大气污染物湿清除机制与影响、沉降与溯源、数值模式研发
国际模式比较计划MICS-Asia空气质量模式组负责人(共四位)
《Sustainability》特刊客座主编
中科院城市大气环境研究卓越创新中心骨干成员
国家自然基金委函评专家
ACP、EST 、EI和 JGR 等多个期刊审稿人
国家优秀青年基金获得者
获聘中科院大气物理所特聘研究岗位(骨干)
辽宁省科技进步三等奖
中国科学院院长优秀奖
中国科学院朱李月华优秀博士生奖
获国家发明专利2项(排名第一)
已合作发表学术论文65篇, 合著编著1部,其中SCI论文48篇,总引用1100+,H-index 20。代表性论著(*为通讯作者):
1、Ge, B*., Xu, D., Wild, O., Yao, X., Wang, J., Chen, X.Tan, Q., Pan, X., and Wang, Z.*: Inter-annual variations of wet deposition in Beijing during 2014–2017: implications of below-cloud scavenging of inorganic aerosols, Atmos. Chem. Phys., 21, 9441–9454, 10.5194/acp-21-9441-2021, 2021.
2、Ge, B*., Itahashi, S., Sato, K., Xu, D., Wang, J., Fan, F., Tan, Q., Fu, J. S., Wang, X., Yamaji, K., Nagashima, T., Li, J., Kajino, M., Liao, H., Zhang, M., Wang, Z., Li, M., Woo, J. H., Kurokawa, J., Pan, Y., Wu, Q., Liu, X., and Wang, Z.: Model Inter-Comparison Study for Asia (MICS-Asia) phase III: multimodel comparison of reactive nitrogen deposition over China, Atmos. Chem. Phys., 20, 10587-10610, 10.5194/acp-20-10587-2020, 2020.
3、Ge, B*., Xu, X*., Ma, Z., Pan, X., Wang, Z., Lin, W., Ouyang, B., Xu, D. H., Lee, J., Zheng, M., Ji, D. S., Sun, Y. L., Dong, H. B., Squires, F. A., Fu, P. Q., and Wang, Z.F*., (2019). Role of ammonia on the feedback between AWC and inorganic aerosol formation during heavy pollution in NCP. Earth and Space Science, 6. https://doi.org/ 10.1029/2019EA000799.
4、Tan, Q., Ge, B.*, Xu, X., Gan, L., Yang, W., Chen, X., Pan, X., Wang, W., Li, J., and Wang, Z., 2022: Increasing impacts of the relative contributions of regional transport on air pollution in Beijing: Observational evidence, Environ Pollut, 292, 118407, https://doi.org/10.1016/j.envpol.2021.118407.
5、Yao, X., Ge, B.*, Yang, W., Li, J., Xu, D., Wang, W., Zheng, H., and Wang, Z.: Affinity zone identification approach for joint control of PM2.5 pollution over China, Environmental Pollution, 265,115086, https://doi.org/10.1016/j.envpol.2020.115086, 2020.
6、Xu, D., Ge, B*., Chen, X., Sun, Y., Cheng, N., Li, M., Pan, X., Ma, Z., Pan, Y., and Wang, Z. 2019: Multimethod determination of the below-cloud wet scavenging coefficients of aerosols in Beijing, China, Atmos. Chem. Phys., 19, 15569-15581, 10.5194/acp-19-15569-2019.
7、Ge, B., Wang, Z*., Lin, W., Xu, X., Li, J., Ji, D., Ma, Z., 2018. Air pollution over the North China Plain and its implication of regional transport: A new sight from the observed evidences. Environmental Pollution 234, 29-38, DOI:10.1016/j.envpol.2017.10.084.
8、Xu, D., Ge, B*., Wang, Z., Sun, Y., Chen, Y., Ji, D., Yang, T., Ma, Z., Cheng, N., Hao, J., Yao, X., 2017. Below-cloud wet scavenging of soluble inorganic ions by rain in Beijing during the summer of 2014. Environmental Pollution 230, 963-973.
9、Ge, B. Z., Z. F. Wang*, X. B. Xu, J. B. Wu, X. L. Yu, and J. Li (2014), Wet deposition of acidifying substances in different regions of China and the rest of East Asia: Modeling with updated NAQPMS, Environ Pollut, 187(0), 10-21, doi:http://dx.doi.org/10.1016/j.envpol.2013.12.014.
10、Ge, B., Y. Sun, Y*. Liu, H. Dong, D. Ji, Q. Jiang, J. Li, and Z. Wang., 2013: Nitrogen dioxide measurement by cavity attenuated phase shift spectroscopy (CAPS) and implications in ozone production efficiency and nitrate formation in Beijing, China, Journal of Geophysical Research: Atmospheres, doi:10.1002/jgrd.50757.
11、B.Z. Ge, X.B. Xu, W.L. Lin, Jie. Li, Z.F. Wang*., 2012: Impact of the regional transport of urban Beijing pollutants on downwind areas in summer: ozone production efficiency analysis, Tellus. B., 64, 17348, 10.3402/tellusb.v64i0.17348.
12、Ge, B. Z., Wang, Z. F*., Xu, X. B., Tang, J., He, Y. J., Uno, I., and Ohara, T., 2011: Impact of the East Asian summer monsoon on long-term variations in the acidity of summer precipitation in Central China, Atmos. Chem. Phys., 11, 1671-1684, 10.5194/acp-11-1671-2011.
13、Yang, Y., Ge, B.*, Chen, X., Yang, W., Wang, Z., Chen, H., Xu, D., Wang, J., Tan, Q., and Wang, Z.: Impact of water vapor content on visibility: Fog-haze conversion and its implications to pollution control, Atmos Res, 256, 105565, https://doi.org/10.1016/j.atmosres.2021.105565, 2021.
14、Wang J, Ge B*, Wang Z. Ozone Production Efficiency in Highly Polluted Environments[J]. Current Pollution Reports, 2018(5651):1-10.
15、Baozhu Ge, Zifa Wang*, Alex E. Gbaguidi, Qingxin Zhang, 2016. Source Identification of Acid Rain Arising over Northeast China: Observed Evidence and Model Simulation, Aerosol and Air Quality Research, DOI: 10.4209/aaqr.2015.05.0294.
16、Wang, J., D. Wang, B. Ge*, W. Lin, D. Ji, X. Pan, J. Li, and Z. Wang (2022), Increase in daytime ozone exposure due to nighttime accumulation in a typical city in eastern China during 2014–2020, Atmos Pollut Res, 13(4), 101387, doi:https://doi.org/10.1016/j.apr.2022.101387.
17、GE Bao-Zhu, LIU Ying*, CHEN Huan-Sheng, PAN Xiao-Le, and WANG Zi-Fa., 2015.Spatial Source Contributions Identification of Acid Rain over the Yangtze River Delta Using a Variety of Methods. ATMOSPHERIC AND OCEANIC SCIENCE LETTERS, VOL. 8, NO. 6, 397-402
18、葛宝珠, 王自发*, 孙业乐, 董华斌, 吉东升, 刘颖, 江琪. 光谱法与传统荧光法测量北京大气NO2浓度及其对臭氧生成效率的影响. 环境化学, 2014, 32(9): 1558-1565
19、葛宝珠, 徐晓斌*, 林伟立, 王瑛, 2010: 上甸子本底站臭氧生成效率的观测研究, 环境科学.
20、郝建奇, 葛宝珠*, 王自发, 张祥志,汤莉莉,徐丹卉,2017: 2014年6月南京大气复合污染观测, 环境科学. 2017, 38(9),10.13227/j.hjkx.201702026.
21、郝建奇, 葛宝珠*, 王自发,等., 2017: 2013年京津冀重污染特征及其气象条件分析[J]. 环境科学学报, 37(8):3032-3043.
22、徐丹卉, 葛宝珠*, 王自发,等.2017.2014 年北京地区云内云下的降水化学分析[J].环境科学学报,37( 9) : 3289-3296, DOI: 10.13671/j.hjkxxb.2017.0031.
23、杨颖川, 葛宝珠*, 郝赛宇,等. 基于能见度及AOD数据的北京市PM2.5浓度的反演. 气候与环境研究, 2020(5).
24、姚雪峰,葛宝珠*,王自发,等. 2018. 改进的超级集成预报方法在长江三角洲地区 O3 预报中的应用. 大气科学, 42 (6): 000–000
25、葛宝珠*, 陆芊芊, 陈学舜, 等. 2021. 放射性核素大气扩散数值模拟研究综述. 环境科学学报, 41(5): 1599-1609.
26、谭琦馨, 葛宝珠*, 王大玮, 潘小乐, 王君华, 陈学舜, 杨文夷, 陈焕盛, 杨颖川, 张颖, and 王自发: 2014~2020年东部沿海典型城市甲醛柱浓度年际变化研究, 气候与环境研究, 27, 276, 10.3878/j.issn.1006-9585.2021.21009, 2022.
学术链接:
https://publons.com/researcher/2808914/baozhu-ge