AI Article Synopsis
- A study examined air pollutant levels in Xiamen Bay cities before and after the COVID-19 lockdown (Jan 11 - Feb 21, 2020) to assess the impact of reduced human activities on air quality.
- During the lockdown and Chinese Spring Festival, pollutants like SO, NO, CO, and PM saw significant decreases between 6%-70%, while O concentrations did not consistently reflect human activity changes.
- After restrictions eased, NO levels surged by 38%-138%, suggesting traffic reductions during lockdown significantly improved air quality, with factors like wind and rain also contributing to pollutant declines.
Article Abstract
Air pollutant concentrations in the Xiamen Bay cities during the period before and after COVID-19 lockdown(from January 11 to February 21, 2020) were studied to determine the influence of human activities on air quality in this region. During the Chinese Spring Festival holiday and the lockdown period, the concentrations of SO, NO, CO, PM, and PM decreased by 6%-22%, 53%-70%, 34%-48%, 47%-64%, and 53%-60%, respectively. However, the changes in O concentrations were not consistent with the variations of human activities. The reduction rates for PM, PM, CO, and NO during the Spring Festival were greater than in previous years(2018 and 2019), but the reduction rates for SO were comparable. The concentrations of NO increased sharply(38%-138%), and much higher those of SO(2%-42%), after the resumption of socioeconomic activities, indicating the importance of traffic reductions due to the lockdown measures on NO. Higher wind speeds and rainfall after the Spring Festival were also favorable for the decline of SO, NO, and PM. The spatio-temporal distributions of the six criterial pollutants in the Xiamen Bay city cluster were obtained based on the Inverse Distance Weight method. The variability in regions with high NO concentrations was strongly linked to traffic emissions, while spatial patterns for CO and SO changed little over the six-week study period. The concentrations of PM and PM increased notably in the region, linked to more construction activity, but changed comparatively little in regions with dense populations and traffic networks. O remained relatively stable but low-value regions corresponded to those regions with high NO concentrations, indicating the significant titration effect of NO on O. These results provide valuable information that can inform O pollution reduction measures.
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| http://dx.doi.org/10.13227/j.hjkx.202103009 | DOI Listing |
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