Currently, methodologies for the identification and apportionment of air pollution sources are not widely applied due to their high cost. We present a new approach, combining mobile measurements from multiple sensors collected from the daily walks of citizen scientists, in a high population density area of Birmingham, UK. The methodology successfully pinpoints the different sources affecting the local air quality in the area using only a handful of measurements. It was found that regional sources of pollution were mostly responsible for the PM2.5 and PM1 concentrations. In contrast, PM10 was mostly associated with local sources. The total particle number and the lung deposited surface area of PM were almost solely associated with traffic, while black carbon was associated with both the sources from the urban background and local traffic. Our analysis showed that while the effect of the hyperlocal sources, such as emissions from construction works or traffic, do not exceed the distance of a couple of hundred meters, they can influence the health of thousands of people in densely populated areas. Thus, using this novel approach we illustrate the limitations of the present measurement network paradigm and offer an alternative and versatile approach to understanding the hyperlocal factors that affect urban air quality. Mobile monitoring by citizen scientists is shown to have huge potential to enhance spatiotemporal resolution of air quality data without the need of extensive and expensive campaigns.

Pinpointing sources of pollution using citizen science and hyperlocal low-cost mobile source apportionment / Bousiotis, Dimitrios; Damayanti, Seny; Baruah, Arunik; Bigi, Alessandro; Beddows, David C. S.; Harrison, Roy M.; Pope, Francis D.. - In: ENVIRONMENT INTERNATIONAL. - ISSN 0160-4120. - (2024), pp. 1-40. [10.1016/j.envint.2024.109069]

Pinpointing sources of pollution using citizen science and hyperlocal low-cost mobile source apportionment

Baruah, Arunik;Bigi, Alessandro;
2024

Abstract

Currently, methodologies for the identification and apportionment of air pollution sources are not widely applied due to their high cost. We present a new approach, combining mobile measurements from multiple sensors collected from the daily walks of citizen scientists, in a high population density area of Birmingham, UK. The methodology successfully pinpoints the different sources affecting the local air quality in the area using only a handful of measurements. It was found that regional sources of pollution were mostly responsible for the PM2.5 and PM1 concentrations. In contrast, PM10 was mostly associated with local sources. The total particle number and the lung deposited surface area of PM were almost solely associated with traffic, while black carbon was associated with both the sources from the urban background and local traffic. Our analysis showed that while the effect of the hyperlocal sources, such as emissions from construction works or traffic, do not exceed the distance of a couple of hundred meters, they can influence the health of thousands of people in densely populated areas. Thus, using this novel approach we illustrate the limitations of the present measurement network paradigm and offer an alternative and versatile approach to understanding the hyperlocal factors that affect urban air quality. Mobile monitoring by citizen scientists is shown to have huge potential to enhance spatiotemporal resolution of air quality data without the need of extensive and expensive campaigns.
2024
1
40
Pinpointing sources of pollution using citizen science and hyperlocal low-cost mobile source apportionment / Bousiotis, Dimitrios; Damayanti, Seny; Baruah, Arunik; Bigi, Alessandro; Beddows, David C. S.; Harrison, Roy M.; Pope, Francis D.. - In: ENVIRONMENT INTERNATIONAL. - ISSN 0160-4120. - (2024), pp. 1-40. [10.1016/j.envint.2024.109069]
Bousiotis, Dimitrios; Damayanti, Seny; Baruah, Arunik; Bigi, Alessandro; Beddows, David C. S.; Harrison, Roy M.; Pope, Francis D.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1360786
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