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The application of machine learning to air pollution research: A bibliometric analysis Yunzhe Li, Zhipeng Sha, Aohan Tang, Keith Goulding, Xuejun Liu Ecotoxicology and Environmental Safety (2023): 114911
Source Apportionment of Atmospheric Ammonia at 16 Sites in China Using a Bayesian Isotope Mixing Model Based on d(15)N-NHx Signatures Yangyang Zhang, Xin Ma, Aohan Tang, Yunting Fang, Tom Misselbrook, Xuejun Liu ENVIRONMENTAL SCIENCE & TECHNOLOGYno. 16 (2023): 6599-6608
Wang CJ., Li XJ., Zhang TL., Tang AH.*, Cui M., Liu XJ., Ma X., Zhang YY., Liu XM., Zheng M.*, 2022. Developing Nitrogen Isotopic Source Profiles of Atmospheric Ammonia for Source Apportionment of Ammonia in Urban Beijing. Frontiers in Environmental Science, doi: 10.3389/fenvs.2022.903013.
Li YZ., Wang C., Tang AH.*, Goulding Keith., Zheng AH., Liu XJ.,2022. Spatio-temporal characteristics and source apportionment of water-soluble organic acids in PM2.5 in the North China Plain. Atmospheric Pollution Research,13:101540.
Zhang YY., Tang AH.*, Wang C; Ma X., Li YZ., Xu W., Xia XP., Zheng AH., Li WQ., Fang ZG., Zhao XF., Peng XL., Zhang YP., Han J., Zhang LJ., Collett Jr J., Liu XJ.*, 2022. PM2.5 and water-soluble inorganic ion concentrations decreased faster in urban than rural areas in China. Journal of Environmental Sciences, 122:83-91.
Wen Z., Wang RY., Li Q., Liu JN., Ma X., Xu W., Tang A.H., Collett Jr J., Li HG., Liu X.J.*, 2022. Spatiotemporal variations of nitrogen and phosphorous deposition across China. Science of Total Environment, 830:154740.
Xu W., Zhao YH., Wen Z., Chang YH., Pan YP., Sun YL., Ma X., Sha ZP., Li ZY., Kang JH., Liu L., Tang AH., Wang K., Zhang Y., Guo YX., Zhang L. *, Sheng JF., Zhang XM., Gu BJ., Song Y., Damme M., Clarisse L., Coheur PF., Collett J., Goulding K., Zhang FS., He KB. *, Liu XJ.*, 2022. Increasing importance of ammonia emission abatement in PM2.5 pollution control. Science Bulletin, 17:1745-1749.
Zhang YY., Guo CJ., Ma K., Tang AH., Keith G., Liu X.J.*, 2022. Characteristics of airborne bacterial communities across different PM2.5 levels in Beijing during winter and spring. Atmospheric Research, 273: 106179.
Ma X., Jiao XN., Sha ZP., Ding F., Li YZ., Xu W., Tang AH., Xia XP., Andreas F., Liu XJ.*, 2022. Characteristics of atmospheric bulk phosphorus depiction in China. Atmospheric Environment, 279:119127.
Li ZY., Chen YL., Meng FL., Shao Q., Heal M., Ren FL., Tang AH., Wu JC., Liu XJ., Cui ZL., Xu W.*, 2022. Integrating life cycle assessment and a farmer survey of management practices to study environmental impacts of peach production in Beijing, China. Environmental Science and Pollution Research, Doi:10.1007/s11356-022-19780-0.
李云哲,唐傲寒*,刘学军,2021. 大气环境中二甲基硫的研究进展,中国农业大学学报,26(10):164-174.
Wen Z., Xu W., Pan X.Y., Han M.J., Wang C., Benedict K., Tang A.H. *, Collett Jr J., Liu X.J.*, 2021. Effects of Reactive Nitrogen Gases on the Aerosol Formation in Beijing from late autumn to early spring. Environmental Research Letters, 16:025005.
Wen Z., Wang CJ., Li Q., Xu W., Lu L., Li X.J., Tang A.H., Collett Jr J., Liu X.J.*, 2021.Winter Air Quality Improvement in Beijing by Clean Air Actions from 2014 to 2018. Atmospheric Research, 259:105674.
Zhang Y.Y., Liu X.J.*, Zhang L., Tang A.H., Goulding K., Collett Jr J., 2021. Evolution of secondary inorganic aerosols amidst improving PM2.5 Air Quality in the North China Plain. Environmental Pollution, 281:117027.
Zhang Y., Benedict K., Tang A., Sun Y., Fang Y., Liu X., 2020. Persistent nonagricultural and periodic agricultural emissions dominate sources of ammonia in urban Beijing: evidence from N-15 stable isotope in vertical profiles. Environmental Science & Technology, 54(1): 102-109.
Xu W., Wen Z., Shang B., Dore A., Tang A., Xia X., Zheng A., Han M., Zhang L., Zhao Y., Zhang G., Feng Z., Liu X., Zhang F., 2020. Precipitation chemistry and atmospheric nitrogen deposition at a rural site in Beijing, China. Atmospheric Environment, Doi: 10.1016/j.atmosenv.2019.117253.
Xu W., Liu X., Liu L., Dore A., Tang A., Lu L., Wu Q., Zhang Y., Hao T., Pan Y., Chen J., Zhang F., 2019. Impact of emission controls on air quality in Beijing during APEC 2014: implications from water-soluble ions and carbonaceous aerosol in PM2.5 and their precursours. Atmopheric Environment, 210: 241-252.
Zhang Y., Tang A.*, Wang D., Wang Q., Benedict K., Zhang L., Liu D., Li Y., Collett J., Sun Y., Liu X., 2018. The vertical variability of ammonia in urban Beijing, China. Atmospheric Chemistry and Physics, 18(22): 16385-16398.
Zhang Y., Wei J., Tang A.*, Zheng A., Shao Z., Liu X., 2017. Chemical characteristics of PM2.5 during 2015 Spring Festival in Beijing, China. Aerosol and Air Quality Research, 17(5):1169-1180.
Zhang Y., Xu W., Wen Z., Wang D., Hao T., Tang A., Liu X., 2017. Atmospheric deposition of inorganic nitrogen in a semi-arid grassland of inner Mongolia, China. Journal of Arid Land, 9(6): 810-822.
Liu X., Xu W., Duan L., Du E., Pan Y., Lu X., Zhang L., Wu Z., Wang X., Zhang Y., Shen J., Song L., Feng Z., Liu X., Song W., Tang A., Zhang Y., Zhng X., Collett L., Chang Y., 2017. Atmospheric nitrogen emission, deposition, and air quality impacts in China: an overview. Currrent Pollution Reports, 3(2): 78.
Xu W., Song W., Zhang Y., Liu X., Zhang L., Zhao Y., Liu D., Tang A., Yang D., Wang D., Wen Z., Pan Y., Fowler D., Collett J., Erisman J., Goulding K., Li Y., Zhang F., 2017. Air quality improvement in a megacity: implication from 2015 Beijing Parade Blue pollution control actions. Atmospheric Chemistry and Physics, 17(1): 31-46.
Xu W. , Wu Q. , Liu X. *, Tang A., Dore A. , Heal M. , 2016. Characteristics of ammonia, acid gases and PM2. 5 for three typical land use types in the North China Plain, Environmental Science and Pollution Research, 23: 1158-1172.
Liu J., Zhang Y., Liu X., Tang A., Qiu H., Zhang F., 2016. Concentration and isotopic characteristics of atmospheric reactive nitrogen around typical sources in Beijng, China. Journal of Arid Land, 8(6): 910-920.
杨道伟,许稳,唐傲寒,鲁丽,刘学军,2016. 中国东部地区无机氮湿沉降:南北不同类型监测点的比较. 应用生态学报,27(10): 3205-3212.2015年:
Xu W. , Luo X. , Pan Y. , Zhang L. , Tang A. , Shen J. , Zhang Y. , Li K. , Wu Q. , Yang D. , Zhang Y. , Xue J. , Li W. , Li Q. , Tang L. , Lu S. , Liang T. , Tong Y. , Liu P. , Zhang Q. , Xiong Z. , Shi X. , Wu L. , Shi W. , Tian K. , Zhong X. , Shi K. , Tang Q. , Zhang L. , Huang J. , He C. , Kuang F. , Zhu B. , Liu H. , Jin X. , Xin Y. , Shi X. , Du E. , Dore A. , Tang S. , Collett J. , Goulding K. , Zhang F. , Liu X. *, 2015. Quantifying atmospheric nitrogen deposition in China through a nationwide monitoring network. Atmospheric Chemistry and Physics 15, 18365–18405.
Luo X., Tang A., Shi K., Wu L., Li W., Shi W., Shi X. , Erisman J., Zhang F., Liu X.*, 2014. Chinese coastal seas are facing heavy atmospheric nitrogen deposition. Environmental Research Letters, 9: 095007. doi:10. 1088/1748-9326/9/9/095007.
唐傲寒*, 赵婧娴, 韩文轩, 刘学军, 北京地区灰霾化学特性研究进展, 2013. 中国农业大学学报, 18(3): 185-191.
Luo X., Liu P., Tang A.*, Liu J., Zong X., Zhang Q , Kou C., Zhang L., Fowler D., Fangmeier A., Christie P., Zhang F., Liu X.*, 2013. An evaluation of atmospheric Nr pollution and deposition in North China after the Beijing Olympics, Atmospheric Environment, 74: 209-216.
Liu X., Zhang Y, Han W., Tang A., Shen J., Cui Z., Vitousek P. , Erisman J. , Goulding K. , Christie P. , Fangmeier A. , Zhang F. *, 2013. Enhanced nitrogen deposition over China, Nature, 494:459-462.
刘杰云, 况福虹, 唐傲寒, 沈健林, 王国安, 孟令敏, 刘学军*, 2013. 不同排放源周边大气环境中NH3浓度动态, 生态学报, 33(23):7537-7544.
Shen J., Tang A., Liu X.*, Fangmeier A., Goulding K., Zhang F., 2011. Impacts of Pollution Controls on Air Quality in Beijing during the 2008 Olympic Games. Journal of Environmental Quality, 40: 37-45.
沈健林, 黄明丽, 唐傲寒, 汪斯淼, 韩文轩*, 刘学军, 2010. 葎草(Humulus scandens)叶总氮和δ15N与大气活性氮气体的关系. 中国农业大学学报, 15(1): 84-88.
Sun Y., Zhuang, G. *, Huang K., Li J., Wang Q., Wang Y., Li Y., Fu J., Zhang W., Tang A., Zhao X., 2010. Asian dust over northern China and its impact on the downstream aerosol chemistry in 2004. Journal of Geophysical Research, 115: D00K09, doi:10. 1029/2009JD012757.
Wang X., Cui J., Tang A., Han W.*, Jiang R., 2010. Optimal operating condition of ICP-AES for determination of soil nutrients extracted by Mehlich 3 through solution simulation, 2010. Spectroscopy and Special Analysis, 30(9):2564-2566.
Shen J., Tang A., Liu X.*, Fangmeier A., Goulding K., Zhang F., 2009. High concentrations and dry deposition of reactive nitrogen species at two sites in the North China Plain. Environmental Pollution, 157(11): 3106-3113.
Han W., Huang M., Tang A., Shen J., Wang S., Liu X., Zhang F. *, 2009. Study on the Response of middle and trace elements in Humulus Scandens leaves to atmospheric reactive nitrogen with ICP-AES, Spectroscopy and Special Analysis, 29(12): 3399-3401.
Han W., Xu Y , Du W., Tang A., Jiang R. *, 2009. Stoichiometry of Multi-Elements in the Zinc-Cadmium Hyperaccumulator Thlaspi Caerulescens Grown Hydroponically under Different Zinc Concentrations Determined by ICP-AES, Spectroscopy and Spectral Analysis, 29(9): 2565-2567.
黄明丽, 李丽娜, 唐傲寒, 王娟, 韩文轩*, 2009. 猪饲料中重金属铅砷镉的含量和形态分析, 环境与健康杂志, 26(11): 1023.
Huang K., Zhuang G.*, Xu C., Wang Y., Tang A., 2008. The chemistry of the severe acidic precipitation in Shanghai, Atmoshperic Research, 89: 149-160.
Wang Y., Zhuang G. *, Tang A., Zhang W., Sun Y., Wang Z., An Z., 2007. The evolution of chemical components of aerosols at five monitoring sites of China during dust storms, Atmospheric Environment, 41(5): 1091-1106.
Sun Y., Zhuang G.*, Tang A., Wang Y., An Z., 2006. Chemical characteristics of PM2. 5 and PM10 in haze-fog episodes in Beijing. Environmental Science & Technology, 40: 3148-3155.
Wang Y., Zhuang, G.*, Zhang X., Huang K., Xu C., Tang A., Chen J., An Z., 2006. The ion chemistry and seasonal cycle of PM2. 5 and TSP aerosol in Shanghai. Atmospheric Environment, 40(16): 2935–2952.
Tang A., Zhuang G.*, Wang Y., Yuan H., Sun Y., 2005. The chemistry of precipitation and its relation to aerosol in Beijing. Atmospheric Environment, 39(19): 3397-3406, 2005.
Wang Y., Zhuang G. *, Tang A., Yuan H., Sun Y. , Chen S., Zheng A., The ion chemistry and the source of PM2. 5 aerosol in Beijing. Atmospheric Environment, 39(21): 3771-3784.
唐傲寒, 庄国顺, 王瑛, 袁蕙, 孙业乐, 北京大气湿沉降(降水)化学特征, 全国第二届环境化学会议, 2004/10, 上海, 中国, 3-48~3-50.
出版著作
大气气溶胶和雾霾新论. 上海科学技术出版社, 2019, 参编.
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