新中国成立70年来我国大气污染防治历程、成就与经验
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摘要
自20世纪70年代以来,我国在经济持续增长、能源消耗不断增加的同时,及时缓解了各类主要的大气环境问题,有效避免了欧美发达国家曾经出现的严重大气污染灾害.然而,目前我国仍然面临着大气污染尤其是二次污染的严峻挑战.为此,非常有必要全面梳理与分析新中国成立70年以来,特别是自20世纪70年代至今,我国大气污染防治的历程、成就与经验.结果表明:我国在各阶段的大气污染防治过程中均取得了较为明显的环境空气质量改善成就与较为丰富的污染防控经验,并在此过程中形成了具有中国特色的大气污染防治理论与管理模式,构建了系统科学的大气污染综合防控体系.今后我国大气污染治理工作应进一步明确各级政府主体责任,强化重点污染源治理,继续调整优化四大结构,统筹兼顾,强化区域联防联控,强化科技能力建设,注重大气环境问题预测,加强环境科学与技术研究,共同推进大气污染防治,打赢蓝天保卫战.
Since 1970 s,the major atmospheric environmental problems have been mitigated in time,severe atmospheric pollution disasters have been avoided efficiently,and the air quality has been improved significantly along with China's rapid economic growth and sustained increase in energy consumption. However,at present,China still faces serious challenges of air pollution,especially secondary pollution. Therefore,the process,achievements and experience of China's air pollution prevention and control since the founding of the People's Republic of China,especially since the 1970 s,were combed and analysed comprehensively. The achievements of air quality improvement,new theory and new management modes with Chinese characteristics were highlighted and a control system was established in the process of prevention and control of atmospheric pollution and the systematic scientific air pollution prevention. China's future air pollution control work should further clarify the main responsibilities of governments at all levels,strengthen the management of key pollution sources,continue to adjust and optimize the four major structures,make overall plans,strengthen regional joint defense and control,strengthen scientific and technological capacity building,pay attention to the prediction of atmospheric environmental problems,and strengthen research in environmental science and technology. In this way,the prevention and control of atmospheric pollution will be promoted together,so that the three-year plan on defending the blue sky will be completed satisfactorily.
Since 1970 s,the major atmospheric environmental problems have been mitigated in time,severe atmospheric pollution disasters have been avoided efficiently,and the air quality has been improved significantly along with China's rapid economic growth and sustained increase in energy consumption. However,at present,China still faces serious challenges of air pollution,especially secondary pollution. Therefore,the process,achievements and experience of China's air pollution prevention and control since the founding of the People's Republic of China,especially since the 1970 s,were combed and analysed comprehensively. The achievements of air quality improvement,new theory and new management modes with Chinese characteristics were highlighted and a control system was established in the process of prevention and control of atmospheric pollution and the systematic scientific air pollution prevention. China's future air pollution control work should further clarify the main responsibilities of governments at all levels,strengthen the management of key pollution sources,continue to adjust and optimize the four major structures,make overall plans,strengthen regional joint defense and control,strengthen scientific and technological capacity building,pay attention to the prediction of atmospheric environmental problems,and strengthen research in environmental science and technology. In this way,the prevention and control of atmospheric pollution will be promoted together,so that the three-year plan on defending the blue sky will be completed satisfactorily.
引文
[1]黄顺祥.大气污染与防治的过去、现在及未来[J].科学通报,2018,63(10):895-919.HUANG Shunxiang. Air pollution and control:past,present and future[J].Chinese Science Bulletin,2018,63(10):895-919.
[2] BILDE M,BARSANTI K,BOOTH M,et al. Saturation vapor pressures and transition enthalpies of low-volatility organic molecules of atmospheric relevance:from dicarboxylic acids to complex mixtures[J]. Chemical Reviews,2015,115(10):4115-4156.
[3]郝吉明,李欢欢.中国大气污染防治进程与展望[J].世界环境,2014(1):58-61.HAO Jiming,LI Huanhuan. Process and prospects of China air pollution control[J].World Environment,2014(1):58-61.
[4] ZHANG Daisheng,AUNAN K,SEIP H M,et al.The assessment of health damage caused by air pollution and its implication for policy making in Taiyuan,Shanxi,China[J]. Energy Policy,2010,38(1):491-502.
[5] HOLLAND M R. Assessment of the economic costs of damage caused by air-pollution[J].Water,Air,&Soil Pollution,1995,85(4):2583-2588.
[6]郝吉明.穿越风雨任重道远:大气污染防治40年回顾与展望[J].环境保护,2013(14):28-31.HAO Jiming. Crossing the storm and shouldering the heavy road:review and prospect of 40 years of prevention and control of atmospheric pollution[J].Environmental Protection,2013(14):28-31.
[7] Clean Air Asia.Breakthroughs:China's path to clean air 2013-2017[ROL].Beijing:Clean Air Asia,2018[2019-07-20].http:www.allaboutair.cnareports20181227527.html.
[8] FU G Q,XU W Y,RONG R F,et al.The distribution and trends of fog and haze in the North China Plain over the past 30 years[J].Atmospheric Chemistry and Physics,2014,14(11):11949-11958.
[9]国务院.国务院关于印发打赢蓝天保卫战三年行动计划的通知[R].北京:国务院,2018:1-2
[10] Anon.Cleaner air for China[J].Nature Geoscience,2019,12(7):497.
[11]王文兴,魏复盛,丁一汇,等.中国大气污染防治历史回顾、挑战与应对策略研究总结报告[R].北京:中国工程院,2017:8.
[12]联合国环境规划署.北京二十年大气污染治理历程与展望[R].内罗毕:联合国环境规划署,2019:6-33.
[13]解振华.中国改革开放40年生态环境保护的历史变革:从“三废”治理走向生态文明建设[J].中国环境管理,2019,11(4):5-10.XIE Zhenhua. China's historical evolution of envronmental protection along reform and opening-up over the last forty tears[J].Chinese Journal of Environmental Management,2019,11(4):5-10.
[14]生态环境部.中国空气质量改善报告(2013—2018年)[R].北京:生态环境部,2019:1-5.
[15] ZHAO P S,DONG F,HE D,et al.Characteristics of concentrations and chemical compositions for PM2. 5in the region of Beijing,Tianjin,and Hebei,China[J].Atmospheric Chemistry and Physics,2013,13(9):4631-4644.
[16] YANG F,TAN J,ZHAO Q,et al.Characteristics of PM2. 5speciation in representative megacities and across China[J]. Atmospheric Chemistry and Physics,2011,11(11):5207-5219.
[17] YAN Renchang,YU Shaocai,ZHANG Qingyu,et al.A heavy haze episode in Beijing in February of 2014:characteristics,origins and implications[J].Atmospheric Pollution Research,2015,6(5):867-876.
[18]蒋美青,陆克定,苏蓉,等.我国典型城市群O3污染成因和关键VOCs活性解析[J].科学通报,2018,63(12):1130-1141.JINAG Meiqing,LU Keding,SU Rong,et al. Ozone formation and key VOCs in typical Chinese city clusters[J]. Chinese Science Bulletin,2018,63(12):1130-1141.
[19] WANG Qiaoli,LI Sujing,DONG Minli,et al. VOCs emission characteristics and priority control analysis based on VOCs emission inventories and ozone formation potentials in Zhoushan[J].Atmospheric Environment,2018,182:234-241.
[20] WANG M,SHAO M,CHEN W,et al. Trends of non-methane hydrocarbons(NMHC)emissions in Beijing during 2002-2013[J].Atmospheric Chemistry and Physics,2015,15(3):1489-1502.
[21] TAN Zhaofeng,LU Keding,JIANG Meiqing,et al.Exploring ozone pollution in Chengdu,southwestern China:a case study from radical chemistry to O3-VOC-NOxsensitivity[J]. Science of the Total Environment,2018,636:775-786.
[22] LIU N,LIN W,MA J,et al.Seasonal variation in surface ozone and its regional characteristics at global atmosphere watch stations in China[J]. Journal of Environmental Science,2019,77(3):294-305.
[23] LI Bowei,HO S S H,GONG Sunling,et al. Characterization of VOCs and their related atmospheric processes in a central Chinese city during severe ozone pollution periods[J]. Atmospheric Chemistry and Physics,2019,19(1):617-638.
[24] WANG Lili,LIU Zirui,SUN Yang,et al. Long-range transport and regional sources of PM2. 5in Beijing based on long-term observations from 2005 to 2010[J]. Atmosheirc Research,2015,157:37-48.
[25] HU Jianlin,WU Li,ZHENG Bo,et al. Source contributions and regional transport of primary particulate matter in China[J].Environmental Pollution,2015,207:31-42.
[26] CHEN Yang,TIAN Mi,HUANG Ru'in,et al. Characterization of urban amine-containing particles in southwestern China:seasonal variation,source,and processing[J]. Atmospheric Chemistry and Physics,2019,19(5):3245-3255.
[27]蔡文清.今年年初雾霾一度覆盖四分之一国土影响6亿人[NOL].北京:北京晚报,2013-10-29[2019-07-30]. http:www. people.com.cn24hourn20131029c25408-23365750.html.
[28] ZHENG B,TONG D,LI M,et al.Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions[J].Atmospheric Chemistry and Physics,2018,18(19):14095-14111.
[29] LIN Boqiang,ZHU Junpeng. Changes in urban air quality during urbanization in China[J]. Journal of Cleaner Production,2018,188:312-321.
[30]姚灵丽.建国以来我国的经济发展状况[J].环球市场,2016(9):13.YAO Lingli. China's economic development since the founding of the People's Republic of China[J].Global Market,2016(9):13.
[31]王文兴,王纬,张婉华,等.我国SO2和NOx排放强度地理分布和历史趋势[J].中国环境科学,1996(3):161-167.WANG Wenxing, WANG Wei, ZHANG Wanhua, et al.Geographycal dstribution of SO2and NOxemission intersities and trends in China[J]. China Environmental Science,1996(3):161-167.
[32] LI Meng,LIU Huan,GENG Guannan,et al. Corrigendum to Anthropogenic emission inventories in China:a review[J].National Science Review,2017,4(6):834-866.
[33] HUANG Rujin,ZHANG Yanlin,BOZZETTI C,et al. High secondary aerosol contribution to particulate pollution during haze events in China[J].Nature,2014,514(7521):218-222.
[34]柴发合.中国未来三年大气污染治理形势预判与对策分析[J].中国环境监察,2019(1):29-31.CHAI Fahe. Analysis of control situation prediction and countermeasures of China's air pollution in the next three years[J].China Environmental Monitoring,2019(1):29-31.
[35] ZHANG Ju,OUYANG Zhiyun,MIAO Hong,et al. Ambient air quality trends and driving factor analysis in Beijing,1983-2007[J].Journal of Environmental Science,2011,23(12):2019-2028.
[36] ZHOU Kai,YOUHUA Y E,LIU Qiang,et al.Evaluation of ambient air quality in Guangzhou,China[J]. Journal of Environmental Science(English Edition),2007,19(4):432-437.
[37] ZHANG Hefeng,WANG Shunxiao,HAO Jiming,et al.Air pollution and control action in Beijing[J].Journal Cleaner Production,2016,112:1519-1527.
[38]张新民,柴发合,王淑兰,等.中国酸雨研究现状[J].环境科学研究,2010,23(5):527-532.ZHANG Xinmin,CHAI Fahe,WANG Shulan,et al. Research progress of acid recipition in China[J].Research of Environmental Sciences,2010,23(5):527-532.
[39] WANG Wenxing,WANG Tao.On the origin and the trend of acid precipitation in China[J]. Water,Air,&Soil Pollution,1985,85:2295-2300.
[40] WAN Yushan,WANG Wanmeng. Analysis on current situation,formation causes and control countermeasures of acid rain pollution in China[J]Meteorological and Environmental Research,2010,1(10):92-95.
[41] WANG Wenxing,WANG Tao.On acid rain formation in China[J].Atmospheric Environment,1996,30(23):4091-4093.
[42]王文兴,丁国安.中国降水酸度和离子浓度的时空分布[J].环境科学研究,1997,10(2):1-7.WANG Wenxing,DING Guo'an.The geographical distribution of ion concentration in precipitation over China[J]. Research of Environmental Sciences,1997,10(2):1-7.
[43]丁国安,徐晓斌,王淑凤,等.中国气象局酸雨网基本资料数据集及初步分析[J].应用气象学报,2004(15):85-94.DING Guoan,XU Xiaobin,WANG Shufeng,et al.Database from the acid rain network of China meteorological administration and its preliminary analyses[J]. Journal of Applied Meteorological Science,2004(15):85-94.
[44]罗璇,李军,张鹏,等.中国雨水化学组成及其来源的研究进展[J].地球与环境,2013,41(5):566-574.LUO Xuan,LI Jun,ZHANG Peng,et al. Advances in research on the chemical composition of precipitation and its sources in China[J].Earth and Environment,2013,41(5):566-574.
[45]生态环境部. 2018年中国生态环境状况公报[R].北京:生态环境部,2019:7-16.
[46]李丽平,周国梅,季浩宇.污染减排的协同效应评价研:以攀枝花市为例[J].中国人口·资源与环境,2010,20(5):91-95.LI Liping,ZHOU Guomei,JI Haoyu.Study of co-benefits assessment of pollution reduction:a case study in Panzhihua[J]. China Population Resources and Environment,2010,20(5):91-95.
[47]李丽平,姜苹红,李雨青,等.湘潭市“十一五”总量减排措施对温室气体减排协同效应评价研究[J].环境与可持续发展,2012,37(1):36-40.LI Liping,JIANG Pinghong,LI Yuqing,et al. Study of co-benefits assessment of pollution reduction on greenhouse gas reduction in Xiangtan during 11thFive-Year Plan[J]. Environment and Sustainable Development,2012,37(1):36-40.
[48]邢有凯.北京市“煤改电”工程对大气污染物和温室气体的协同减排效果核算[C]中国环境科学学会.中国环境科学学会学术年会论文集.北京:中国环境科学学会,2016:3186-3191.
[49]朱利,秦翠红.基于清洁能源替代的港口SO2和CO2协同减排研究[J].中国水运,2018,18(10):136-137.ZHU Li,QIN Cuihong. Research on synergistic emission reduction of SO2and CO2in ports based on clean energy substitution[J].China Water Transport,2018,18(10):136-137.
[50] TAO Minghui,CHEN Liangfu,LI Rong,et al.Spatial oscillation of the particle pollution in eastern China during winter:implications for regional air quality and climate[J]. Atmospheric Environment.2016,144:100-110.
[51]雷宇,薛文博,张衍燊,等.国家《大气污染防治行动计划》健康效益评估[J].中国环境管理,2015,7(5):50-53.LEI Yu,XUE Wenbo,ZHANG Yansheng,et al. Health benefit evaluation for air pollution prevention and control action plan in China[J].Chinese Journal of Environmental Management,2015,7(5):50-53.
[52] LIN Hualiang,LIU Tao,XIAO Jianpeng,et al. Quantifying shortterm and long-term health benefits of attaining ambient fine particulate pollution standards in Guangzhou, China[J].Atmospheric Environment,2016,137:38-44.
[53] LIN Hualiang,LIU Tao,XIAO Jianpeng,et al. Mortality burden of ambient fine particulate air pollution in six Chinese cities:results from the Pearl River Delta study[J]. Environment International,2016,96:91-97.
[54]张伟,王金南,蒋洪强,等.《大气污染防治行动计划》实施对经济与环境的潜在影响[J].环境科学研究,2015,28(1):1-7.ZHANG Wei,WANG Jinnan,JIANG Hongqiang,et al. Potential economy and environment impacts of China's National Air Pollution Control Action Plan[J].Research of Environmental Sciences,2015,28(1):1-7.
[55] LI Ke,JACOB D J,LIAO Hong,et al. Anthropogenic drivers of2013-2017 trends in summer surface ozone in China[J].Proceedings of the National Academy of Sciences of the United States of America,2019,116(2):422-427.
[56]张国宁,周扬胜.我国大气污染防治标准的立法演变和发展研究[J].中国政法大学学报,2016(1):97-115.ZHANG Guoning,ZHOU Yangsheng. Research on the legislation evolution and development of air pollution prevention and control in China[J]. Journal of China University of Political Science and Law,2016(1):97-115.
[57] WU Ping,DING Yihui,LIU Yanjun. Atmospheric circulation and dynamic mechanism for persistent haze events in the BeijingTianjin-Hebei Region[J]. Advances in Atmospheric Sciences,2017,34(4):429-440.
[58] WANG Hongbo,ZHAO Laijun. A joint prevention and control mechanism for air pollution in the Beijing-Tianjin-Hebei Region in china based on long-term and massive data mining of pollutant concentration[J].Atmospheric Environment,2018,174:25-42.
[59] HU J,YING Q,WANG Y,et al. Characterizing multi-pollutant air pollution in China:comparison of three air quality indices[J].Environment International,2015,84:17-25.
[60] LIU Xueyan,GAO Xiaolong.A new study on air quality standards:air quality measurement and evaluation for Jiangsu Province based on six major air pollutants[J].Sustainability,2018,10(10):1-16.
[61] DING A J,FU C B,YANG X Q,et al.Ozone and fine particle in the western Yangtze River Delta:an overview of 1 yr data at the SORPES station[J]. Atmospheric Chemistry and Physics,2013,13(11):5813-5830.
[62] SUN J,LIANG M,SHI Z,et al. Investigating the PM2. 5mass concentration growth processes during 2013-2016 in Beijing and Shanghai[J].Chemosphere,2019,221:452-463.
[2] BILDE M,BARSANTI K,BOOTH M,et al. Saturation vapor pressures and transition enthalpies of low-volatility organic molecules of atmospheric relevance:from dicarboxylic acids to complex mixtures[J]. Chemical Reviews,2015,115(10):4115-4156.
[3]郝吉明,李欢欢.中国大气污染防治进程与展望[J].世界环境,2014(1):58-61.HAO Jiming,LI Huanhuan. Process and prospects of China air pollution control[J].World Environment,2014(1):58-61.
[4] ZHANG Daisheng,AUNAN K,SEIP H M,et al.The assessment of health damage caused by air pollution and its implication for policy making in Taiyuan,Shanxi,China[J]. Energy Policy,2010,38(1):491-502.
[5] HOLLAND M R. Assessment of the economic costs of damage caused by air-pollution[J].Water,Air,&Soil Pollution,1995,85(4):2583-2588.
[6]郝吉明.穿越风雨任重道远:大气污染防治40年回顾与展望[J].环境保护,2013(14):28-31.HAO Jiming. Crossing the storm and shouldering the heavy road:review and prospect of 40 years of prevention and control of atmospheric pollution[J].Environmental Protection,2013(14):28-31.
[7] Clean Air Asia.Breakthroughs:China's path to clean air 2013-2017[ROL].Beijing:Clean Air Asia,2018[2019-07-20].http:www.allaboutair.cnareports20181227527.html.
[8] FU G Q,XU W Y,RONG R F,et al.The distribution and trends of fog and haze in the North China Plain over the past 30 years[J].Atmospheric Chemistry and Physics,2014,14(11):11949-11958.
[9]国务院.国务院关于印发打赢蓝天保卫战三年行动计划的通知[R].北京:国务院,2018:1-2
[10] Anon.Cleaner air for China[J].Nature Geoscience,2019,12(7):497.
[11]王文兴,魏复盛,丁一汇,等.中国大气污染防治历史回顾、挑战与应对策略研究总结报告[R].北京:中国工程院,2017:8.
[12]联合国环境规划署.北京二十年大气污染治理历程与展望[R].内罗毕:联合国环境规划署,2019:6-33.
[13]解振华.中国改革开放40年生态环境保护的历史变革:从“三废”治理走向生态文明建设[J].中国环境管理,2019,11(4):5-10.XIE Zhenhua. China's historical evolution of envronmental protection along reform and opening-up over the last forty tears[J].Chinese Journal of Environmental Management,2019,11(4):5-10.
[14]生态环境部.中国空气质量改善报告(2013—2018年)[R].北京:生态环境部,2019:1-5.
[15] ZHAO P S,DONG F,HE D,et al.Characteristics of concentrations and chemical compositions for PM2. 5in the region of Beijing,Tianjin,and Hebei,China[J].Atmospheric Chemistry and Physics,2013,13(9):4631-4644.
[16] YANG F,TAN J,ZHAO Q,et al.Characteristics of PM2. 5speciation in representative megacities and across China[J]. Atmospheric Chemistry and Physics,2011,11(11):5207-5219.
[17] YAN Renchang,YU Shaocai,ZHANG Qingyu,et al.A heavy haze episode in Beijing in February of 2014:characteristics,origins and implications[J].Atmospheric Pollution Research,2015,6(5):867-876.
[18]蒋美青,陆克定,苏蓉,等.我国典型城市群O3污染成因和关键VOCs活性解析[J].科学通报,2018,63(12):1130-1141.JINAG Meiqing,LU Keding,SU Rong,et al. Ozone formation and key VOCs in typical Chinese city clusters[J]. Chinese Science Bulletin,2018,63(12):1130-1141.
[19] WANG Qiaoli,LI Sujing,DONG Minli,et al. VOCs emission characteristics and priority control analysis based on VOCs emission inventories and ozone formation potentials in Zhoushan[J].Atmospheric Environment,2018,182:234-241.
[20] WANG M,SHAO M,CHEN W,et al. Trends of non-methane hydrocarbons(NMHC)emissions in Beijing during 2002-2013[J].Atmospheric Chemistry and Physics,2015,15(3):1489-1502.
[21] TAN Zhaofeng,LU Keding,JIANG Meiqing,et al.Exploring ozone pollution in Chengdu,southwestern China:a case study from radical chemistry to O3-VOC-NOxsensitivity[J]. Science of the Total Environment,2018,636:775-786.
[22] LIU N,LIN W,MA J,et al.Seasonal variation in surface ozone and its regional characteristics at global atmosphere watch stations in China[J]. Journal of Environmental Science,2019,77(3):294-305.
[23] LI Bowei,HO S S H,GONG Sunling,et al. Characterization of VOCs and their related atmospheric processes in a central Chinese city during severe ozone pollution periods[J]. Atmospheric Chemistry and Physics,2019,19(1):617-638.
[24] WANG Lili,LIU Zirui,SUN Yang,et al. Long-range transport and regional sources of PM2. 5in Beijing based on long-term observations from 2005 to 2010[J]. Atmosheirc Research,2015,157:37-48.
[25] HU Jianlin,WU Li,ZHENG Bo,et al. Source contributions and regional transport of primary particulate matter in China[J].Environmental Pollution,2015,207:31-42.
[26] CHEN Yang,TIAN Mi,HUANG Ru'in,et al. Characterization of urban amine-containing particles in southwestern China:seasonal variation,source,and processing[J]. Atmospheric Chemistry and Physics,2019,19(5):3245-3255.
[27]蔡文清.今年年初雾霾一度覆盖四分之一国土影响6亿人[NOL].北京:北京晚报,2013-10-29[2019-07-30]. http:www. people.com.cn24hourn20131029c25408-23365750.html.
[28] ZHENG B,TONG D,LI M,et al.Trends in China's anthropogenic emissions since 2010 as the consequence of clean air actions[J].Atmospheric Chemistry and Physics,2018,18(19):14095-14111.
[29] LIN Boqiang,ZHU Junpeng. Changes in urban air quality during urbanization in China[J]. Journal of Cleaner Production,2018,188:312-321.
[30]姚灵丽.建国以来我国的经济发展状况[J].环球市场,2016(9):13.YAO Lingli. China's economic development since the founding of the People's Republic of China[J].Global Market,2016(9):13.
[31]王文兴,王纬,张婉华,等.我国SO2和NOx排放强度地理分布和历史趋势[J].中国环境科学,1996(3):161-167.WANG Wenxing, WANG Wei, ZHANG Wanhua, et al.Geographycal dstribution of SO2and NOxemission intersities and trends in China[J]. China Environmental Science,1996(3):161-167.
[32] LI Meng,LIU Huan,GENG Guannan,et al. Corrigendum to Anthropogenic emission inventories in China:a review[J].National Science Review,2017,4(6):834-866.
[33] HUANG Rujin,ZHANG Yanlin,BOZZETTI C,et al. High secondary aerosol contribution to particulate pollution during haze events in China[J].Nature,2014,514(7521):218-222.
[34]柴发合.中国未来三年大气污染治理形势预判与对策分析[J].中国环境监察,2019(1):29-31.CHAI Fahe. Analysis of control situation prediction and countermeasures of China's air pollution in the next three years[J].China Environmental Monitoring,2019(1):29-31.
[35] ZHANG Ju,OUYANG Zhiyun,MIAO Hong,et al. Ambient air quality trends and driving factor analysis in Beijing,1983-2007[J].Journal of Environmental Science,2011,23(12):2019-2028.
[36] ZHOU Kai,YOUHUA Y E,LIU Qiang,et al.Evaluation of ambient air quality in Guangzhou,China[J]. Journal of Environmental Science(English Edition),2007,19(4):432-437.
[37] ZHANG Hefeng,WANG Shunxiao,HAO Jiming,et al.Air pollution and control action in Beijing[J].Journal Cleaner Production,2016,112:1519-1527.
[38]张新民,柴发合,王淑兰,等.中国酸雨研究现状[J].环境科学研究,2010,23(5):527-532.ZHANG Xinmin,CHAI Fahe,WANG Shulan,et al. Research progress of acid recipition in China[J].Research of Environmental Sciences,2010,23(5):527-532.
[39] WANG Wenxing,WANG Tao.On the origin and the trend of acid precipitation in China[J]. Water,Air,&Soil Pollution,1985,85:2295-2300.
[40] WAN Yushan,WANG Wanmeng. Analysis on current situation,formation causes and control countermeasures of acid rain pollution in China[J]Meteorological and Environmental Research,2010,1(10):92-95.
[41] WANG Wenxing,WANG Tao.On acid rain formation in China[J].Atmospheric Environment,1996,30(23):4091-4093.
[42]王文兴,丁国安.中国降水酸度和离子浓度的时空分布[J].环境科学研究,1997,10(2):1-7.WANG Wenxing,DING Guo'an.The geographical distribution of ion concentration in precipitation over China[J]. Research of Environmental Sciences,1997,10(2):1-7.
[43]丁国安,徐晓斌,王淑凤,等.中国气象局酸雨网基本资料数据集及初步分析[J].应用气象学报,2004(15):85-94.DING Guoan,XU Xiaobin,WANG Shufeng,et al.Database from the acid rain network of China meteorological administration and its preliminary analyses[J]. Journal of Applied Meteorological Science,2004(15):85-94.
[44]罗璇,李军,张鹏,等.中国雨水化学组成及其来源的研究进展[J].地球与环境,2013,41(5):566-574.LUO Xuan,LI Jun,ZHANG Peng,et al. Advances in research on the chemical composition of precipitation and its sources in China[J].Earth and Environment,2013,41(5):566-574.
[45]生态环境部. 2018年中国生态环境状况公报[R].北京:生态环境部,2019:7-16.
[46]李丽平,周国梅,季浩宇.污染减排的协同效应评价研:以攀枝花市为例[J].中国人口·资源与环境,2010,20(5):91-95.LI Liping,ZHOU Guomei,JI Haoyu.Study of co-benefits assessment of pollution reduction:a case study in Panzhihua[J]. China Population Resources and Environment,2010,20(5):91-95.
[47]李丽平,姜苹红,李雨青,等.湘潭市“十一五”总量减排措施对温室气体减排协同效应评价研究[J].环境与可持续发展,2012,37(1):36-40.LI Liping,JIANG Pinghong,LI Yuqing,et al. Study of co-benefits assessment of pollution reduction on greenhouse gas reduction in Xiangtan during 11thFive-Year Plan[J]. Environment and Sustainable Development,2012,37(1):36-40.
[48]邢有凯.北京市“煤改电”工程对大气污染物和温室气体的协同减排效果核算[C]中国环境科学学会.中国环境科学学会学术年会论文集.北京:中国环境科学学会,2016:3186-3191.
[49]朱利,秦翠红.基于清洁能源替代的港口SO2和CO2协同减排研究[J].中国水运,2018,18(10):136-137.ZHU Li,QIN Cuihong. Research on synergistic emission reduction of SO2and CO2in ports based on clean energy substitution[J].China Water Transport,2018,18(10):136-137.
[50] TAO Minghui,CHEN Liangfu,LI Rong,et al.Spatial oscillation of the particle pollution in eastern China during winter:implications for regional air quality and climate[J]. Atmospheric Environment.2016,144:100-110.
[51]雷宇,薛文博,张衍燊,等.国家《大气污染防治行动计划》健康效益评估[J].中国环境管理,2015,7(5):50-53.LEI Yu,XUE Wenbo,ZHANG Yansheng,et al. Health benefit evaluation for air pollution prevention and control action plan in China[J].Chinese Journal of Environmental Management,2015,7(5):50-53.
[52] LIN Hualiang,LIU Tao,XIAO Jianpeng,et al. Quantifying shortterm and long-term health benefits of attaining ambient fine particulate pollution standards in Guangzhou, China[J].Atmospheric Environment,2016,137:38-44.
[53] LIN Hualiang,LIU Tao,XIAO Jianpeng,et al. Mortality burden of ambient fine particulate air pollution in six Chinese cities:results from the Pearl River Delta study[J]. Environment International,2016,96:91-97.
[54]张伟,王金南,蒋洪强,等.《大气污染防治行动计划》实施对经济与环境的潜在影响[J].环境科学研究,2015,28(1):1-7.ZHANG Wei,WANG Jinnan,JIANG Hongqiang,et al. Potential economy and environment impacts of China's National Air Pollution Control Action Plan[J].Research of Environmental Sciences,2015,28(1):1-7.
[55] LI Ke,JACOB D J,LIAO Hong,et al. Anthropogenic drivers of2013-2017 trends in summer surface ozone in China[J].Proceedings of the National Academy of Sciences of the United States of America,2019,116(2):422-427.
[56]张国宁,周扬胜.我国大气污染防治标准的立法演变和发展研究[J].中国政法大学学报,2016(1):97-115.ZHANG Guoning,ZHOU Yangsheng. Research on the legislation evolution and development of air pollution prevention and control in China[J]. Journal of China University of Political Science and Law,2016(1):97-115.
[57] WU Ping,DING Yihui,LIU Yanjun. Atmospheric circulation and dynamic mechanism for persistent haze events in the BeijingTianjin-Hebei Region[J]. Advances in Atmospheric Sciences,2017,34(4):429-440.
[58] WANG Hongbo,ZHAO Laijun. A joint prevention and control mechanism for air pollution in the Beijing-Tianjin-Hebei Region in china based on long-term and massive data mining of pollutant concentration[J].Atmospheric Environment,2018,174:25-42.
[59] HU J,YING Q,WANG Y,et al. Characterizing multi-pollutant air pollution in China:comparison of three air quality indices[J].Environment International,2015,84:17-25.
[60] LIU Xueyan,GAO Xiaolong.A new study on air quality standards:air quality measurement and evaluation for Jiangsu Province based on six major air pollutants[J].Sustainability,2018,10(10):1-16.
[61] DING A J,FU C B,YANG X Q,et al.Ozone and fine particle in the western Yangtze River Delta:an overview of 1 yr data at the SORPES station[J]. Atmospheric Chemistry and Physics,2013,13(11):5813-5830.
[62] SUN J,LIANG M,SHI Z,et al. Investigating the PM2. 5mass concentration growth processes during 2013-2016 in Beijing and Shanghai[J].Chemosphere,2019,221:452-463.
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