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姓名 王建刚 性别:
职称 副研究员 学位 博士
电话 010-82998547 传真: 010-62010846
Email: wangjiangang@mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中科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
 
简历:
  • 2002.09-2006.06,南京大学,地球科学系,地质学专业,学士学位。 
  • 2006.09-2011.06,南京大学,地球科学与工程学院, 矿物学岩石学矿床学,博士学位。 
  • 2011.07-2012.04,西南石油大学,资源与环境学院,讲师。 
  • 2012.05-2014.12,中国科学院地质与地球物理研究所,岩石圈演化研究室,博士后。 
  • 2015.01至今,中国科学院地质与地球物理研究所,岩石圈演化研究室,副研究员。
 
学科类别:
沉积学
 
研究方向:
  1. 大地构造沉积学:以沉积地层为研究对象,采用地层学、沉积学、岩石学、年代学等研究方法,揭示沉积盆地的沉积演化、沉降历史和物源区,恢复原型沉积盆地性质,建立盆地演化和物源区的耦合联系,探讨地球表层地球动力学过程。同时,致力于利用单矿物(如锆石、铬尖晶石、磷灰石、石榴石等)原位地球化学和同位素分析手段,作为物源区判别的新指标。
  2. 喜马拉雅-青藏高原地质:目前本人的主要研究区在藏南地区,主要关注新特提斯域中新生代的古地理演化以及新生代以来的碰撞造山作用及高原隆升。
  3. 活动大陆边缘早期演化:关注从俯冲起始至成熟的活动大陆边缘形成的沉积响应;关注俯冲带上盘的构造活动(伸展与弧后拉张;挤压与安第斯型造山)与俯冲作用的关系。
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 2019-2021,岩石圈演化国家重点实验室青年人才计划项目
  2. 2018-2022,中国科学院青年创新促进会项目
  3. 2017-2020,面上基金“拉萨地体林周盆地侏罗-白垩纪沉积演化与冈底斯山脉早期隆升”,41672109,主持
  4. 2013-2015,青年基金“西藏阿里地区古近纪沉积记录及其与印度-亚洲大陆碰撞的关系”,41202082,主持,已结题
  5. 2012-2016,973项目“晚中生代温室气候与环境演变”,2012CB8220011,参与,已结题
 
获奖及荣誉:
 
代表论著:

2020

  1. Wang, J.G., Hu, X.M., Garzanti, E., BouDagher-Fadel, M.K., Liu, Z.C., Li, J. and Wu, F.-Y., 2020. From extension to tectonic inversion: mid-Cretaceous onset of Andean-type orogeny and topographic growth on the Lhasa block, southern Tibet. GSA Bulletin, doi.org/10.1130/B35314.1
  2. Li, C., Hu, X.-M., Wang, J.G., Vermeesch, P., Garzanti, E., 2020. Sandstone provenance analysis in Longyan supports the existence of a Late Paleozoic continental arc in South China. Tectonophysics, 780, doi.org/10.1016/j.tecto.2020.228400

2019

  1. Meng, Z.-Y., Wang, J.-G., Ji, W.-Q., Zhang, H., Wu, F.-Y., Garzanti, E., 2019. The Langjiexue Group is an in situ sedimentary sequence rather than an exotic block: Constraints from coeval Upper Triassic strata of the Tethys Himalaya (Qulonggongba Formation). Science China Earth Sciences, 62(5): 783-797.
  2. Liu, Z.-C., Wu, F.-Y., Liu, X.-C, Wang, J.-G., Ji, W.-Q., Yang, L., 2019. Mineralogical evidence for fractionation processes in the Himalayan leucogranites of the Ramba Dome, southern Tibet. Lithos, 340-341: 71-86.
  3. 吴福元,王建刚,刘传周,刘通,张畅,纪伟强, 2019. 大洋岛弧的前世今生. 岩石学报,35(1): 1-15.
  4. 张豪, 纪伟强,张少华,王建刚,吴福元, 2019. 西藏南拉萨地块西部鸭洼地区侵入岩的锆石年代学和Hf同位素特征. 岩石学报,35(2): 423-438.

2018

  1. Liu, Z.-C., Ding, L., Zhang, L.-Y., Wang, C., Qiu, Z.-L., Wang, J.-G., Shen, X.-L. and 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.
  2. Fu, Hanpu, Hu, Xiumian, Crouch, E.M., An, W., Wang, J.G., Garzanti, E., 2018. Upper Cretaceous trench deposits of the Neo-Tethyan subduction zone: Jiachala Formation from Yarlung Zangbo suture zone in Tibet, China. Science China-Earth Sciences, 61(9): 1204-1220.
  3. Garzanti, E., Limonta, M., Vezzoli, G., An, W., Wang, J.G., and Hu, X.M., 2018, Petrology and multimineral fi ngerprinting of modern sand generated from a dissected magmatic arc (Lhasa River, Tibet), in Ingersoll, R.V., Lawton, T.F., and Graham, S.A., eds., Tectonics, Sedimentary Basins, and Provenance: A Celebration of William R. Dickinson’s Career: Geological Society of America Special Paper 540, p. 197–221, https://doi.org/10.1130/2018.2540(09).
  4. 孙高远, 王建刚, 胡修棉, BouDagher-Fadel, M.K., 2018. 西藏札达地区上白垩统-下始新统达机翁组:对冈底斯弧前盆地演化的制约. 岩石学报, 34(6): 1847-1861.

2017

  1. Wang, J.-G., Hu, X., Garzanti, E., An, W. and Liu, X.-C., 2017. The birth of the Xigaze forearc basin in southern Tibet. Earth and Planetary Science Letters, 465: 38-47.
  2. Wang, J.-G., Hu, X., Garzanti, E., Ji, W.-Q., Liu, Z.-C., Liu, X.-C. and Wu, F.-Y., 2017. Early cretaceous topographic growth of the Lhasaplano, Tibetan plateau: Constraints from the Damxung conglomerate. Journal of Geophysical Research: Solid Earth, 122, doi:10.1002/2017JB014278.
  3. BouDagher-Fadel, M.K., Hu, X.M., Prince, G.D., Sun, G.Y., Wang, J.-G. and An, W., 2017. Foraminiferal biostratigraphy and palaeoenvironmental analysis of the Mid-Cretaceous limestones in the southern Tibetan Plateau. Journal of Foraminiferal Research, 42(2): 188-207.
  4. Hu, X.M., Wang, J.G., An, W., Garzanti, E. and Li, J., 2017. Constraining the timing of the India-Asia continental collision by the sedimentary record. Science China Earth Sciences, 60(4): 603-625.
  5. Liu, Z.-C., Wu, F.-Y., Qiu, Z.-L., Wang, J.-G., Liu, X.-C., Ji, W.-Q. and Liu, C.-Z., 2017. Leucogranite geochronological constraints on the termination of the South Tibetan Detachment in eastern Himalaya. Tectonophysics, 721: 106-122.
  6. Malusà, M.G., Wang, J.G., Garzanti, E., Liu, Z.-C., Villa, I.M. and Wittmann, H., 2017. Trace-element and Nd-isotope systematics in detrital apatite of the Po river catchment: Implications for provenance discrimination and the lag-time approach to detrital thermochronology. Lithos, 290-291: 48-59.
  7. Xu, Y., Liu, C.-Z., Chen, Y., Guo, S., Wang, J.-G. and Sein, K., 2017. Petrogenesis and tectonic implications of gabbro and plagiogranite intrusions in mantle peridotites of the Myitkyina ophiolite, Myanmar. Lithos, 284-285: 180-193.
  8. 胡修棉, 李娟, 安慰和王建刚, 2017. 藏南白垩纪-古近纪岩石地层厘定与构造地层划分. 地学前缘, 24(1): 174-194.
  9. 胡修棉, 王建刚, 安慰, Garzanti, E., 李娟, 2017. 利用沉积记录精确约束印度亚洲大陆碰撞时间与过程. 中国科学: 地球科学, 47(3): 261-283.

2016

  1. Wang, J.-G., Wu, F.-Y., Garzanti, E., Hu, X., Ji, W.-Q., Liu, Z.-C. and Liu, X.-C., 2016. Upper Triassic turbidites of the northern Tethyan Himalaya (Langjiexue Group): The terminal of a sediment-routing system sourced in the Gondwanide Orogen. Gondwana Research, 34: 84-98.
  2. Garzanti, E., Wang, J.-G., Vezzoli, G. and Limonta, M., 2016. Tracing provenance and sediment fluxes in the Irrawaddy River basin (Myanmar). Chemical Geology, 440: 73-90.
  3. Guo, S., Chen, Y., Liu, C.-Z., Wang, J.-G., Su, B., Gao, Y.-J., Wu, F.-Y., Sein, K., Yang, Y.-H. and Mao, Q., 2016. Scheelite and coexisting F-rich zoned garnet, vesuvianite, fluorite, and apatite in calc-silicate rocks from the Mogok metamorphic belt, Myanmar: Implications for metasomatism in marble and the role of halogens in W mobilization and mineralization. Journal of Asian Earth Sciences, 117: 82-106.
  4. Hu, X.M., Garzanti, E., Wang, J.G., Huang, W.T., An, W. and Webb, A., 2016. The timing of India-Asia collision onset – Facts, theories, controversies. Earth-Science Reviews, 160: 264-299.
  5. Hu, X.M., Wang, J.G., BouDagher-Fadel, M., Garzanti, E. and An, W., 2016. New insights into the timing of the India–Asia collision from the Paleogene Quxia and Jialazi formations of the Xigaze forearc basin, South Tibet. Gondwana Research, 32: 76-92.
  6. Ji, W.-Q., Wu, F.-Y., Chung, S.-L., Wang, X.-C., Liu, C.-Z., Li, Q.-L., Liu, Z.-C., Liu, X.-C. and Wang, J.-G., 2016. Eocene Neo-Tethyan slab breakoff constrained by 45 Ma oceanic island basalt–type magmatism in southern Tibet. Geology, 44(4): 283-286.
  7. Liu, C.-Z., Chung, S.-L., Wu, F.-Y., Zhang, C., Xu, Y., Wang, J.-G., Chen, Y. and Guo, S., 2016. Tethyan suturing in Southeast Asia: Zircon U-Pb and Hf-O isotopic constraints from Myanmar ophiolites. Geology, 44(4): 311-314.
  8. Liu, C.-Z., Zhang, C., Xu, Y., Wang, J.-G., Chen, Y., Guo, S., Wu, F.-Y. and Sein, K., 2016. Petrology and geochemistry of mantle peridotites from the Kalaymyo and Myitkyina ophiolites (Myanmar): Implications for tectonic settings. Lithos, 264: 495-508.
  9. Liu, X.-C., Wu, F.-Y., Yu, L.-J., Liu, Z.-C., Ji, W.-Q. and Wang, J.-G., 2016. Emplacement age of leucogranite in the Kampa Dome, southern Tibet. Tectonophysics, 667: 163-175.
  10. Liu, Z.-C., Wu, F.-Y., Ding, L., Liu, X.-C., Wang, J.-G. and Ji, W.-Q., 2016. Highly fractionated Late Eocene (~ 35 Ma) leucogranite in the Xiaru Dome, Tethyan Himalaya, South Tibet. Lithos, 240-243: 337-354.
  11. Sun, J.M., Xiao, W.J., Windley, B.F., Ji, W., Fu, B.H., Wang, J.G. and Jin, C.S., 2016. Provenance change of sediment input in the northeastern foreland of Pamir related to collision of the Indian Plate with the Kohistan-Ladakh arc at around 47Ma. Tectonics, 35: 315-338.
  12. Zhang, L.-L., Liu, C.-Z., Wu, F.-Y., Zhang, C., Ji, W.-Q. and Wang, J.-G., 2016. Sr–Nd–Hf isotopes of the intrusive rocks in the Cretaceous Xigaze ophiolite, southern Tibet: Constraints on its formation setting. Lithos, 258-259: 133-148.

2015

  1. Wang, J.-G., Hu, X,-M., BouDagher-Fadel, M., Wu, F.-Y., Sun, G.-Y., 2015. Early Eocene sedimentary recycling in the Kailas area, southwestern Tibet: Implications for the initial India–Asia collision. Sedimentary Geology, 315: 1-13.
  2. Li, J., Hu, X.M., Garzanti, E., An, W. and Wang, J.G., 2015. Paleogene carbonate microfacies and sandstone provenance (Gamba area, South Tibet): Stratigraphic response to initial India–Asia continental collision. Journal of Asian Earth Sciences, 104: 39-54.

  3. Sun, G.Y., Hu, X.M., Sinclair, H.D., BouDagher-Fadel, M.K. and Wang, J.G., 2015. Late Cretaceous evolution of the Coqen Basin (Lhasa terrane) and implications for early topographic growth on the Tibetan Plateau. Geological Society of America Bulletin, 127(7-8): 1001-1020.

  4. Sun, G.-Y., Hu, X.-M., Zhu, D.-C., Hong, W.-T., Wang, J.-G. and Wang, Q., 2015. Thickened juvenile lower crust-derived ~90Ma adakitic rocks in the central Lhasa terrane, Tibet. Lithos, 224-225: 225-239. 

2014

  1. Wang, J.-G., Wu, F.-Y., Tan, X.-C. and Liu, C.-Z., 2014. Magmatic evolution of the Western Myanmar Arc documented by U–Pb and Hf isotopes in detrital zircon. Tectonophysics, 612–613: 97-105.
  2. Hu, X.M., An, W., Wang, J.G., Garzanti, E. and Guo, R.H., 2014. Himalayan detrital chromian spinels and timing of Indus-Yarlung ophiolite erosion. Tectonophysics, 621: 60–68.
  3. Wu, F.-Y., Ji, W.-Q., Wang, J.-G., Liu, C.-Z., Chung, S.-L. and Clift, P.D., 2014. Zircon U-Pb and Hf isotopic constraints on the onset time of India-Asia collision. American Journal of Science, 314(2): 548-579.
  4. Zhang, L.-L., Liu, C.-Z., Wu, F.-Y., Ji, W.-Q. and Wang, J.-G., 2014. Zedong terrane revisited: An intra-oceanic arc within Neo-Tethys or a part of the Asian active continental margin? Journal of Asian Earth Sciences, 80: 34-55.
  5. An, W., Hu, X.-M., Garzanti, E., BouDagher-Fadel, M.K., Wang, J.-G. and Sun, G.-Y., 2014. Xigaze forearc basin revisited (South Tibet): Provenance changes and origin of the Xigaze Ophiolite. Geological Society of America, Bulletin, 126(11-12): 1595–1613.
  6. Liu, Z.-C., Wu, F.-Y., Ji, W.-Q., Wang, J.-G. and Liu, C.-Z., 2014. Petrogenesis of the Ramba leucogranite in the Tethyan Himalaya and constraints on the channel flow model. Lithos, 208-209: 118-136.
  7. 吴福元,刘传周,张亮亮,张畅,王建刚,纪伟强,刘小驰,2014.雅鲁藏布蛇绿岩——事实与臆想.岩石学报, 30: 293-325.

2013

  1. Wang, J.-G., Hu, X.-M., Garzanti, E. and Wu, F.-Y., 2013. Upper Oligocene–Lower Miocene Gangrinboche Conglomerate in the Xigaze Area, Southern Tibet: Implications for Himalayan Uplift and Paleo-Yarlung-Zangbo Initiation. The Journal of Geology, 121(4): 425-444.
  2. Li, Y.L., He, J., Wang, C.S., Santosh, M., Dai, J.G., Zhang, Y.X., Wei, Y.S. and Wang, J.G., 2013. Late Cretaceous K-rich magmatism in central Tibet: Evidence for early elevation of the Tibetan plateau? Lithos, 160: 1-13.

2012

  1. Hu, X.M., Huang, Z.C., Wang, J.G., Yu, J.H., Xu, K.D., Jansa, L. and Hu, W.X., 2012. Geology of the Fuding inlier in southeastern China: Implication for late Paleozoic Cathaysian paleogeography. Gondwana Research, 22(2): 507-518.
  2. Hu, X.M., Sinclair, H.D., Wang, J.G., Jiang, H.H. and Wu, F.Y., 2012. Late Cretaceous‐Palaeogene stratigraphic and basin evolution in the Zhepure Mountain of southern Tibet: implications for the timing of India‐Asia initial collision. Basin Research, 24(5): 520-543.
  3. Li, X., Cai, Y.F., Hu, X.M., Huang, Z.C. and Wang, J.G., 2012. Mineralogical characteristics and geological significance of Albian (Early Cretaceous) glauconite in Zanda, southwestern Tibet, China. Clay Minerals, 47(1): 45-58.
  4. 安慰, 胡修棉和王建刚, 2012. 藏南日喀则弧前盆地帕达那组沉积相分析. 沉积学报, 30(004): 619-628.
  5. 郭荣华, 胡修棉和王建刚, 2012. 日喀则弧前盆地碎屑铬尖晶石地球化学与物源判别. 地学前缘, 6: 70-77.

2011

  1. Wang, J.G., Hu, X.M., Jansa, L. and Huang, Z.C., 2011. Provenance of the Upper Cretaceous–Eocene deep-water sandstones in Sangdanlin, southern Tibet: Constraints on the timing of initial India-Asia collision. The Journal of Geology, 119(3): 293-309.
  2. 孙高远, 胡修棉和王建刚, 2011. 藏南江孜县白沙地区宗卓混杂岩: 岩石组成与物源区分析. 地质学报, 85(8): 1343-1351.
  3. 李响, 蔡元峰, 胡修棉, 黄志诚, 王建刚和耿建华, 2011. 藏西南札达白垩纪Albian期海绿石的矿物学特征及地质意义. 地质论评, 57(001): 63-72.

2010

  1. Wang, J.-G., Hu, X.-M., Wu, F.-Y. and Jansa, L., 2010. Provenance of the Liuqu Conglomerate in southern Tibet: a Paleogene erosional record of the Himalayan–Tibetan orogen. Sedimentary Geology, 231(3): 74-84.
  2. Hu, X.M., Jansa, L., Chen, L., Griffin, W.L., O'Reilly, S.Y. and Wang, J.G., 2010. Provenance of Lower Cretaceous W?long volcaniclastics in the Tibetan Tethyan Himalaya: Implications for the final breakup of eastern Gondwana. Sedimentary Geology, 223(3): 193-205.

2008

  1. 王建刚和胡修棉, 2008. 砂岩副矿物的物源区分析新进展. 地质论评, 54(5): 670-678.
  2. 王建刚, 胡修棉和黄志诚, 2008. 藏南桑单林地区晚白垩世-始新世砂岩物源区分析. 地质学报, 82(1): 92-103.
 

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