李忠海

2001年 - 2005年：同濟大學，海洋地質系，本科 ^[1] 

2005年 - 2010年：南京大學，地球科學系，博士 ^[1] 

2007年 - 2009年：蘇黎世聯邦理工學院(ETH)，地球物理系，聯合培養博士 ^[1] 

2010年 - 2012年：法國國家科研中心(CNRS)，流體力學實驗室(FAST)，博士後 ^[1] 

2012年 - 2015年：中國地質科學院，地質研究所，黃汲清青年學者 ^[1] 

2015年 - 至今 ： 中國科學院大學，地球與行星科學學院，教授 ^[1] 

計算地球動力學：主攻地球動力學數值模擬方向，以理論計算和軟件程序開發為基礎，以大尺度數值模擬為主要手段，以板塊俯衝-碰撞帶及其相關動力學過程為研究對象. ^[1] 

(1) 數值方法與技術：數值模擬、流變性質、有限差分算法、有限元算法、邊界元算法；

(2) 大洋俯衝動力學：大洋俯衝模式、流體-熔體活動、岩漿作用、地幔流動、地震波各向異性、西太平洋俯衝帶；

(3) 大陸碰撞動力學：大陸深俯衝、碰撞造山、超高壓變質作用、岩石折返、岩石圈拆沉、物質側向逃逸、青藏高原、特提斯；

(4) 盆山耦合動力學：前陸沖斷帶、多滑脱構造、含油氣盆地、成礦作用與過程.

地球內部流變學 ^[1] 

2023年6月，被評為北京高校優秀共產黨員。 ^[2] 

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, e2019JB019288. ^[1] 

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, in press. ^[1] 

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. ^[1] 

Lei T.,Li Z.H.*, Liu M.*, (2019). Removing mantle lithosphere under orogens: delamination versus convective thinning.Geophysical Journal International, 219, 877-896. ^[1] 

Li Z.H.*, Gerya T., ConnollyJ.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. ^[1] 

Huangfu P., Li Z.H.*, Gerya T., et al., (2018). Multi-terrane structure controls the contrasting lithospheric evolution beneath the western and central-eastern Tibetan plateau. Nature Communications, 9, 3780 ^[1]  .

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. ^[1] 

Zhou X., Li Z.H.*, Gerya T.V., et al., (2018). Subduction initiation dynamics along a transform fault control trench curvature and ophiolite ages. Geology, 46, 607-610. ^[1] 

Shi Y., Wei D.*, Li Z.H.*, et al., (2018). Subduction Mode Selection During Slab and Mantle Transition Zone Interaction: Numerical Modeling. Pure and Applied Geophysics, 175, 529-548. ^[1] 

Yang S.H., Li Z.H.*, Gerya T., et al., (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, doi: /10.1016/j.tecto.2017.07.018. ^[1] 

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. ^[1] 

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. ^[1] 

Peng M., Jiang M., Li Z.H.*, Xu Z.Q., Zhu L.P., et al., (2016). Complex Indian subduction style with slab fragmentation beneath the eastern Himalayan Syntaxis revealed by teleseismic P-wave tomography. Tectonophysics, 667, 77-86. ^[1] 

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. ^[1] 

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. ^[1] 

Li Z.H.*, (2014). A review on the numerical geodynamic modeling of continental subduction, collision and exhumation. Science China: Earth Sciences, 57, 47-69. ^[1] 

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. ^[1] 

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. ^[1] 

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. ^[1] 

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. ^[1] 

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. ^[1] 

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. ^[1] 

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李忠海*, 楊舒婷, 劉明啓, 皇甫鵬鵬, (2019). 板塊俯衝帶水流體活動及其效應的定量化數值模擬.地球科學, 44, 3984-3992. ^[1] 

周信, 許志琴,李忠海*, 皇甫鵬鵬, 張進江, (2019). 上地幔俯衝板塊的動力學過程數值模擬.地球物理學報, 62, 2455-2465. ^[1] 

楊少華,李忠海*, (2018). 一種基於有限元的岩石圈長期變形數值計算方法.地質力學學報, 24, 768-775. ^[1] 

劉明啓, 李忠海*, (2018). 克拉通岩石圈減薄與破壞機制的動力學數值模擬. 中國科學：地球科學, 48, 844-877. ^[1] 

楊少華, 許志琴,李忠海*, 石耀霖, (2017). 歐羅巴星隕石坑對冰層厚度的制約. 地球物理學報, 60, 935-940. ^[1] 

李忠海*,石耀霖, (2016). 三維板塊幾何形態對大陸深俯衝動力學的制約.地球物理學報, 59, 2806-2817. ^[1] 

李忠海*, (2016). 邊界元算法在計算地球動力學中的應用. 中國科學院大學學報, 33, 89-96. ^[1] 

李忠海*, 許志琴, (2015). 洋-陸空間轉換俯衝-碰撞數值模型及流體-熔體活動的制約. 岩石學報, 31, 3524-3530. ^[1] 

李忠海*, 劉明啓, Gerya T, (2015). 俯衝隧道中物質運移和流體-熔體活動的動力學數值模擬. 中國科學：地球科學, 45, 881-899. ^[1] 

李忠海*, (2014). 大陸俯衝-碰撞-折返的動力學數值模擬研究綜述. 中國科學：地球科學, 44, 817-841. ^[1]