个人简介
学习工作简历
2001-2005:同济大学,海洋地质系,本科
2005-2010:南京大学,地球科学系,博士
2007-2009:瑞士苏黎世理工学院(ETH),地球物理系,联合培养博士
2010-2012:法国国家科研中心(CNRS),流体力学实验室(FAST),博士后
2012-2015:中国地质科学院,地质研究所,黄汲清青年学者
2015-2020:中国科学院大学,地球与行星科学学院,研究员
2020- 至今:中国科学院大学,地球与行星科学学院,长聘教授
关键词:
(1) 数值方法与技术:数值模拟、流变性质、有限差分算法、有限元算法、边界元算法
(2) 大洋俯冲动力学:俯冲起始、大洋俯冲模式、流体-熔体活动、岩浆作用、地幔流动、地震波各向异性、西太平洋俯冲带
(3) 大陆碰撞动力学:大陆深俯冲、碰撞造山、超高压变质作用、岩石折返、岩石圈拆沉、物质侧向逃逸、青藏高原、特提斯
(4) 盆山耦合动力学:前陆冲断带、多滑脱构造、含油气盆地、成矿作用与过程
教授课程
《地球内部流变学》 [专业课]
主要科研项目
2019-2022:国家自然科学基金 - 重大研究计划重点项目 (91855208, 主持)
2018-2021:国家自然科学基金 - 面上项目 (41774108, 主持)
2017-2019:国家自然科学基金 - 优秀青年基金 (41622404, 主持)
2017-2018:中石油 - 前陆专项外协课题 (2016B-0501, 主持)
2016-2021:中科院 - 先导专项子课题 (XDB18020104, 主持)
2015-2019:科技部 - 973项目 (2015CB856106, 骨干参加)
2014-2016:国家自然科学基金 - 青年基金 (41304071, 主持)
近期论文
查看导师最新文章
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Li Z.H.*, (2020). Flat subduction versus big mantle wedge: contrasting modes for deep hydration and overriding craton modification. Journal of Geophysical Research: Solid Earth, 125, e2020JB020018.
Zhong X.Y., Li Z.H.*, (2020). Subduction initiation during collision-induced subduction transference: Numerical modeling and implications for the Tethyan evolution. Journal of Geophysical Research: Solid Earth, 125, e2019JB019288.
Zhou X., Li Z.H.*, Gerya T.V., Stern R.J., (2020). Lateral propagation induced subduction initiation at passive continental margins controlled by pre-existing lithospheric weakness. Science Advances, 6, eaaz1048.
Shi Y.N., Niu F., Li Z.H.*, Huangfu P., (2020). Craton destruction links to the interaction between subduction and mid-lithospheric discontinuity: Implications for the eastern North China Craton. Gondwana Research, 83, 49-62.
Zhong X.Y., Li Z.H.*, (2019). Forced subduction initiation at passive continental margins: velocity‐driven versus stress‐driven. Geophysical Research Letters, 46, 11054-11064.
Lei T., Li Z.H.*, Liu M.*, (2019). Removing mantle lithosphere under orogens: delamination versus convective thinning. Geophysical Journal International, 219, 877-896.
Li Z.H.*, Gerya T., Connolly J.A.D., (2019). Variability of subducting slab morphologies in the mantle transition zone: Insight from petrological-thermomechanical modeling. Earth-Science Reviews, 196, 102874.
Huangfu P., Li Z.H.*, Fan W., Zhang K.J., Shi Y., (2019). Continental lithospheric-scale subduction versus crustal-scale underthrusting in the collision zone: Numerical modeling. Tectonophysics, 757, 68-87.
Huangfu P., Li Z.H.*, Gerya T., Fan W., Zhang K.J., Zhang H., Shi Y., (2018). Multi-terrane structure controls the contrasting lithospheric evolution beneath the western and central-eastern Tibetan plateau. Nature Communications, 9, 3780.
Liu M.Q., Li Z.H.*, (2018). Dynamics of thinning and destruction of the continental cratonic lithosphere: Numerical modeling. Science China: Earth Sciences, 61, 823-852.
Zhou X., Li Z.H.*, Gerya T., Stern R., Xu Z., Zhang J., (2018). Subduction initiation dynamics along a transform fault control trench curvature and ophiolite ages. Geology, 46, 607-610.
Shi Y.N., Wei D.*, Li Z.H.*, Liu M.Q., Liu M., (2018). Subduction mode selection during slab and mantle transition zone interaction: Numerical modeling. Pure and Applied Geophysics, 175, 529-548.
Yang S.H., Li Z.H.*, Gerya T., Xu Z.Q., Shi Y.L., (2018). Dynamics of terrane accretion during seaward continental drifting and oceanic subduction: Numerical modeling and implications for the Jurassic crustal growth of the Lhasa Terrane, Tibet. Tectonophysics, 746, 212-228.
Liu M.Q., Li Z.H.*, Yang S.H.*, (2017). Diapir versus along-channel ascent of crustal material during plate convergence: Constrained by the thermal structure of subduction zones. Journal of Asian Earth Sciences, 145, 16-36.
Li Z.H.*, Liu M., Gerya T., (2016). Lithosphere delamination in continental collisional orogens: A systematic numerical study. Journal of Geophysical Research: Solid Earth, 121, 5186-5211.
Peng M., Jiang M., Li Z.H.*, Xu Z., Zhu L., Chan W., Chen Y., Wang Y., Yu C., Lei J., Zhang L., Li Q., Xu L., (2016). Complex Indian subduction style with slab fragmentation beneath the eastern Himalayan Syntaxis revealed by teleseismic P-wave tomography. Tectonophysics, 667, 77-86.
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Li Z.H.*, Liu M.Q., Gerya T., (2015). Material transportation and fluid-melt activity in the subduction channel: numerical modeling. Science China: Earth Sciences, 58, 1251-1268.
Li Z.H.*, Di Leo J.F., Ribe N.M., (2014). Subduction-induced mantle flow, finite strain and seismic anisotropy: Numerical modeling. Journal of Geophysical Research: Solid Earth, 119, 5052-5076.
Li Z.H.*, (2014). A review on the numerical geodynamic modeling of continental subduction, collision and exhumation. Science China: Earth Sciences, 57, 47-69.
Li Z.H.*, Xu Z.Q., Gerya T.V., Burg J.P., (2013). Collision of continental corner from 3-D numerical modeling. Earth and Planetary Science Letters, 380, 98-111.
Li Z.H.*, Ribe N.M., (2012). Dynamics of free subduction from 3-D Boundary-Element modeling. Journal of Geophysical Research: Solid Earth, 117, B06408.
Li Z.H.*, Xu Z.Q., Gerya T.V., (2012). Numerical geodynamic modeling of continental convergent margins. In: Earth Sciences, Ed. Imran Ahmad Dar, Pub. InTech, pp. 273-296.
Li Z.H.*, Xu Z.Q., Gerya T.V., (2011). Flat versus steep subduction: contrasting modes for the formation and exhumation of high- to ultrahigh-pressure rocks in continental collision zones. Earth and Planetary Science Letters, 301, 65-77.
Li Z.H.*, Gerya T.V., Burg J.P., (2010). Influence of tectonic overpressure on P-T paths of HP-UHP rocks in continental collision zones: Thermomechanical modeling. Journal of Metamorphic Geology, 28, 227-247.
Li Z.H.*, Gerya T.V., (2009). Polyphase formation and exhumation of high- to ultrahigh-pressure rocks in continental subduction zone: Numerical modeling and application to the Sulu ultrahigh-pressure terrane in eastern China. Journal of Geophysical Research: Solid Earth, 114, B09406.
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