Adaptation to Heat and Social Health Inequalities according to Gender, Age and Territory: A Review of Studies Conducted in Spain (1983-2018)
Vol. 23 No. 1 (2023), Monograph. Originals
Vol. 23 No. 1 (2023)

Adaptation to Heat and Social Health Inequalities according to Gender, Age and Territory: A Review of Studies Conducted in Spain (1983-2018)

Monograph. Originals
Published 2023-06-15
Miguel Ángel Navas Martín
Instituto de Salud Carlos III
https://orcid.org/0000-0002-1077-1349
José Antonio López Bueno
Instituto de Salud Carlos III
Fernando Follos
Tdot Soluciones Sostenibles, SL
Jo´se Manuel Vellón
Tdot Soluciones Sostenibles, SL
Isidro Mirón
Delegación Provincial de Sanidad de Toledo
Yolanda Luna
Agencia Estatal de Meteorología
Gerardo Sánchez Martínez
The UNEP DTU Partnership
Julio Díaz
Instituto de Salud Carlos III
Cristina Linares
Instituto de Salud Carlos III
PDF (Español (España))

Keywords

adaptation
climate change
Minimum Mortality Temperature
social inequalities in health
review of studies

How to Cite

Navas Martín, M. Ángel, López Bueno, J. A., Follos, F., Vellón, J. M., Mirón, I., Luna, Y., Sánchez Martínez, G., Díaz, J., & Linares, C. (2023). Adaptation to Heat and Social Health Inequalities according to Gender, Age and Territory: A Review of Studies Conducted in Spain (1983-2018). Spanish Journal of Environmental Health, 23(1), 49–55. Retrieved from https://ojs.diffundit.com/index.php/rsa/article/view/1240
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

The health effects of climate change exacerbate existing health and social inequalities. Inequality exposes the most vulnerable populations, making them more vulnerable to damage and limiting their ability to adapt. In order to protect the population from the consequences of climate change it is necessary to understand the factors involved in adaptation processes. An indicator for assessing the adaptability to heat of a population is the Minimum Mortality Temperature (MMT). Its evolution over time makes it possible to know whether a population is adapting or not.

The aim of this review of studies is to determine the adaptation of the Spanish population along three axes of inequality — territory, age and gender— between 1983 and 2018 by studying the evolution of the MMT and comparing it to the evolution of the maximum daily temperature. The Spanish population showed in general adaptation to heat, although geographical differences were found. At the territorial level, non-urban provinces showed greater adaptation than urban provinces. With respect to gender differences, women showed greater adaptability than men. In addition, the elderly also showed adaptability.

It is necessary to understand which factors influence adaptation in order to design measures for reducing the impact of high temperatures on —especially— groups affected by social inequalities in health.

PDF (Español (España))

References

Yin Q, Wang J, Ren Z, Li J, Guo Y. Mapping the increased minimum mortality temperatures in the context of global climate change. Nat. Commun. 2019;10(1):1-8.

WHO Regional Office for Europe. Heat and health in the WHO European Region: updated evidence for effective prevention [Internet]. Sanchez Martinez G, De’Donato F, Kendrovski V, editores. WHO Regional Office for Europe. Copenhagen; 2021. [citado 20 de mayo de 2021] Disponible en: https://apps.who.int/iris/bitstream/handle/10665/339462/9789289055406-eng.pdf.

Meehl GA, Tebaldi C. More intense, more frequent, and longer lasting heat waves in the 21st century. Science 2004;305(5686):994-7.

Sanz MJ, Galán E. Impactos y riesgos derivados del cambio climático en España. En Madrid; 2021. [citado 20 de mayo de 2021] Disponible en: www.miteco.es.

Follos F, Linares C, López-Bueno JA, Navas MA, Culqui D, Vellón JM, et al. Evolution of the minimum mortality temperature (1983– 2018): Is Spain adapting to heat? Sci. Tot. Environ. 2021;784:147233.

Navas-Martín MÁ, López-Bueno JA, Díaz J, Follos F, Vellón JM, Mirón IJ, et al. Effects of Local Factors on Adaptation to Heat in Spain (1983-2018). Environ Res. 2022; 112784.

Zhao Q, Guo Y, Ye T, Gasparrini A, Tong S, Overcenco A, et al. Global, regional, and national burden of mortality associated with non- optimal ambient temperatures from 2000 to 2019: a three-stage modelling study. Lancet Planet Health 2021;5(7):e415-25.

Navas-Martín MÁ, López-Bueno JA, Ascaso-Sánchez MS, Follos F, Vellón JM, Mirón IJ, et al. Territory Differences in Adaptation to Heat among Persons Aged 65 Years and Over in Spain (1983– 2018). Int. J. Environ. Res. Public Health 2023;20(5):4168.

Paavola J. Health impacts of climate change and health and social inequalities in the UK. Environ. Health 2017;16(1):61-8.

Marí-Dell’olmo M, Oliveras L, Estefanía Barón-Miras L, Borrell C, Montalvo T, Ariza C, et al. Climate Change and Health in Urban Areas with a Mediterranean Climate: A Conceptual Framework with a Social and Climate Justice Approach. Int. J. Environ. Res. Public Health 2022;19(19):12764.

Bakhsh K, Rauf S, Zulfiqar F. Adaptation strategies for minimizing heat wave induced morbidity and its determinants. Sustain Cities Soc. 2018;41:95-103.

Sánchez Martinez G, Imai C, Masumo K. Local heat stroke prevention plans in Japan: Characteristics and elements for public health adaptation to climate change. Int J Environ Res Public Health 2011;8(12):4563-81.

Krummenauer L, Prahl BF, Costa L, Holsten A, Walther C, Kropp JP. Global drivers of minimum mortality temperatures in cities. Sci. Tot. Environ. 2019;695:133560.

Folkerts MA, Bröde P, Botzen WJW, Martinius ML, Gerrett N, Harmsen CN, et al. Long Term Adaptation to Heat Stress: Shifts in the Minimum Mortality Temperature in the Netherlands. Front Physiol. 2020;11:225.

Estoque RC, Ooba M, Seposo XT, Togawa T, Hijioka Y, Takahashi K, et al. Heat health risk assessment in Philippine cities using remotely sensed data and social-ecological indicators. Nat. Commun. 2020;11(1):1-12.

López-Bueno JA, Díaz J, Follos F, Vellón JM, Navas MA, Culqui D, et al. Evolution of the threshold temperature definition of a heat wave vs. evolution of the minimum mortality temperature: a case study in Spain during the 1983–2018 period. Environ. Sci. Eur. 2021;33(1):101.

Follos F, Linares C, Vellón JM, López-Bueno JA, Luna MY, Sánchez-Martínez G, et al. The evolution of minimum mortality temperatures as an indicator of heat adaptation: The cases of Madrid and Seville (Spain). Sci. Tot. Environ. 2020;747:141259.

Åström DO, Tornevi A, Ebi KL, Rocklöv J, Forsberg B. Evolution of Minimum Mortality Temperature in Stockholm, Sweden, 1901- 2009. Environ. Health Perspect. 2016;124(6):740-4.

Todd N, Valleron AJ. Space-Time Covariation of Mortality with Temperature: A Systematic Study of Deaths in France, 1968-2009. Environ. Health Perspect. 2015;123(7):659-64.

Chung Y, Noh H, Honda Y, Hashizume M, Bell ML, Guo YLL, et al. Temporal Changes in Mortality Related to Extreme Temperatures for 15 Cities in Northeast Asia: Adaptation to Heat and Maladaptation to Cold. Am. J. Epidemiol. 2017;185(10):907-13.

Navas-Martín MÁ, López-Bueno JA, Ascaso-Sánchez MS, Sarmiento-Suárez R, Follos F, Vellón JM, et al. Gender differences in adaptation to heat in Spain (1983–2018). Environ. Res. 2022;215:113986.

Navas-Martín MÁ, López-Bueno JA, Ascaso-Sánchez MS, Follos F, Vellón JM, Mirón IJ, et al. Heat Adaptation among the Elderly in Spain (1983-2018). Int. J. Environ. Res. Public Health 2023;20(2):1314.

Eurostat. Regional yearbook 2015 [Internet]. 2015 [citado 8 de abril de 2021]. Disponible en: https://ec.europa.eu/eurostat/statistical-atlas/gis/viewer/?config=RYB-2015.json&mids=2,117,CNTOVL&o=1,1,0.7&ch=11,27,113,114&center=40.52285,0.40096,4&lcis=117&i=117,43.10,-8.35&.

Tobías A, Armstrong B, Gasparrini A. Brief report: Investigating uncertainty in the minimum mortality temperature. Epidemiology 2017;28(1):72-6.

Achebak H, Devolder D, Ballester J. Trends in temperature-related age-specific and sex-specific mortality from cardiovascular diseases in Spain: a national time-series analysis. Lancet Planet Health 2019;3(7):e297-306.

Borrell C, Malmusi D, Artazcoz L, Diez E, Rodríguez-Sanz IPM, Campos P, et al. Propuesta de políticas e intervenciones para reducir las desigualdades sociales en salud en España. Gac. Sanit. 2012;26(2):182-9.

Beck U. Remapping social inequalities in an age of climate change: for a cosmopolitan renewal of sociology*. Global Networks;10(2):165-81.

Smiley KT, Noy I, Wehner MF, Frame D, Sampson CC, Wing OEJ. Social inequalities in climate change-attributed impacts of Hurricane Harvey. Nat. Commun. 2022;13(1):1-10.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2023 Spanish Journal of Environmental Health

Downloads

Download data is not yet available.