大气边界层物理

   

070602-大气物理学与大气环境

基于微气象法的温室气体,大气污染物界面通量

   

研究生

博士

2007/07—2009/06，中国科学院大气物理研究所，大气边界层与大气化学国家重点实验室博士后流动站

2009/07—2014/1 中国科学院大气物理研究所 LAPC 助理研究员

2014/2-至今    中国科学院大气物理研究所 LAPC 副研究员

 测定大气颗粒物中粒子态活性氮氧化物组分的方法和装置（专利申请号：20121007499.7）孙扬，宋涛，王跃思

[1] 孙扬, 王跃思, 修天阳, 宋涛. 测定空气中活性奇氮氧化物的方法和装置. CN: CN102749416A, 2012-10-24.
[2] 孙扬, 宋涛, 王跃思. 测定大气颗粒物中粒子态活性氮氧化物组分的方法和装置. CN: CN102721755A, 2012-10-10.

     

[1] Jiarui Wu, Naifang Bei, Weiguo Liu, Meng Xing, Suixin Liu, Tao Song, Xia Li, Ruonan Wang, Qian Jiang, Hu Bo, Xuexi Tie, Junji Cao, Guohui Li. Why is the air humid during wintertime heavy haze days in Beijing?. SCIENCEOFTHETOTALENVIRONMENT. 2022, 853: http://dx.doi.org/10.1016/j.scitotenv.2022.158597.
[2] Cao, Jiachen, Chang, Ming, Pan, Yuepeng, Song, Tao, Liu, Zan, Zhao, Hui, Zhou, Mi, Zhang, Lin, Wang, Xuemei. Assessment and intercomparison of ozone dry deposition schemes over two ecosystems based on Noah-MP in China. ATMOSPHERIC ENVIRONMENT[J]. 2022, 290: http://dx.doi.org/10.1016/j.atmosenv.2022.119353.
[3] Wang, Lili, Li, Mingge, Wang, Qinglu, Li, Yuanyuan, Xin, Jinyuan, Tang, Xiao, Du, Wupeng, Song, Tao, Li, Tingting, Sun, Yang, Gao, Wenkang, Hu, Bo, Wang, Yuesi. Air stagnation in China: Spatiotemporal variability and differing impact on PM2.5 and O-3 during 2013-2018. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2022, 819: http://dx.doi.org/10.1016/j.scitotenv.2021.152778.
[4] 唐贵谦, 刘钰婷, 高文康, 王迎红, 宋涛, 程萌田, 王跃思. 警惕大气污染和碳排放向西北迁移. 中国科学院院刊[J]. 2022, 37(2): 230-237, http://lib.cqvip.com/Qikan/Article/Detail?id=7106665672.
[5] Liu, Zan, Pan, Yuepeng, Song, Tao, Hu, Bo, Wang, Lili, Wang, Yuesi. Eddy covariance measurements of ozone flux above and below a southern subtropical forest canopy. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2021, 791: http://dx.doi.org/10.1016/j.scitotenv.2021.148338.
[6] Li, Jiayun, Gao, Wenkang, Cao, Liming, Xiao, Yao, Zhang, Yangmei, Zhao, Shuman, Liu, Zan, Liu, Zirui, Tang, Guiqian, Ji, Dongsheng, Hu, Bo, Song, Tao, He, Lingyan, Hu, Min, Wang, Yuesi. Significant changes in autumn and winter aerosol composition and sources in Beijing from 2012 to 2018: Effects of clean air actions. ENVIRONMENTAL POLLUTION[J]. 2021, 268: http://dx.doi.org/10.1016/j.envpol.2020.115855.
[7] Liu, Zehui, Zhou, Mi, Chen, Youfan, Chen, Dan, Pan, Yuepeng, Song, Tao, Ji, Dongsheng, Chen, Qi, Zhang, Lin. The nonlinear response of fine particulate matter pollution to ammonia emission reductions in North China. ENVIRONMENTAL RESEARCH LETTERS[J]. 2021, 16(3): http://dx.doi.org/10.1088/1748-9326/abdf86.
[8] Gong, Chongshui, Xin, Jinyuan, Wang, Ying, Zhao, Cailing, Yan, Pengcheng, Wen, Tianxue, Song, Tao, Yang, Zhen. The contribution of aerosols chemical components to aerosol optical depth: The method and the case in Dunhuang. ATMOSPHERIC RESEARCH[J]. 2021, 258: http://dx.doi.org/10.1016/j.atmosres.2021.105652.
[9] Y Wang, M Yu, G Tang, T Song, P Zhou, Z Liu, B Hu, D Ji, L Wang, X Zhu, C Yan, M Ehn, W Gao, Y Pan, J Xin, Y Sun, VM Kerminen, M Kulmala, T Petj. Rapid formation of intense haze episodes via aerosol–boundary layer feedback in Beijing. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2020, 20(1): 45-53, https://doaj.org/article/c42b79738d8e4afb87c6001f5abb4a88.
[10] Pan, Yuepeng, Gu, Mengna, He, Yuexin, Wu, Dianming, Liu, Chunyan, Song, Linlin, Tian, Shili, Lu, Xuemei, Sun, Yang, Song, Tao, Walters, Wendell W, Liu, Xuejun, Martin, Nicholas A, Zhang, Qianqian, Fang, Yunting, Ferracci, Valerio, Wang, Yuesi. Revisiting the Concentration Observations and Source Apportionment of Atmospheric Ammonia. ADVANCES IN ATMOSPHERIC SCIENCES[J]. 2020, 37(9): 933-938, http://lib.cqvip.com/Qikan/Article/Detail?id=7102562513.
[11] Liu, Zan, Liu, Zirui, Song, Tao, Gao, Wenkang, Wang, Yinghong, Wang, Lili, Hu, Bo, Xin, Jinyuan, Wang, Yuesi. Long-term variation in CO2 emissions with implications for the interannual trend in PM(2.5 )over the last decade in Beijing, China. ENVIRONMENTAL POLLUTION[J]. 2020, 266: http://dx.doi.org/10.1016/j.envpol.2020.115014.
[12] Li, Mingge, Wang, Lili, Liu, Jingda, Gao, Wenkang, Song, Tao, Sun, Yang, Li, Liang, Li, Xingru, Wang, Yonghong, Liu, Lili, Daellenbach, Kaspar R, Paasonen, Pauli J, Kerminen, VeliMatti, Kulmala, Markku, Wang, Yuesi. Exploring the regional pollution characteristics and meteorological formation mechanism of PM2.5 in North China during 2013-2017. ENVIRONMENT INTERNATIONAL[J]. 2020, 134: http://dx.doi.org/10.1016/j.envint.2019.105283.
[13] Wang, Yonghong, Gao, Wenkang, Wang, Shuai, Song, Tao, Gong, Zhengyu, Ji, Dongsheng, Wang, Lili, Liu, Zirui, Tang, Guiqian, Huo, Yanfeng, Tian, Shili, Li, Jiayun, Li, Mingge, Yang, Yuan, Chu, Biwu, Petaja, Tuukka, Kerminen, VeliMatti, He, Hong, Hao, Jiming, Kulmala, Markku, Wang, Yuesi, Zhang, Yuanhang. Contrasting trends of PM2.5 and surface-ozone concentrations in China from 2013 to 2017. NATIONAL SCIENCE REVIEW[J]. 2020, 7(8): 1331-1339, http://dx.doi.org/10.1093/nsr/nwaa032.
[14] 王跃思, 李文杰, 高文康, 刘子锐, 田世丽, 沈蓉蓉, 吉东生, 王帅, 王莉莉, 唐贵谦, 宋涛, 程萌田, 王格慧, 宫正宇, 郝吉明, 张远航. 2013~2017年中国重点区域颗粒物质量浓度和化学成分变化趋势. 中国科学:地球科学[J]. 2020, 50(4): 453-468, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2020&filename=JDXK202004003&v=MzIzNDhITkhNcTQ5Rlo0UjhlWDFMdXhZUzdEaDFUM3FUcldNMUZyQ1VSN3FlWitkbUZ5cmxWcnZPTHluVFpiRzQ=.
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[17] Wang Yuesi, Li Wenjie, Gao Wenkang, Liu Zirui, Tian Shili, Shen Rongrong, Ji Dongsheng, Wang Shuai, Wang Lili, Tang Guiqian, Song Tao, Cheng Mengtian, Wang Gehui, Gong Zhengyu, Hao Jiming, Zhang Yuanhang. Trends in particulate matter and its chemical compositions in China from 2013-2017. SCIENCE CHINA. EARTH SCIENCES[J]. 2019, 62(12): 1857-1871, https://www.sciengine.com/doi/10.1007/s11430-018-9373-1.
[18] Li, Jian, Li, Chengcai, Guo, Jianping, Li, Jing, Tan, Wangshu, Kang, Ling, Chen, Dandan, Song, Tao, Liu, Lin. Retrieval of aerosol profiles by Raman lidar with dynamic determination of the lidar equation reference height. ATMOSPHERIC ENVIRONMENT[J]. 2019, 199: 252-259, http://dx.doi.org/10.1016/j.atmosenv.2018.11.048.
[19] Zhao, Dandan, Xin, Jinyuan, Gong, Chongshui, Quan, Jiannong, Liu, Guangjing, Zhao, Wenpeng, Wang, Yuesi, Liu, Zan, Song, Tao. The formation mechanism of air pollution episodes in Beijing city: Insights into the measured feedback between aerosol radiative forcing and the atmospheric boundary layer stability. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2019, 692: 371-381, http://dx.doi.org/10.1016/j.scitotenv.2019.07.255.
[20] 康颖, 王莉莉, 辛金元, 陶明辉, 宋涛, 巩崇水, 王跃思, 李广. 基于AERONET和OMI数据分析中国北方典型地区气溶胶单次散射反照率的变化趋势. 气候与环境研究[J]. 2019, 24(5): 537-551, http://lib.cqvip.com/Qikan/Article/Detail?id=7100104812.
[21] Tang Binyan, Xin Jinyuan, Gao Wenkang, Shao Ping, Su Hongjuan, Wen Tianxue, Song Tao, Fan Guangzhou, Wang Shigong, Wang Yuesi. Characteristics of complex air pollution in typical cities of North China. 大气和海洋科学快报：英文版[J]. 2018, 11(1): 29-36, http://lib.cqvip.com/Qikan/Article/Detail?id=675429109.
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