Air quality improvement in a megacity: implications from 2015 Beijing Parade Blue pollution control actions

Wen Xu; Wei Song; Yangyang Zhang; Xuejun Liu; Lin Zhang; Yuanhong Zhao; Duanyang Liu; Aohan Tang; Daowei Yang; Dandan Wang; Zhang Wen; Yuepeng Pan; David Fowler; Jeffrey L. Collett Jr.; Jan Willem Erisman; Keith Goulding; Yi Li; Fusuo Zhang

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Air quality improvement in a megacity: implications from 2015 Beijing Parade Blue pollution control actions

机译：兆的空气质量改善：2015年北京游行蓝污染控制行动的含义

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The implementation of strict emission control measures in Beijing and surrounding regions during the 2015 China Victory Day Parade provided a valuable opportunity to investigate related air quality improvements in a megacity. We measured NH_3, NO_2 and PM_(2.5) at multiple sites in and outside Beijing and summarized concentrations of PM_(2.5), PM_(10), NO_2, SO_2 and CO in 291 cities across China from a national urban air quality monitoring network between August and September 2015. Consistently significant reductions of 12-35% for NH_3 and 33-59% for NO_2 in different areas of Beijing during the emission control period (referred to as the Parade Blue period) were observed compared with measurements in the pre- and post-Parade Blue periods without emission controls. Average NH_3 and NO_2 concentrations at sites near traffic were strongly correlated and showed positive and significant responses to traffic reduction measures, suggesting that traffic is an important source of both NH_3 and NO_x in urban Beijing. Daily concentrations of PM_(2.5) and secondary inorganic aerosol (sulfate, ammonium and nitrate) at the urban and rural sites both decreased during the Parade Blue period. During (after) the emission control period, concentrations of PM_(2.5), PM_(10), NO_2, SO_2 and CO from the national city-monitoring network showed the largest decrease (increase) of 34-72% (50-214 %) in Beijing, a smaller decrease (a moderate increase) of 1-32% (16-44 %) in emission control regions outside Beijing and an increase (decrease) of 6-16% (-2-7 %) in non-emissioncontrol regions of China. Integrated analysis of modelling and monitoring results demonstrated that emission control measures made a major contribution to air quality improve- ment in Beijing compared with a minor contribution from favourable meteorological conditions during the Parade Blue period. These results show that controls of secondary aerosol precursors (NH_3, SO_2 and NO_x ) locally and regionally are key to curb

机译：2015年中国胜利日游行中北京及周边地区严格排放控制措施的实施提供了一个有价值的机会，可以调查巨大的空气质量改善。我们在北京和外部的多个地点测量了NH_3，NO_2和PM_（2.5），总结了PM_（2.5），PM_（10），NO_2，SO_2和中国两国之间的291个城市之间的CO，以及与之间的291个城市之间2015年8月和9月。与预期中的测量相比，观察到在北京的不同领域NH_3和33-59％的NH_3和33-59％的NH_3和33-59％的始终如一的重大减少。没有排放控制的后期蓝色时期。在交通附近的地点的平均NH_3和NO_2浓度强烈相关，并对交通减少措施表现出积极和显着的响应，这表明交通是北京城市NH_3和NO_X的重要来源。在平蓝期间，城乡场地的每日PM_（2.5）和二级无机气溶胶（硫酸盐，铵和硝酸盐）减少。在（之后）排放控制期间，PM_（2.5），PM_（10），NO_2，SO_2和国家城市监测网络的CO的浓度显示出最大的减少（增加）34-72％（50-214％））在北京，北京以外的排放控制地区的减少（适度增加）减少（适度增加），增加（减少）6-16％（-2-7％）的非 - 中国的emissionControl地区。建模和监测结果的综合分析表明，排放控制措施对北京的空气质量提升作出了重大贡献，而在蓝蓝期间的良好气象条件的少量贡献相比。这些结果表明，局部和区域地区的二次气溶胶前体（NH_3，SO_2和NO_X）的控制是抑制的关键

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来源
《Atmospheric chemistry and physics》 |2017年第1期|共16页
作者
Wen Xu; Wei Song; Yangyang Zhang; Xuejun Liu; Lin Zhang; Yuanhong Zhao; Duanyang Liu; Aohan Tang; Daowei Yang; Dandan Wang; Zhang Wen; Yuepeng Pan; David Fowler; Jeffrey L. Collett Jr.; Jan Willem Erisman; Keith Goulding; Yi Li; Fusuo Zhang;
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作者单位

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

Institute of Surface-Earth System Science Tianjin University Tianjin 300072 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

Laboratory for Climate and Ocean-Atmosphere Studies Department of Atmospheric and Oceanic Sciences School of Physics Peking University Beijing 100871 China;

Laboratory for Climate and Ocean-Atmosphere Studies Department of Atmospheric and Oceanic Sciences School of Physics Peking University Beijing 100871 China;

Jiangsu Meteorological Observatory Nanjing 210008 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry (LAPC) Institute of Atmospheric Physics Chinese Academy of Sciences Beijing 100029 China;

Centre for Ecology and Hydrology Edinburgh Bush Estate Penicuik Midlothian EH26 0QB UK;

Department of Atmospheric Science Colorado State University Fort Collins CO80523 USA;

Louis Bolk Institute Hoofdstraat 24 3972 LA Driebergen the Netherlands;

The Sustainable Soil and Grassland Systems Department Rothamsted Research West Common Harpenden Hertfordshire AL5 2JQ UK;

Arizona Department of Environmental Quality Phoenix AZ 85007 USA;

College of Resources and Environmental Sciences Center for Resources Environment and Food Security Key Laboratory of Plant-Soil Interactions of MOE China Agricultural University Beijing 100193 China;

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原文格式 PDF
正文语种 eng
中图分类大气科学（气象学）;
关键词
Air quality improvement; implications; pollution control actions;

机译：空气质量改善;含义;污染控制行动;

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1. Air quality improvement in a megacity: implications from 2015??Beijing Parade Blue pollution control actions [J] . Xu Wen, Song Wei, Zhang Yangyang, Atmospheric Chemistry and Physics Discussions . 2017,第1期

机译：大城市空气质量改善：2015年的启示-北京游行蓝色污染控制行动
2. Air quality improvement in a megacity: implications from 2015?Beijing Parade Blue pollution control actions [J] . Xu Wen, Song Wei, Zhang Yangyang, Atmospheric chemistry and physics . 2017,第1期

机译：大城市空气质量改善：2015年的意义？北京游行蓝色污染控制行动
3. Air quality improvement in a megacity: implications from 2015 Beijing Parade Blue pollution control actions [J] . Wen Xu, Wei Song, Yangyang Zhang, Atmospheric chemistry and physics . 2017,第1aPta1期

机译：兆的空气质量改善：2015年北京游行蓝污染控制行动的含义
4. Effect of Construction Fugitive Dust on air quality and Pollution Control Planning for Beijing Area [C] . 2006 Beijing International Environmental Technology Conference（2006北京环境技术国际会议）论文集 . 2006

机译：施工扬尘对北京地区空气质量的影响及污染防治计划
5. PM2.5 Data Reliability and Air Quality Improvement Trends in Beijing [D] . Li, Huimin 2019

机译：北京PM2.5数据可靠性和空气质量改善趋势
6. A paradox for air pollution controlling in China revealed by APEC Blue and Parade Blue [O] . Haoran Liu, Cheng Liu, Zhouqing Xie, -1

机译：APEC Blue和 Parade Blue揭示了中国控制空气污染的悖论
7. Air quality improvement in a megacity: implications from 2015 Beijing Parade Blue pollution control actions [O] . Xu Wen, Song Wei, Zhang Yangyang, 2017

机译：大城市空气质量改善：2015北京游行蓝色污染控制行动的启示

Air quality improvement in a megacity: implications from 2015 Beijing Parade Blue pollution control actions

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