ResearchGate: https://www.researchgate.net/profile/Tao_Li89
Google Scholar: https://scholar.google.com/citations?user=Htn6j74AAAAJ&hl=zh-CN
[24] Wang, M., Xu, K., Li, T., Robinson, L.F., Liu, Y., Shao, Q., Li, G., Chen, T.*, 2022. The mineralization and early diagenesis of deep-sea coral Madrepora oculata. Chemical Geology.
[23] Yang, R., Li, T., Stubbs, D., Chen, T., Liu, S., Kemp, D.B., Li, W., Yang, S., Chen, J., Elliott, T., Dellwig, O., Chen, J., Li, G.*, 2022. Stable tungsten isotope systematics on the Earth’s surface. Geochimica et Cosmochimica Acta.
[22] Wang, M., Chen, T.*, Feng, D., Zhang, X., Li, T., Robinson, L. F., Liang, Q., Bialik, O. M., Liu, Y., Makovsky, Y., 2022, Uranium-thorium isotope systematics of cold-seep carbonate and their constraints on geological methane leakage activities. Geochimica et Cosmochimica Acta.
[21] Li, T., Hedding, D.W., Chen, J., Li, G.*, 2021. Modulation of effective precipitation by temperature in the East Asian monsoon margins during Marine Isotope Stage 5. Geophysical Research Letters.
[20] Stewart, J.A.*, Li, T., Spooner, P.T., Burke, A., Chen, T., Roberts, J., Rae, J.W.B., Peck, V., Kender, S., Liu, Q., Robinson, L.F., 2021. Productivity and dissolved oxygen controls on the Southern Ocean deep‐sea benthos during the Antarctic Cold Reversal. Paleoceanography and Paleoclimatology.
[19] Xu, Z., Li, T., Li, G.*, Hedding, D.W., Wang, Y., Gou, L.-F., Zhao, L., Chen, J., 2021. Lithium isotopic composition of soil pore water: Responses to evapotranspiration. Geology.
[18] Qu, Y., Xu, K., Li, T., Wang, M., Zhong, H., Chen, T.*, 2021. Deep-sea coral evidence for dissolved mercury evolution in the deep North Pacific Ocean over the last 700 years. Journal of Oceanology and Limnology.
[17] Li, T.*, Robinson, L.F., Chen, T., Wang, X.T., Burke, A., Rae, J.W.B., Pegrum-Haram, A., Knowles, T.D.J., Li, G., Chen, J., Ng, H.C., Prokopenko, M., Rowland, G., Samperiz, A., Stewart, J.A., Southon, J., Spooner, P.T., 2020. Rapid shifts in circulation and biogeochemistry of the Southern Ocean during deglacial carbon cycle events. Science Advances.
[16] Chen, T. *, Robinson, L.F., Burke, A., Claxton, L., Hain, M.P., Li, T., Rae, J.W.B., Stewart, J., Knowles, T.D.J., Fornari, D.J., Harpp, K.S., 2020. Persistently well-ventilated intermediate-depth ocean through the last deglaciation. Nature Geoscience.
[15] Wilson, D.J., Struve, T., van de Flierdt, T., Chen, T., Li, T., Burke, A., Robinson, L.F., 2020. Sea-ice control on deglacial lower cell circulation changes recorded by Drake Passage deep-sea corals. Earth and Planetary Science Letters 544.
[14] Wei, G.-Y., Wei, W., Wang, D., Li, T., Yang, X., Shields, G.A., Zhang, F., Li, G., Chen, T., Yang, T., Ling, H.-F., 2020. Enhanced chemical weathering triggered an expansion of euxinic seawater in the aftermath of the Sturtian glaciation. Earth and Planetary Science Letters 539.
[13] Carey, S., Sparks, R.S.J., Tucker, M.E., Li, T., Robinson, L., Watt, S.F.L., Gee, M., Hastie, A., Barfod, D.N., Stinton, A., Leng, M., Raineault, N., Ballard, R.D., 2020. The polygenetic Kahouanne Seamounts in the northern Lesser Antilles island arc: Evidence for large-scale volcanic island subsidence. Marine Geology 419.
[12] Tucker, M.E., Carey, S.N., Sparks, R.S.J., Stinton, A., Leng, M., Robinson, L., Li, T., Lewis, J., Cotton, L., 2020. Carbonate crusts around volcanic islands: Composition, origin and their significance in slope stability. Marine Geology 429, 106320.
[11] Pratt, N. *, Chen, T., Li, T., Wilson, D.J., van de Flierdt, T., Little, S.H., Taylor, M.L., Robinson, L.F., Rogers, A.D., Santodomingo, N., 2019. Temporal distribution and diversity of cold-water corals in the southwest Indian Ocean over the past 25,000 years. Deep Sea Research Part I: Oceanographic Research Papers.
[10] Stephenson, S.N. *, White, N.J., Li, T., Robinson, L.F., 2019. Disentangling interglacial sea level and global dynamic topography: Analysis of Madagascar. Earth and Planetary Science Letters 519, 61-69.
[9] Hendry, K.R. *, Huvenne, V.A.I., Robinson, L.F., Annett, A., Badger, M., Jacobel, A.W., Ng, H.C., Opher, J., Pickering, R.A., Taylor, M.L., Bates, S.L., Cooper, A., Cushman, G.G., Goodwin, C., Hoy, S., Rowland, G., Samperiz, A., Williams, J.A., Achterberg, E.P., Arrowsmith, C., Alexander Brearley, J., Henley, S.F., Krause, J.W., Leng, M.J., Li, T., McManus, J.F., Meredith, M.P., Perkins, R., Woodward, E.M.S., 2019. The biogeochemical impact of glacial meltwater from Southwest Greenland. Progress in Oceanography 176.
[8] Li, L., Chen, J., Chen, T., Chen, Y., Hedding, D.W., Li, G., Li, L., Li, T., Robinson, L.F., West, A.J., Wu, W., You, C.-F., Zhao, L., Li, G.*, 2018. Weathering dynamics reflected by the response of riverine uranium isotope disequilibrium to changes in denudation rate. Earth and Planetary Science Letters 500, 136-144.
[7] Li, L., Chen, J., Chen, Y., Hedding, D.W., Li, T., Li, L., Liu, X., Zeng, F., Wu, W., Zhao, L., Li, G.*, 2018. Uranium isotopic constraints on the provenance of dust on the Chinese Loess Plateau. Geology.
[6] Rae, J.W.B.*, Burke, A., Robinson, L.F., Adkins, J.F., Chen, T., Cole, C., Greenop, R., Li, T., Littley, E.F.M., Nita, D.C., Stewart, J.A. and Taylor, B.J. 2018. CO2 storage and release in the deep Southern Ocean on millennial to centennial timescales. Nature 562, 569-573.
[5] 李涛, 李高军, 2018。斜度驱动第四纪冰期-间冰期转换—来自中国黄土的证据。第四纪研究 38, 1111-1119。
[4] Li, T., Liu, F., Abels, H.A., You, C.-F., Zhang, Z., Chen, J., Ji, J., Li, L., Li, L., Liu, H.-C., Ren, C., Xia, R., Zhao, L., Zhang, W., Li, G.*, 2017. Continued obliquity pacing of East Asian summer precipitation after the mid-Pleistocene transition. Earth and Planetary Science Letters 457, 181-190.
[3] Li, L., Liu, X., Li, T., Li, L., Zhao, L., Ji, J., Chen, J., Li, G.*, 2017. Uranium comminution age tested by the eolian deposits on the Chinese Loess Plateau. Earth and Planetary Science Letters 467, 64-71.
[2] Li, G.*, Hartmann, J., Derry, L.A., West, A.J., You, C.-F., Long, X., Zhan, T., Li, L., Li, G., Qiu, W., Li, T., Liu, L., Chen, Y., Ji, J., Zhao, L., Chen, J., 2016. Temperature dependence of basalt weathering. Earth and Planetary Science Letters 443, 59-69.
[1] Li, T., Li, G.*, 2014. Incorporation of trace metals into microcodium as novel proxies for paleo-precipitation. Earth and Planetary Science Letters 386, 34-40.