韩婷婷

个人信息Personal Information

副教授硕士生导师

教师拼音名称：hantingting

所在单位：大气科学学院

办公地点：气象楼519

性别：女

联系方式：邮箱：hantt08@126.com

职称：副教授

硕士生导师

基本信息
个人简介
近期主要论著
近期科研项目

姓       名:  韩婷婷
出生年月:  1989年9月
导       师:  王会军院士
职       称:  副教授
最高学历:  博士
所属专业:  气象学
所属系部:  天气学系
毕业院校:  中科院大气物理研究所
研究方向:  气候动力学
办公地点:  气象楼519
邮       箱:  hantt08@126.com
主要研究领域:  东亚气候年际、年代际变化及机制，短期气候预测

学生培养方面（目前指导6名研究生）：

蒋顺莉：本科毕业于南京信息工程大学，研三在读。获得2024年度研究生国家奖学金。
围绕“中国东北大范围强降水环流特征”，以第一作者身份在Climate Dynamics发表论文。
围绕“我国华北夏季强降水季节预测”，以第一作者身份在SCIENCE CHINA Earth Sciences发表论文。

周昕：本科毕业于南京信息工程大学滨江学院，研二在读。
围绕“秋季海冰影响我国东北大范围低温机理”，以第二作者身份在International Journal of Climatology发表论文。
围绕“AO对北亚、东北亚气温影响的年代际变化及机理”，以第一作者身份在Earth's Future发表论文。

智垚：本科毕业于南京信息工程大学滨江学院，研二在读。
围绕“我国南方夏季大范围强降水预测”，以第一作者身份在Journal of Tropical Meteorology发表论文。
孙婉莹：本科毕业于南京信息工程大学，研二在读。
围绕“中国东北干旱预测模型”，以第一作者身份在Journal of Applied Meteorology and Climataology投稿，
正在审稿中。

廉永琪：本科毕业于成都信息工程大学，研一在读。
围绕“平流层极涡对北亚气温的影响及机理”正在开展相关工作。
武银彪：本科毕业于南京信息工程大学，研一在读。
围绕“我国西北冬季降雪变化特征及机理”正在开展相关工作。

已毕业：
唐国娃：已入职于广东省中国民用航空中南地区管理局。
在校期间获得2023年度研究生国家奖学金、江苏省优秀学生干部。

2025

Zhou, X.(学生), T.T. Han^#, H.J. Wang, B.T. Zhou, S.P. He. 2025: Enhanced Influence of Late-winter Arctic Oscillation on Early-spring Temperature in North and Northeast Asia. Earth's Future, 13, 2024EF004958.

Jiang, S. L. (学生), T.T. Han^#, X. Zhou(学生), H.J. Wang, Z.Y. Yin, X.L. Song. 2025: A robust statistical prediction model for late-summer heavy precipitation days in North China. SCIENCE CHINA Earth Sciences, 68, 158–171.

蒋顺莉(学生), 韩婷婷^#, 周昕(学生), 王会军, 尹志聪, 宋晓蕾. 我国华北盛夏强降水频次的统计预报模型. 中国科学: 地球科学, 2025, 55(1): 157–170. (中文版)

Zhi, Y. (学生), T.T. Han^#, S.L. Jiang, H.J. Wang, X. Hao, S. F. Li. 2025: Seasonal prediction of pre‐summer clustered heavy precipitation days in South China. Journal of Tropical Meteorology, 31, 105–118.

2024

Han, T.T., W.Y. Sun, Y. Zhi, H.J. Wang, S.F. Li, Z.C. Yin. 2024: Seasonal prediction of midsummer compound heat-humidity events over Southeast China. Atmospheric Research, 208, 107541.

Han, T. T., X. Zhou(学生), S. F. Li, B.T. Zhou. 2024: Influence of autumn Kara Sea ice on the subsequent winter minimum temperature over the Northeast China. International Journal of Climatology, 44, 2425–2437. https://doi.org/10.1002/joc.8461

Tang G.W.(学生), T. T. Han^#, B.T. Zhou, Q.S. Zhang. 2024: Westward extension of summer atmospheric circulation over the North Pacific after the 1990s. Atmospheric and Oceanic Science Letters, 100408.

Zhang, H.M, D.Z. Hu, T.T. Han. 2024: Influence of Arctic stratospheric ozone in March on precipitation in eastern China during the boreal spring. Atmospheric Research, 303, doi: 10.1016/j.atmosres.2024.107321

Zhou, F., Y.Q. Wu, T.T. Han, Z.C. Yin. 2024: Stratospheric Quasi-Biennial Oscillation Modulates the Impact of Boreal Summer Intraseasonal Oscillation on Rainfall Extremes in the Yangtze–Huaihe River Basin. Geophysical Research Letters, 51, e2024GL110922. doi: 10.1029/2024GL110922

Pan, S. F., Z.C. Yin, M.K. Duan, T.T. Han, Y. Fan, Y. Y. Huang, H.J. Wang. 2024: Seasonal Prediction of Extreme High-Temperature Days over the Yangtze River basin, SCIENCE CHINA Earth Sciences, doi:10.1007/s11430-023-1265-2.

Guo, W.X., X. Hao, B.T. Zhou, J.D. Li, T.T. Han. 2024: Understanding the ENSO-East Asian winter monsoon relationship in CMIP6 models: performance evaluation and influencing factors. Climate Dynamics, 62: 7519-7534. doi:10.1007/s00382-024-07292-1

2023

Han, T. T., S.P. He, B.T. Zhou, S.F. Li, X. Hao. 2023: Interdecadal changes in the linkage between North Pacific Oscillation during May and Northeast China precipitation during mid-summer: the influence of North Atlantic Oscillation. Earth's Future, 11, 2023EF003754.

Jiang S. L.(学生), T. T. Han^#, B.T. Zhou, Q.S. Zhang, X. Hao, H.X. Li, 2023: Characteristics of clustered heavy precipitation events at Northeast China and associated atmospheric circulations. Climate Dynamics, 61: 5921-5933.

Han, T. T., G.W. Tang(学生), B.T. Zhou, X. Hao, S.F. Li. 2023: Strengthened relationship between sea ice in East Siberian Sea and midsummer rainfall in Northeast China. Climate Dynamics, 60: 3749-3763.

Hu, Y.P.,B.T. Zhou, T.T. Han, H.X. Li. 2023: Enhanced linkage of summer drought in southern China to the North Pacific Oscillation since 2000. Journal of Geophysical Research: Atmosphere, 128: e2022JD037432. doi:10.1029/2022JD03743

Hu, Y.P., B.T. Zhou,H.X. Li, T.T. Han, H.J. Wang. 2023: Enhanced intensity of interannual variability of May drought in Northeast China after 2000 and its connection with the Barents Sea ice. Journal of Geophysical Research: Atmosphere, 128: e2023JD039617. doi:10.1029/2023JD039617

Zhou, B.T., J. Qian, Y.P. Hu, H. Li, T.T. Han, B. Sun. 2023: Interdecadal change in the linkage of early summer sea ice in the Barents Sea to the variability of West China Autumn Rain. Atmospheric Research, 287: 106717. doi:10.1016/j.atmosres.2023.106717

Hao, X., H. J. Wang, B. T. Zhou, J. D. Li, J. F. Wei, T. T. Han. 2023: Ocean surface warming pattern inhibits El Niño-induced atmospheric teleconnections. Journal of Climate, 36:1521-1539.

2022

Hu, Y.P., B.T. Zhou, T.T. Han, H.X. Li, H.J. Wang. 2022: In-phase variations of spring and summer droughts over Northeast China and their relationship with the North Atlantic Oscillation. Journal of Climate, 35: 3317-3331.

Zhou, B.T., J. Qian, J.W. Zhou, T.T. Han, B. Sun. 2022: Strengthening of the relationship between West China Autumn Rain and arctic oscillation in the mid-1980s. Atmospheric Research, 265: 105916.

Li, W. L., X. Hao, L. Wang, Y. Q. Li, J. D. Li, H. X. Li, and T. T. Han, 2022: Detection and attribution of changes in thermal discomfort over China during 1961-2014 and future projections. Advances in Atmospheric Sciences, https://doi.org/10.1007/s00376-021-1168-x.

2021

Han, T. T., M. H. Zhang, J. W. Zhu, B. T. Zhou, S. F. Li. 2021: Impact of early spring sea ice in Barents Sea on midsummer rainfall distribution at Northeast China. Climate Dynamics, 57(3), 1023-1037, doi: 10.1007/s00382-021-05754-4

Han, T. T., X. Y. Guo, B. T. Zhou, X. Hao. 2021: Recent Changes in Heavy Precipitation Events in Northern Central China and Associated Atmospheric Circulation. Asia-Pacific Journal of Atmospheric Sciences, 57, 301–310.

Hu, Y. P., B. T. Zhou, T. T. Han, H. X. Li, H. J. Wang. 2021: Out‐of‐phase Decadal Change in Drought over Northeast China between Early Spring and Late Summer around 2000 and Its Linkage to the Atlantic Sea Surface Temperature. Journal of Gephysical Research:Atmosphere,126, e2020JD0.

Zhou, B.T., M. L. Xu, B. Sun, T.T. Han, Z. G. Cheng. 2021: Possible role of Southern Hemispheric sea ice in the variability of West China autumn rain. Atmospheric Research, 249: 105329.

He, L.Q., X. Hao, T. T. Han, 2021: The asymmetric impacts of ENSO Modoki on bereal winter climate over the pacific and its rim. Climate Dynamics. 56, 29–44

He, L.Q., X. Hao, H. Li, T. T. Han. 2021: How Do Extreme Summer Precipitation Events Over Eastern China Subregions Change? Geophysical Research Letters. 48, e2020GL091849.

2020

Han, T. T., M. H. Zhang, B. T. Zhou, X. Hao, S. F. Li. 2020: Strengthened relationship between tropical West Pacific and midsummer precipitation over Northeast China after the mid-1990s. Journal of Climate, 33, 6833–6848.

Han, T. T., S. F. Li., X. Hao, and X. Y. Guo. 2020: A statistical prediction model for summer extreme precipitation days over the northern central China. International Journal of Climatology, 40, 4189–4202.

李铭宇(本科生)，韩婷婷*，郝鑫. 2020: 欧亚大陆极端降水事件的区域变化特征[J]. 大气科学学报, 43(4): 687–698. Li, M. Y.（本科生）, T. T. Han*, and X. Hao. 2020: Regional characteristics of extreme precipitation events in Eurasia. Transaction of Atmospheric Sciences, 43, 687–698. (in Chinese).

He, L. Q., X. Hao, and T. T. Han. 2020: The asymmetric impacts of ENSO Modoki on bereal winter climate over the pacific and its rim. Climate Dynamics, Doi: 10.1007/s00382-020-05395-z.

2019

Han, T. T., H. J. Wang, X. Hao, and S. F. Li. 2019: Seasonal Prediction of Midsummer Extreme Precipitation Days over Northeast China. Journal of Applied Meteorology and Climatology, 58, 2033–2048.

Han, T. T., S. P. He, H. J. Wang, and X. Hao. 2019: Variation in principal modes of midsummer precipitation over Northeast China and its associated atmospheric circulation. Advances in Atmospheric Sciences, 36, 55–64.

Hao, X., S. P. He, H. J. Wang, and T. T. Han. 2019: Quantifying the contribution of anthropogenic influence to the East Asian winter monsoon in 1960–2012. Advances in Atmospheric Sciences, 19, 9903–9911.

2018

Han, T. T., H. P. Chen, X. Hao, and H. J. Wang. 2018: Projected changes in temperature and precipitation extremes over the Silk Road Economic Belt regions by the CMIP5 multi-model ensembles. International Journal of Climatology, 38, 4077-4091.

Han, T. T., S. P. He, H. J. Wang, and X. Hao, 2018: Enhanced influence of early-spring tropical Indian Ocean SST on the following early-summer precipitation over Northeast China. Climate Dynamics, 51, 4065-4076.

Han, T. T., S. P. He, X. Hao, and H. J. Wang, 2018: Recent interdecadal shift in the relationship between Northeast China's winter precipitation and the North Atlantic and Indian Oceans. Climate Dynamics, 50, 1413-1424.

Hao, X., S. P. He, T. T. Han, and H. J. Wang. 2018: Impact of global oceanic warming on winter Eurasian climate. Advances in Atmospheric Sciences, 35, 1254-1264.

2017

Han, T. T., H. J. Wang, and J. Q. Sun, 2017: Strengthened relationship between eastern ENSO and summer precipitation over northeastern China. Journal of Climate, 30, 4497–4512.

Han, T. T., H. J. Wang, and J. Q. Sun, 2017: Strengthened relationship between the Antarctic Oscillation and ENSO after the mid-1990s during austral spring. Advances in Atmospheric Sciences, 34, 54–65.

Hao, X., S. P. He, H. J. Wang, and T. T. Han, 2017: The impact of warming oceans on the Antarctic Oscillation in austral winter under global warming scenario. Scientific Reports, 7,12321.

2015

Han, T. T., H. P. Chen, and H. J. Wang, 2015: Recent changes in summer precipitation in Northeast China and the background circulation. International Journal of Climatology, 34, 4210–4219.