本人系云南大学东陆青年人才（2023年）、云南省“兴滇英才”青年人才（2024年），硕士生导师、博士生导师，长期从事气候动力学、气候变化机理及预测、极端天气气候事件等方面的研究，目前已累计发表SCI学术论文41篇，其中第一/通讯作者论文19篇，主要发表在 Earth’s Future, Journal of Climate，Climate Dynamics，Journal of Geophysical Research: Atmospheres，Atmospheric Research 等大气科学领域的高水平学术期刊。近五年论文总引520余次，获得国内外学者的广泛关注，并在国内国际大会做特邀报告或口头报告，获得领域专家的一致好评。本人目前是世界气候研究计划（WCRP）“气候与海洋—变率、可预报性和变化”国际计划（CLIVAR）/“全球能量和水交换”国际计划（GEWEX）亚澳季风工作组成员（任东南亚季风小组联合领导人）、云南省大湄公河次区域气象灾害与气候资源重点实验室骨干成员、云南省季风与极端气候灾害国际联合实验室骨干成员、《Remote Sensing》客座编辑、《海洋气象学报》青年编委等，任Journal of Geophysical Research: Atmospheres、International Journal of Climatology、Geoscience Frontiers、Journal of Climate 等期刊审稿人。

[1] 国家自然科学基金-青年项目（C类）：《冬季西北太平洋准双周振荡的动力过程及其年际变化机理》，42205061，2023-01至2025-12，结题，主持，30万    

[2] 云南省基础研究计划面上项目：《人类活动对我国西南地区高温热浪事件的影响研究》，202501CF070070，2025-03至2028-02，在研，主持，10万 

[3] 云南省“兴滇英才”计划青年人才专项：《动力-统计相结合的大湄公河次区域春季高温热浪事件的延伸期预报》，2026-01至2030-12，获批，主持，50万 

[4] 南京信息工程大学气象灾害教育部重点实验室&气象灾害预报预警与评估协同创新中心联合开放课题：《双碳背景下大湄公河次区域气候暖干化变化及机理研究》，KLME202406，2024-06至2026-05，在研，主持，2.5万 

[5] 云南省博士后科研基金项目：《热带季节内振荡对云南冬季降水的影响研究》，C615300504039，2023-01至2023-10，结题，主持，2万 

[6] 江苏应龙卫星科技有限公司（横向）：基于人工智能的新疆电网覆冰预报模型研究，2025-10至2026-12，在研，主持，14.5万

Dong, Z., J. Cao, R. Yang, S. Gui, Y. Yang, and D. Wen, 2026a: Thermal dynamics linkage between spring snow cover over the Tibetan Plateau and summer atmospheric heat source over the low-latitude highlands of Southeast Asia. Atmospheric Research, 339, 109038.

Dong, Z., and Coauthors, 2026b: Anthropogenic Exacerbation of Global High-Risk Compound Hot–Dry Events Over the Past Century. Earth's Future, 14, e2025EF006937.

Yang, Y., Z. Dong*, R. Yang*, L. Wang, R. Liu, L. Zheng, and X. Shan, 2026: Spatiotemporal characteristics of precipitation concentration over the Greater Mekong Subregion and the potential association with large-scale climate factors. Journal of Hydrology: Regional Studies, 65, 103447.

Dong, Z., R. Yang, C. Zheng, S. Gui, M. Hou, and Y. Zhu, 2025a: A warming-drying climate hits Yunnan, Southwest China, during the past half century. Climate Dynamics, 63, 335.

Dong, Z., and Coauthors, 2025b: Interannual covariation of summer heatwave frequency in Indochina and diabatic heating over South Asia. Climate Dynamics, 63, 370.

Dong, Z., J. Cao, S. Gui, and R. Yang, 2024a: Triggering effects of spring thermal contrast between Yun-Gui Plateau and Beibu Gulf on the interannual variations of South China Sea summer monsoon onset dates. Climate Dynamics, 62, 8283-8298.

Dong, Z., L. Wang, R. Yang, and J. Cao, 2024b: Propagation and Maintenance of the Quasi-Biweekly Oscillation over the Western North Pacific in Boreal Winter. Journal of Climate, 37, 3433-3453.

Dong, Z., R. Yang, J. Cao, and S. Gui, 2024c: Running to warmer-drier springs in the Greater Mekong Subregion as climate warms. Atmospheric Research, 310, 107606.

Dong, Z., L. Wang, Y. Zhu, R. Yang, and J. Cao, 2024d: Impact of El Niño−Southern Oscillation on Quasi-Biweekly Oscillation Over the Western North Pacific in Boreal Winter. International Journal of Climatology, 44, 5596-5606.

Dong, Z., R. Yang, J. Cao, and L. Wang, 2023a: Effect of anthropogenic forcing on increased winter precipitation in Southeast Asia from 1979 to 2014. Frontiers in Environmental Science, 10, 2022.

Dong, Z., R. Yang, J. Cao, L. Wang, and J. Cheng, 2023b: A strong high-temperature event in late-spring 2023 in Yunnan province, Southwest China: Characteristics and possible causes. Atmospheric Research, 295, 107017.

Dong, Z., R. Yang, J. Cao, L. Wang, and G. Yang, 2023c: Sea surface temperature anomalies in different ocean basins affecting the interannual variations of summer precipitation in low-latitude highlands of Southeast Asia. Climate Dynamics, 61, 5517-5531.

Dong, Z., L. Wang, S. Gui, H. Gong, and K. Hu, 2023d: Diminished Impact of the East Asian Winter Monsoon on the Maritime Continent Rainfall After the Late-1990s Tied to Weakened Siberian High–Aleutian Low Covariation. Journal of Geophysical Research: Atmospheres, 128, e2022JD037336.

Dong, Z., L. Wang, P. Xu, J. Cao, and R. Yang, 2023e: Heatwaves Similar to the Unprecedented One in Summer 2021 Over Western North America Are Projected to Become More Frequent in a Warmer World. Earth's Future, 11, e2022EF003437.

Dong, Z., and L. Wang, 2022: Quasi-Biweekly Oscillation over the Western North Pacific in Boreal Winter and Its Influence on the Central North American Air Temperature. Journal of Climate, 35, 1901-1913.

Dong, Z., L. Wang, R. Yang, J. Cao, and P. Hu, 2022a: Impact of Quasi-Biweekly Oscillation on Southeast Asian Cold Surge Rainfall Monitored by TRMM Satellite Observation. Remote Sensing, 14, 5200.

Dong, Z., L. Wang, H. Gong, A. Limsakul, H. Fan, and S. Pimonsree, 2022b: A skilful seasonal prediction for wintertime rainfall in southern Thailand. International Journal of Climatology, 42, 10048-10061.

Dong, Z., L. Wang, Y. Sun, T. Hu, A. Limsakul, O. Singhruck, and S. Pimonsree, 2021b: Heatwaves in Southeast Asia and Their Changes in a Warmer World. Earth’s Future, 9, e2021EF001992.

Dong, Z., L. Wang, P. Xu, S. Pimonsree, A. Limsakul, and P. Singhruck, 2021a: Interdecadal Variation of the Wintertime Precipitation in Southeast Asia and Its Possible Causes. Journal of Climate, 34, 3503-3521.

Aru, H., W. Chen, S. Chen, C. I. Garfinkel, T. Ma, Z. Dong, and P. Hu, 2023: Variation in the Impact of ENSO on the Western Pacific Pattern Influenced by ENSO Amplitude in CMIP6 Simulations. Journal of Geophysical Research: Atmospheres, 128, e2022JD037905.

Bai, D., L. Liu, Z. Dong, K. Ma, and Y. Huo, 2023: Variations and possible causes of the December PM2.5 in Eastern China during 2000–2020. Frontiers in Environmental Science, 11, 2023.

Chu, Q., S. Gui, R. Yang, Z. Dong, M. Hou, and G. Feng, 2024: The contribution of Arabian Sea warming to decreasing summer precipitation in the northern Greater Mekong Subregion. Atmospheric Research, 311, 107714.

Chu, Q., S. Gui, R. Yang, D. Wen, Z. Dong, M. Hou, and G. Feng, 2026: Decadal-Scale Increase in the Risk of Compound Hot-Drought Events Over the Yangtze River Valley: The Indirect Forcing of the Atlantic Multidecadal Oscillation. Journal of Geophysical Research: Atmospheres, 131, e2025JD046008.

Gong, H., and Coauthors, 2022: Evaluation of the Madden-Julian Oscillation in Fengyun-3B Polar-Orbiting Satellite Reprocessed OLR Data. Journal of Meteorological Research, 36, 931-946.

Gong, H., and Coauthors, 2024: Attribution of the August 2022 Extreme Heatwave in Southern China: Role of Dynamical and Thermodynamical Processes. Bulletin of the American Meteorological Society, 105, E193-E199.

Gui, S., Z. Yang, H. Wu, R. Yang, Z. Dong, Y. Yang, and Y. Lian, 2025a: Improving the hindcast of late spring-early summer heatwaves in Southeast Asia with machine learning models. Climate Dynamics, 63, 302.

Gui, S., and Coauthors, 2024: Interannual variation of the westward ridge point of the Western Pacific subtropical high in boreal winter. Global and Planetary Change, 240, 104528.

Gui, S., and Coauthors, 2025b: Atlantic–Pacific Multidecadal Variability Modulates the North Atlantic Oscillation–North Atlantic Tripole Relationship. Journal of Geophysical Research: Atmospheres, 130, e2025JD044924.

Huo, Y., and Coauthors, 2023: Multidecadal variability of dust activity in Gobi desert and its connection with the pacific decadal oscillation. Environmental Research Communications, 5, 095013.

Li, Y., and Coauthors, 2023: Summer precipitation variability in the Mongolian Plateau and its possible causes. Global and Planetary Change, 228, 104189.

Liu, L., Z. Dong, H. Gong, L. Wang, W. Chen, and R. Wu, 2022: Climatology and trends of wintertime diurnal temperature range over East Asia in CMIP6 models: Evaluation and attribution. Atmospheric Research, 280, 106438.

Liu, L., and Coauthors, 2023: Contribution of atmospheric circulations changes to the variations of summertime lower tropospheric ozone over East Asia during recent decades. Atmospheric Research, 292, 106852.

Ma, J., R. Yang, W. Chen, P. Hu, S. Gui, Z. Dong, and Y. Zhang, 2025: A Decadal Decrease in May Precipitation Over Yunnan, China After 2009 and Its Associated Atmospheric Circulation. International Journal of Climatology, 45, e8847.

Ma, T., and Coauthors, 2024: Attribution analysis of the persistent and extreme drought in southwest China during 2022–2023. Environmental Research Letters, 19, 114056.

Nath, D., R. Nath, W. Chen, W. Cai, Z. Dong, and R. Yang, 2025: Post-2000 greening of Kalahari Desert and southern African grasslands reduces food and economic insecurity in Africa. Environmental Research Letters, 20, 094012.

Wang, L., and Coauthors, 2026: The 2024 Asian–Australian Monsoon Year: Widespread Extremes with Notable Subseasonal Variability and Socioeconomic Impacts. Journal of Meteorological Research, 40, 301-318.

Xu, P., L. Yuan, L. Wang, and Z. Dong, 2026: Seasonality of waveguide teleconnections along the summertime polar front jet over Eurasia. Journal of Climate, e250316.

Xu, P., L. Wang, Z. Dong, Y. Li, X. Shen, and W. Chen, 2022: The British–Okhotsk Corridor Pattern and Its Linkage to the Silk Road Pattern. Journal of Climate, 35, 5787-5804.

Xu, P., J. A. Screen, L. Wang, T. Woollings, H. Fan, M. Patterson, and Z. Dong, 2025: Impact of Asian Summer Monsoon on the 2021 Pacific Northwest Heatwave: Can It? Did It? Geophysical Research Letters, 52, e2025GL117205.

Zeng, F., and Coauthors, 2024: Improving the hindcast of the northward shift of South Asian high in June with machine learning. Atmospheric Research, 299, 107173.

Zheng, C., L. Wang, Y. Liu, and Z. Dong, 2025: Three types of extreme cold events over East Asia and the associated atmospheric circulations. Climate Dynamics, 63, 296.

[1] 2023年9月11日，云南省气象局结合我们发表在《Atmospheric Research》上关于2023年云南省高温干旱事件的分析成果，形成《2023年我省气象干旱情况报告》专报，获省领导重要批示。 

[2] 2023年4月1日至今，云南省气候中心将我们关于热带海温、欧亚积雪、 土壤湿度等多元大气外强迫因子对我国西南地区降水多尺度变化的作用成果纳入夏季降水的短期气候预测，取得了良好效果。 

[3] 2024年4月1日至今，云南省气象局将我们关于“海陆气协同过程影响中国低纬高原夏季降水年际变化的关键机制”研究成果集成至云南省气候中心的气候预测业务系统，为防灾减灾部署提供了关键科技支撑。 

[4] 2024年4月15日至今，云南省气候中心将我们关于热带海温、欧亚积雪、 土壤湿度等多元大气外强迫因子对我国西南地区降水多尺度变化的作用成果纳入夏季降水的短期气候预测，取得了良好效果。 

[5] 2025年5月10日至今，云南省气候中心采用我们构建的“暖干化”客观监测指标并将其集成到云南智能化气候综合业务服务平台， 获得了良好的应用效果。 

[6] 2025年3月1日至今，国家气候中心将团队成果“基于西太副高动力学指数的模式释用和汛期降水预测技术”（本人排名第四）应用于当年的夏季降水预测中，取得了良好效果。 

[7] 2025年10月1日至今，云南省气候中心将创新发展专项成果（CXFZ2025J046）“全球变化背景下大湄公河次区域气候暖干化响应机理及风险预估研究”（本人排名第三）应用至区域防灾减灾建设中，效果显著。