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英文文献如下:

  • Hu, X.M.* , Ma, A.L, Xue, W.W., Garzanti, E., Cao, Y., Li, S.M., Sun, G.Y., Lai, W., 2022. Exploring a lost ocean in the Tibetan Plateau: Birth, growth, and demise of the Bangong-Nujiang Ocean. Earth-Science Reviews, DOI:10.1016/j.earscirev.2022.104031.  ( PDF)

  • GholamiZadeh, P., Hu, X.M.*, Garzanti, E., Hossein Adabi, M., 2022. Constraining the timing of Arabia-Eurasia collision in the Zagros orogen by sandstone provenance (Neyriz, Iran). GSA Bulletin 134, 1793-1810. (PDF)

  • Jiang, J.X., Hu, X.M.*, Eduardo, E., Marcelle K, B.F., Sun, G,Y., Xu, Y.W., 2022, Enhanced storm-induced turbiditic events during early Paleogene hyperthermals (Arabian continental margin, SW Iran). Global and Planetary Change 214, 103832. (PDF) 

  • Han, Z., Hu, X.M.*, Hu, Z.Y., Jenkyns, H.C., Su., T.H., 2022. Geochemical evidence from the Kioto Carbonate Platform (Tibet) reveals enhanced terrigenous input and deoxygenation during the early Toarcian. Global and Planetary Chang 215, 103887. (PDF)

  • Han, Z., Hu, X.M.*, He, T.C., Newton, R.J., Jenkyns, H.C., Jamieson, R.A., Franceschi, M., 2022, Early Jurassic long-term oceanic sulfur-cycle perturbations in the Tibetan Himalaya. Earth Planet. Sci. Lett. 578, 117261, doi:10.1016/j.epsl.2021.117261. (PDF)

  • Lai, W., Hu, X.M.*, Ma, A.L., Garzanti, E., Xu, Y.W., 2022. From the southern Gangdese Yeba arc to the Bangong-Nujiang Ocean: Provenance of the Upper Jurassic-Lower Cretaceous Lagongtang Formation (northern Lhasa, Tibet). Palaeogeography, Palaeoclimatology, Palaeoecology 588, 110837. (PDF)

  • Liang, W.D., Garzanti, E., Hu,X.M.*, Resentini, A., Vezzoli, G., Yao, W.S., 2022, Tracing erosion patterns in South Tibet: Balancing sediment supply to the Yarlung Tsangpo from the Himalaya versus Lhasa Block. Basin Research 34, 411–439. https://doi.org/10.1111/bre.12625.(PDF)

  • Li, J., Hu, X.M.*, Garzanti, E., BouDagher-Fadel, M., 2022. Spatial heterogeneity in carbonate-platform environments and carbon isotope values across the Paleocene–Eocene thermal maximum (Tethys Himalaya, South Tibet). Global and Planetary Chang 214, 103857. (PDF)

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  • Xue, W.W., Najman, Y., Hu, X.M.*, Garzanti, E., Stuart, F.M., Li, W., M, A.L., Wang, Y., 2022. Late Cretaceous to Late Eocene exhumation in the Nima area, central Tibet: Implications for development of low relief topography of the Tibetan Plateau. Tectonics 41, e2021TC006989. doi.org/10.1029/2021TC0069890. (PDF)

  • Xu, Y.W., Hu, X.M.*, Garzanti, E., BouDagher-Fadel, M., Sun, G.Y., Lai, W., 2022. Mid-Cretaceous thick carbonate accumulation in Northern Lhasa (Tibet): eustatic vs. tectonic control? GSA Bulletin 134, 289-404. doi/10.1130/B35930.1. (PDF)

  • Wang, Y.S., Jiang,S.J., Hu, X.M., Li,J, c , Kulhanek, D.K., Pospichal, J.J., Watkins, D.K., 2022. Lower Cretaceous calcareous nannofossils and their biostratigraphic and paleoceanographic implications in Southern Tibet. Marine Micropaleontology 175,102159. (PDF)

  • Chen, L., Zheng, Y.F., Zhao, Z.F., An, W., Hu, X.M., 2022. Continental crust recycling in ancient oceanic subduction zone: Geochemical insights from arc basaltic to andesitic rocks and paleo-trench sediments in southern Tibet. LITHOS 414-415, 106619. (PDF)  

  • Hu, X.B., Hu, Z.C., Jiang, J.L., Xue.W.W., Hu, X.M., Xu. X.L., 2022. Character embedding‑based Bi‑LSTM for Zircon similarity calculation with clustering. Earth Science Informatics 15, 1417-1425. (PDF)

  • Wang, Y.S., Cui, Y., Su H., Jiang, J.X., Wang,Y., Yang, Z.L., Hu, X.M., Jiang, S.J.,2022. Response of calcareous nannoplankton to the Paleocene–Eocene ThermalMaximum in the Paratethys Seaway (Tarim Basin, West China). Global and Planetary Change 217, 103918. (PDF)

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