人物經歷
2019.06-至今,
南華大學資源環境與安全工程學院講師;
2010.09-2014.06,
山東科技大學,獲地質工程學士學位。
研究方向
主要成就
科研成績
主要從事構造地質學、青藏高原地質演化,主持湖南省自然科學基金1項,湖南省教育廳科研研究項目1項,衡陽市科技計畫項目1項,博士啟動基金1項,中國地質科學院地質研究所自然資源部深地動力學重點實驗室開放基金1項。參與國家自然科學基金,中國地質調查局地調項目,南方石油公司石油勘探等多個項目。主持南華大學教育改革項目1項。指導國家級和省級大學生創新創業項目各1項。發表各類研究論文15篇,其中多篇被SCI、EI檢索收錄。
主講課程
《礦床學》《地質科研寫作》《檔案檢索與科研寫作》(南華大學網路建設課程)、《大地測量學》、《資源勘查工程導論》、地質認識實習、地質生產實習等
代表性論文
(1) He, H.Y., Li, Y.L., Ning, Z.J., Wang, C.S., Xiao, S.Q., Bi, W.J., Zhang, H.B., Wang, Z.Q., Chen, L., 2020. Transition from oceanic subduction to continental collision in central Tibet: evidence from the Cretaceous magmatism in Qiangtang block. International Geology Review, 1-19.
(2)He, H.Y., Li, Y.L., Wang, T.T., Xiao, S.Q., Wang, Z.Q., Chen, L., Feng, Z.G., Han, S.L., Liu, S., Zhang, Y., Q., Tang, Z.P., 2021. Late Triassic granites (ca. 230 Ma) from Cairi area in eastern Qiangtang subterrane, central Tibet: Product of a mid-oceanic ridge subduction. Geological Journal, 1-16.
(3)He, H.Y., Li, Y.L., Wang, C.S., Han, Z.P., Ma, P.F., Xiao, S.Q., 2019. Petrogenesis and tectonic implications of Late Cretaceous highly fractionated I−type granites from the Qiangtang block, central Tibet. Journal of Asian Earth Sciences 176, 337-352.
(4)He, H.Y., Li, Y.L., Wang, C.S., Zhou, A., Qian, X.Y., Zhang, J.W., Du, L.T., Bi, W.J., 2018. Late Cretaceous (ca. 95 Ma) magnesian andesites in the Biluoco area, southern Qiangtang subterrane, central Tibet: Petrogenetic and tectonic implications. Lithos 302-303, 389-404.
(5)He, H.Y., Wang, T.T., Zhang, Y.Q., 2021. Early Cretaceous magmatism of the Southern Qiangtang terrane and its tectonic significance. IOP Conference Series: Earth and Environmental Science 734, 012031.
(6)Li, Y.L., He, H.Y., Wang, C.S., Wei, Y.S., Chen, X., He, J., Ning, Z.J., Zhou, A., 2017. Early Cretaceous (ca. 100 Ma) magmatism in the southern Qiangtang subterrane, central Tibet: Product of slab break-off? International Journal of Earth Sciences 106, 1289-1310.
(7)Cheng, J., Li, Y., He, H., Xiao, S., Bi, W., Zou, Y., 2021. Late Jurassic Nb‐enriched basalts from the Bilong Co area in the southern Qiangtang Terrane, central Tibet, and their implications. Geological Journal.
(8)Wang, X.N., Li, Y.L., Du, L.T., He, H.Y., Li, Y.B., 2017. New Petrological and Sedimentary Evidences on the Late Cretaceous Uplift of the Tibetan Plateau. Acta Geologica Sinica 91, 1501-1502.
(9)Han, S., Wang, S., Tang, Z., Tan, K., Duan, X., He, H., Feng, Z., Xie, Y., 2020. Integrated geophysical exploration of the coupling of a concealed rock body and metallogenic structures—Ag-Pb-Zn mining area case study in Jilinbaolige, Inner Mongolia, China. Journal of Applied Geophysics 178, 104048.
(10)Bi, W., Han, Z., Li, Y., Li, C., Wang, C., Zhang, J., Han, J., He, H., Qian, X., Xu, T., Ma, Z., 2020. Deformation and cooling history of the Central Qiangtang terrane, Tibetan Plateau and its tectonic implications. International Geology Review, 1-17.