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張一歌，研究員，博士生導師，國家級海外人才。2007年獲南京大學(xué)學(xué)士學(xué)位，2014年獲耶魯大學(xué)博士學(xué)位。2014-2016年在哈佛大學(xué)擔任Ziff Environmental Fellow。2016-2024年在德州A&M大學(xué)工作，歷任助理教授、副教授/終身教授。長(cháng)期從事地球化學(xué)、古氣候與古海洋以及全球生物地球化學(xué)循環(huán)的研究和教學(xué)工作。

研究成果發(fā)表在Nature、Science、PNAS、Nature Geoscience、Nature Communications、Geology、EPSL、GCA、Paleoceanography等期刊上，被引用超過(guò)3000次（據Google Scholar統計）。目前擔任AGU旗下的Paleoceanography & Paleoclimatology雜志副主編，并且是地球化學(xué)協(xié)會(huì )帕特森獎（Clair Patterson Medal）評獎委員會(huì )的成員。曾任美國科學(xué)大洋鉆探顧問(wèn)委員會(huì )（US Science Advisory Committee for Scientific Ocean Drilling）成員（2021-2024）。

研究興趣涵蓋了從古氣候和碳循環(huán)的地球化學(xué)重建，到數據科學(xué)、地球化學(xué)和氣候模型的方法應用。通過(guò)結合地質(zhì)數據和計算機模型，旨在提高深時(shí)古氣候和碳循環(huán)記錄的實(shí)用性，以期更好地理解現代氣候并預測未來(lái)氣候。

實(shí)驗室已畢業(yè)博士三人，碩士一人。歡迎對相關(guān)研究感興趣的本科生、碩士生、博士生、博士后加入研究團隊。導師會(huì )為學(xué)生或博士后提供各方面的協(xié)助，包括科研項目的支持，科學(xué)上的合作和指導，學(xué)術(shù)交流的機會(huì )，和職業(yè)發(fā)展的支持。

*為指導的研究生

詳細內容可見(jiàn)Google Scholar Page：https://scholar.google.com/citations?user=JHoI_8wAAAAJ&hl=en

CenCO₂PIP Consortium (84 co-authors including Zhang, Y.G.), 2023, Towards a Cenozoic history of atmospheric CO₂, Science, 382, eadi5177.

Li, Z.-Y.*, Zhang, Y.G., Torres, M. and Mills, B.J.W., 2023, Neogene burial of organic carbon in the global ocean, Nature, 613, 90-95.

Kim, B.* and Zhang, Y.G., 2023, Methane Index: Towards a quantitative archaeal lipid biomarker proxy for reconstructing marine sedimentary methane fluxes, Geochimi. Cosmochimi. Acta, 354, 74-87.

Petrick, B., Reuning, L., Auer, G., Zhang, Y.G., Pfeiffer, M., and Schwark, L., 2023, Warm, not cold temperatures contributed to a Late Miocene reef decline in the Coral Sea, Sci. Rep., 13, 4015.

Zhang, Z.-X., Li, J., Lu, H., Yang, H., Zhang, Y.G., Tang, Y., Fu, M., and Peng, X., Bacterial glycerol tetraethers as a potential tool to trace marine methane cycling, Limnol. Oceanog., 69, 104-120.

Liu, X*., Huber, M., Foster, G., Leckie, R.M., Dessler, A. and Zhang, Y.G., 2022, Persistent high latitude amplification of the Pacific Ocean over the last 10 million years, Nature Comm., 13, 7310.

Wang, T.X., Wang Y., Auderset, A., Sigman D.M., Ren, H., Martínez-García, A., Haug, G.H., Su, Z., Zhang, Y.G., Rasmussen, B., Sessions, A.L., Fischer, W.W., 2022, Nutrient rise drove ocean deoxygenation over the past eight million years, Proc. Natl. Acad. Sci. USA, 119, e2204986119.

Shen, J., Zhang, Y.G., Yang, H., Xie, S., and Pearson, A., 2022, Early and late phases of the Permian-Triassic mass extinction marked by different atmospheric?CO₂?regimes,?Nature Geosci., 15, 839-844.

Rattanasriampaipong, R.*, Zhang, Y.G., Pearson, A., Hedlund, B., and Zhang, S., 2022, Archaeal lipids trace ecology and evolution of marine ammonia-oxidizing archaea, Proc. Natl. Acad. Sci. USA, 119, e2123193119.

Kim, B*. and Zhang, Y.G., 2022, Marine gas hydrate dissociation across the Oligocene – Miocene boundary, Nature Geosci., 15, 203-209.

Zhang, Y.G., 2022, Acceptance of the 2022 F.W. Clarke award to Yige Zhang, Geochimi. Cosmochimi. Acta, 337, 189.

Judd, E.J., Tierney, J.E., Huber, B.T., Wing, S.L., Lunt, D.J., Ford, H.L., Inglis, G.N., McClymont, E.L., O’Brien, C.L., Rattanasriampaipong, R.*, Si, W., Staitis, M.L., Thirumalai, K., Anagnostou, E., Cramwinckel, M.J., Dawson, R.R., Evans, D., Gray, W.G., Grossman, E.L., Henehan, M.J., Hupp, B.N., MacLeod, K.G., O’Connor, L.K., Sánchez Montes, M.L., Song H., and Zhang, Y.G., 2022, The PhanSST global database of Phanerozoic sea surface temperature proxy data, Sci. Data, 9, 753.

Liang, J.-Q., Leng, Q., Xiao, L., Hofig, D.F.*, Royer, D.L.,Zhang, Y.G., and Hong, Y., 2022, Early Miocene redwood fossils from Inner Mongolia: CO₂reconstructions and paleoclimate effects of a low Mongolian plateau,Rev. Palaeobot. & Paleonol., 305, 104743.

Liang, J.-Q., Leng, Q., Hofig, D.F.*, Niu, G., Wang, L., Royer, D.L., Burke, K., Xiao, L., Zhang, Y.G., and Hong, Y., 2022, Constraining conifer physiological parameters in leaf gas-exchange models for ancient CO₂ reconstruction, Global & Planet. Change, 209, 103737.

Lu, W., Barbosa, C., Rathburn, A., Xavier, P., Cruz, A.P., Thomas, E., Rickaby, R., Zhang, Y.G., and Lu, Z., 2021, Proxies for paleo-oxygenation: A downcore comparison between benthic foraminiferal surface porosity and I/Ca, Palaeogeogr., Palaeoclimatol., Palaeoecol., 579, 110588.

Hofig, D.*, Zhang, Y.G., Giosan, L., Qin, L., Liang, J., Wu, M., Miller, B.V., and Yang, H., 2021, Annually-resolved sediments in the classic Clarkia lacustrine deposits during the middle Miocene Climatic Optimum, Geology, 49, 916-920.

Rae, J.W.B., Zhang, Y.G., Liu, X*., Foster, G.L., Stoll, H.M., and Whiteford, R.D.M., 2021, Atmospheric CO₂ over the last 66 million years from marine archives, Annu. Rev. Earth Planet. Sci., 49, 609-641.

Gao, C.*, Yang, Y., Zhang, Y.G., Lu, X., Wang, H., Yu, X., and Ruan, X., 2021, Different temperature dependence of marine-derived brGDGT isomers in a sediment core from the Chukchi Sea shelf, Org. Geochem., 152, 104169.

Tierney, J.E., Poulsen, C.J., Montanez, I.P., Bhattacharya, T., Feng, R., Ford, H.L., Honisch, B., Inglis, G.N., Petersen, S.V., Sagoo, N., Tabor, C.R., Thirumalai, K., Zhu, J., Burls, N.J., Foster, G.L., Godderis, Y., Huber, B.T., Ivany, L.C., Turner, S.K., Lunt, D.J., McElwain, J.C., Mills, B.J.W., Otto-Bliesner, B.L., Ridgwell, A. and Zhang, Y.G., 2020, Past climates inform our future, Science, 370, eaay3701.

Da, J., Zhang, Y.G., Li, G. and Ji, J., 2020, Aridity-driven decoupling of δ¹³C between pedogenic carbonate and soil organic matter, Geology, 48, 981-985.

Zhang, Y.G., Henderiks, J. and Liu, X.*, 2020, Refining the alkenone-pCO₂ method II: Towards resolving the physiological parameter ‘b’, Geochimi. Cosmochimi. Acta, 281, 118-134.

Zhang, Y.G., Pearson, A., Benthien, A., Dong, L., Huybers, P., Liu, X*. and Pagani, M., 2019, Refining the alkenone-pCO₂ method I: Lessons from the Quaternary glacial cycles., Geochimi. Cosmochimi. Acta, 260, 177-191.

Da, J., Zhang, Y.G., Meng, X., Li. G., and Ji, J., 2019, Low CO₂ levels of the entire Pleistocene Epoch, Nature Comm., 10, 4342.

Zhuang, G., Zhang, Y.G., Hourigan, J., Ritts, B., Hren, M., Hou, M., Wu, M. and Kim, B-S.*, 2019, Microbial and geochronologic constraints on the Neogene paleotopography of Northern Tibetan Plateau, Geophy. Res. Lett., 46, 1312-1319.

Hollis, C. J. et al. (38 coauthors including Zhang, Y. G.), 2019, The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database, Geosci. Model Dev. 12., 3149-3206.

Zhang, Y.G., and Liu, X.*, 2018, Export depth of the TEX₈₆ signal, Paleoceano. Paleoclimatol., 33, 666-671.

Shen, J., Pearson, A., Henkes, G., Zhang, Y.G., Chen, K., Li, D., Wankel, S.D., Finney, S.C., Shen, Y., 2018, Improved efficiency of the biological pump as a trigger for the late Ordovician glaciation, Nature Geosci., 11, 510-514.

Pearson, P. and IODP Expedition 363 Scientific Party (including Zhang, Y.G.), A deep-sea agglutinated foraminifer tube constructed with planktonic foraminifer shells of a single species, 2018, J. Micropalaeont., 37, 97-104.

Zhang, Y.G., Pagani, M, Henderiks, J. and Ren, H., 2017, A long history of equatorial upwelling in the Pacific Ocean. Earth Planet. Sci. Lett., 467, 1-9.

Zhuang, G., Pagani, M. and Zhang, Y.G., 2017, Monsoonal upwelling in the western Arabian Sea since the middle-late Miocene, Geology, 45, 655-658.

Wang, J.-X., Xie, W., Zhang, Y.G., Meador, T.B., and Zhang, C.L., 2017, Evaluating production of cyclopentyl tetraethers by Marine Group II Euryarchaeota in the Pearl River estuary and coastal South China Sea: Potential impact on the TEX₈₆ paleothermometer, Frontiers in Microbiology, 8, 2077.

Pearson, A., Hurley, S. J., Shah Walter, S. R., Kusch, S., Lichtin, S., and Zhang, Y.G., 2016, Stable carbon isotope ratios of intact GDGTs indicate heterogeneous sources to marine sediments. Geochimi. Cosmochimi. Acta, 181, 18-35.

Zhang, Y.G., Pagani, M., and Wang, Z., 2016, Ring Index: A new strategy to evaluate the integrity of TEX₈₆ paleothermometry, Paleoceanography, 31, 220-232.

Da, J.W., Zhang, Y.G., Wang, H.T., Balsam, W., and Ji, J.F., 2015, An early Pleistocene atmospheric CO₂ record based on pedogenic carbonate from the Chinese loess deposits, Earth Planet. Sci. Lett., 426, 69-75.

Zhang, Y.G., Pagani, M., and Liu, Z., 2014, Response to comment on “A 12-million-year temperature history of the tropical Pacific Ocean”, Science, 346, 1467-b.

Zhang, Y.G., Pagani, M., and Liu, Z., 2014, A 12-million-year temperature history of the tropical Pacific Ocean, Science, 343, 84-86.

Kluge, T., Affek, H., Zhang, Y.G., Dublyansky, Y., Sp?tl, C., Immenhauser, A., and Richter, D.K., 2014, Clumped isotope thermometry of cryogenic cave carbonates, Geochimi. Cosmochimi. Acta, 126, 541-554.

Schouten, S. et al., (69 coauthors including Zhang, Y.G.), 2013, An interlaboratory study of TEX₈₆ and BIT analysis of sediments, extracts and standard mixtures, Geophys. Geochem. Geosyst., 14, 5263-5285.

Zhang, Y.G., Pagani, M., Liu, Z., Bohaty, S., and DeConto, R., 2013, A 40-million-year history of atmospheric CO₂, Phil. Trans. Royal. Soc. A, 371, 20130096.

Zhang, Y.G., Zhang, C.L., Liu, X.-L., Li, L., Hinrichs, K.-U., and Noakes, J.E., 2011, Methane Index: A tetraether archaeal lipid biomarker indicator for detecting the instability of marine gas hydrates, Earth Planet. Sci. Lett., 307, 525-534.

Boyd, E.S., Pearson, A., Pi, Y.D., Li, W.-J., Zhang, Y.G., He, L., Zhang, C.L., and Geesey, G.G., 2011, Temperature and pH controls on glycerol dibiphytanyl glycerol tetraether lipid composition in the hyperthermophilic crenarchaeote Acidilobus sulfurireducens, Extremophiles, 15, 59-65.

Zhang, Y.G., Ji, J.F., Balsam, W.L., Liu, L.W. and Chen J., 2009, Mid-Pliocene Asian monsoon intensification and the onset of Northern Hemisphere glaciation: Geology, 37, 599-602.

Zhang Y.G., Ji, J.F., Balsam, W.L. Liu, L.W. and Chen, J., 2007, High-resolution hematite and goethite record from ODP 1143, South China Sea: Co-evolution of monsoonal precipitation and El Ni?o over the last 600,000 years, Earth Planet. Sci. Lett., 264, 136-150.