Heat and cold temperatures associated with exposure to poor air quality lead to increased mortality. Using a generalized linear model with Poisson regression for overdispersion, this study quantifies the natural-caused mortality burden attributable to heat/cold temperatures and PM10 and O3 air pollutants in Rome and Milan, the two most populated Italian cities. We calculate local-specific mortality relative risks (RRs) for the period 2004–2015 considering the overall population and the most vulnerable age category (≥85 years). Combining a regional climate model with a chemistry-transport model under future climate and air pollution scenarios (RCP2.6 and RCP8.5), we then project mortality to 2050. Results show that for historical mortality the burden is much larger for cold than for warm temperatures. RR peaks during wintertime in Milan and summertime in Rome, highlighting the relevance of accounting for the effects of air pollution besides that of climate, in particular PM10 for Milan and O3 for Rome. Overall, Milan reports higher RRs while, in both cities, the elderly appear more susceptible to heat/cold and air pollution events than the average population. Two counterbalancing effects shape mortality in the future: an increase associated with higher and more frequent warmer daily temperatures – especially in the case of climate inaction – and a decrease due to declining cold-mortality burden. The outcomes highlight the urgent need to adopt more stringent and integrated climate and air quality policies to reduce the temperature and air pollution combined effects on health.

Michetti, M., Gualtieri, M., Anav, A., Adani, M., Benassi, B., Dalmastri, C., et al. (2022). Climate change and air pollution: Translating their interplay into present and future mortality risk for Rome and Milan municipalities. SCIENCE OF THE TOTAL ENVIRONMENT, 830 [10.1016/j.scitotenv.2022.154680].

Climate change and air pollution: Translating their interplay into present and future mortality risk for Rome and Milan municipalities

Gualtieri M.
Co-primo
;
2022

Abstract

Heat and cold temperatures associated with exposure to poor air quality lead to increased mortality. Using a generalized linear model with Poisson regression for overdispersion, this study quantifies the natural-caused mortality burden attributable to heat/cold temperatures and PM10 and O3 air pollutants in Rome and Milan, the two most populated Italian cities. We calculate local-specific mortality relative risks (RRs) for the period 2004–2015 considering the overall population and the most vulnerable age category (≥85 years). Combining a regional climate model with a chemistry-transport model under future climate and air pollution scenarios (RCP2.6 and RCP8.5), we then project mortality to 2050. Results show that for historical mortality the burden is much larger for cold than for warm temperatures. RR peaks during wintertime in Milan and summertime in Rome, highlighting the relevance of accounting for the effects of air pollution besides that of climate, in particular PM10 for Milan and O3 for Rome. Overall, Milan reports higher RRs while, in both cities, the elderly appear more susceptible to heat/cold and air pollution events than the average population. Two counterbalancing effects shape mortality in the future: an increase associated with higher and more frequent warmer daily temperatures – especially in the case of climate inaction – and a decrease due to declining cold-mortality burden. The outcomes highlight the urgent need to adopt more stringent and integrated climate and air quality policies to reduce the temperature and air pollution combined effects on health.
Articolo in rivista - Articolo scientifico
Air quality; Distributed lag non-linear models; Health impact assessment; Integrated climate and air pollution scenarios; Mortality;
English
18-mar-2022
2022
830
154680
reserved
Michetti, M., Gualtieri, M., Anav, A., Adani, M., Benassi, B., Dalmastri, C., et al. (2022). Climate change and air pollution: Translating their interplay into present and future mortality risk for Rome and Milan municipalities. SCIENCE OF THE TOTAL ENVIRONMENT, 830 [10.1016/j.scitotenv.2022.154680].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/466864
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