Source apportionment of ambient PM2.5 in an industrialized city using dispersion-normalized, multi-time resolution factor analyses

Ambient fine particulate matter (PM2.5) data were collected in the lower City of Hamilton, Ontario to apportion the sources of this pollutant over an 18-month period. Hamilton has complex topographical features that may result in worsened air pollution within the lower city, thus, dispersion-normali...

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Bibliographic Details
Published in:Environmental pollution (1987) 2023-04, Vol.323, p.121281-121281, Article 121281
Main Authors: Sofowote, Uwayemi M., Mooibroek, Dennis, Healy, Robert M., Debosz, Jerzy, Munoz, Anthony, Hopke, Philip K.
Format: Article
Language:English
Subjects:
DN-MT-FA
Exceedance
Industrial area
ME-2
PM2.5
Wildfires
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Summary:Ambient fine particulate matter (PM2.5) data were collected in the lower City of Hamilton, Ontario to apportion the sources of this pollutant over an 18-month period. Hamilton has complex topographical features that may result in worsened air pollution within the lower city, thus, dispersion-normalized, multi-time resolution factor analysis (DN-MT-FA) was used to identify and quantify contributions of factors in a manner that reduced the influence of local meteorology. These factors were secondary organic aerosols type 1 (SOA_1), particulate nitrate (pNO3), particulate sulphate (pSO4), primary traffic organic matter (PTOM), Steel/metal processing and vehicular road dust emissions (Steel & Mobile) and, secondary organic aerosols type 2 (SOA_2) with origins ranging from mainly regional to mainly local. Factors that were mainly local (PTOM, Steel & Mobile, SOA_2) contributed up to 17% of the average PM2.5 mass while mixed local/regional factors (pNO3, pSO4) made up 43% on average, indicating the potential for further reduction of harmful PM concentrations locally. Of particular interest from a health protection perspective, was the composition of PM2.5 on days when an exceedance of the 24-hr WHO air quality guideline for this pollutant was observed. In general, SOA_1 was found to drive summer exceedances while pNO3 dominated in the winter. During the summer period, SOA_1 was attributable to wildfires in the northern parts of Canada while local traffic sources in winter contributed to the high levels of pNO3. While local, industrial factors only had minor relative mass contributions during exceedances, they are high in highly oxidized organic species (SOA_2) and toxic metals (Steel & Mobile). Thus, they are likely to have more impacts on human health. The methods and results described in this work will be useful in understanding prevalent sources of particulate matter pollution in the ambient air in the presence of complex topography and meteorological effects. [Display omitted] •DN-MT-FA apportioned sources of PM2.5 in a city with complex topography.•Dispersion-normalization helps to understand local/regional origins of factors.•Industrially sourced factors had most PM2.5 metals and unique organic species.•Summer exceedance of WHO AQG for PM2.5 mainly driven by secondary organic aerosols.•Winter exceedance of WHO AQG for PM2.5 largely driven by particulate nitrate.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2023.121281