英文文献
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)
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)