未来欧洲-大西洋区域大气环流变化对城市PM2.5浓度的影响

G. Messori, Dave van Wees, F. Pausata, J. A. Acosta Navarro, A. Hannachi, F. Dentener
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引用次数: 4

摘要

空气质量管理受到与空气质量超标有关的立法方面的强烈推动。在这里,我们使用挪威气候中心的地球系统模型来评估最大可行气溶胶排放减少和温室气体增加(RCP4.5)的未来情景对欧洲城市PM2.5浓度的影响。每日PM2.5浓度的评估使用一种新颖的降尺度方法,使我们能够计算当前和计划的空气质量阈值的超出情况。对于后者,我们假设未来雄心勃勃的减排可能伴随着更严格的空气质量门槛。PM2.5浓度的变化是在观测到的相对于当今气候的大尺度大气变化的背景下讨论的。我们的研究结果表明,未来北大西洋涛动的平均状态将更加积极,同时北大西洋两个海平面压力中心的作用也将大幅东移。这与更频繁的中纬度阻塞和急流向北移动有关。这些变化有利于南欧人为城市PM2.5浓度高于预期,而对欧洲大陆北半部产生相反的影响。在未来的情景中,南欧大部分地区的PM浓度被发现超过世界卫生组织空气质量指南每日25 μg/m3的限制,每年有25天至50多天,并且在我们研究分析的30年中,超过80%的年指导值为10 μg/m3。我们的结论是,未来由严格的最大可行空气污染缓解措施以及温室气体排放引起的大气环流变化,将对欧洲大部分地区这些减排措施的有效性产生负面影响。这对未来的空气质量政策具有重要意义。
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The impact of future atmospheric circulation changes over the Euro-Atlantic sector on urban PM2.5 concentrations
Abstract Air quality management is strongly driven by legislative aspects related to the exceedance of air quality limit values. Here, we use the Norwegian Climate Centre’s Earth System Model to assess the impact of a future scenario of maximum feasible aerosol emission abatement and increasing greenhouse gases (RCP4.5) on urban PM2.5 concentrations in Europe. Daily PM2.5 concentrations are assessed using a novel downscaling method which allows us to compute exceedances of current and planned air quality thresholds. For the latter, we assume that future ambitious emission reductions are likely to be accompanied by stricter air quality thresholds. The changes in PM2.5 concentrations are discussed in the context of the large-scale atmospheric changes observed relative to the present-day climate. Our results show a more positive North Atlantic Oscillation mean state in the future, combined with a large eastward shift of both North Atlantic sea-level pressure centres of action. This is associated with more frequent mid-latitude blocking and a northward shift of the jet stream. These changes favour higher than expected anthropogenic urban PM2.5 concentrations in Southern Europe, while they have the opposite effect on the northern half of the continent. In the future scenario, PM concentrations in substantial parts of Southern Europe are found to exceed the World Health Organisation Air Quality Guideline daily limit of 25 μg/m3 on 25 to over 50 days per year, and annual guidelines of 10 µg/m3 on more than 80% of the 30 years analysed in our study. We conclude that alterations in atmospheric circulation in the future, induced by stringent maximum feasible air pollution mitigation as well as GHG emissions, will negatively influence the effectiveness of these emission abatements over large parts of Europe. This has important implications for future air quality policies.
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