學習經曆:
2015.09-2020.07,蘭州大學,大氣科學學院,氣候學,理學博士(碩博連讀,導師:醜紀範、封國林)
2018.10-2020.04,斯德哥爾摩大學,自然地理系,氣候動力學,國家公派聯合培養博士(導師:Qiong Zhang)
2016.09-2017.07,中國氣象局,國家氣候中心,客座交流
2011.09-2015.07,蘭州大學,大氣科學學院,大氣科學,理學學士
2021.01-至今,河海大學,伟德国际1916备用网址,博後
2020.07-至今,河海大學,伟德国际1916备用网址,講師
海-氣相互作用、古氣候模拟、季風動力學、氣候變化
《環境海洋學》
《地球流體力學》
[1] 上新世暖期印度夏季風降水的變化特征和機理,國家自然科學基金青年項目(42305053),2024-2026,主持。
[2] 上新世暖期南亞夏季風環流的變異機理,中國博士後科學基金面上項目(2022M71003),2022-2024,主持。
[3] 上新世暖期東亞夏季風北界變化特征及其機理研究,黃土與第四紀地質國家重點實驗室開放基金(SKLLQG2212),2023-2024,主持。
[4]不同氣候背景下全球大氣水循環的變化特征,中央高校業務費項目(B210201009),2020-2022,主持。
[5]東亞西風急流延伸期關鍵信号識别及其集成預報,國家自然科學基金面上項目(41975100),2020-2023,參與。
Han, Z. and Li, G.*, 2024: The changes in South Asian summer monsoon circulation during the mid-Piacenzian warm period, Climate Dynamics, 1-18.
Han, Z., Power, K., Li, G., and Zhang, Q.*, 2024: Impacts of mid-Pliocene ice sheets and vegetation on Afro-Asian summer monsoon rainfall revealed by EC-Earth simulations. Geophysical Research Letters. 51(2), p.e2023GL106145.
Han, Z. and Li, G.*, 2024: Uncertainty of the simulated mid-Pliocene changes of Sahel summer rainfall in PlioMIP2 multi-model ensemble, Journal of climate. 37(3), pp.875-894.
Han, Z., Li, G.*, and Zhang, Q., 2023: Changes in Sahel summer rainfall in a global warming climate: contrasting the mid-Pliocene and future regional hydrological cycles. Climate Dynamics, 61(3-4), pp.1353-1370.
韓子軒*,曲姝霖,方恒,蘇濤,李根,封國林,2023:上新世暖期和未來增暖背景下亞非夏季風降水變化的模拟對比研究.第四紀研究,43(4):965-976.
Han, Z., Zhang, Q.*, Li, Q., Feng, R., Haywood, A.M., Tindall, J.C., Hunter, S.J., Otto-Bliesner, B.L., Brady, E.C., Rosenbloom, N. and Zhang, Z., 2021: Evaluating the large-scale hydrological cycle response within the Pliocene Model Intercomparison Project Phase 2 (PlioMIP2) ensemble. Climate of the Past, 17(6), pp.2537-2558.
Han, Z., Zhang, Q.*, Wen, Q., Lu, Z., Feng, G., Su, T., Li, Q. and Zhang, Q., 2020. The changes in ENSO-induced tropical Pacific precipitation variability in the past warm and cold climates from the EC-Earth simulations. Climate Dynamics, 55, pp.503-519.
Han, Z., Su, T., Zhang, Q., Wen, Q. and Feng, G.*, 2019. Thermodynamic and dynamic effects of increased moisture sources over the Tropical Indian Ocean in recent decades. Climate Dynamics, 53, pp.7081-7096.
Han, Z., Su, T., Huang, B., Feng, T., Qu, S. and Feng, G.*, 2019: Changes in global monsoon precipitation and the related dynamic and thermodynamic mechanisms in recent decades. International Journal of Climatology, 39(3), pp.1490-1503.
韓子軒,蘇濤,支蓉,封國林*,2017:不同太平洋年代際振蕩和 ENSO 位相下大氣水分收支變化對北半球冬季太平洋蒸發量的影響.大氣科學,(6),pp.1316-1331.
Qu, S., Su, T., Han, Z., Huang, B. and Feng, G.*, 2023: Dominant modes and mechanisms of atmospheric rivers in East Asia. Atmospheric Research, 289, p.106779.
Weiffenbach, J.E.*, Baatsen, M.L., Dijkstra, H.A., Von Der Heydt, A.S., Abe-Ouchi, A., Brady, E.C., Chan, W.L., Chandan, D., Chandler, M.A., Contoux, C. and Feng, R., Guo, C., Han, Z., et al. 2023: Unraveling the mechanisms and implications of a stronger mid-Pliocene AMOC in PlioMIP2. Climate of the Past, 2022, pp.1-34.
Feng, R., Bhattacharya, T., Otto-Bliesner, B.L., Brady, E.C., Haywood, A.M., Tindall, J.C., Hunter, S.J., Abe-Ouchi, A., Chan, W.L., Kageyama, M. and Contoux, C., Guo, C., Li, X., Lohmann, G., Stepanek, C., Tan, N., Zhang, Q., Zhang, Z., Han, Z., et al., 2022: Past terrestrial hydroclimate sensitivity controlled by Earth system feedbacks. Nature communications, 13(1), p.1306.
Su, T., Feng, T., Huang, B., Han, Z., Qian, Z., Feng, G.*, Hou, W. and Dong, W., 2022: Long‐term mean changes in actual evapotranspiration over China under climate warming and the attribution analysis within the Budyko framework. International Journal of Climatology, 42(2), pp.1136-1147.
Su, T., Li, Y., Huang, B., Qu, S., Han, Z., Qian, Z., Feng, G.* and Wu, Y.*, 2022: Mechanisms responsible for interdecadal variation of the thermodynamic component of East Asian summer monsoon moisture transport. International Journal of Climatology, 42(9), pp.4925-4939.
Zhang, Q.*, Berntell, E., Axelsson, J., Chen, J., Han, Z., De Nooijer, W., Lu, Z., Li, Q., Zhang, Q., Wyser, K. and Yang, S., 2021: Simulating the mid-Holocene, last interglacial and mid-Pliocene climate with EC-Earth3-LR. Geoscientific Model Development, 14(2), pp.1147-1169.
Wen, Q.*, Han, Z., Yang, H., Cheng, J., Liu, Z. and Liu, J., 2021: Influence of Tibetan Plateau on the North American summer monsoon precipitation. Climate Dynamics, 57, pp.3093-3110.
Wen, Q.*, Zhu, C., Han, Z., Liu, Z. and Yang, H.*, 2021: Can the topography of Tibetan Plateau affect the Antarctic bottom water?. Geophysical Research Letters, 48(6), p.e2021GL092448.
曲姝霖,蘇濤,韓子軒,趙俊虎,封國林,2021:華南夏季降水兩次年代際轉折的水汽輸送異常成因初探.大氣科學,45(02),273-286.
Wen, Q., Döös, K., Lu, Z., Han, Z. and Yang, H.*, 2020: Investigating the role of the Tibetan Plateau in ENSO Variability. Journal of Climate, 33(11), pp.4835-4852.
Qiao, S., Hu, P., Feng, T., Cheng, J., Han, Z., Gong, Z.*, Zhi, R. and Feng, G., 2018: Enhancement of the relationship between
the winter Arctic oscillation and the following summer circulation anomalies over central East Asia since the early
1990s. Climate Dynamics, 50, pp.3485-3503.
