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王勤
  • 职称: 教授 职称:
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  • 联系电话: 025-83596887
  • 办公地址: 朱共山楼454
  • 电子邮件: qwang@nju.edu.cn
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个人简介

王勤,女,19749月生,籍贯苏州。博士,开云足球俱乐部地球科学系教授博士生导师,主要研究方向为岩石物理学、显微构造及深部构造的地球物理解释。2018年国家杰出青年基金项目(流变学与岩石物理)、2009年教育部新世纪优秀人才支持计划、2008年杜邦青年教授奖、2006年侯德封奖。


学习工作简历

201112-至今:开云足球俱乐部地球科学系,教授

200612-201112:开云足球俱乐部地球科学系,副教授

200412-200612:开云足球俱乐部地球科学系,讲师

20011-200411月: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

19999-20006月:开云足球俱乐部地球科学系,构造地质学专业,博士研究生

19969-19996月:开云足球俱乐部地球科学系,构造地质学专业,硕士

19929-19966月:开云足球俱乐部地球科学系,构造地质学专业,学士


科研情况

1. 主持国家重点研发计划项目《晚中生代华南陆缘深部过程驱动构造地貌与环境气候变化》(2023.12-2028.11),1393.7万元

2. 主持国家自然科学基金面上项目《喜马拉雅造山带和拉萨地体的地壳物质组成与流变》(2024.1-2027.12),53万元

3. 主持国家自然科学基金国家杰出青年科学基金项目《流变学与岩石物理》(418250062019.1-2023.12),400

4. 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),720

5. 主持国家自然科学基金重大项目课题《水对壳幔矿物和岩石流变性质的影响与俯冲带地震成因》(415906232016.1-2020.12),494.8万元

6. 主持国家自然科学基金中-英国际合作与交流项目《大陆溢流玄武岩喷发与二叠纪末生物大灭绝的联系:从地幔到大气圈》(42011530171, 2020.7-2022.6),10

7. 主持国家自然科学基金中-俄国际合作与交流项目《华北克拉通和西伯利亚克拉通下地壳和上地幔包体的岩石物性、年龄和地球化学特征》(415111300302015.1-2016.12),9万元

8. 主持中国地质科学院地质力学所委托业务《雪峰山地震剖面处理与解释》(2017.1-2017.12),309. 主持国家自然科学基金面上项目《华北克拉通麻粒岩和橄榄岩的地震波性质和导电率》(411721822012.1-2015.12),79万元

10. 主持国家自然科学基金面上项目《华北克拉通橄榄岩包体的显微构造、含水量与地震波性质》(40872144,2009.1-2011.12),45万元

11. 主持国家自然科学青年基金项目《苏鲁地区超高压变质岩的岩石组构与地震波性质》(40502022,2006.1-2008.12),27万元;

12. 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》(2012CB2147032012.1-2016.12),100万元

13. 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》,4万元;

14. 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》(许志琴院士主持),13万;

15. 参加国家自然科学基金委重大项目《中国大陆科学钻探样品与资料的多学科综合研究》(许志琴院士主持),20万元;

16. 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》(2007.1-2011.12)(王良书教授主持),10万;

17. 参加中石化海相前瞻项目《中国东南部壳幔结构与区域构造解析》,10万;

18. 参加中国地质科学院地质研究所地调项目《青藏高原东部及东南部岩石圈流变学及中下地壳隧道流证实》(2009.1-2010.12)(嵇少丞教授主持),20万;

19. 获得美国杜邦公司“青年教授奖”,主持《沉积岩中流体稳定性和分布的岩石物理学研究》,18万;

20. 主持开云足球俱乐部内生金属矿床成矿机制研究国家重点实验室自主研究课题,《中国东南部韧性剪切带花岗质糜棱岩的岩石组构与地震波性质》(2008.6-2010.5),20万;


主要研究岩石的地震波性质及地质意义工作可分为以下部分:

(1) 参与收集整理四十余年来所有发表的岩石波速和各向异性数据,建立岩石地震波性质数据库,作为第二作者,在蒙特利尔工学院国际出版社出版《Handbook of Seismic Properties of Minerals, Rocks and Ores》。德国Kiel大学Kern教授发表书评,称之为关于岩石地震波性质的准确全面的参考书Tectonophysics, 2003, 376, 135-136);

(2) 参与广义混合律的研究,首次将各种频率下多相材料和岩石的弹性性质、地震波速及流变力学特征统一到一个广义混合律中,为研究壳幔流变学、地震波速-成分模式以及工业复合材料的开发和应用提供了一个有效的理论框架;

(3) 测量大别-苏鲁超高压变质岩在高温高压下的地震波速度,给出描述岩石地震波速和各向异性随压力变化的数学表达式,将实验结果用于解释大别-苏鲁地区的地震反射剖面,探讨下地壳和上地幔的深反射层的成因、超高压岩石的折返机制和变形历史,建立大别-苏鲁超高压带的地壳成分模型。

(4) 参与苏鲁超高压变质带芝麻房石榴石橄榄岩的显微组构和含水量研究,发现橄榄石发育[001](100)组构形成于超高压、低温、贫流体环境下,与Karato等人提出的富水橄榄石[001](100) 组构的形成机制不同,对认识超高压变质带的构造环境、上地幔地震波各向异性和含水量具有重要意义。通过总结橄榄石晶格优选定向含水量与地震波各向异性的研究进展统计不同构造环境下的天然橄榄石含水量和高温高压橄榄岩的波速测量结果,发现除了水在上地幔的不均匀分布,橄榄岩折返过程中扩散会强烈影响橄榄石的含水量

(5) 对中国大陆超深钻的超高压变质岩样品进行显微组构和高温高压地震波性质的综合研究,发现榴辉岩中保留的早期岩石组构特征可以为研究俯冲板块的运动学提供重要信息,而超高压片麻岩中石英的组构记录了折返阶段的变形条件和板片运动方向[9]绿辉石的晶格优选定向是控制榴辉岩地震波各向异性的主要因素,不同方向上榴辉岩波速的温度梯度不同,这种温度梯度的各向异性将影响榴辉岩在上地幔的地震波各向异性并提高榴辉岩的反射性20067北京AGU Western Pacific Geophysics Meeting口头报告,研究结果已投Tectonophysics

 

教学工作情况

参与研究生课程《地球物理专题》(每学期4课时,13人左右)和博士生课程《深部构造与地球动力学》的教学(每学期4课时,5-8人)的授课,参加本科生《普通地质学》野外教学实习一次。指导本科生“科学研究培训”项目一名。


获奖情况

20068月获第11届“侯德封矿物岩石地球化学青年科学家奖”,入选2006年度江苏省“青蓝工程”优秀青年骨干教师;2008年获“杜邦青年教授奖”,2008年入选教育部“新世纪人才”计划。

 

国际交流与合作

1、2004 5月:AGU 2004年蒙特利尔春季年会, “Seismic wave velocities and Poisson’s ratios of ultrahigh-pressure metamorphic rocks: implications for deep structure of the continental lithosphere and origin of mantle reflections”

2、20056月:广州,中国边缘海与大陆边缘地质构造演化及其环境演变响应国际学术研讨会,大会主题报告大别-苏鲁造山带超高压变质岩的地震波性质

3、20067月:新加坡,Asia Oceania Geosciences Society 3rd Annual Meeting,口头报告“C-type olivine fabric in the Zhimafang garnet peridotite from the Sulu UHP terrane: implications for water in continental subduction zone”

4、20067月:北京,AGU Western Pacific Geophysics Meeting,口头报告“Petrofabric and seismic properties of eclogites from the Chinese Continental Scientific Drilling borehole in the Sulu UHP terrane”

5、20088挪威Oslo33rd International Geological Congress, 邀请报告 “Lattice-preferred orientation, water content and seismic anisotropy of olivine: implications for the lithosphere-asthenosphere boundary of continents”分会报告Fabric kinematics of ultrahigh-pressure metamorphic rocks from the main borehole of the Chinese continental scientific drilling project: implications for continental subduction and exhumation”;

6、200812月:美国旧金山,2008 AGU Fall Meeting, 口头报告Interseismic activity and coseismic activity of the Longmen Shan in the late Cenozoic: New insights from the Wenchuan earthquake of 12 May 2008”;

7、2005629-78日:德国Freiberg“Textures and  Microstructures in the Earth Sciences” 讲习班;

8、2005822-925日,200611-228日:瑞士苏黎世联邦理工学院(ETHZ)岩石变形实验室,测定超高压变质岩在高温高压下的波速;

9、2005717-821日:法国Université de Montpellier II大学构造物理实验室,测量中国大陆超深钻岩心样品的显微组构。

 

社会服务

国际岩石圈计划执行秘书(2021-),中国地质学会构造地质学与地球动力学专业委员会副主任,中国地震学会构造物理专业委员会副主任,中国地球物理学会计算地球系统动力学专业委员会副主任,中国地质学会大陆地壳与地幔研究分会秘书长,中国地球物理学会中国大陆动力学专业委员会委员,中国矿物岩石地球化学学会科普工作委员会委员,中国石油学会石油物探专业委员会委员,美国地球物理联合会(AGU)会员,美国地质学会(GSA)会员。

担任Tctonophysics, Journal of Geodynamics,地球物理学报,大地构造与成矿学,地质力学学报,岩石学杂志等期刊的编委。

曾任江苏省地质学会青年工作专业委员会主任(2013-2018),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) Advisory。


教育经历

工作经历

学术兼职

研究方向

开授课程

科研项目

学术成果


出版专著

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

2 王勤,陈旸,2022. 矿物与人类健康(导读版). 科学出版社

      3 嵇少丞,王勤,2025. 常见矿物及岩石的变形构造图册.地质出版社

发表论著目录

In press

1. 姚尧,王勤*. 2026. 大火成岩省对陆壳结构、大陆裂解和全球气候变化的影响[J]. 地球与行星物理论评(中英文),571):27-50. doi10.19975/j.dqyxx.2024-021


2025

95. Wang, L., Wang, Q., Ruan, Y.*, 2025. Monitoring dynamic magma movement in the lower crust during the 2015 eruption of Axial Seamount. Journal of Geophysical Research: Solid Earth, 130, e2024JB030481. https://doi.org/10.1029/2024JB030481

94. Zhao, J., Wang, Q.*, Ruan, Y., Jiang, W., Webb, A. A. G., 2025. Structure, serpentinization and seismic reflectivity of the crust‐mantle boundary at fast‐ and intermediate‐spreading ridges. Journal of Geophysical Research: Solid Earth, 130, e2025JB032120. https://doi.org/10.1029/2025JB032120

93. Hurlow, R., Su, W., Zhou, W.Y., Lin, F., Miyagi, L., Officer, T., Yu, T., Wang Y. B., Wu, M., Wang, Q., Zhang, J. S.*, 2025. In situ deformation of antigorite-olivine two-phase mixtures: Implications for dynamics and seismic anisotropy in the mantle wedge. Earth and Planetary Science Letters, 672, 119719. https://doi.org/10.1016/j.epsl.2025.119719

92. Zhu, H. H.*, Wang, J., Ruan, Y. Y., Wang, Q., Cheng, G., Tan, D. Y., Yang, J. X., Shi, B., 2025. Real-time campus resilience monitoring with distributed acoustic sensing: A case study. Science China Technological Sciences, 68(10): 2020704, https://doi.org/10.1007/s11431-025-3030-7

91. 冀胤霖*,张苏鹏,朱鸿鹄,张振宇,宋先知,王勤. 2025. 深地工程中岩体界面的摩擦-渗流耦合机理与调控技术: 综述与展望. 采矿与岩层控制工程学报, 10.13532/j.jmsce.cn10-1638/td.2025-1186

90. Zhang, L.S., Hui, H. J., Wang, Q.*, Ionov, D. A., 2025. Partial melting-controlled water concentrations in the non-cratonic continental lithospheric mantle (Tariat region, Mongolia). Lithos, 516-517, 108258, https://doi.org/10.1016/j.lithos.2025.108258

89. Deng, X., Wang, Q.*, Lu, S., Wang, H., Lu, Z., Guo, X., Li, H. Q., Gao, R.*. (2025). Fossil subduction zone beneath the eastern Yangtze Craton: Evidence from seismic reflections in the upper mantle. Geophysical Research Letters, 52, e2025GL114975. https://doi.org/10.1029/2025GL114975

88. Wu, M., Wang, Q.*, Wang, H., 2025. Thermal structure, fluid activity and earthquake mechanisms of oceanic subduction zones. Science China Earth Sciences, 68, https://doi.org/10.1007/s11430-024-1514-4

87. Wang, Q., Kopylova, M.G.*, Chen, Y., Yan, H., Kilgore, M. L., Peslier, A. H., Yang, J. 2025. Fabric transition of olivine as the cause for an anisotropic seismic discontinuity in the mantle of the northern Slave craton, Canada. Tectonophysics, 903, 230704, https://doi.org/10.1016/j.tecto.2025.230704

86. Xu, Z. Q.*, Yin, A., Xiang, H., Wang, Q.*, Li, G. W., Dong, H. W., Cao, H., Gao, J. G., 2025. Top-to-south shear at the base of the eastern Tethyan Himalayan Sequence during the Eocene-Oligocene Himalayan orogeny. Tectonophysics, 895, 230552. https://doi.org/10.1016/j.tecto.2024.230552


2024

85. 左达昇,杨可,魏海珍*,王勤,蒋少涌,林和丰,环淳,许志琴. 2024. 伟晶岩结晶动力学和热力学及稀有金属超常富集成矿机制.地质学报, 98(5), 1489-1506. 10.19762/j.cnki.dizhixuebao.2024065

84. Xu, Z. Q.*, Li, H. B., Tian, Y. T., Wang, Q.*, Yu, C. Q., Li, G. W., Ji, S. C., Faure, M., Chevalier, M. L., 2024. Formation, reactivation and exhumation of the extruded basement wedge in the southern Longmen Shan, eastern Tibetan plateau. Journal of the Geological Society, 181, https://doi.org/10.1144/jgs2023-088

83. Deng, T., Hu, X. M., Chew, D., Wang, Q., Yu, J. H., Drakou, F., 2024. Sedimentological Evidence for Pre-Early Permian Continental Subduction in the Dabie Orogen, Central-East China. Tectonics, 43, http://doi: 10.1029/2023TC007839

82. Shatsky, V. S., Wang, Q., Ragozin, A. L., Su, W. H., Ilyin, A. A. 2024. Connection between tectonothermal events of the Yakutian kimberlite province and assembly of the Siberian craton. Precambrian Research, 405, https://doi.org/10.1016/j.precamres.2024.107379

81. 张金晗,王勤*. 2024. 砂岩和页岩弹性波性质的实验研究进展. 地球物理学进展, 39(1), 141-161. https://doi.org/10.1016/j.precamres.2024.107379

80. 李沛东, 王勤*, 武梅千. 2024. 大陆俯冲隧道中的应变不均一分布:来自大别山超高压变质岩的记录. 地质学报, 98(1), 50-78. doi:10.19762/j.cnki.dizhixuebao.2023176


2023

79. 郑群凡, 张怀, 王勤, 张振, 石耀霖. 2023. 新生代华南及邻区上地幔各向异性深部动力学机制的数值模拟. 地球物理学报, 66(5): 2007-2018, doi: 10.6038/cjg2022P0780

78. Demouchy, S., Wang, Q., Tommasi, A., 2023. Deforming the upper mantle Olivine mechanical properties and anisotropy. Elements, 19, 151-157. https://doi.org/10.2138/gselements.19.3.151

77. Su, W.H., Wang, Q.*, Kang, J., Song, X. Y., 2023. Proterozoic evolution of the Alxa block in western China: A wandering terrane during supercontinent cycles. Precambrian Research, 389, 107002, https://doi.org/10.1016/j.precamres.2023.107002

76. Wang, Q.,* Sun, W. D., Faure, M., Li, H., 2023. From the Yanshan orogeny to Late Mesozoic multi-plate convergence in East Asia. Tectonophysics, 856, 229839, https://doi.org/10.1016/j.tecto.2023.229839


2022

75. Zhang, Z., Zheng, Q. F., Zhang, H., Wang, Q., Shi, Y. L., 2022. Late Mesozoic multi-plate convergence in East Asia: Insights from 3-D global mantle flow models. Tectonophysics 845, 229636, https://doi.org/10.1016/j.tecto.2022.229636

74. Ramírez-Salazar, A., Zuo, J., Muller, T., Webb, A. A.G., Sorger, D., Piazolo, S., Haproff, P., Harvey, J., Wang, Q., Hauzenberger, C., Wong, T. K., 2022. Reply to Comment by A.P. Nutman et al. on Tectonics of the Isua Supracrustal Belt 1: P-T-X-d Constraints of a Poly-Metamorphic Terraneby A. Ramírez-Salazar et al. and Tectonics of the Isua Supracrustal Belt 2: Microstructures Reveal Distributed Strain in the Absence of Major Fault Structuresby J. Zuo et al.. Tectonics, e2021TC007148. https://doi.org/10.1029/2021TC007148

73. Shatsky, V. S.*, Ragozi, A. L., Wang, Q., Wu, M.Q., 2022. Evidence of Eoarchean crustal remnants beneath the Yakutian kimberlite province in the Siberian craton. Precambrian Res., 106512.  https://doi.org/10.1016/j.precamres.2021.106512

72. 施斌, 王宝善, 张诚成, 顾凯, 阮友谊, 李广伟, 王勤, 魏广庆, 张丹, 朱鸿鹄, 程刚,陈颙,2022. 川西甲基卡锂矿3211 m科学深钻多物理量分布式光纤观测. 科学通报,672719-2726. https://doi.org/10.1360/TB-2021-1380

71. 卢靖雯,王勤*,刘春,2022. 花岗质岩浆侵位对围岩裂隙发育和热结构影响的数值模拟. 地质学报,96(10): 3619~3638, doi:10.19762/j.cnki.dizhixuebao.2022082

70. 陈瑶,王勤*2022. 加拿大Slave 克拉通橄榄岩的平衡温压计算. 高校地质学报, 28, 457-472. doi:10.16108/j.issn1006-7493.2020199

69. 闫伟豪王勤李伟强*. 2022. 俯冲带中大理岩与榴辉岩的Mg-Fe-C-O同位素迁移地质学报, 95, doi:10.19762/j.cnki.dizhixuebao.2021169


2021

68. 金田龙,王勤,2021. 活动断裂带岩石的变形机制和摩擦性质——以圣·安德列斯断层为例. 地质学刊, 45, 375-383.

67. Jin, T. L., Wang, Q.*, Shatsky, V., Liao, Y., 2021. Water Content and Deformation of the Lower Crust beneath the Siberian Craton: Evidence from Granulite Xenoliths. Journal of Geology, 129, doi: 10.1086/716514

66. Xu, Z.*, Wang, Q.*, Dong, H., Cao, H., Li, G., Liang, F., Rai, S. M., Kylander-Clark, A., Adhikari, S., Ji, S., 2021. Middle Eocene-Oligocene anatexis and exhumation of the Greater Himalayan Sequence in central Nepal. Terra Nova, 00, 112. https://doi.org/10.1111/ter.12551

65. Hao, M., Zhang, J., Zhou, W.-Y., Wang, Q., 2021. Seismic visibility of eclogite in the Earths upper mantleImplications from high pressure-temperature single-crystal elastic properties of omphacite. Journal of Geophysical Research: Solid Earth, 126, e2021JB021683. https://doi.org/10.1029/2021JB021683

64. Skuzovatov, S. Y., Shatsky, V. S., Wang, Q., Ragozin, A.L., Kostrovitsky, S. I., 2021. Multiple tectonomagmatic reactivation of the unexposed basement in the northern Siberian craton: from Paleoproterozoic orogeny to Phanerozoic kimberlite magmatism. International Geology Review, doi: 10.1080/00206814.2021.1916784

63. Zuo, J., Webb, A. A. G., Piazolo, S., Wang, Q., Müller, T., Ramírez-Salazar, A., Haproff, P. J., 2021. Tectonics of the Isua supracrustal belt 2: Microstructures reveal distributed strain in the absence of major fault structures. Tectonics, 40, e2020TC006514. https://doi.org/10.1029/2020TC006514

62. 许志琴, 郑碧海, 王勤.2021.从洋-陆俯冲到陆-陆碰撞: 回眸与展望. 地质学报, 95, 75-97


2020

61. Gou, Y.R., Wang, Q.*, Li, Y., Wirth, R., 2020. Water Content in Garnet from Eclogites: Implications for Water Cycle in Subduction Channels. Minerals, 10, 410; doi:10.3390/min10050410.

60. Zhang, Y., Cai, Y. F., Qu, Y., Wang, Q., Gu, L., Li, G. J., 2020. Two-stage fluid pathways generated by volume expansion reactions: insights from the replacement of pyrite by chalcopyrite. Scientific Reports, https://doi.org/10.1038/s41598-020-76813-9.

59. 顾筱彤, 王勤*. 2020. 大别山超高压变质岩的显微构造与有效黏度. 高校地质学报, 26, 606-616.

58. 郑重,王勤*. 2020. 白云石有序度与流变特征的研究进展. 高校地质学报, 26, 197208.


2019

57. Yu, M., Wang, Q*, Yang, J.S., 2019. Fabrics and water contents of peridotites in the Neotethyan Luobusa ophiolite, southern Tibet: implications for mantle recycling in supra-subduction zones. Journal of Geological Society, 176: 975-991. https://doi.org/10.1144/jgs2018-152.

56. Yao, Z., Qin, K., Wang, Q., Xue, S., 2019. Weak Btype olivine fabric induced by fast compaction of crystal mush in a crustal magma reservoir. Journal of Geophysical Research: Solid Earth, 124. https://doi.org/10.1029/2018JB016728

55. Shatsky, V.S., Wang, Q., Skuzovatov, S.Yu., Ragozin, A.L., 2019. The crust-mantle evolution of the Anabar tectonic province in the Siberian Craton: Coupled or decoupled? Precambrian Research 332, 105388. https://doi.org/10.1016/j.precamres.2019.105388.

54. Ji, S., Wang, Q., Li, L., 2019. Seismic velocities, Poisson's ratios and potential auxetic behavior of volcanic rocks. Tectonophysics, 766, 270-282.

53. 徐翔,王勤*, 2019. 大别山花凉亭-弥陀剪切带与超高压变质岩片的斜向差异折返. 高校地质学报,25182-196.


2018

52. Machev, P., OBannon, 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.

51. 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.

50. 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.

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

48. 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.

47. 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.


2017

46. Ni, H.W., Zheng, Y.F., Mao, Z., Wang, Q., Chen, R.X., Zhang, L., 2017. Distribution, cycling and impact of water in the Earths interior. National Science Review, 4, 879891.

45. 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.

44. 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

43. 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, 118.

42. 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.


2016

41. 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.

40. 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.

39. Shen, L.W., Yu, J.H., OReilly, S.Y., Griffin, W.L., Wang, Q., 2016. Widespread Paleoproterozoic basement in the eastern Cathaysia Block: Evidence from metasedimentary rocks of the PingtanDongshan metamorphic belt, in southeastern China. Precambrian Research, 285, 91-108.

38. 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.

37. 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.


2015

36. 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.

35. 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.

34. 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.


2014

33. 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.


2013

32. Liao, J., Gerya, T., Wang, Q., 2013. Layered structure of the lithospheric mantle changes dynamics of craton extension. Geophysical Research Letters, 40, 58615866, doi:10.1002/2013GL058081.

31. 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.

30. Wang, Q.*, Xia, Q.K., OReilly, 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.

29. 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.

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

27. 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.

26. 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.


2012

25. 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.

24. 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.


2011

23. 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.

22. 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.


2000-2010

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

20. 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.

19. 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.

18. 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 continentcontinent collision belt: Evidence from the Chinese Continental Scientific Drilling (CCSD) deep borehole in the Sulu ultrahigh-pressure (HPUHP) metamorphic terrane, China. Tectonophysics, 475, 204-219.

17. 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.

16. 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.

15. 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.

14. 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.

13. 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.

12. 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.

11. 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.

10. 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.

9. Wang, Q., Ji, S.C., Salisbury, M., Xia, B., Pan, M., Xu, Z.Q., 2005. Shear wave properties and Poissons 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.

8. 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.

7. 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.

6. 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.

5. 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.

4. 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.

3. 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.

2. 王良书,李成,刘绍文,李华,徐鸣洁,王勤,葛锐,贾承造,魏国齐,2003. 塔里木盆地北缘库车前陆盆地地温梯度分布特征. 地球物理学报,46403-407.

1. 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.


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