Abstract
The contrasting trends of surface particulate matter (PM2.5), ozone (O3), and nitrogen dioxide (NO2) and their relationships with meteorological parameters from 2015 to 2019 were investigated in the coastal city of Shanghai (SH) and the inland city of Hefei (HF), located in the Yangtze River Delta (YRD). In both cities, PM2.5 declined substantially, while O3 and NO2 showed peak values during 2017 when the most frequent extreme high-temperature events occurred. Wind speed was correlated most negatively with PM2.5 and NO2 concentrations, while surface temperature and relative humidity were most closely related to O3. All of the studied pollutants were reduced by rainfall scavenging, with the greatest reduction seen in PM2.5, followed by NO2 and O3. By contrast, air pollutants in the two cities were moderately strongly correlated, although PM2.5 concentrations were much lower and Ox (O3 + NO2) concentrations were higher in SH. Additionally, complex air pollution hours occurred more frequently in SH. Air pollutant concentrations changed more with wind direction in SH. A more effective washout effect was observed in HF, likely due to the more frequent strong convection and thunderstorms in inland areas. This research suggests pertinent air quality control measures should be designed accordingly for specific geographical locations.
Highlights
PM2.5 and O3 levels in complex air pollution [5–7]. For this purpose, obtaining a thorough understanding of the trends of PM2.5, O3, and NO2 is urgently needed. Concentrations of these air pollutants are notably influenced by both emissions and meteorological conditions [8,9]
We investigated three main air pollutants, i.e., PM2.5, O3, and NO2, in a coastal city and an inland city in the Yangtze River Delta (YRD) to gain insight into the influence of meteorological conditions on these air pollutants
The contrasting trends of surface PM2.5, O3, and NO2 and their relationships with meteorological parameters in SH and HF were investigated based on surface air pollutant and meteorological datasets from 2015 to 2019
Summary
The adverse impacts of ambient air pollution on human health and the ecosystem have been widely recognized [1,2]. Most previous studies investigating trends of surface air pollutants and meteorological impacts on them have been mainly carried out in one city or area of the YRD [18–22]. Atmospheric circulation, dispersion, and deposition can result in systematic differences in air pollutant concentrations between coastal and inland cities only a few hundred kilometers apart [23–25]. These studies mainly involve short−term observations made in other parts of the country. Studies based on simultaneously made long−term observations from coastal and inland cities are imperative to understand the impact of different geographical locations on the trends of surface air pollutants and their relationships with meteorological conditions in the YRD.
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