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A comprehensive investigation of PM2.5 in the Huaihe River Basin, China: Separating the contributions from meteorology and emission reductions

Xiaoyong Liu, Jiqiang Niu, Zifa Wang, Xiaole Pan, Fangcheng Su, Dan Yao, Ming Zhu, Jun Yan, Junhui Yan, Gaowei Yao

2023Atmospheric Pollution Research15 citationsDOIOpen Access PDF

Abstract

Due to anthropogenic emission reductions, the mass concentration of fine particulate matter (PM 2.5 ) in China has markedly decreased in recent years. In this study, we selected the Huaihe River Basin (HRB), which is located in the middle of the North–South climatic transition zone of China, to investigate the reasons for the decrease in the PM 2.5 concentration. Based on the observed PM 2.5 concentration and meteorological data for 2015–2020, the Kolmogorov–Zurbenko (KZ) filter method was employed to decompose the original time series of the PM 2.5 concentration. The results demonstrate that the short-term (PM 2.5ST ), seasonal (PM 2.5SN ), and long-term (PM 2.5LT ) components of PM 2.5 variations over the HRB accounted for 55.6%, 34.7%, and 4.4% of the total variance, respectively. PM 2.5 variations in coastal cities and cities with relatively high latitudes and longitudes were more affected by the short-term component. It was identified that the PM 2.5 concentration in the HRB declined at a rate of 2.58–8.12 μg/m 3 /year. The meteorological conditions and emission reductions all positively influenced the PM 2.5 decrease, which contributed 30.09% and 69.91%, respectively, to the PM 2.5LT decrease in the HRB. It is noteworthy that with the PM 2.5 decrease, the conversion efficiency of SO 2 to sulfate and NO 2 to nitrate might be enhanced. The unbalanced emission reductions in SO 2 and NO 2 are not conducive to the further decline in PM 2.5 . This study suggests that more efforts should be made to control NO 2 emissions in the HRB.

Topics & Concepts

Environmental scienceSulfateParticulatesAir quality indexAtmospheric sciencesNitrateLatitudeStructural basinChinaMass concentration (chemistry)Middle latitudesClimatologyMeteorologyGeographyChemistryGeologyPhysical chemistryArchaeologyPaleontologyGeodesyOrganic chemistryAir Quality and Health ImpactsAtmospheric chemistry and aerosolsAir Quality Monitoring and Forecasting
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