性质:对苏鲁超高压变质带地壳成分和折返机制的约束. 岩石学报, 21, 451-464.    

    49.      许志琴,陈晶,王勤,曾令森,杨经绥,陈方远,李天福,梁凤华2005. 南苏鲁芝麻房石榴石橄榄岩中橄榄石的“C”类组构及其形成条件探讨. 岩石学报, 21, 389-398.    

    50.      王勤,卢华复,王良书,徐鸣洁,胡德昭,嵇少丞,2004. 库车前陆盆地的二维重力模拟与综合解释. 高校地质学报, 10, 227-238.    

    51.      王勤,徐鸣洁,贺绍英,王良书,李成,李华,2000. 库车-塔中-塔南剖面磁异常反演与塔里木盆地基底演化. 高校地质学报, 6, 34-39.    


    专著

    Ji, S.C., Wang, Q., Xia, B. 2002. Handbook of Seismic Properties of Minerals, Rocks and Ores. Polytechnic International Press, Montreal, Canada, 630 pp.


    国际合作与交流
    与瑞士苏黎世理工学院(ETH)、法国Montpellier第二大学、德国法兰克福大学、加拿大蒙特利尔工学院建立了长期的合作关系,开展岩石物理性质和EBSD组构分析的研究。