Identification of NO2 and SO2 over China: Characterization of polluted and hotspots Provinces

IF 2.9 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Air Quality Atmosphere and Health Pub Date : 2024-04-30 DOI:10.1007/s11869-024-01565-8

Md. Arfan Ali, Mazen E. Assiri, M. Nazrul Islam, Muhamad Bilal, Ayman Ghulam, Zhongwei Huang

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引用次数: 0

Abstract

Increasing emissions of aerosol and trace gases (e.g. nitrogen dioxide: NO₂ and sulfur dioxide: SO₂) have resulted in severe air pollution in China due to its rapid industrialization, economic growth, and urbanization. This resulted in numerous environmental and health problems, and poor air quality mainly in industrial areas and major cities. This study identifies long-term (2005‒2020) Ozone Monitoring Instrument (OMI) based NO₂ and SO₂ pollution hotspots across China by analyzing spatiotemporal distributions and variations, with characterization of polluted provinces, SO₂/NO₂ ratio, trend, and assessing how effective China’s Air Pollution Control Policy (APCP) is on NO₂ and SO₂. Results show that NO₂ and SO₂ pollution hotspots were seen in China's central (Hubei), eastern (Anhui, Jiangsu, Shandong, Zhejiang), northern (Beijing, Hebei, Henan, Shanxi, Tianjin), northeast (Liaoning, Jilin), northwestern (Urumqi), southern (Guangdong, Hong Kong), and southwest (Chongqing, Sichuan). However, the pollution level was higher in winter, followed by autumn, spring, and summer. China’s eight provinces (Tianjin, Shanghai, Shandong, Jiangsu, Beijing, Hebei, Hong Kong, and Henan) were identified as extremely polluted with high NO₂ levels ranging from 16.86 − 9.75 (10¹⁵ molecules/cm²), whereas Shandong, Tianjin, Hebei, Beijing, Henan, Shanxi, Jiangsu, Shanghai, Anhui, and Liaoning were deemed to extremely polluted provinces with high SO₂ levels ranging from 20.62 − 14.30 (10¹⁵ molecules/cm²). Moreover, the SO₂/NO₂ ratio for 27 Chinese provinces fluctuates between 1.02 to 4.98, indicating industries emit more SO₂ than NO₂. Finally, China’s air pollution control policies (APCP) led to the largest annual reductions in NO₂ during the 12th five-year plan (FYP) (6%‒94%) and SO₂ during the 11th FYP (6%‒74%). The present study concludes, however, that China’s APCP improved air quality by easing NO₂ and SO₂ emissions. This study recommends that the Chinese government may adopt a comprehensive strategy to reduce air pollution, including investing in clean energy, promoting electric vehicles, enforcing strict emission standards for industries, implementing green building practices, and raising public awareness about pollution reduction.

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识别中国上空的二氧化氮和二氧化硫：污染省份和热点省份的特征

由于中国的快速工业化、经济增长和城市化，气溶胶和痕量气体（如二氧化氮和二氧化硫）的排放量不断增加，造成了严重的空气污染。这导致了许多环境和健康问题，主要是工业区和大城市的空气质量较差。本研究通过分析时空分布和变化、污染省份特征、二氧化硫/二氧化氮比例、趋势，以及评估中国空气污染控制政策（APCP）对二氧化氮和二氧化硫的有效程度，确定了基于臭氧监测仪器（OMI）的中国长期（2005-2020 年）二氧化氮和二氧化硫污染热点。结果显示，中国的中部（湖北）、东部（安徽、江苏、山东、浙江）、北部（北京、河北、河南、山西、天津）、东北部（辽宁、吉林）、西北部（乌鲁木齐）、南部（广东、香港）和西南部（重庆、四川）出现了二氧化氮和二氧化硫污染热点地区。然而，冬季的污染程度较高，其次是秋季、春季和夏季。中国的八个省份（天津、上海、山东、江苏、北京、河北、香港和河南）被确定为极度污染地区，其二氧化氮水平从 16.86 到 9.75（1015 摩尔/平方厘米），而山东、天津、河北、北京、河南、山西、江苏、上海、安徽和辽宁则被认定为极度污染省份，二氧化硫水平较高，在 20.62 - 14.30（1015 摩尔/平方厘米）之间。此外，中国 27 个省份的二氧化硫/二氧化氮比值在 1.02 至 4.98 之间波动，表明工业排放的二氧化硫多于二氧化氮。最后，中国的大气污染控制政策（APCP）使 "十二五 "期间的二氧化氮年降幅最大（6%-94%），"十一五 "期间的二氧化硫年降幅最大（6%-74%）。然而，本研究得出结论，中国的 APCP 通过缓解二氧化氮和二氧化硫的排放改善了空气质量。本研究建议中国政府采取综合战略减少空气污染，包括投资清洁能源、推广电动汽车、严格执行工业排放标准、实施绿色建筑实践以及提高公众的污染减排意识。

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来源期刊

Air Quality Atmosphere and Health ENVIRONMENTAL SCIENCES-

CiteScore

8.80

自引率

2.00%

发文量

146

审稿时长

>12 weeks

期刊介绍： Air Quality, Atmosphere, and Health is a multidisciplinary journal which, by its very name, illustrates the broad range of work it publishes and which focuses on atmospheric consequences of human activities and their implications for human and ecological health. It offers research papers, critical literature reviews and commentaries, as well as special issues devoted to topical subjects or themes. International in scope, the journal presents papers that inform and stimulate a global readership, as the topic addressed are global in their import. Consequently, we do not encourage submission of papers involving local data that relate to local problems. Unless they demonstrate wide applicability, these are better submitted to national or regional journals. Air Quality, Atmosphere & Health addresses such topics as acid precipitation; airborne particulate matter; air quality monitoring and management; exposure assessment; risk assessment; indoor air quality; atmospheric chemistry; atmospheric modeling and prediction; air pollution climatology; climate change and air quality; air pollution measurement; atmospheric impact assessment; forest-fire emissions; atmospheric science; greenhouse gases; health and ecological effects; clean air technology; regional and global change and satellite measurements. This journal benefits a diverse audience of researchers, public health officials and policy makers addressing problems that call for solutions based in evidence from atmospheric and exposure assessment scientists, epidemiologists, and risk assessors. Publication in the journal affords the opportunity to reach beyond defined disciplinary niches to this broader readership.