Climate change impacts on heat stress in Brazil—Past, present, and future implications for occupational heat exposure

Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more frequently reported. Outdoor labour activities deserve special attention, as is the case with agricultural and construction workers exposed...

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Published inInternational journal of climatology Vol. 41; no. S1; pp. E2741 - E2756
Main Authors Bitencourt, Daniel Pires, Alves, Lincoln, Shibuya, Elisa Kayo, da Cunha, Irlon, de Souza, João Paulo
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 01.01.2021
Wiley Subscription Services, Inc
Subjects
Climate change
Climatic analysis
Climatic indexes
Construction industry
Environmental impact
Exposure
Extreme weather
Heat
Heat stress
Heat tolerance
Heat waves
Heatwaves
Labor law
Labour
Legislation
Meteorological data
Occupational exposure
Occupational health
outdoor labour
Probability theory
Public policy
Regional climates
Spatial distribution
Temperature rise
Tropical climate
Weather
Weather conditions
Weather stations
Working conditions
Brazil
Online AccessGet full text
ISSN0899-8418
1097-0088
DOI10.1002/joc.6877

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Abstract Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more frequently reported. Outdoor labour activities deserve special attention, as is the case with agricultural and construction workers exposed to extreme weather conditions, including intense heat. This paper presents an overview of heat stress conditions in Brazil from 1961 to 2010. It also presents computer‐simulated projections of heat stress conditions up to the late 21st century. The proposed climate analysis drew on historical weather data obtained from national weather stations and on reanalysis data, in addition to future projections with the ETA (regarding the model's unique vertical coordinate) regional forecast model. The projections took into consideration two Representative Concentration Pathways (RCP)—the 4.5 and 8.5 climate scenarios, namely, moderate and high emissions scenarios, respectively. Heat stress was inferred based on the wet‐bulb globe temperature (WBGT) index. The results of this climate analysis show that Brazilian outdoor workers have been exposed to an increasing level of heat stress. These results suggest that future changes in the regional climate may increase the probability of heat stress situations in the next decades, with expectations of WBGT values greater than those observed in the baseline period (1961–1990). In terms of spatial distribution, the Brazilian western and northern regions experienced more critical heat stress conditions with higher WBGT values. As a response to the increased frequency trends of hot periods in tropical areas, urgent measures should be taken to review public policies in Brazil. Such policies should include actions towards better working conditions, technological development to improve outdoor labour activities, and employment legislation reviews to mitigate heat impacts on occupational health. The most critical area subject to heat stress is the west of Brazil, mainly within the Midwestern region. Particularly, it is in the Midwestern region that most workers perform outdoor activities under a heavy workload. It was observed that the frequency of days per year with high WBGT has increased considerably in the current climate period. Besides, an increased occurrence of high WBGT was projected for the next decades.
AbstractList Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more frequently reported. Outdoor labour activities deserve special attention, as is the case with agricultural and construction workers exposed to extreme weather conditions, including intense heat. This paper presents an overview of heat stress conditions in Brazil from 1961 to 2010. It also presents computer‐simulated projections of heat stress conditions up to the late 21st century. The proposed climate analysis drew on historical weather data obtained from national weather stations and on reanalysis data, in addition to future projections with the ETA ( regarding the model's unique vertical coordinate ) regional forecast model. The projections took into consideration two Representative Concentration Pathways (RCP)—the 4.5 and 8.5 climate scenarios, namely, moderate and high emissions scenarios, respectively. Heat stress was inferred based on the wet‐bulb globe temperature ( WBGT ) index. The results of this climate analysis show that Brazilian outdoor workers have been exposed to an increasing level of heat stress. These results suggest that future changes in the regional climate may increase the probability of heat stress situations in the next decades, with expectations of WBGT values greater than those observed in the baseline period (1961–1990). In terms of spatial distribution, the Brazilian western and northern regions experienced more critical heat stress conditions with higher WBGT values. As a response to the increased frequency trends of hot periods in tropical areas, urgent measures should be taken to review public policies in Brazil. Such policies should include actions towards better working conditions, technological development to improve outdoor labour activities, and employment legislation reviews to mitigate heat impacts on occupational health.
Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more frequently reported. Outdoor labour activities deserve special attention, as is the case with agricultural and construction workers exposed to extreme weather conditions, including intense heat. This paper presents an overview of heat stress conditions in Brazil from 1961 to 2010. It also presents computer‐simulated projections of heat stress conditions up to the late 21st century. The proposed climate analysis drew on historical weather data obtained from national weather stations and on reanalysis data, in addition to future projections with the ETA (regarding the model's unique vertical coordinate) regional forecast model. The projections took into consideration two Representative Concentration Pathways (RCP)—the 4.5 and 8.5 climate scenarios, namely, moderate and high emissions scenarios, respectively. Heat stress was inferred based on the wet‐bulb globe temperature (WBGT) index. The results of this climate analysis show that Brazilian outdoor workers have been exposed to an increasing level of heat stress. These results suggest that future changes in the regional climate may increase the probability of heat stress situations in the next decades, with expectations of WBGT values greater than those observed in the baseline period (1961–1990). In terms of spatial distribution, the Brazilian western and northern regions experienced more critical heat stress conditions with higher WBGT values. As a response to the increased frequency trends of hot periods in tropical areas, urgent measures should be taken to review public policies in Brazil. Such policies should include actions towards better working conditions, technological development to improve outdoor labour activities, and employment legislation reviews to mitigate heat impacts on occupational health.
Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more frequently reported. Outdoor labour activities deserve special attention, as is the case with agricultural and construction workers exposed to extreme weather conditions, including intense heat. This paper presents an overview of heat stress conditions in Brazil from 1961 to 2010. It also presents computer‐simulated projections of heat stress conditions up to the late 21st century. The proposed climate analysis drew on historical weather data obtained from national weather stations and on reanalysis data, in addition to future projections with the ETA (regarding the model's unique vertical coordinate) regional forecast model. The projections took into consideration two Representative Concentration Pathways (RCP)—the 4.5 and 8.5 climate scenarios, namely, moderate and high emissions scenarios, respectively. Heat stress was inferred based on the wet‐bulb globe temperature (WBGT) index. The results of this climate analysis show that Brazilian outdoor workers have been exposed to an increasing level of heat stress. These results suggest that future changes in the regional climate may increase the probability of heat stress situations in the next decades, with expectations of WBGT values greater than those observed in the baseline period (1961–1990). In terms of spatial distribution, the Brazilian western and northern regions experienced more critical heat stress conditions with higher WBGT values. As a response to the increased frequency trends of hot periods in tropical areas, urgent measures should be taken to review public policies in Brazil. Such policies should include actions towards better working conditions, technological development to improve outdoor labour activities, and employment legislation reviews to mitigate heat impacts on occupational health. The most critical area subject to heat stress is the west of Brazil, mainly within the Midwestern region. Particularly, it is in the Midwestern region that most workers perform outdoor activities under a heavy workload. It was observed that the frequency of days per year with high WBGT has increased considerably in the current climate period. Besides, an increased occurrence of high WBGT was projected for the next decades.
Author Bitencourt, Daniel Pires
da Cunha, Irlon
Shibuya, Elisa Kayo
Alves, Lincoln
de Souza, João Paulo
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2021 Royal Meteorological Society
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  ident: e_1_2_6_10_1
  article-title: The heat exposure risk to outdoor workers in Brazil
  publication-title: Archives of Environmental & Occupational Health
– ident: e_1_2_6_62_1
  doi: 10.1038/nature08823
– ident: e_1_2_6_68_1
  doi: 10.1007/s00704-009-0123-z
– ident: e_1_2_6_21_1
  doi: 10.4236/ajcc.2014.35039
– ident: e_1_2_6_44_1
  doi: 10.1029/2012GL051644
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Snippet Climate change has caused an increased occurrence of heat waves. As a result of rising temperatures, implications for health and the environment have been more...
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SubjectTerms Climate change
Climatic analysis
Climatic indexes
Construction industry
Environmental impact
Exposure
Extreme weather
Heat
Heat stress
Heat tolerance
Heat waves
Heatwaves
Labor law
Labour
Legislation
Meteorological data
Occupational exposure
Occupational health
outdoor labour
Probability theory
Public policy
Regional climates
Spatial distribution
Temperature rise
Tropical climate
Weather
Weather conditions
Weather stations
Working conditions
Title Climate change impacts on heat stress in Brazil—Past, present, and future implications for occupational heat exposure
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjoc.6877
https://www.proquest.com/docview/2509538797
Volume 41
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