Spatiotemporal representativeness of air pollution monitoring in Dublin, Ireland

The importance of selecting appropriate air pollution monitoring sites in a city is vital for accurately reporting air quality, enhancing the quality of high-resolution modelling and informing policy to implement measures to deliver cleaner air in the urban environment. COVID-19 restrictions impacte...

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Bibliographic Details
Published in:The Science of the total environment 2022-06, Vol.827, p.154299-154299, Article 154299
Main Authors: Perillo, H.A., Broderick, B.M., Gill, L.W., McNabola, A., Kumar, P., Gallagher, J.
Format: Article
Language:English
Subjects:
Ambient air quality directive
Environmental protection
Legislation
Monitoring networks
Urban environment
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Summary:The importance of selecting appropriate air pollution monitoring sites in a city is vital for accurately reporting air quality, enhancing the quality of high-resolution modelling and informing policy to implement measures to deliver cleaner air in the urban environment. COVID-19 restrictions impacted air quality in urban centres worldwide as reduced mobility led to changes in traffic-related air pollution (TRAP). As such, it offered a unique dataset to examine the spatial and temporal variations in air quality between monitoring stations in Dublin, Ireland. Firstly, an analysis of mobility data showed reductions across almost all sectors after COVID-19 restrictions came into place, which was expected to lower TRAP. In addition, similar changes in air quality were evident to other cities around the world: reductions in fine particulate matter (PM2.5) and nitrogen dioxide (NO2) concentrations and an increase in ozone (O3) concentrations. Average daily and diurnal concentrations for these three pollutants presented more statistically significant spatial and temporal changes during COVID-19 restrictions at monitoring sites with urban or traffic classifications than suburban background sites. Furthermore, substantial reductions in the range of average hourly pollutant concentrations were observed, 79% for PM2.5 and 75% for NO2, with a modest 24% reduction for O3. Correlation analysis of air pollution between monitoring sites and years demonstrated an improvement in the R2 for NO2 concentrations only, suggesting that spatiotemporal homogeneity was most notable for this TRAP due to mobility restrictions during COVID-19. The spatiotemporal representativeness of monitoring stations across the city will change with greener transport, and air quality during COVID-19 can provide a benchmark to support the introduction of new policies for cleaner air. [Display omitted] •Dublin presented similar changes in air quality during COVID-19 restrictions for PM2.5, NO2 and O3.•More significant spatial and temporal changes in air quality were observed at urban or traffic classified monitoring sites.•A reduction in the range of concentrations observed at monitoring stations was evident during COVID restrictions.•A correlation analysis between sites noted increased NO2 homogeneity for this pollutant.•Greening transport will reduce the spatiotemporal representativeness of monitoring stations in Dublin in the future.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.154299