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Ph.D (from the latest)  |  博士（生）

Ruyin Wang  |  王茹茵  |  2025 – 2030  |  Email: 25113020040@m.fudan.edu.cn

Studying: Low-frequency climate variabilities during the Holocene

Thesis: TBD

Papers: TBD

Yuxuan Wang  |  王钰譞  |  2024 – 2029  |  Email: 24113020032@m.fudan.edu.cn

Studying: Bridging low-frequency climate variabilities and human evolution

Thesis: TBD

Papers: TBD

Shuxiang Wang  |  王鉥祥  |  2024 – 2028  |  Email: 24113020030@m.fudan.edu.cn

Studying: Simple ocean modeling of the AMOC low-frequency variabilities

Thesis: TBD

Papers: Investigating the multicentennial oscillation of the AMOC using a simplified two-dimensional ocean model. Climate Dynamics, 2025, 63, 383, doi: 10.1007/s00382-025-07891-6.

AMOC多百年际变率的2维海洋模式研究．北京大学学报（自然科学版），60（6），1028-1036，doi: 10.13209/j.0479-8023.2024.070.

Jie Hu  |  胡杰  |  2022 – 2027  |  Email: 22113020009@m.fudan.edu.cn

Studying: Multi-scale interaction and abrupt climate change

Thesis: TBD

Papers: WWB spring barrier in ENSO – Part I: A theoretical framework. J. Climate, 2026, submitted

WWB spring barrier in ENSO – Part II: Observations and event-level attribution. J. Climate, 2026, submitted.

Fengli An  |  安丰利  |  2022 – 2027  |  Email: 22113020001@m.fudan.edu.cn

Studying: Bridging the AMOC MCV and evolution of human civilization

Thesis: TBD

Papers: Multicentennial oscillation of AMOC modulates the rise and fall of Tubo Dynasty. 2026, Submitted.

Xiangying Zhou  |  周湘莹  |  2021 – 2027  |  Email: 23113020042@m.fudan.edu.cn

Studying: Centennial-millennium variability of thermohaline circulation

Thesis: TBD

Papers: Roles of climate feedback and ocean vertical mixing in modulating global warming rate. Climate Dynamics, 2022, doi: 10.1007/s00382-022-06374-2.

Self-sustained multicentennial oscillation of the AMOC in a global box model. Climate Dynamics, 2026, 64, 30, https://doi.org/10.1007/s00382-025-07947-7.

全新世千年尺度气候变率研究综述: 观测、理论与模拟研究。复旦学报，2026，出版中.

Mingjun Tong  |  佟明鋆  |  2022 – 2026  |  Email: 22113020025@m.fudan.edu.cn

Studying: Coupled modeling studies of the topography effect on global climate

Thesis: Investigating the impacts of the Tibetan Plateau, Antarctic topography and the Andes Mountains on the global ocean meridional overturing circulation

青藏高原、南极地形及安第斯山脉对全球海洋经圈翻转环流的影响研究 (Available upon request)

Papers: Pivotal Role of Tibetan Plateau and Antarctic in Shaping Present-day Atlantic Meridional Overturning Circulation. J. Climate, 2025, 38(10), 2239-2252, doi: 10.1175/JCLI-D-24-0301.1.

Can Andes uplift influence the Pacific meridional overturning circulation? 2026, Submitted.

Essential role of thermohaline circulation in sustaining multicentennial climate variability: Insights from idealized topographic experiments. 2026, Submitted.

Kunpeng Yang  |  杨昆鹏  |  2020 – 2025  |  Email: 20113020019@m.fudan.edu.cn

Studied: Theoretical and coupled modeling studies of the thermohaline circulation

Thesis: Theoretical and modeling studies of the origin of the multicentennial variability of Atlantic meridional overturing circulation

AMOC多百年际变率起源的理论与模式研究 (Available upon request)

Papers: A theory for self-sustained multicentennial oscillation of the Atlantic meridional overturning circulation. Part II: Role of Temperature. J. Climate, 2024, 37(3), 913-926, doi: 10.1175/JCLI-D-22-0755.1.

North Atlantic Ocean-originated multicentennial oscillation of the AMOC: a coupled model study. J. Climate, 2024, 37(9), 2789-2807, doi: 10.1175/JCLI-D-23-0422.1.

Liping Wang  |  王莉萍  |  2019 – 2024  |  Email: 1901110248@pku.edu.cn

Studied: Topography effect on the polar climate

Thesis: Investigating the climate impact of the Tibetan Plateau on the Arctic and the Antarctic

探究青藏高原对北极和南极气候的影响 (Available upon request)

Papers: Tibetan Plateau increases the snowfall in southern China. Scientific Reports, 2023, 13: 12796, doi.org/10.1038/s41598-023-39990-x.

The Tibetan Plateau’s far-reaching impacts on Arctic and Antarctic climate: Seasonality and Pathways. J. Climate. 2023, 36(5), 1399-1414, doi: 10.1175/JCLI-D-22-0175.1.

Rui Jiang  |  姜  睿  |  2018 – 2023  |  Email: jiangrui3@pku.edu.cn

Studied: Topography effect on global oceans

Thesis: Investigating the effects of continental giant topography on the Atlantic meridional overturning circulation

探究全球陆地大地形对大西洋经圈翻转流的影响 (Available upon request)

Papers: The role of mountains in shaping the global meridional overturning circulation. Nat. Commun., 2024, 15, 2602, https://doi.org/10.1038/s41467-024-46856-x.

Roles of the Rocky Mountains in the Atlantic and Pacific meridional overturning circulations. J. Climate, 2021, 34(16), 6691-6703, doi: 10.1175/JCLI-D-20-0819.1.

Yang Li  |  李  洋  |  2017 – 2022  |  Email: liyangpku2013@163.com

Studied: Multicentennial variability of the Atlantic thermohaline circulation

Thesis: Theoretical and modeling study on the multicentennial variability of the Atlantic meridional overturning circulation

大西洋经向翻转流多百年际变率理论与模拟研究 (Available upon request)

Papers: A theory for self-sustained multi-centennial oscillation of the Atlantic meridional overturning circulation. J. Climate, 2022, 35(18), 5883-5896, doi: 10.1175/JCLI-D-21-0685.1.

Jiaqi Shi  |  石佳琪  |  2015 – 2021  |  Email: shijiaqihaha@foxmail.com

Studied: Natural variabilities of meridional heat transports in global climate

Thesis: BJC and centennial eigenmode in a 2-hemisphere box model

理论模型中的BJC和百年尺度本征模态 (Available upon request)

Papers: Bjerknes compensation in a global coupled box model. Climate Dynamics. 2021, 57, 3569-3582, doi: 10.1007/s00382-021-05881-y.

Qin Wen  |  温  琴  |  2015 – 2020  |  Email: 90776@njnu.edu.cn

Studied: Freshwater role in climate system; Impact of Tibetan Plateau on global climate

Thesis: Investigating the role of the Tibetan Plateau in global ocean circulation

探究青藏高原对全球海洋环流的影响 (Available upon request)

Papers: Influence of Tibetan Plateau on the North American summer monsoon precipitation. Climate Dynamics. 2021, doi: 10.1007/s00382-021-05857-y.

Can the Tibetan Plateau affect the Antarctic Bottom Water? Geophys. Res. Lett., 2021, 48, e2021GL092448. doi: 10.1029/2021GL092448.

Investigating the role of the Tibetan Plateau in ENSO variability. J. Climate, 2021, 33, doi: 10.1175/JCLI-D-19-0422.1.

Investigating the role of the Tibetan Plateau in the formation of Pacific meridional overturning circulation. J. Climate, 2020, 33(9), 3603-3617, doi: 10.1175/JCLI-D-19-0206.1.

Investigating the role of the Tibetan Plateau in the formation of Atlantic meridional overturning circulation. J. Climate, 2020, 33(9), 3585-3601, doi: 10.1175/JCLI-D-19-0205.1.

Decoding hosing and heating effects on global temperature and meridional circulations in a warming climate. J. Climate, 2018, 31(23), 9605-9623.

Bjerknes compensation in meridional heat transport under freshwater forcing and the role of climate feedback. J. Climate, 2017, 30(14), 5167-5185.

Qianzi Yang  |  杨千姿  |  2015 – 2020  |  Email: qzyang@shenzhong.net

Studied: Climate feedback and global warming hiatus

Thesis: Understanding Bjerknes Compensation in Meridional Heat Transports in a Warming Climate and the Ongoing Warming Hiatus

全球变暖下Bjerknes补偿及增暖停滞的机理研究 (Available upon request)

Papers: Understanding Bjerknes compensation in meridional heat transports and the role of freshwater in a warming climate. J. Climate, 2018, 31(12), 4791-4806, doi: 10.1175/JCLI-D-17-0587.1.

Xingchen Shen  |  沈星辰  |  2014 – 2020  |  Email: 1262766860@qq.com

Studied: Role of Tibetan Plateau in Global Climate, ITCZ and North Arctic sea ice

Thesis: Couple modeling study of the impact of the Tibetan Plateau on global climate

青藏高原对全球气候影响的耦合模式研究 (Available upon request)

Papers: Portraying the impact of the Tibetan Plateau on global climate. J. Climate, 2020, 33(9), 3565-3583, doi: 10.1175/JCLI-D-18-0734.1.

Yingying Zhao  |  赵莹莹  |  2013 – 2018  |  Email: yyzhao@qnlm.ac

Studied: Bjerknes compensation in the meridional heat transport

Thesis: Investigating the mechanisms of compensation between atmosphere and ocean meridional heat transports

大气-海洋经向热量输送补偿的机制研究 (Available upon request)

Papers: Understanding Bjerknes compensation in atmosphere and ocean heat transports using a coupled box model. J. Climate, 2016, 29(6), 2145-2160.

Assessing Bjerknes compensation for climate variability and its timescale dependence. J. Climate, 2016, 29(15), 5501-5512.

Heat transport in atmosphere and ocean over the past 22,000 years. Scientific Reports, 5, 16661. doi: 10.1038/srep16661.

Kun Wang  |  王  坤  |  2012 – 2017  |  Email: wang_k@cauc.edu.cn

Studied: Wind and sea ice effect on AMOC

Thesis: Impact of Arctic Sea Ice on the Atlantic Meridional Overturning Circulation and Climate Response

北极海冰异常对大西洋经向翻转流的影响及气候响应 (Available upon request)

Papers: Wind effect on the Atlantic meridional overturning circulation via sea ice and vertical diffusion. Climate Dynamics, 2016, 46(11), 3387-3403.

Haijin Dai  |  戴海瑨  |  2009 – 2015  |  Email: hj_dai@nudt.edu.cn

Studied: Wind forcing on the meridional heat transport

Thesis: A Modeling Study of Meridional Heat Transport and Bjerknes Compensation

大气海洋经向热量输送与Bjerknes 补偿的模式研究 (Available upon request)

Papers: Effect of wind forcing on the meridional heat transport in a coupled model: equilibrium response. Climate Dynamics, 2015, 45(5): 1451-1470.

Roles of energy conservation and regional climate feedback in Bjerknes compensation: a coupled modeling study. Climate Dynamics, 2017, 49, 1513-1529.

Yuxing Wang  |  王宇星  |  2008 – 2013  |  Email: yuxing.wang@foxmail.com

Studied: Freshwater, AMOC and Bjerknes compensation

Thesis: Bjerknes compensation in meridional heat transport in freshwater GCM

淡水实验中经向热量输送的Bjerknes 补偿 (Available upon request)

Papers: A modeling studies of the Bjerknes compensation in the meridional heat transport in a freshening ocean. Tellus A, 2013, 65, 18480.

Lu Wang  |  王  璐  |  2005 – 2011  |  Email: wanglu@chinansc.cn

Studied: Tropical-extratropical climate interaction in the Pacific and Atlantic

Thesis: The Impact of Extratropical Oceanic Temperature Anomalies on the Tropical Ocean

热带外海温异常对热带海洋的影响 (Available upon request)

Papers: Tropical oceanic response to extratropical thermal forcing in a coupled climate model: A comparison between the Atlantic and Pacific Oceans. J. Climate, 2011, 24, 3850-3866.

Fuyao Wang  |  王富瑶  |  2005 – 2011  |  Email: fwang26@wisc.edu

Studied: Vegetable effect on USA and temperature change in global warming

Thesis: Quantifying the impact of ocean and vegetation on the atmosphere using statistical-dynamical methods

利用统计及动力方法量化气候系统中海洋及植被对大气的影响 (Available upon request)

Papers: Understanding the ocean temperature change in global warming: the tropical Pacific. Tellus A, 2009, 61(3), 371-380.

Revisiting the thermocline depth in the equatorial Pacific. J. Climate, 2009, 22, 3856-3863.

M.S  |  硕士（生）

Research Scientist  |  研究人员

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Last Updated: Sunday, April 5, 2026