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姓名 王佳敏 性别:
职称 副研究员 学历 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构造挤出的造山模型,为解决争论了20年的碰撞造山模型(临界楔和隧道流)提供重要制约;(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,限定20-18亿年前地球板块构造样式为现代板块构造类型;(3)刻画喜马拉雅山脉在40百万年前由于地壳加厚而隆升的详细过程和机制;(4)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
 
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.喜马拉雅造山带变质作用及构造演化
2.岩石的变质变形过程观察
3.变质交代作用与脱碳和成矿
Google Scholar
Researchgate
 
学科类别:
地质学
 
职务:
 
社会任职:
 
获奖及荣誉:
  • 2010年吉林大学“五四青年地质学家奖”
  • 2022年度“中国科学院青年创新促进会”会员
 
承担科研项目情况:
  1. 第二次青藏高原综合科学考察研究(批准号:2019QZKK0703,执行年限:2019.01-2024.12,参与)
  2. 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:42488201,执行年限:2024.04-2028.12,参与)
  3. 中科院地质地球所所自主部署项目“碳中和与地质增汇” (批准号:IGGCAS-202201,执行年限:2023.01-2025.12,课题一负责人)
  4. 国家重点研发计划/项目“白垩纪–古近纪深部碳循环与热室地球演变”(批准号:2022YFF0800800,执行年限:2022.12-2027.11,参与)
  5. 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)
  6. 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)
  7. 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)
  8. 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)

指导研究生情况:

  1. 夏智明,2024年入学,硕士在读,研究方向:喜马拉雅深熔作用的时空演化及地表隆升响应
  2. 侯康师,2020年入学,博士在读,研究方向:喜马拉雅接触交代变质作用及稀有金属成矿
  3. 田雨露,2020年入学,博士在读,研究方向:特提斯俯冲带榴辉岩相变质作用及深部碳循环
  4. 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)
  5. 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、现为成都理工大学副教授)
 
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 JiaMin*, HOU KangShi, LI XiaoLi, WU FuYuan. 2024. Eocene crustal thickening and uplift process of the Mount Shisha Pangma region. Acta Petrologica Sinica, 40(5): 1429-1445. doi: 10.18654/1000-0569/2024.05.0
  2. HOU KangShi, WANG JiaMin*, HU FangYang, YANG Lei. 2024. Skarn-type rare metal mineralization in the Mount Shisha Pangma region: Petrological characteristics, mineralization age and its geological significance. Acta Petrologica Sinica, 40(5): 1527-1547. https://doi.org/10.18654/1000-0569/2024.05.12
  3. Yang, L., Wang, J.M.*, Liu, X.C., Hu, F.Y., Hou, K.S., Fu, J.G., ... & Wu, F.Y., 2024. Petrogenetic link between leucogranite and spodumene pegmatite in Lhozhag, eastern Himalaya: Constraints from U–(Th)–Pb geochronology and Li–Nd–Hf isotopes. Lithos, 107530. https://doi.org/10.1016/j.lithos.2024.107530
  4. Wang, J.-M.*, Larson, K.P., Zhang, J.-J., Zhao, L., Wu, F.-Y., 2023. Buchan-type metamorphic decarbonation during the upward expansion of the South Tibetan Detachment System: A new carbon source in the Himalaya. Lithos, 107428. https://doi.org/10.1016/j.lithos.2023.107428 
  5. Wang, J.-M. *, Hou, K.-S., Yang, L., Liu, X.-C., Wang, R.-C., Li, G.-M., Fu, J.-G., Hu, F.-Y., Tian, Y.-L., Wu, F.-Y., 2023. Mineralogy, petrology and P-T conditions of the spodumene pegmatites and surrounding meta-sediments in Lhozhag, eastern Himalaya. Lithos 456-457, 107295. https://doi.org/10.1016/j.lithos.2023.107295
  6. Wang, J.M.*, Wu, F., Zhang, J., Khanal, G., Yang, L., 2022. The Himalayan Collisional Orogeny: A Metamorphic Perspective. Acta Geologica Sinica - English Edition 96, 1842-1866.王佳敏*, 吴福元, 张进江, Khanal G., 杨雷, 2022. 喜马拉雅碰撞造山过程:变质地质学视角. 地质学报, 96(9), 30. https://doi.org/10.1111/1755-6724.15022
  7. Yang, L.#, Wang, J.-M.*, Liu, X.-C., Khanal, G. P., & Wu, F.-Y., 2022. Sr-Nd-Hf Isotopic Disequilibrium During the Partial Melting of Metasediments: Insight From Himalayan Leucosome. Frontiers in Earth Science, 10, https://doi.org/10.3389/feart.2022.891960
  8. 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. https://doi.org/10.1016/j.epsl.2021.116760
  9. 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. https://doi.org/10.1029/2020TC006532
  10. 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. https://doi.org/10.1016/j.jseaes.2020.104406
  11. 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. https://doi.org/10.1016/j.lithos.2018.02.003
  12. 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. https://doi.org/10.1007/s00410-017-1400-y
  13. 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. http://dx.doi.org/10.1016/j.tecto.2016.04.035
  14. 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. https://doi.org/10.1093/petrology/egv050
  15. 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. http://dx.doi.org/10.1016/j.jseaes.2015.01.027
  16. 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. https://doi.org/10.1111/jmg.12036

代表性合作文章:

  1. Liu, X.C., Kohn, M.J., Wang, J.M., He, S.X., Wang, R.C., & Wu, F.Y., 2024. Formation of lithium-rich pegmatites via rapid crystallization and shearing–case study from the South Tibetan Detachment, Himalaya. Earth and Planetary Science Letters, 629, 118598.
  2. Hu, F., Liu, X., He, S., Wang, J., Wu, F., 2023. Cesium-rubidium mineralization in Himalayan leucogranites. Science China Earth Sciences, 66(12), 2827-2852.
  3. He, S.X., Spencer, C.J., Liu, X.C., Hu, F., Wang, J.M., Ji, W.Q., Wu, F.Y., 2024. Identification of Indian crustal melting beneath Gangdese arc during India-Asia collision. Lithos, 107549.
  4. Liu, T., Liu, C.Z., Wu, F. Y., Topuz, G., Wan, B., Wang, J.M., Chen, G., 2024. Detachment fault‐hosted subduction re‐initiation of the (ultra) slow‐spreading western Neo‐Tethys in the Jurassic. Geochemistry, Geophysics, Geosystems, 25(2), e2023GC011173.
  5. Topuz, G., Candan, O., Laurent, O., Mohammadi, A., Okuyucu, C., Çelik, Ö.F., Wang, J.M., 2023. Middle Devonian, late Carboniferous, and Triassic magmatic flare-ups in eastern Armorica (Sakarya Zone, Turkey) as revealed by detrital zircon U-Pb-Hf isotopic data. Geological Society of America Bulletin.
  6. 姜禾禾, 王佳敏, 万博. 国际岩矿地球化学固碳技术研究进展[J]. 第四纪研究, 2023, 43(2): 494-508.
  7. Liu, X.-C., Wu, F.-Y., Kohn, M.J., Liu, Z.-C., Ji, W.-Q., Wang, J.-M., Yang, L., He, S.-X., 2022. Plutonic-subvolcanic connection of the Himalayan leucogranites: Insights from the Eocene Lhunze complex, southern Tibet. Lithos 434-435, 106939.
  8. Zhao, L., Guo, Z., Yuan, H., Wang, X., Shen, H., Yang, J., Sun, B., Tan, N., Zhang, H., Liu, Y., Li, Y., Wang, J., Ji, W., Zhu, R., 2023. Dynamic modeling of tectonic carbon processes: State of the art and conceptual workflow. Sci. China Earth Sci. 66, 456-471.
  9. Topuz, G., Altherr, R., Candan, O., Wang, J.-M., Okay, A.I., Wu, F.-Y., Ergen, A., Zack, T., Siebel, W., Shangh, C.K., Schwarz, W.H., Meyer, H.-P., Sat?r, M., 2023. Carboniferous mafic-ultramafic intrusions in the Eastern Pontides (Pulur Complex): Implications for the source of coeval voluminous granites. Lithos 436-437, 106946.
  10. Liu, X.-C., Wu, F.-Y., Kohn, M.J., Liu, Z.-C., Ji, W.-Q., Wang, J.-M., Yang, L., He, S.-X., 2022. Plutonic-subvolcanic connection of the Himalayan leucogranites: Insights from the Eocene Lhunze complex, southern Tibet. Lithos 434-435, 106939.
  11. Babaoglu, C., Topuz, G., Okay, A.I., Koksal, S., Wang, J.-M., Toksoy-Koksal, F., 2023. Middle Permian basic and acidic volcanism in the Istanbul zone (NW Turkey): evidence for post-variscan extensional magmatism. International Geology Review, 1-18.
  12. Zhang, L., Zhang, B., Zhang, J., Wang, J., Cai, F., Zhao, Z., . . . Li, X., 2022. The rheology and deformation of the South Tibetan Detachment System as exposed at Zherger La, east-central Himalaya: Implications for exhumation of the Himalayan metamorphic core. Journal of Structural Geology, 157, 104559.
  13. Wang, D., Liu, F.-L., Palin, R., Wang, J.-M., Wolf, M., Ji, L., & Wang, F., 2021. A newly discovered Late Cretaceous metamorphic belt along the active continental margin of the Neo-Tethys ocean. GSA Bulletin, 134 (1-2): 223–240.
  14. He, S.-X., Liu, X.-C., Yang, L., Wang, J.-M., Hu, F.-Y., & Wu, F.-Y., 2021. Multistage magmatism recorded in a single gneiss dome: Insights from the Lhagoi Kangri leucogranites, Himalayan orogen. Lithos, 398-399, 106222.
  15. Topuz, G., Candan, O., Wang, J.-M., Li, Q.-L., Wu, F.-Y., Yilmaz, 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.
  16. 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.
  17. 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).
  18. 何少雄, 刘小驰, 王佳敏, 胡方泱, 吴福元, 2020. 淡色花岗岩中红柱石的成因研究. 南京大学学报 (自然科学) 56.
  19. 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.
  20. 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.
  21. 凌逸云, 张进江, 王佳敏, 王洋, 刘世然, 2018. 藏南定结地区喜马拉雅造山带新生代的隆升剥蚀历史及其地质意义. 地质科学 53, 1375-1388.
  22. Wu, F., Liu, X., Ji, W., Wang, J., Yang, L., 2017. Highly fractionated granites: Recognition and research. Science China Earth Sciences 60, 1201-1219.
  23. 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.
  24. 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.
  25. Ling, Y.-Y., Zhang, J.-J., Liu, K., Ge, M.-H., Wang, M., Wang, J.-M., 2017. Geochemistry, geochronology, and tectonic setting of Early Cretaceous volcanic rocks in the northern segment of the Tan–Lu Fault region, northeast China. Journal of Asian Earth Sciences 144, 303-322.
  26. Ge, M.-H., Zhang, J.-J., Li, L., Liu, K., Ling, Y.-Y., Wang, J.-M., Wang, M., 2017. Geochronology and geochemistry of the Heilongjiang Complex and the granitoids from the Lesser Xing'an-Zhangguangcai Range: Implications for the late Paleozoic-Mesozoic tectonics of eastern NE China. Tectonophysics 717, 565-584.
  27. Liu, K., Zhang, J., Wilde, S.A., Zhou, J., Wang, M., Ge, M., Wang, J., Ling, Y., 2017. Initial subduction of the Paleo-Pacific Oceanic plate in NE China: Constraints from whole-rock geochemistry and zircon U–Pb and Lu–Hf isotopes of the Khanka Lake granitoids. Lithos 274–275, 254-270.
  28. Liu, K., Zhang, J., Wilde, S.A., Liu, S., Guo, F., Kasatkin, S.A., Golozoubov, V.V., Ge, M., Wang, M., Wang, J., 2017. U-Pb dating and Lu-Hf isotopes of detrital zircons from the southern Sikhote-Alin orogenic belt, Russian Far East: Tectonic implications for the Early Cretaceous evolution of the Northwest Pacific margin. Tectonics, 2555-2598.
  29. 王晓先, 张进江, 王佳敏, 2016. 北喜马拉雅佩枯花岗岩年代学, 成因机制及其构造意义. 地球科学: 中国地质大学学报, 982-998.
  30. 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.
  31. 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.
  32. 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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