Abstract
Several studies emphasize that temperature-related mortality can be expected to have differential effects on different subpopulations, particularly in the context of climate change. This study aims to evaluate and quantify the future temperature-attributable mortality due to circulatory system diseases by age groups (under 65 and 65+ years), in Lisbon metropolitan area (LMA) and Porto metropolitan area (PMA), over the 2051–2065 and 2085–2099 time horizons, considering the greenhouse gas emissions scenario RCP8.5, in relation to a historical period (1991–2005). We found a decrease in extreme cold-related deaths of 0.55% and 0.45% in LMA, for 2051–2065 and 2085–2099, respectively. In PMA, there was a decrease in cold-related deaths of 0.31% and 0.49% for 2051–2065 and 2085–2099, respectively, compared to 1991–2005. In LMA, the burden of extreme heat-related mortality in age group 65+ years is slightly higher than in age group <65 years, at 2.22% vs. 1.38%, for 2085–2099. In PMA, only people aged 65+ years showed significant temperature-related burden of deaths that can be attributable to hot temperatures. The heat-related excess deaths increased from 0.23% for 2051–2065 to 1.37% for 2085–2099, compared to the historical period.
Highlights
The association between extreme temperatures and mortality in urban areas has been identified in previous studies [1,2,3,4,5,6,7,8,9,10,11]
During the study period (1991 and 2005), a total of 159,592 and 74,400 deaths were recorded in Lisbon metropolitan area (LMA) and Porto metropolitan area (PMA), respectively
The number of deaths among people aged 65+ was 138812 and 65062 in LMA and PMA, respectively, which accounts for the biggest proportion in the two metropolitan areas
Summary
The association between extreme temperatures and mortality in urban areas has been identified in previous studies [1,2,3,4,5,6,7,8,9,10,11]. Concerning the cold season, Portugal has been mentioned over the years as having one of the highest rates of excess winter mortality in Europe [14,15,16,17], which may be related to socioeconomic conditions and population health status. Most often, this excess has been attributed to the influenza virus, mainly among the most vulnerable populations, due to the spread of respiratory infections and the decompensation caused by chronic illnesses [1,9,18,19,20].
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