2013.09 – 2018.06    兰州大学大气科学学院     博士（保送硕博连读）

2009.09 – 2013.06    兰州大学大气科学学院     本科，获理学学士学位

2010.09 – 2013.06    兰州大学教育学院         本科，获教育学学士学位（双学位）

2018.07–2023.06 中国科学院西北生态环境资源研究院  高原大气物理研究室 助理研究员

2023.07–2025.03 中国科学院西北生态环境资源研究院  高原大气物理研究室 项目副研究员

2025.03 –至今   中国科学院西北生态环境资源研究院  冰冻圈科学与冻土工程全国重点实验室/高原大气物理研究室 副研究员

气象学（区域气候变化, 极端天气气候事件及其影响）

(1)2019年入选中国科学院“西部之光”西部青年学者B类人才

(2)2024年入选中国科学院西北生态环境资源研究院“西部突出贡献人才”

围绕极端天气气候事件，按“探究机制—改进模式—归因研究”的思路开展了系列研究，主要成果如下：（1）揭示了极端事件次季节变化特征及其机理，深化了对极端事件成因的认识；（2）改进了数值模式关键参数和模拟方法，提高了极端事件次季节变化特征的模拟水平；（3）构建了极端事件归因模拟框架，明晰了气候变化对不同时间尺度极端降水的影响及机理。在Bulletin of the American Meteorological Society、Atmospheric Research和Climate Dynamics等期刊上共发表论文32篇，其中第一/通讯作者论文13篇（含SCI论文11篇，包括2篇BAMS）。发表论文被Nature Communications、National Science Review、Earth-Science Reviews等知名期刊引用510余次。

发表文章列表如下：

1.Ma Yuanyuan, Hu Zhiyuan, Li Chao, Feng Taichen, Meng Xianhong, Dong Wenjie (2023) Anthropogenic climate change enhances the July 2021 super-heavy rainfall event in central China, Bulletin of the American Meteorological Society. 104(4), E736–E741.  

2.Ma Yuanyuan, Hu Zhiyuan, Meng Xianhong, Zhao Lin, Dong Wenjie (2022) Was the Record‐Breaking Meiyu of 2020 Enhanced by Regional Climate Change? Bulletin of the American Meteorological Society. 103(3), S76-S82.

3.Ma Yuanyuan, Chen Yiting, Hu Xiaoxue, Ma Qianrong, Feng Taichen, Feng Guoling, Ma Di (2023) The 2022 record-breaking high temperature in China: Sub-seasonal stepwise enhanced characteristics, possible causes and its predictability. Advances in Climate Change Research, 14(5), 651-659.

4.Ma Yuanyuan, Hu Zhiyuan, Xie qian, Meng Xianhong, Zhao Lin, Dong Wenjie (2022) Convection-permitting modeling over the Tibetan Plateau improves the simulation of Meiyu Rainfall during the 2011 Yangtze Plain flood. Atmospheric Research, 265(2022) 105907. 

5.Ma Yuanyuan, Hu Xiaoxue, Chen Yiting, Hu Zhiyuan, Feng Taichen; Feng Guolin (2023) Different Characteristics and Drivers of the Extraordinary Pakistan Rainfall in July and August 2022. Remote Sensing, 15(9), 2311. 

6.Ma Yuanyuan, Yang Yi, Wang Chenghai (2019) How essential of the balance between the large and small scale features to reproduce a sudden sharp turn from drought to flood using model. Climate Dynamics, 52 (7-8): 5013-5029. 

7.Ma Yuanyuan, Yang Yi, Qiu Chongjian, Wang Chenghai (2019) Evaluation of the WRF-Lake Model over Two Major Freshwater Lakes in China. Journal of Meteorological Research, 33 (2): 219-235. 

8.Ma Yuanyuan, Yi Yang, Xiaoping Mai, Chongjian Qiu, Xiao Long, Chenghai Wang (2016) Comparison of Analysis and Spectral Nudging Techniques for Dynamical Downscaling with the WRF Model over China. Advances in Meteorology, 2016:1-16.

9.Ma Yuanyuan, Yi Yang, Xiao-Ming Hu, Ruhui Gan (2015) Characteristics and Mechanisms of Sudden Warming Events in the Nocturnal Atmospheric Boundary Layer: A Case Study Using WRF. Journal of Meteorological Research, 29(5):747-763. 

10.Ma Qianrong, Wang Zhikuan, Feng Taichen, Gao Ping, Ma Yuanyuan#, Yan Pengcheng, Feng Guolin (2023). Possible influences of spring Barents Sea ice shrinking on Chinese heat wave events. International Journal of Climatology, 43(13), 6101–6113. 

11.Xiaoxue Hu, Hongzi Pan, Yuanyuan Ma#, Guolin Feng, Yiting Chen, Qianrong Ma and Di Ma (2024). Comparative analysis of characteristics and physical mechanisms for typical summer extreme precipitation in Pakistan. Environmental Research Communications 6(5): 055001

12.马媛媛, 杨毅, 胡小明, 甘茹蕙. 2017.黄土高原西南部大气边界层实测和突发性夜间增温模拟数据集(InSituModDataAtmosLoessPlateau),全球变化科学研究数据出版系统.

13.马媛媛, 杨毅, 胡小明, 戚友存, 张曼. WRF中三种边界层参数化方案对新疆“2·28”大风过程模拟的对比分析[J]. 沙漠与绿洲气象, 2014, 8(3):8-18. 

14.Chen Yiting, Ma Yuanyuan, Hu Xiaoxue, Feng Taichen, Pan Hongzi3, Feng Guoling (2023) Storyline attribution of climate change influence on the high temperature and drought event in South China. Climate Dynamic. (已接收)

15.Jun Gu, Chun Zhao, Mingyue Xu, Yuanyuan Ma, Zhiyuan Hu, Chen Jin, Jianping Guo, Tao Geng, Wenju Cai (2025). Fast Warming Over the Mongolian Plateau a Catalyst for Extreme Rainfall Over North China, Geophysical Research Letters, 52, e2024GL113737.

16.Hainan Gong, Kangjie Ma, Zhiyuan Hu, Zizhen Dong,Yuanyuan Ma, Wen Chen, Renguang Wu, and Lin Wang (2024). Attribution of the August 2022 Extreme Heatwave in Southern China: Role of Dynamical and Thermodynamical Processes, Bulletin of the American Meteorological Society, 105(1): E193–E199.

17.Hu Zhiyuan, Ma Yuanyuan, Jin Qinjian, Nkurunziza Fabien Idrissa, Jianping Huang, Wenjie Dong (2023). Attribution of the March 2021 exceptional dust storm in North China. Bulletin of the American Meteorological Society. E1–E7.

18.Qian Xie, Deqin Li, Yi Yang, Yuanyuan Ma, Xiao Pan, Min Chen (2023). Impact of assimilating atmospheric motion vectors from Himawari-8 and clear-sky radiance from FY-4A GIIRS on binary typhoons, Atmospheric Research, 282, 2023, 106550. 

19.Meng Xianhong, Ma Yuanyuan (2022). High resolution atmosphere-hydrologic simulation dataset over the Tibetan Plateau (2000-2010). A Big Earth Data Platform for Three Poles.

20.Hu Zhiyuan, Zhao Chun, Leung L. Ruby, Du Qiuyan, Ma Yuanyuan, Samson Hagos, Qian Yun, Dong Wenjie (2022). Characterizing the impact of atmospheric rivers on aerosols in the western US. Geophysical Research Letters, 49, e2021GL096421. 

21.Hu Zhiyuan, Jin Qinjian, Ma Yuanyuan, Ji Zhenming, Zhu Xian, Dong Wenjie (2022). How Does COVID-19 Lockdown Impact Air Quality in India? Remote Sensing, 14, 8, 1-18.

22.Hu Zhiyuan, Jin Qinjian, Ma Yuanyuan, Pu bin, Ji Zhenming, Wang Yonghong, Dong, Wenjie (2021) Temporal evolution of aerosols and their extreme events in polluted Asian regions during Terra's 20-year observations, Remote Sensing of Environment, 263:112541.

23.Xie Qian, Yang Yi, Qiu Xiaobin, Ma Yuanyuan, Lai Anwei, Lin Erliang, Mai Xiaoping (2021) 3D-var assimilation of GTS observation with the gravity wave drag scheme improves summer high resolution climate simulation over the Tibetan Plateau, Climate Dynamics, 57 (1-2): 469-487. 

24.Mai Xiaoping, Qiu Xiaobin, Yang Yi, Ma Yuanyuan (2020). Impacts of Spectral Nudging Parameters on Dynamical Downscaling in Summer over Mainland China. Frontiers of Earth Science. 8:574754. 

25.Zhang Wenxia, Li Wei, Zhu Lianhua, Ma Yuanyuan, Yang Linyun, Fraser C Lott, Li Chunxiang, Dong Siyan, Simon F B Tett, Dong Buwen, Sun Ying (2020) Anthropogenic influence on 2018 summer persistent heavy and daily extreme rainfall in central western China. Bulletin of the American Meteorological Society. 101 (1): S65-S70. 

26.Hu Zhiyuan, Huang Jianping, Zhao Chun, Jin Qinjian, Ma Yuanyuan, Yang Ben (2020). Modeling dust sources, transport, and radiative effects at different altitudes over the Tibetan Plateau. Atmospheric Chemistry and Physics. 20 (3): 1507-1529. 

27.Hu Zhiyuan, Huang Jianping, Zhao Chun, Ma Yuanyuan, Jin Qinjian, Qian Yun, Leung L. Ruby, Bi Jianrong, Ma Jianmin (2019). Trans-Pacific transport and evolution of aerosols: Spatiotemporal characteristics and source contributions. Atmospheric Chemistry and Physics. 19 (9): 12709-12730. 

28.Gan Ruhui, Yang Yi, Ma Yuanyuan (2018) Modeling the impacts of the Pacific Ocean SST anomalies on a drought event in southwestern China with a piecewise-integration method. International Journal of Climatology, 39(2): 799-813. 

29.Peng Liu, Xiaobin Qiu, Yi Yang, Yuanyuan Ma, Shuanglong Jin (2018) Assessment of the Performance of Three Dynamical Climate Downscaling Methods Using Different Land Surface Information over China. Atmosphere, 9(3):101.

30.Xiaoping Mai, Yuanyuan Ma, Yang Yi, Deqin Li, Xiaobin Qiu (2017) Impact of Grid Nudging Parameters on Dynamical Downscaling during Summer over Chinese mainland. Atmosphere, 8(10), 184.

31.甘茹蕙, 马媛媛, 杨毅, 魏韵, 张奇, 聂燕. 兰州地区突发性夜间增温的统计特征[J]. 兰州大学学报(自科版), 2016, 52(5):652-659.

32.李红, 马媛媛, 杨毅. 基于激光雷达资料的小波变换法反演边界层高度的方法[J]. 干旱气象, 2015(1):78-88. "

主持国家自然科学基金面上项目1项、青年基金项目1项和中国科学院“西部之光”西部青年学者B类项目1项，中国科学院西北生态环境资源研究院自主部署项目2项，具体如下：

1.国家自然科学基金面上项目：对流解析模拟对青藏高原降水多尺度特征的增值及机制（No.42275097，55万，2023.01-2026.12），主持

2.国家自然科学基金青年科学基金项目：基于Nudging同化技术的黄河源区气候动力降尺度研究（No.41905013，27万，2020.01-2022.12），主持

3.中国科学院“西部之光”西部青年学者B类项目：利用Nudging同化技术改进青藏高原降水模拟的研究（15万，2020.01-2021.12），主持

4.中国科学院西北生态环境资源研究院自主部署项目：对流解析模拟对青藏高原降水多尺度特征的增值（6万，2023.03-2023.12），主持

5.中国科学院西北生态环境资源研究院自主部署项目：巴基斯坦夏季极端降水多尺度特征的模拟及归因研究（6万，2024.03-2025.12），主持

作为主要参与者参加国家重点研发计划项目1项，国家自然科学基金重点项目1项、面上项目3项、甘肃省杰出青年科学基金1项、自然科学基金重点项目各1项和冰冻圈科学与冻土工程重点实验室自主部署项目1项。具体如下：

1.国家重点研发计划项目：突发事件即时遥感探测及生态损害评估技术与示范应用（2024YFF1306200，1391万，2024.12-2027.12），主要参与

2.国家发展改革委，中国科学院“十四五”科教基础设施项目：碳汇监测技术与国产装备研发能力提升子项目—若尔盖高原湿地碳汇监测子平台（1135万， 2025-2027）

3.国家自然科学基金青年科学基金A类项目：寒旱区陆气相互作用（No.42325502，400万，2024.01-2028.12）

4.国家自然科学基金重点项目：气候变化背景下三江源区域水循环演变过程及机理研究（No.41930759，355万，2020.01-2023.12），参与

5.国家自然科学基金面上项目：黄河源区积雪与不同类型下垫面的水热耦合过程及其影响研究（No. 42075089，59万，2021.01-2024.12），参与

6.国家自然科学基金面上项目：青藏高原根区土壤湿度及植被影响降水的定量评估及机理研究（No. 42075091，58万，2021.01-2024.12），参与

7.国家自然科学基金面上项目：CMIP6模式对青藏高原多年冻土模拟的评估及动力降尺度研究（No. 42175054，57万，2022.01-2025.12），参与

8.中国科学院“西部之光”： 灌丛扩张对甘南黄河源区陆面过程与水源涵养的影响研究，（50万，2023.01-2025.12），参与

9.甘肃省杰出青年科学基金：植被演替对甘南黄河源区春季陆面过程与水源涵养的影响研究（No. 22JR5RA048，40万，2022.10-2025.09），参与

10.甘肃省自然科学基金重点项目：基于广义平衡反馈分析与数值模拟方法研究三江源植被及土壤湿度改变对区域气候的影响（No. 24JRRA080，20万，2024.08-2027.07），参与

11.冰冻圈科学与冻土工程重点实验室自主部署项目-青年团队：多年冻土退化对工程与环境影响的耦合机制研究（No. CSFSE-ZQ-2405，35万，2024.09-2027.08），参与