人才详细信息
简介
主要从事青藏高原南部大地构造学与地球系统科学研究。在Nature Reviews Earth & Environment,Science Advances, GSA Bulletin, Lithos等期刊发表论文40余篇。先后承担了国家重点研发项目课题,中国科学院先导专项A课题、基金委面上等项目,参与了国家基金委重大基金、科技部深地专项、二次科考、中国科学院先导专项B、专项A等项目,服务国家重大工程建设。2020年入选中国科学院青年创新促进会,并获得中国科学院杰出科技成就奖(主要完成者);2024年获得国家高层次青年人才项目资助。
教育背景:
2011.09-2017.01 中国科学院青藏高原研究所,博士
2007.09-2011.07 合肥工业大学资源环境学院,学士
工作经历:
2024.12- 现在 研究员, 中国科学院青藏高原研究所
2020.9-2024.11 副研究员, 中国科学院青藏高原研究所
2019.01-2020.08 助理研究员, 中国科学院青藏高原研究所
2017.04-2019.01 博士后, 中国科学院青藏高原研究所
研究方向
岩石大地构造,研究对象为青藏高原地区古-中生代火山岩及相关沉积岩。运用岩石学、构造地质学和板块构造知识,结合同位素年代学,解译特提斯洋演化过程。
承担项目
承担项目:
主持项目:
国家重点研发项目课题,2024-2027,负责人
中国科学院A类战略性先导科技专项课题,2023-2028,负责人
国家自然科学基金面上项目,2022-2025,负责人
国家自然科学基金青年基金项目,2020-2022,负责人
博士后基金面上项目,2018-2019,负责人
参与项目:
第二次青藏高原综合科学考察研究任务七专题八,2019-2024,项目骨干
中国科学院A类战略性先导科技专项项目,2018-2023,项目骨干
学术服务:
《大地构造与成矿学》《地质科学》《中国地质》青年编委;
期刊审稿:Geology, Geological Society of America Bulletin, Gondwana Research, Lithos, Geological Journal, Acta Geochimica, etc.
代表论著
(42) He, S.L., Wang, T.Y., Spicer, R.A., Farnsworth, A., Mulch, A., Widdowson, M., Zhang, Q.H., Cai, F.L., Valdes, P., Wang, C., Randrianaly, H.N., Xie, J., Ding, L., 2025. Back to an ice-free future: Early Cretaceous seasonal cycles of sea surface temperature and glacier ice. Science Advances, 11, eadr9417.
(41) Liu, L., Zhang, L.Y., Ding, L., Kapp, P., Ducea, M.N., Pullen, A., Xu, X., Zeng, D., Wang, C., Li, J.X., Xu, F., Yue, Y.H., Xie, J., Huang, W.T., 2025. Origin of the Oligocene–Miocene Sailipu ultrapotassic volcanic rocks in southern Tibet: Melting of Asian mantle pyroxenites triggered by eastward tearing of the subducting. Geological Society of America Bulletin, 137 (3-4): 1397–1422.
(40) Wang, C., Ding, L., Xiong, Z.Y., Allen, B Mark., Laskowski, A., Garzanti, E., Zhang, Q.H., Cai, F.L., Wang, H.Q., Song, P.P., Li, Y.P., Ping, F., Farnsworth, A., Lunt, D., Valdes, P.J., Li, Z.Y., Wu, C., Muhammad Q., 2025. Timing of initial collision and suturing processes in the Himalaya and Zagros, Nature Reviews Earth and Environment, https://doi.org/10.1038/s43017-025-00669-8.
(39) Wang, X.D., Ding, L., Wang, C., Zhou, L.H., Zhang, Y.P., Cai, F.L., Baral, U., Yue, Y.H., 2025. Geochemical and isotopic constraints on the petrogenesis and tectonic setting of basalts in the Nagaland Ophiolite Complex, Northeast India. Lithos, 506-507, 108061.
(38) Zhao, C.Y., Ding, L., Xiong, Z.Y., Spicer, R.A., Cai, F.L., He, S.L., Wang, C., Ding W., Li J., Wang H., Yin Z., Xu X., Xie J., Yue Y., Zeng D., Kaveh-Firouz A., 2025. The raising and westward expansion of central Tibet. National Science Review, 12(5), nwaf058.
(37) Guo, X.D., Ding, L., Guan, Q.Y., Zeng, D., Wang, C., Guo, G.Z., Wang, H.Q., Liu, M.Y., Ding, X.L., Qasim, M., Yue, Y.H., Xie, J., Cai, F.L., 2024. Timing of India-Asia suturing: Evidence from a remnant peripheral foreland basin in Xigaze, South Tibet. Palaeogeography, Palaeoclimatology, Palaeoecology, 112043.
(36) Wang, C., Ding, L., Cai, F.L., Zeng, D., Li, Zhang, L.Y., Yue, Y.H., 2024. Late Mesozoic subduction-accretion in the southern Qiangtang: Insights from the Sumxi igneous complex of west-central Tibet. GSA Bulletin, 136 (7-8): 3243–3260.
(35)Wang, J., Zhang, S.S., Zhao, Y.J., Cai, F.L., Wang, C., He, J.K., Ding, L., 2024. Coseismic deformation analysis of the 2017 Milin Ms 6.9 earthquake in the Namche Barwa Syntaxis: Implications for regional tectonics. Fundamental Research, https://doi.org/10.1016/j.fmre.2024.09.003.
(34) Wang, X.D., Ding, L., Wang, C., Zeng, D., Wang, Z.L., Yang, L.P., Yue, Y.H., Xie, J., 2024. Proterozoic tectonic affinity and evolution of the East Kunlun–Qaidam Block, NW China: Insight from Precambrian metasedimentary rocks and early Neoproterozoic granitoids. Precambrian Research 409, 107451.
(33) Wang, T.Y., He, S.L., Zhang, Q.H., Ding, L., Farnsworth, A., Cai, F.L., Wang, C., Xie, J., Li, G.B., Sheng, J.N., Yue, Y.H., 2024. Ice sheet expansion in the Cretaceous greenhouse world. Fundamental Research, 4(6), 1586-1593.
(32)Yin, Z., Ding, L., Li, J., He, Z., Wang, H., Wang, C., Wang, L., Zhao, C., Deng, G., Yue, Y.H., Xie, J., Cai, F.L., 2024. The Cretaceous suturing process of the eastern Bangong–Nujiang Ocean, Basu area. Palaeogeography, Palaeoclimatology, Palaeoecology 642, 112154.
(31) 李昊轩, 丁林, 王超, 2024. 地厚山高: 来自岩浆岩地球化学信息的启示. 地球科学, 49(12), 4404-4417.
(30) Wang, C., Ding, L., Wang, H.Q., Cai, F.L., Wang, X.D., Zhang, L.Y., Yue, Y.H., 2023. Formation and evolution of a magmatic system in the Indian passive margin: Insights from the Triassic Yumai Complex from the eastern Tethyan Himalaya. Geosphere, 19(6), 1709-1728.
(29) Wang, J., Ding, L., He, J., Cai, F. Wang, C., Zhang, Z., 2023. Research of Seismogenic Structures of the 2016 and 2022 Menyuan Earthquakes, in the Northeastern Tibetan Plateau. Remote Sensing, 15, 742.
(28) Wang, X.D., Ding L., Zeng, D., Yue, Y.H., Yang, L.P., Wang, Z.J., Xiao, L.A., Wang, C., 2023. Protolith origin of eclogites from the North Qaidam UHP metamorphic Belt, NW China: Implications for the breakup of the Rodinia supercontinent. Precambrian Research, 384, 106942.
(27) Zhao, C.Y., Xiong, Z.Y., Farnsworth, A., Spicer, R.A., He, S.L., Wang, C., Zeng, D., Cai, F.L., Wang, H.Q, Tian, X.L., Valdes, P.J., Lamu, C.R, Xie, J., Yue, Y.H., Ding, L., 2023. The late Eocene rise of SE Tibet formed an Asian ‘Mediterranean’ climate. Global and Planetary Change, 231, 104313.
(26) Baral, U., Ding, L., Goswami,T.K., Sarma, M., Jan, M.Q., Wang, C., Aminov, J., Muhammad Q., Devojit B., 2022. Geochemical and geochronological studies of Abor volcanic rocks of eastern Himalaya. Geological Journal, 57 (2), 482-502.
(25) Ding, L., Kapp, P., Cai, F.L., Garzione, C.N., Xiong, Z.Y., Wang, H.Q., Wang, C., 2022. Timing and mechanisms of Tibetan Plateau uplift. Nature Reviews Earth and Environment, 3, 652-667.
(24) He, S., Ding, L., Xiong, Z., Spicer, R.A., Farnsworth, A., Valdes, P.J., Wang, C., Cai, F., Wang, H., Sun, Y., Zeng, D., Xie, J., Yue, Y., Zhao, C., Song, P., Wu, C., 2022. A distinctive Eocene Asian monsoon and modern biodiversity resulted from the rise of eastern Tibet. Science Bulletin, 67(21), 2245-2258
(23) Xiong, Z., Liu, X., Ding, L., Farnsworth, A., Spicer, R.A., Xu, Q., Valdes, P., He, S., Zeng, D., Wang, C., Li, Z.Y., Guo, X.D., Su, T., Zhao, C.Y., Wang, H.Q., Yue, Y.H., 2022. The rise and demise of the Paleogene Central Tibetan Valley. Science advances 8 (6), eabj0944.
(22) Wang, C., Ding, L., Cai, F.L., Wang, H.Q., Zhang, L.Y., Yue, Y.H., 2022. Evolution of the Sumdo Paleo-Tethyan Ocean: Constraints from Permian Luobadui Formation in Lhasa terrane, South Tibet. Palaeogeography, Palaeoclimatology, Palaeoecology, 595, 110974.
(21) Wang, C., Ding, L., Cai, F.L., Zhang, L.Y., Li, J.X., Yue, Y.H., 2022. Rifting of the Indian passive continental margin: Insights from the Langjiexue basalts in the central Tethyan Himalaya, southern Tibet. GSA Bulletin, 134(9-10): 2633–2648.
(20) Wang, C., Ding, L., Zhang, L.Y., Li, J.X., Yue, Y.H., 2022. Early Jurassic S-type granitoids in the Nyainqêntanglha Range, South Tibet: A record of slab roll-back of subducted Neo-Tethyan Ocean. Gondwana Research, 101: 175-191.
(19) Zhang, L.Y., Fan, W.M., Ding, L., Pullen, A., Ducea, M.N., Li, J.X., Wang, C., Xu, X., Sein, K., 2022. Forced subduction initiation within the Neotethys: An example from the mid-Cretaceous Wuntho-Popa arc in Myanmar. GSA Bulletin, 134 (3-4), 849-870.
(18) Orme, D., Laskowski, A.K., Zilinsky, M.F., Wang, C., Guo X.D., Cai, F.L., Ding, L., 2021. Sedimentology and provenance of newly identified Upper Cretaceous trench basin strata, Dênggar, southern Tibet: Implications for development of the Eurasian margin prior to India-Asia collision. Basin Research, 33, 1454-1473.
(17) Zhang, L.Y., Fan, W.M., Ding, L., Ducea, M.N., Pullen, A., Li, J.X., Sun, Y.L., Yue, Y.H., Cai, F.L., Wang, C., Peng, T.P., Sein, Kyaing., 2020. Quaternary volcanism in Myanmar: A record of Indian slab tearing in a transition zone from oceanic to continental subduction. Geochemistry, Geophysics, Geosystems, 21, e2020GC009091.
(16) Ding, X.L., Ding, L., Zhang, L.Y., Wang, C., Yue, Y.H., 2020. Identification and Origin of Jurassic (~182 Ma) Zircon Grains from Chromitite within the Peridotite of the Jijal Complex, Kohistan Arc in North Pakistan. Minerals, 10(12), 1085.
(15) Ding, X.L., Ding, L., Wang, C., Wang, H. Q., Guo, X.D., 2020. Petrogenesis and tectonic implications of Palaeocene (ca. 54 Ma) rhyolites in the western Lhasa Terrane, south Tibet: Constraints from geochemistry and Sr–Nd–Hf isotope compositions. Geological Journal, 56 (1), 494-507.
(14) Ding, X.L., Ding, L., Zhang, L.Y., Wang, C., Yue, Y.H., 2020. Identification and Origin of Jurassic (~ 182 Ma) Zircon Grains from Chromitite within the Peridotite of the Jijal Complex, Kohistan Arc in North Pakistan. Minerals, 10 (12), 1085.
(13) Wang, C., Ding, L., Zhang, L.Y., Ding, X.L., Yue, Y.H., 2019. Early Jurassic high-Mg andesites in the Quxu area, southern Lhasa terrane: Implications for magma evolution related to a slab rollback of the Neo-Tethyan Ocean. Geological Journal, 54: 2508-2524.
(12) Wang, C., Ding, L., Zhang, L.Y., Ding, X.L., Yue, Y.H., 2019. Early Jurassic highly fractioned rhyolites and associated sedimentary rocks in southern Tibet: constraints on the early evolution of the Neo-Tethyan Ocean. International Journal of Earth Science, 108(1): 137-154.
(11) Liu, Z.C., Ding, L., Zhang, L.Y., Wang, C., Qiu, Z.L., Wang, J.G., Shen, X.L., Deng, X.Q., 2018. Sequence and petrogenesis of the Jurassic volcanic rocks (Yeba Formation) in the Gangdese arc, southern Tibet: Implications for the Neo-Tethyan subduction. Lithos. 312-313: 72-88.
(10) Wang, X., Yao, X., Wang, S., Zhu, X., Wang, J., Wang, C., 2018. Intraplate extension of the Indochina plate deduced from 26 to 24 Ma A-type granites and tectonic implications. International Geology Review, 61(14), 1691–1705.
(9) Wang, X.Y., Wang, S.F., Wang, C., Tang, W.K., 2018. Permo-Triassic arc-like granitoids along the northern Lancangjiang zone, eastern Tibet: Age, geochemistry, Sr–Nd–Hf isotopes, and tectonic implications. Lithos. 308-309: 278-293.
(8) Wang, C., Ding, L., Liu, Z.C., Zhang, L.Y., Yue, Y.H., 2017. Early Cretaceous bimodal volcanic rocks in the southern Lhasa terrane, south Tibet: Age, petrogenesis and tectonic implications. Lithos, 268–271: 260–273.
(7) Wang, C., Ding, L., Zhang, L.Y., Kapp, P., Pullen, A., Yue, Y.H., 2016. Petrogenesis of Middle-Late Triassic volcanic rocks from the Gangdese belt, southern Lhasa Terrane: Implications for early subduction of Neo-Tethyan oceanic lithosphere. Lithos, 262: 320–333.
(6) Wang, S.F., Mo, Y. S., Wang, C., Ye, P. S., 2016. Paleotethyan evolution of the Indochina Block as deduced from granites in northern Laos. Gondwana Research, 28: 183–196.
(5) 王超, 王世锋, 莫亚思, 2016. 锆石U-Pb年龄及Lu-Hf 模式年龄对印支地块基底的限定. 地质科学, 51(2): 576–593.
(4) 王世锋, 江万, 王超, 2016. 喀喇昆仑断裂沿雅鲁藏布江缝合带活动的构造地貌特征. 地球科学与环境学报, 38(4): 483–493.
(3) Wang, S.F., Mo, Y. S., Phillips, R. J., Wang, C., 2014. Karakoram fault activity defined by temporal constraints on the Ayi Shan detachment, SW Tibet, International Geology Review, 56: 15–28.
(2) 莫亚思, 王世锋, 王超, 2014. 西藏阿里地区冈底斯花岗岩体的热年代学特征及其构造意义. 地质科学, 49(3): 965–981.
(1) Wang, S.F., Wang, C., Phillips, R. J., Murphy, M. A., Fang, X. M., Yue, Y. H., 2012. Displacement along the Karakoram Fault, NW Himalaya, estimated from LA-ICP-MS U-Pb dating of offset geologic markers. Earth and Plnetary Science Letters, 337–338: 156–163.
