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姓名:毛睿
职称:教授
研究领域:国家生态安全,气候变化及其影响
研究兴趣:全球沙尘变率及其机制,边境生态安全,新能源发展与生态安全,南极地区气候变化
招生兴趣:欢迎大气科学、地理学、遥感科学、系统科学、信息科学等专业背景员工,报考硕士研究生、博士研究生,也招收上述专业背景的员工做科研助理
联系方式:010-58808713
电子邮箱:MR@bnu.edu.cn
教育经历
2003.09-2009.07 硕博连读,伟德betvlctor体育官网资源学院,自然地理学,导师:龚道溢教授
2007.08-2008.08 联合培养博士生,德国科隆大学地球物理与气象研究所,大气科学,导师:Yaping Shao教授
1998.09-2002.07 学士,伟德betvlctor体育官网资源与环境科学系,资源环境区划与管理
工作经历
2021.09-至今 伟德betvlctor体育官网,教授
2016.09-2021.08 伟德betvlctor体育官网地理科学学部减灾与应急管理研究院,副教授
2011.06-2016.09 伟德betvlctor体育官网地表过程与资源生态国家重点实验室,讲师,副教授
2009.07-2011.06 伟德betvlctor体育官网物理学系,博士后
国外访问经历
2018.08-2019.08 美国怀俄明大学大气科学系,合作导师:Xiaohong Liu教授
2011.01-2011.03 德国科隆大学地球物理与气象研究所,合作导师:Yaping Shao教授
2009.03-2009.12 韩国首尔国立大学地球科学学院,合作导师:Chang-Hoi Ho教授
2007.12-2008.02 瑞典哥德堡大学地球环境中心,合作导师:Deliang Chen教授
主持和参与课题
主持,国家自然科学基金面上项目“北极涛动对我国沙尘活动影响的年代际转折及机理”,2016-2019年,经费70万元
主持,韩国极地研究所,南极涛动对南极地区气候变化的影响,2013-2024,经费累计200余万元
参与,国家重点研发计划项目“黄河上游干流库坝群段多灾种应对关键技术”,2022-2025年,经费22万元
参与,第二次青藏高原综合科学考察研究,2019-2024,经费40万元
参与,国家重点研发计划“全球变化人口与经济系统风险形成机制及评估研究”,2017-2019年,经费200万元
参与,国家重大科学研究计划“全球变化与区域可持续发展耦合模型及调控对策”,2014-2018年,经费20万元
第一作者/通讯作者发表论文
全球沙尘变率研究
1. Mao, Rui.*, Yuanyuan Xu, Xuezhen Zhang, et al. (2024) Projected changes in wind erosion climatic erosivity over high mountain Asia: results from dynamical downscaling outputs. Asia-Pacific Journal of Atmospheric Sciences, https://doi.org/10.1007/s13143-024-00367-3
2. Shi, Cuicui, Rui. Mao*, and co-authors (2023) Increased dust transport from Patagonia to eastern Antarctica during 2000-2020. Global and Planetary Change, 104186.
3. Xingya Feng, Rui. Mao*, Dao-Yi Gong, et al. (2023) Two Typical Synoptic‑Scale Weather Patterns of Dust Events over the Tibetan Plateau. Asia-Pacifc Journal of Atmospheric Sciences, https://doi.org/10.1007/s13143-023-00325-5
4. 马小燕, 毛睿*, 冯星雅 (2022) 青藏高原高空的沙尘气溶胶. 地理教育, 2022, 1, 13-17
5. Mao, Rui*., Daoyi Gong, Seong-Joong Kim, and co-authors (2021) Increasing spring dust storms in the future over the Taklimakan Desert, Northwest China: implications from changes in circulation pattern frequency in CMIP6, Environmental Research Communications, 3, 11, DOI10.1088/2515-7620/ac37ee
6. Zong, Qi, Rui Mao*, Dao-Yi Gong, et al. (2021) Changes in Dust Activity in Spring over East Asia under a Global Warming Scenario, Asia-Pacific Journal of Atmospheric Sciences, Jan 2021, DOI10.1007/s13143-021-00224-7
7. Sun, Yijie, Rui Mao*, Dao-Yi Gong, et al. (2021) Decadal Shift of the Influence of Arctic Oscillation on Dust Weather Frequency in Spring over the Middle East during 1974-2019. International Journal of Climatology, 42(4), 2440-2454.
8. Zhang, Feng., Jing’ai Wang*, Xueyong Zou, Rui. Mao*, et al. (2021) Changes in wind erosion climatic erosivity in northern China from 1981-2016: a comparison of two climate/weather factors of wind erosion models. Climate Research, 2021, 83, 133-146
9. Zhang, Feng, Jing’ai Wang, Xueyong Zou, Rui Mao*, et al. (2020) Wind Erosion Climate Change in Northern China During 1981–2016. International Journal of Disaster Risk Science, 11, 484–496
10. Feng, Xinya, Rui. Mao*, Dao-Yi Gong, and co-authors (2020) Increased dust aerosols in the high troposphere over the Tibetan Plateau from 1990s to 2000s, Journal of Geophysical Research-Atmospheres, https://doi.org/10.1029/2020JD032807.
11. Zhang, Feng, Jing’ai Wang, Xueyong Zou, Rui Mao*, and co-authors (2020), Wind erosion climate change in northern China during1981-2016, International Journal of Disaster Risk Science, 11, 4, 484-496.
12. Mao, Rui, Zhiyuan Hu, Chun Zhao, and co-authors (2019) The source contributions to the dust over the Tibetan Plateau: A modelling analysis, Atmospheric Environment, 214, 116859.
13. Mao, Rui, Chang-Hoi. Ho, Song Feng, and co-authors (2013) The influence of vegetation variation on Northeast Asian dust activity. Asia-Pacific Journal of Atmospheric Sciences, 49(1), 87-94.
14. Mao, Rui, Dao-Yi Gong, Yaping Shao, and Guangjian Wu (2013) Numerical Analysis for the contribution of the Tibetan Plateau to the dust aerosol in the atmosphere over the East Asia. Science in China Series D, 56, 301-310.
15. Mao, Rui, Chang-Hoi Ho, Yaping Shao, and co-authors (2011) Possible influence of the Arctic Oscillation on Northeast Asian Dust. Atmospheric Environment, doi:10.1016/j.atmosenv.2010.10.020.
16. Mao, Rui, Dao-Yi Gong, Jingdong Bao, and Yida Fan (2011) Possible influence of Arctic Oscillation on dust storm frequency in North China. Journal of Geographical Sciences, 21, 207-218.
气候要素变率诊断分析
1. Wang, Yufei, Rui Mao, co-authors. (2024) Increasing contribution of surface thermal forcing to near-surface small wind frequency in Northern China during 1984-2016. In Preparation.
2. 马绎皓, 毛睿*, 杨阳, 等(2023) ERA5 再分析资料对甘肃省近地面风速气候特征及变化趋势再现能力的评估. 高原气象, 42(1):210-220
3. Ma, Ying, R. Mao*, Sheng-hui Feng, Dao-Yi Gong, Seong-Joong Kim (2017)Does the recent warming hiatus exist over Northern Asia for winter wind chill temperature? International Journal of Climatology, 37(7), 3138-3144
4. Mao, Rui*, Dao-Yi Gong, Tianbao Zhao, and co-authors (2015) Trends in the Frequency of High Relative Humidity over China: 1979-2012, Journal of Climate, 28(24), 9816-9837.
5. Mao, Rui, Dao-Yi Gong, Jing Yang, and Jingdong Bao (2011) Linkage between the Arctic Oscillation and extreme precipitation over central-southern China. Climate Research, doi: 10.3354/cr01041.
人类活动对气候变化的影响
1. Cheng, X., T. Lan, R. Mao*, D.-Y. Gong, H. Han, and X. Liu (2020), Reducing Air Pollution Increases Local Diurnal Temperature Range: A Case Study of Lanzhou, China, Meteorological Applications, DOI: 10.1002/met.1939
2. Hu, Yang, Xue-Zhen. Zhang, Rui Mao*, and co-authors (2015) Modeled responses of summer climate to realistic land use/cover changes from the 1980s to the 2000s over eastern China, Journal of Geophysical Research-Atmospheres, 120(1), 167-179.
南极地区气候变化
1. Yuanyuan Xu, Rui Mao*, Seong-Joong Kim*, Minghu Ding*, Dao-Yi Gong (2024) Impact of Katabatic Wind Event Variability on Sea Ice Dynamics in Terra Nova Bay Polynya, Antarctica. Under Review.
2. Mao, Rui, Seong-Joong Kim, Dao-Yi Gong, et al.(2021) Increasing Difference in Interannual Summertime Surface Air Temperature Between Interior East Antarctica and the Antarctic Peninsula Under Future Climate Scenarios, Geophysical Research Letters, 2021, DOI10.1029/2020GL092031
3. Mao, Rui, Dao-Yi Gong, Jing Yang, and co-authors (2013) Is there a linkage between the tropical cyclone activity in the southern Indian Ocean and the Antarctic Oscillation?, Journal of Geophysical Research: Atmospheres, 118, doi:10.1002/jgrd.50666