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Heat-mortality risk and the population concentration of metropolitan areas in Japan: a nationwide time-series study

Whanhee Lee, Kristie L. Ebi, Yoonhee Kim, Masahiro Hashizume, Yasushi Honda, Hideki Hashimoto, Hayon Michelle Choi, Moonjung Choi, Ho Kim

2020International Journal of Epidemiology29 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The complex role of urbanisation in heat-mortality risk has not been fully studied. Japan has experienced a rapid population increase and densification in metropolitan areas since the 2000s; we investigated the effects of population concentration in metropolitan areas on heat-mortality risk using nationwide data. METHODS: We collected time-series data for mortality and weather variables for all 47 prefectures in Japan (1980-2015). The prefectures were classified into three sub-areas based on population size: lowest (<1 500 000), intermediate (1 500 000 to 3 000 000), and highest (>3 000 000; i.e. metropolitan areas). Regional indicators associated with the population concentration of metropolitan areas were obtained. RESULTS: Since the 2000s, the population concentration intensified in the metropolitan areas, with the highest heat-mortality risk in prefectures with the highest population. Higher population density and apartment % as well as lower forest area and medical services were associated with higher heat-mortality risk; these associations have generally become stronger since the 2000s. CONCLUSIONS: Population concentration in metropolitan areas intensified interregional disparities in demography, living environments, and medical services in Japan; these disparities were associated with higher heat-mortality risk. Our results can contribute to policies to reduce vulnerability to high temperatures.

Topics & Concepts

Metropolitan areaSeries (stratigraphy)MedicineDemographyPopulationEpidemiologyEnvironmental healthGerontologyGeographyInternal medicineSociologyPaleontologyBiologyPathologyClimate Change and Health ImpactsThermal Regulation in MedicineThermoregulation and physiological responses