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姓名 王佳敏 性别:
职称 副研究员 学位 博士
电话 +86 10 82998081 传真: +86 10 62010846
Email: wangjiamin[a]mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中国科学院地质与地球物理研究所
更多信息:
English岩石圈演化国家重点实验室  化学地球动力学学科组
Google Scholar
ResearchGate
 
简历:

  王佳敏,男,1987年生于浙江省杭州市。主要从事变质与变形及喜马拉雅碰撞造山过程研究,运用的手段包括变质岩石学、U-Th-Pb年代学和构造变形解析等。学术成果包括:(1)揭示喜马拉雅核部高级变质岩的两阶段折返,厘定了“高喜马拉雅逆冲断层”的空间分布和活动时代,提出碰撞带有序向南推进的造山模型;(2)首次报道喜马拉雅榴辉岩叠加超高温变质作用,揭示其热源为加厚地壳放射性生热与岩石圈减薄共同作用。提出碰撞初期形成冷的榴辉岩vs.成熟期由于地壳加厚而形成麻粒岩化榴辉岩的新模式。(3)发展独居石激光原位定年技术,丰富了独居石在高温变质作用中生长行为的认识。

  • 2018.01-现在,中国科学院地质与地球物理研究所,副研究员
  • 2016.12-2017.12,德国波鸿鲁尔大学,岩石学系,访问学者
  • 2015.06-2018.01,中国科学院地质与地球物理研究所,博士后
  • 2013.09-2014.09,澳大利亚国立大学,地球化学系,访问博士生
  • 2010.09-2015.07,北京大学,构造地质学专业,获博士学位
  • 2006.09-2010.07,吉林大学,地质学专业,获学士学位
 
学科类别:
地质学
 
研究方向:

研究领域:大陆碰撞带变质作用及构造演化
研究手段:U-Th-Pb岩石年代学、变质相平衡模拟、数值模拟
主要研究兴趣:
1.喜马拉雅造山过程及气候效应
2.变质作用与碳循环
Google Scholar
Researchgate

 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 国家自然科学基金面上项目(批准号:41972065,执行年限:2020.01-2023.12,主持)
  2. 国家自然科学基金青年项目(批准号:41602054,执行年限:2017.01-2019.12,主持)
  3. 中国博士后科学基金面上一等资助(批准号:2016M600126,执行年限:2016.11-2018.01,主持)
  4. 支持“率先行动”中国博士后科学基金会与中国科学院联合资助优秀博士后项目(批准号:2015LH0002,执行年限:2016.01-2018.01,主持)
  5. 国家自然科学基金基础科学中心项目“大陆演化与季风系统演变”(批准号:41888101,执行年限:2019.01-2028.12,参与)
  6. 第二次青藏高原综合科学考察研究(批准号:2019QZKK0703,执行年限:2019.01-2023.12,参与)

指导研究生情况:

  1. Gautam P. Khanal, 2020, 尼泊尔喜马拉雅变质-深熔作用和构造演化: 博士学位论文, 中国科学院地质与地球物理研究所, 北京. 270 pp. (与吴福元院士共同指导、现为尼泊尔地矿部高级研究员)
  2. 杨雷, 2020, 喜马拉雅造山带深熔作用与淡色花岗岩成因关系研究: 博士学位论文, 中国科学院地质与地球物理研究所, 北京. 253 pp. (与吴福元院士共同指导、现为成都理工大学讲师)
 
获奖及荣誉:

2010年吉林大学“五四青年地质学家奖”

 
代表论著:

第一作者及通讯作者文章:

*通讯作者,#学生为第一作者

  1. Wang, J.-M.*, Lanari, P., Wu, F.-Y., Zhang, J.-J., Khanal, G.P., Yang, L, 2021. First evidence of eclogites overprinted by ultrahigh temperature metamorphism in Everest East, Himalaya: Implications for collisional tectonics on early Earth. Earth and Planetary Science Letters, 558, 116760.
  2. Khanal, G.P.#, Wang, J.-M.*, Larson, K.P., Wu, F.-Y., Rai, S.M., Wang, J.G., Yang L., 2021. Eocene Metamorphism and Anatexis in the Kathmandu Klippe, Central Nepal: Implications for Early Crustal Thickening and Initial Rise of the Himalaya. Tectonics, 40(4): e2020TC006532.
  3. Khanal, G.P.#, Wang, J.-M.*, Wu, F.-Y., Wang, J.G. Yang L., 2020. In-sequence buoyancy extrusion of the Himalayan Metamorphic Core, central Nepal: Constraints from monazite petrochronology and thermobarometry. Journal of Asian Earth Sciences, 199, 104406.
  4. Wang, J.-M.*, Wu, F.-Y., Rubatto, D., Liu, K., Zhang, J.-J., Liu, X.-C., 2018. Early Miocene rapid exhumation in southern Tibet: Insights from P-T-t-D-magmatism path of Yardoi dome. Lithos 304-307, 38-56.
  5. Wang, J.-M.*, Wu, F.-Y., Rubatto, D., Liu, S.-R., Zhang, J.-J., Liu, X.-C., Yang, L., 2017. Monazite behaviour during isothermal decompression in pelitic granulites: A case study from Dinggye, Tibetan Himalaya. Contributions to Mineralogy and Petrology 172, 81.
  6. Wang, J.-M.*, Zhang, J.-J., Liu, K., Zhang, B., Wang, X.-X., Rai, S., Scheltens, M., 2016. Spatial and temporal evolution of tectonometamorphic discontinuities in the central Himalaya: Constraints from P-T paths and geochronology. Tectonophysics 679, 41-60.
  7. Wang, J.-M., Rubatto, D., Zhang, J.-J.*, 2015. Timing of Partial Melting and Cooling across the Greater Himalayan Crystalline Complex (Nyalam, Central Himalaya): In-sequence Thrusting and its Implications. Journal of Petrology 56, 1677-1702.
  8. Wang, J., Zhang, J.*, Wei, C., Rai, S., Wang, M., Qian, J., 2015. Characterising the metamorphic discontinuity across the Main Central Thrust Zone of eastern-central Nepal. Journal of Asian Earth Sciences 101, 83-100.
  9. Wang, J.M., Zhang, J.J.*, Wang, X.X., 2013. Structural kinematics, metamorphic P-T profiles and zircon geochronology across the Greater Himalayan Crystalline Complex in south-central Tibet: Implication for a revised channel flow. Journal of Metamorphic Geology 31, 607-628.

代表性合作文章:

  1. Topuz, G., Candan, O., Wang, J.-M., Li, Q.-L., Wu, F.-Y., Y?lmaz, A., 2021. Silurian A-type metaquartz-syenite to -granite in the Eastern Anatolia: Implications for Late Ordovician-Silurian rifting at the northern margin of Gondwana. Gondwana Research, 91, 1-17.
  2. Wu, F.-Y., Liu, X.-C., Liu, Z.-C., Wang, R.-C., Xie, L., Wang, J-M., Ji, W.-Q., Yang, L., Liu, C., Khanal, G.P., He, S.-X., 2020. Highly fractionated Himalayan leucogranites and associated rare-metal mineralization. Lithos 352-353: 105319.
  3. Ji, W.-Q., Wu, F.-Y., Wang, J.-M., Liu, X.-C., Liu, Z.-C., Zhang, Z.-Y., Cao, W.-R., Wang, J.-G., Zhang,C., 2020. Early Evolution of Himalayan Orogenic Belt and Generation of Middle Eocene Magmatism: Constraint From Haweng Granodiorite Porphyry in the Tethyan Himalaya. Frontiers in Earth Science 8(236).
  4. Yang, L.#, Liu, X.-C., Wang, J.-M., Wu, F.-Y., 2019. Is Himalayan leucogranite a product by in situ partial melting of the Greater Himalayan Crystalline? A comparative study of leucosome and leucogranite from Nyalam, southern Tibet. Lithos 342-343: 542-556.
  5. Zhang, C., Liu, C.-Z., Xu, Y., Ji, W.-B., Wang, J.-M., Wu, F.-Y., Liu, T., Zhang, Z.-Y., Zhang, W.-Q., 2019. Subduction re-initiation at dying ridge of Neo-Tethys: Insights from mafic and metamafic rocks in Lhaze ophiolitic mélange, Yarlung-Tsangbo Suture Zone. Earth and Planetary Science Letters, 523: 115707.
  6. Wu, F., Liu, X., Ji, W., Wang, J., Yang, L., 2017. Highly fractionated granites: Recognition and research. Science China Earth Sciences 60, 1201-1219.
  7. Wang, R., Wu, F., Xie, L., Liu, X., Wang, J., Yang, L., Lai, W., Liu, C., 2017. A preliminary study of rare-metal mineralization in the Himalayan leucogranite belts, South Tibet. Science China Earth Sciences 60, 1655-1663.
  8. Zhang, B., Yin, C.Y., Zhang, J.J., Wang, J.M., Zhong, D.L., Wang, Y., Lai, Q.Z., Yue, Y.H., Zhou, Q.Y., 2017. Midcrustal shearing and doming in a Cenozoic compressive setting along the Ailao Shan-Red River shear zone. Geochemistry, Geophysics, Geosystems 18, 400-433.
  9. Zheng, Y., Zhang, J., Wang, J., Zhang, B., Wang, X., Wang, M., 2014. Rapid denudation of the Himalayan orogen in the Nyalam area, southern Tibet, since the Pliocene and implications for tectonics–climate coupling. Chinese Science Bulletin 59, 874-885.
  10. Wang, X., Zhang, J., Liu, J., Yan, S., Wang, J., 2013. Middle-Miocene transformation of tectonic regime in the Himalayan orogen. Chinese Science Bulletin 58, 108-117.
  11. 张进江, 王佳敏, 王晓先, 张波, 2013. 喜马拉雅造山带造山模式探讨. 地质科学 48, 362-383.
 

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