Behavioral adaptation to heat-related health risks in cities

Behavioral adaptation to heat-related health risks in cities

Heat-related mortality is of growing concern for cities faced with the combined effects of increasing heat-wave frequency and intensity and stronger urban heat islands (UHI). In cities around the world, high air temperatures have been found to have strong repercussions in terms of heat-related morta...

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Bibliographic Details
Published in:Energy and buildings Vol. 152; pp. 823 - 829
Main Authors: Hendel, Martin, Azos-Diaz, Karina, Tremeac, Brice
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-10-2017
Elsevier BV
Elsevier
Subjects:
Adaptation
Air temperature
Apartments
Bedrooms
Behavioral adaptation
Chemical and Process Engineering
Cities
Climate change adaptation
Engineering Sciences
Environmental Engineering
Environmental Sciences
Exposure
Greening
Habits
Health risks
Heat
Heat waves
Heat-related mortality
Indoor temperature
Mechanics
Mortality
Night
Nighttime
Risk taking
Roofs
Sleep
Studies
Temperature
Thermics
Urban heat
Urban heat islands
France
Paris France
Heat-related mortality
Behavioral adaptation
Sleep
Urban heat
Heat-waves
Climate change adaptation
Indoor temperature
sleep
heat-waves
indoor temperature
behavioral adaptation
climate change adaptation
heat-related mortality
urban heat
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Summary:Heat-related mortality is of growing concern for cities faced with the combined effects of increasing heat-wave frequency and intensity and stronger urban heat islands (UHI). In cities around the world, high air temperatures have been found to have strong repercussions in terms of heat-related mortality for populations aged 65 years and older, especially nighttime temperatures. In response, many measures have been proposed to counteract the effects of UHI such as cool roofs and materials or urban greening. While these approaches are promising and are rightfully explored, behavioral adaptation measures have not received as much attention. Given the importance of nighttime temperatures on heat-wave mortality and the importance of sleep quality for individuals to recover from intense daytime heat exposure, adapting sleeping habits to reduce sleep time exposure to intense heat may help reduce the health impacts of heat-waves. In this paper, outdoor and indoor temperature measurements conducted over the summer of 2015 in the bedrooms of two apartments in Paris, France are analyzed. The potential for this kind of behavioral adaptation to reduce occupant exposure to high sleep time temperatures is quantified and discussed. The policy implications of our findings and their practicality are also mentioned.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2016.11.063