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Investigation of the role of southwestern Asia dust events on urban air pollution: a case study of Ahvaz, a highly polluted city

Authors

Hamidi,  Mehdi
External Organizations;

Ghobadi,  Tahoora
External Organizations;

Shao,  Yaping
External Organizations;

/persons/resource/Fallah

Fallah,  Bijan H.
Potsdam Institute for Climate Impact Research;

/persons/resource/rostami

Rostami,  Masoud
Potsdam Institute for Climate Impact Research;

Mao,  Rui
External Organizations;

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Citation

Hamidi, M., Ghobadi, T., Shao, Y., Fallah, B. H., Rostami, M., Mao, R. (2025): Investigation of the role of southwestern Asia dust events on urban air pollution: a case study of Ahvaz, a highly polluted city. - Scientific Reports, 15, 21981.
https://doi.org/10.1038/s41598-025-07634-x


Cite as: https://publications.pik-potsdam.de/pubman/item/item_32468
Abstract
Investigating aerosol composition and particle dynamics in densely populated and polluted urban centers is crucial for understanding and managing urban air quality. Ahvaz, in southwestern Iran, consistently ranks among the most polluted cities globally, primarily due to high PM10 concentrations. This study analyzes trends in suspended particle concentrations in Ahvaz over a 12-year period (2008–2019) to identify the contributions of natural and anthropogenic sources to air pollution. Diurnal, monthly, and annual variations in PM10 and PM2.5 levels were examined, revealing key insights into the city’s pollution dynamics. Diurnal PM10 peaks around noon (232 µg/m3), mainly driven by natural dust sources, with minimal anthropogenic impact indicated by similar weekend and weekday concentrations (only 1.5% difference). Monthly analysis reveals significant dust activity in June and July (maximum PM10 concentration of 388.18 µg/m3), while higher PM2.5 levels in winter (average 54.8 µg/m3) are attributed to fossil fuel combustion. The PM2.5/PM10 ratio (mean = 0.24) highlights the dominance of coarse particles from dust events, especially in summer. The Hoffmann classification identifies 3425 dusty days in the study period, with PM10 levels notably higher due to dust sources in southern Iraq and southwestern Iran. Seasonal wind patterns, particularly Shamal winds, facilitate dust transport, corroborated by Windrose and PM10 rose data. The study underscores the need for regional dust suppression strategies in southern Iraq and southwestern Iran to mitigate air pollution in Ahvaz, highlighting the importance of regional cooperation.