Short-term effects of desert and non-desert PM 10 on mortality in Sicily, Italy

Increased PM concentrations are commonly observed during Saharan dust advections. Limited epidemiological evidence suggests that PM from anthropogenic and desert sources increase mortality. We aimed to evaluate the association between source-specific PM (non-desert and desert) and cause-specific mor...

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Bibliographic Details
Published in:Environment international 2018-11, Vol.120, p.472
Main Authors: Renzi, Matteo, Forastiere, Francesco, Calzolari, Roberta, Cernigliaro, Achille, Madonia, Giuseppe, Michelozzi, Paola, Davoli, Marina, Scondotto, Salvatore, Stafoggia, Massimo
Format: Article
Language:English
Subjects:
Africa, Northern
Air Pollutants - analysis
Air Pollution - analysis
Cities
Humans
Mortality
Particulate Matter - analysis
Satellite Imagery
Seasons
Sicily - epidemiology
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Summary:Increased PM concentrations are commonly observed during Saharan dust advections. Limited epidemiological evidence suggests that PM from anthropogenic and desert sources increase mortality. We aimed to evaluate the association between source-specific PM (non-desert and desert) and cause-specific mortality in Sicily during 2006-2012 period. Daily PM concentrations at 1-km were estimated in Sicily using satellite-based data, fixed monitors and land use variables. We identified Saharan dust episodes using meteorological models, back-trajectories, aerosol maps, and satellite images. For each dust day, we estimated desert and non-desert PM concentrations. We applied a time-series approach on 390 municipalities of Sicily to estimate the association between PM (non-desert and desert) and daily cause-specific mortality. 33% of all days were affected by Saharan dust advections. PM concentrations were 8 μg/m higher during dust days compared to other days. We found positive associations of both non-desert and desert PM with cause-specific mortality. We estimated percent increases of risk (IR%) of non-accidental mortality equal to 2.3% (95% Confidence Interval [CI]: 1.4, 3.1) and 3.8% (3.2, 4.4), per 10 μg/m increases in non-desert and desert PM at lag 0-5, respectively. We also observed significant associations with cardiovascular (2.4% [1.3, 3.4] and 4.5% [3.8, 5.3]) and respiratory mortality (8.1% [6.8, 9.5], and 6.3% [5.4, 7.2]). We estimated higher effects during April-September, with IR% = 4.4% (3.2, 5.7) and 6.3% (5.4, 7.2) for non-desert and desert PM , respectively. Our results confirm previous evidence of harmful effects of desert PM on non-accidental and cardio-respiratory mortality, especially during the warm season.
ISSN:1873-6750