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Doctoral Degree in Science
Faculty of Higher Institutions
中国地质大学(武汉)
Gender:Male
Business Address:主楼209
E-Mail:
研究兴趣和方向:我的专业是利用构造地质学、低温热年代学、盆地沉积物物源分析等方法研究造山带的构造过程、隆升历史以及盆地的沉积演化,主要的研究区域位于青藏高原南部和东天山一带。目前涉及的主要工作是藏南加查——郎县地区中新世构造变形过程、地表岩石抬升剥露过程,以及东天山戈壁荒漠覆盖区1:5万地质调查、吐鲁番—哈密盆地中生代演化过程、博格达山和哈尔里克山中生代以来的抬升剥露历史等。讲授课程:《地质学基础》《构造地质学》《秭归野外实践教学》《北戴河野外实践教学》教育经历:2014.10-2015.11 法国Université Grenoble Alpes地球科学研究所联合培养2011.09-2016.12 中国地质大学(武汉)构造地质学博士2007.09-2011.07 中国地质大学(武汉)地质学(基地班)理学学士工作经历:2020.12 -今 中国地质大学(武汉)副教授2017.02-2020.12 中国地质大学(武汉)讲师实验室工作:主要参与地球科学学院裂变径迹和(U-Th)/He低温热年代学实验室的相关工作科研项目:国家自然科学基金委员会, 面上项目,42172249,藏东南雅鲁藏布江中游流域中新世以来构造—侵蚀互馈机制研究, 2022-01至2025-12, 在研,主持国家自然科学基金委员会, 面上项目,42172251,东天山第四纪构造-气候-地貌耦合及其地球系统动力学研究, 2022-01至2025-12, 在研, 参加国家自然科学基金委员会, 面上项目,41972208,东天山中、新生代盆山构造地貌格局与气候协同演变及其动力学研究, 2020-01至2023-12, 在研, 参加国家自然科学基金委员会, 面上项目, 41972223, 冈底斯拉萨河流域剥露盛衰演变与新近纪喜马拉雅隆升, 2020-01至2023-12, 在研, 参加国家自然科学基金委员会, 青年基金项目,41702208,喜马拉雅北缘大反冲断裂的构造热年代学和热动力学数值模拟研究,2018-01至2020-12,结题,主持国家自然科学基金委员会, 面上项目,41772106,南岭-云开一带晚前寒武纪-早古生代沉积地质与盆山相互作用研究,2018-01至2021-12,在研,参加中国地质调查局,地质调查项目,DD20179607,新疆东天山卡拉塔格一带丹乔喀幅等12幅戈壁荒漠覆盖区地质填图,2017-01至2019-12,已结题,参加国家自然科学基金委员会, 青年基金项目,41202144,晚新生代东帕米尔穹窿剥露的构造热年代学和三维数值模拟研究,2013-01至2015-12,已结题,参加中国地质调查局, 地质调查项目,1212011220245,西准噶尔克拉玛依后山地区深部地质调查,2012-01至2014-12,已结题,参加中国地质调查局,专项研究项目,1212011121261,青藏高原新近纪隆升过程与地质事件群研究,2011-01至2015-12,已结题,参加发表论文:Google Scholar Researchgate Ding, Y., Shen, TY*, Wang, G., and Ji, J., 2024. Sedimentary and Heavy Mineral Records for the Oligocene–Miocene Exhumation of the Easternmost Tianshan. Journal of Earth Science, 35(2): 449-461. Zhao, Z., Shen, TY*, Zhang, X., Feng, Y., et al., 2023. Detrital zircon geochronology of Jurassic strata in the Jianggalesayi–Washixia Basin, northwestern Tibet Plateau: Implications for the uplift history of the Altyn Tagh Orogen. Geological Journal, 58(4): 1503-1522. Wei, J., Wang, A., Lyu, G., Liu, Y., Li, H., Shen, TY. and Wang, G., 2022. Tectonic segmentation by NS-trending cona cross structure in the Eastern Himalaya: Evidence from thermochronology and thermokinematic modeling. Tectonophysics, 839, p.229527.Cao, K., Tian, Y., van der Beek, P., Wang, G., Shen, TY., Reiners, P., Bernet, M. and Husson, L., 2022. Southwestward growth of plateau surfaces in eastern Tibet. Earth-Science Reviews, 232, p.104160.Zhang, D., Wang, G., Abell, J.T., Pullen, A., Winckler, G., Schaefer, J.M. and Shen, TY., 2022. Quantifying late Pleistocene to Holocene erosion rates in the Hami Basin, China: Insights into Pleistocene dust dynamics of an East Asian stony desert. GRL, 49(8), p.e2021GL097495. Shen, TY*, Wang, G., van der Beek, P., Bernet, M., Chen, Y., Zhang, P., Wang, A. and Cao, K., 2022. Impacts of late Miocene normal faulting on Yarlung Tsangpo River evolution, southeastern Tibet. GSA Bulletin, 134 (11-12): 3142–3154.Zhang P, Wang G, Shen TY*, Polat A, Zhu C. 2021. Paleozoic convergence processes in the southwestern Central Asian Orogenic Belt: Insights from U–Pb dating of detrital zircons from West Junggar, northwestern China. Geoscience Frontiers. 12(2):531-548.王国灿, 申添毅, 陈超, 季军良, 王岸. 2020. 覆盖区地质调查中的盆山构造地貌关系研究:以东天山-吐哈盆地为例. 地球科学. 45(12):4313-4331.Zhang DH, Wang GC, Pullen A, Abell JT, Ji JL, Shen TY. 2020. Landscape evolution and development of eolian-modified unconsolidated gravel surfaces and yardangs in the hami basin, china. Geomorphology. 368:21.Shen TY*, Wang G, Replumaz A, Husson L, Webb AAG, Bernet M, Leloup PH, Zhang P, Maheo G, Zhang K. 2020. Miocene subsidence and surface uplift of southernmost tibet induced by indian subduction dynamics. Geochemistry Geophysics Geosystems. 21(10):21.Shen TY*, Chen Y, Wang GC, Ji JL, Wang Y, Zhang P, Sotiriou P, Guo R, Xu ZZ. 2020. Detrital zircon geochronology analysis of the late mesozoic deposition in the turpan-hami basin: Implications for the uplift history of the eastern tian shan, north-western china. Terra Nova. 32(2):166-178.Shen TY*, Wang GC. 2020. Detrital zircon fission-track thermochronology of the present-day river drainage system in the mt. Kailas area, western tibet: Implications for multiple cooling stages of the gangdese magmatic arc. Journal of Earth Science. 31(5):896-904.Shen TY*, Wang GC, Bernet M, Replumaz A, Ai KK, Song BW, Zhang KX, Zhang P. 2020. Long-term exhumation history of the gangdese magmatic arc: Implications for the evolution of the kailas basin, western tibet. Geological Journal. 55(11):7239-7250.Chen Y, Wang GC, Kapp P, Shen TY, Zhang P, Zhu CY, Cao K. 2020. Episodic exhumation and related tectonic controlling during mesozoic in the eastern tian shan, xinjiang, northwestern china. Tectonophysics. 796:21.Chen Y, Wang GC, Shen TY, Zhang P, Sotiriou P, Zhu CY. 2020. Tectono-geomorphic evolution of harlik mountain in the eastern tian shan, insight from thermochronological data and geomorphic analysis. Geological Journal. 55(11):7322-7334.Song BW, Spicer RA, Zhang KX, Ji JL, Farnsworth A, Hughes AC, Yang YB, Han F, Xu YD, Spicer T., Shen TY. 2020. Qaidam basin leaf fossils show northeastern tibet was high, wet and cool in the early oligocene. Earth and Planetary Science Letters. 537:10.Ai K, Shi G, Zhang K, Ji J, Song B, Shen TY, Guo S. 2019. The uppermost oligocene kailas flora from southern tibetan plateau and its implications for the uplift history of the southern lhasa terrane. Palaeogeography Palaeoclimatology Palaeoecology. 515:143-151.Wang A, Min K, Wang GC, Cao K, Shen TY, Jiang PF, Wei JW. 2019. Slow exhumation of the greater himalaya in the yadong region, the transition between the central and eastern himalaya, during the late neogene. Journal of the Geological Society. 176(6):1207-1217.Chen Y, Wang GC, Zhao X, Wang YB, Ji JL, Cao K, Shen TY, Zhang P, Wang A. 2019. Evolution of the barkol basin, eastern tian shan, and its geodynamic background. International Journal of Earth Sciences. 108(4):1253-1271.Song BW, Zhang KX, Hou YF, Ji JH, Wang JX, Yang YB, Yang TL, Wang CW, Shen TY. 2019. New insights into the provenance of cenozoic strata in the qaidam basin, northern tibet: Constraints from combined u-pb dating of detrital zircons in recent and ancient fluvial sediments. Palaeogeography Palaeoclimatology Palaeoecology. 533:15.Zhang P, Wang GC, Shen TY, Zhu CY. 2019. Late paleozoic back-arc basin in west junggar (northwestern china): New geochronological and petrogenetic constraints from basalts and cherts in the western karamay area. Journal of Geodynamics. 126:1-11.Zhang P, Wang GC, Polat A, Zhu CY, Shen TY, Chen Y, Chen C, Guo JS, Wu GL, Liu YT. 2018. Emplacement of the ophiolitic melanges in the west karamay area: Implications for the late paleozoic tectonic evolution of west junggar, northwestern china. Tectonophysics. 747:259-280.Zhang P, Wang GC, Polat A, Shen TY, Chen Y, Zhu CY, Wu GL. 2018. Geochemistry of mafic rocks and cherts in the darbut and karamay ophiolitic melanges in west junggar, northwestern china: Evidence for a late silurian to devonian back-arc basin system. Tectonophysics. 745:395-411.Gourbet L, Leloup PH, Paquette JL, Sorrel P, Maheo G, Wang GC, Xu YD, Cao K, Antoine PO, Eymard I., Shen TY. 2017. Reappraisal of the jianchuan cenozoic basin stratigraphy and its implications on the se tibetan plateau evolution. Tectonophysics. 700:162-179.Shen TY, Wang G, Leloup PH, van der Beek P, Bernet M, Cao K, Wang A, Liu C, Zhang K. 2016. Controls on cenozoic exhumation of the tethyan himalaya from fission-track thermochronology and detrital zircon u-pb geochronology in the gyirong basin area, southern tibet. Tectonics. 35(7):1713-1734.Wang GC, Cao K, Wang A, Shen TY, Zhang KX, Wang LQ. 2014. On the geodynamic mechanism of episodic uplift of the tibetan plateau during the cenozoic era. Acta Geologica Sinica-English Edition. 88(2):699-716.申添毅, 王国灿. 2013. 青藏高原腹地班戈—双湖一带晚新生代伸展构造及动力学机制. 地质通报. 32(01):75-85.
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