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Regional maps of occupational heat exposure: past, present, and potential future

BACKGROUND: An important feature of climate change is increasing human heat exposure in workplaces without cooling systems in tropical and subtropical countries. Detailed gridded heat exposure maps will provide essential information for public health authorities. OBJECTIVES: To develop and test meth...

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Detalles Bibliográficos
Autores principales: Hyatt, Olivia M., Lemke, Bruno, Kjellstrom, Tord
Formato: Texto
Lenguaje:English
Publicado: CoAction Publishing 2010
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3002252/
https://www.ncbi.nlm.nih.gov/pubmed/21165172
http://dx.doi.org/10.3402/gha.v3i0.5715
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author Hyatt, Olivia M.
Lemke, Bruno
Kjellstrom, Tord
author_facet Hyatt, Olivia M.
Lemke, Bruno
Kjellstrom, Tord
author_sort Hyatt, Olivia M.
collection PubMed
description BACKGROUND: An important feature of climate change is increasing human heat exposure in workplaces without cooling systems in tropical and subtropical countries. Detailed gridded heat exposure maps will provide essential information for public health authorities. OBJECTIVES: To develop and test methods for calculating occupational heat exposures and present results in easily interpreted maps. DESIGN: Published formulas for a common occupational heat exposure index, the WBGT (Wet Bulb Globe Temperature), were used in combination with global gridded climate data to calculate heat exposure in 0.5° grid squares. Monthly averages of daily maximum temperatures, as indicators of typical temperatures during the hottest part of the day, and corresponding water vapour pressures produced estimates of monthly WBGT indoors (without cooling systems) or outdoors in the shade. RESULTS: The maps show the WBGT within four hot regions of the world during the three hottest months in 1975 and 2000: Australia, South Asia, Southern Africa, Central America, and southern US. Between 1975 and 2000 a WBGT increase of 0.5–1°C was common and the maps show clear decreases in some places. The time trends fit with the development of global climate change. The high WBGT values (particularly in South Asia) already cause excessive occupational heat exposures during the three hottest months. If continued climate change increases WBGT by 3°C, our maps identify areas where occupational heat stress in non-cooled workplaces will be extreme. CONCLUSIONS: The mapping method provides a rapid visual impression of occupational heat exposures in large regions of the world. The local changes in WBGT between 1975 and 2000 fit with the global climate change trends. Future increases of WBGT may create extreme heat exposure situations in large areas of the world.
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spelling pubmed-30022522010-12-16 Regional maps of occupational heat exposure: past, present, and potential future Hyatt, Olivia M. Lemke, Bruno Kjellstrom, Tord Glob Health Action Climate Change Impacts on Working People BACKGROUND: An important feature of climate change is increasing human heat exposure in workplaces without cooling systems in tropical and subtropical countries. Detailed gridded heat exposure maps will provide essential information for public health authorities. OBJECTIVES: To develop and test methods for calculating occupational heat exposures and present results in easily interpreted maps. DESIGN: Published formulas for a common occupational heat exposure index, the WBGT (Wet Bulb Globe Temperature), were used in combination with global gridded climate data to calculate heat exposure in 0.5° grid squares. Monthly averages of daily maximum temperatures, as indicators of typical temperatures during the hottest part of the day, and corresponding water vapour pressures produced estimates of monthly WBGT indoors (without cooling systems) or outdoors in the shade. RESULTS: The maps show the WBGT within four hot regions of the world during the three hottest months in 1975 and 2000: Australia, South Asia, Southern Africa, Central America, and southern US. Between 1975 and 2000 a WBGT increase of 0.5–1°C was common and the maps show clear decreases in some places. The time trends fit with the development of global climate change. The high WBGT values (particularly in South Asia) already cause excessive occupational heat exposures during the three hottest months. If continued climate change increases WBGT by 3°C, our maps identify areas where occupational heat stress in non-cooled workplaces will be extreme. CONCLUSIONS: The mapping method provides a rapid visual impression of occupational heat exposures in large regions of the world. The local changes in WBGT between 1975 and 2000 fit with the global climate change trends. Future increases of WBGT may create extreme heat exposure situations in large areas of the world. CoAction Publishing 2010-12-13 /pmc/articles/PMC3002252/ /pubmed/21165172 http://dx.doi.org/10.3402/gha.v3i0.5715 Text en © 2010 O.M. Hyatt et al. http://creativecommons.org/licenses/by-nc/3.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial 3.0 Unported License, permitting all non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Climate Change Impacts on Working People
Hyatt, Olivia M.
Lemke, Bruno
Kjellstrom, Tord
Regional maps of occupational heat exposure: past, present, and potential future
title Regional maps of occupational heat exposure: past, present, and potential future
title_full Regional maps of occupational heat exposure: past, present, and potential future
title_fullStr Regional maps of occupational heat exposure: past, present, and potential future
title_full_unstemmed Regional maps of occupational heat exposure: past, present, and potential future
title_short Regional maps of occupational heat exposure: past, present, and potential future
title_sort regional maps of occupational heat exposure: past, present, and potential future
topic Climate Change Impacts on Working People
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3002252/
https://www.ncbi.nlm.nih.gov/pubmed/21165172
http://dx.doi.org/10.3402/gha.v3i0.5715
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