Potential impact of 1.5, 2 and 3 °C global warming levels on heat and discomfort indices changes over Central Africa

Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards t...

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Published inThe Science of the total environment Vol. 804; p. 150099
Main Authors Fotso-Nguemo, Thierry C., Vondou, Derbetini A., Diallo, Ismaila, Diedhiou, Arona, Weber, Torsten, Tanessong, Roméo S., Nghonda, Jean P., Yepdo, Zéphirin D.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.01.2022
Subjects
at-risk population
Central Africa
Climate change
climate models
coasts
CORDEX-Africa
environment
equations
Global warming levels
heat
heat stress
Heat stress index
Human discomfort index
socioeconomic development
socioeconomics
Central Africa
Human discomfort index
Climate change
CORDEX-Africa
Heat stress index
Global warming levels
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Abstract Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards that interact to limit their adaptive capacity and thus increase their vulnerability to the adverse effects of climate change. This study explores changes in heat stress and the proportion of population at risk of discomfort over Central Africa, based on an ensemble-mean of high-resolution regional climate model simulations that cover a 30-year period, under 1.5, 2 and 3 °C Global Warming Levels (GWLs). The heat index was computed according to Rothfusz's equation, while the discomfort index was obtained from Thom's formula. The results show that throughout the year but with a predominance from March to August, the spatial extent of both heat and discomfort categories is projected to gradually increase according to the considered GWLs (nearly threefold for an increasing warming thresholds from 1.5 to 3 °C). As these heat conditions become more frequent, they lead to the emergence of days with potentially dangerous heat-related risks, where almost everyone feels discomfort due to heat stress. It thus appears that the majority of populations living in countries located along the Atlantic coast and in the northern and central part of the study area are likely to be more vulnerable to certain health problems, which could have repercussions on the socio-economic development of the sub-region through decreased workers’ productivity and increased cooling degree days. Overall, these heat-related risks are more extended and more frequent when the GWL reaches 2 °C and above. [Display omitted] •Spatial extent of heat categories is almost tripled from 1.5 to 3 °C thresholds.•Frequency of heat categories is almost tripled from 1.5 to 3 °C thresholds.•Days with potentially dangerous risks where everyone feels discomfort emerge.•Countries located over coastal, northern and central domain are most exposed.•The heat-related risks are more widespread and frequent for 2 and 3 °C thresholds.
AbstractList Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards that interact to limit their adaptive capacity and thus increase their vulnerability to the adverse effects of climate change. This study explores changes in heat stress and the proportion of population at risk of discomfort over Central Africa, based on an ensemble-mean of high-resolution regional climate model simulations that cover a 30-year period, under 1.5, 2 and 3 °C Global Warming Levels (GWLs). The heat index was computed according to Rothfusz's equation, while the discomfort index was obtained from Thom's formula. The results show that throughout the year but with a predominance from March to August, the spatial extent of both heat and discomfort categories is projected to gradually increase according to the considered GWLs (nearly threefold for an increasing warming thresholds from 1.5 to 3 °C). As these heat conditions become more frequent, they lead to the emergence of days with potentially dangerous heat-related risks, where almost everyone feels discomfort due to heat stress. It thus appears that the majority of populations living in countries located along the Atlantic coast and in the northern and central part of the study area are likely to be more vulnerable to certain health problems, which could have repercussions on the socio-economic development of the sub-region through decreased workers’ productivity and increased cooling degree days. Overall, these heat-related risks are more extended and more frequent when the GWL reaches 2 °C and above. [Display omitted] •Spatial extent of heat categories is almost tripled from 1.5 to 3 °C thresholds.•Frequency of heat categories is almost tripled from 1.5 to 3 °C thresholds.•Days with potentially dangerous risks where everyone feels discomfort emerge.•Countries located over coastal, northern and central domain are most exposed.•The heat-related risks are more widespread and frequent for 2 and 3 °C thresholds.
Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards that interact to limit their adaptive capacity and thus increase their vulnerability to the adverse effects of climate change. This study explores changes in heat stress and the proportion of population at risk of discomfort over Central Africa, based on an ensemble-mean of high-resolution regional climate model simulations that cover a 30-year period, under 1.5, 2 and 3 °C Global Warming Levels (GWLs). The heat index was computed according to Rothfusz's equation, while the discomfort index was obtained from Thom's formula. The results show that throughout the year but with a predominance from March to August, the spatial extent of both heat and discomfort categories is projected to gradually increase according to the considered GWLs (nearly threefold for an increasing warming thresholds from 1.5 to 3 °C). As these heat conditions become more frequent, they lead to the emergence of days with potentially dangerous heat-related risks, where almost everyone feels discomfort due to heat stress. It thus appears that the majority of populations living in countries located along the Atlantic coast and in the northern and central part of the study area are likely to be more vulnerable to certain health problems, which could have repercussions on the socio-economic development of the sub-region through decreased workers' productivity and increased cooling degree days. Overall, these heat-related risks are more extended and more frequent when the GWL reaches 2 °C and above.Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards that interact to limit their adaptive capacity and thus increase their vulnerability to the adverse effects of climate change. This study explores changes in heat stress and the proportion of population at risk of discomfort over Central Africa, based on an ensemble-mean of high-resolution regional climate model simulations that cover a 30-year period, under 1.5, 2 and 3 °C Global Warming Levels (GWLs). The heat index was computed according to Rothfusz's equation, while the discomfort index was obtained from Thom's formula. The results show that throughout the year but with a predominance from March to August, the spatial extent of both heat and discomfort categories is projected to gradually increase according to the considered GWLs (nearly threefold for an increasing warming thresholds from 1.5 to 3 °C). As these heat conditions become more frequent, they lead to the emergence of days with potentially dangerous heat-related risks, where almost everyone feels discomfort due to heat stress. It thus appears that the majority of populations living in countries located along the Atlantic coast and in the northern and central part of the study area are likely to be more vulnerable to certain health problems, which could have repercussions on the socio-economic development of the sub-region through decreased workers' productivity and increased cooling degree days. Overall, these heat-related risks are more extended and more frequent when the GWL reaches 2 °C and above.
Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African countries, which are already experiencing multiple socio-political and socio-economic constraints, but are also subject to severe natural hazards that interact to limit their adaptive capacity and thus increase their vulnerability to the adverse effects of climate change. This study explores changes in heat stress and the proportion of population at risk of discomfort over Central Africa, based on an ensemble-mean of high-resolution regional climate model simulations that cover a 30-year period, under 1.5, 2 and 3 °C Global Warming Levels (GWLs). The heat index was computed according to Rothfusz's equation, while the discomfort index was obtained from Thom's formula. The results show that throughout the year but with a predominance from March to August, the spatial extent of both heat and discomfort categories is projected to gradually increase according to the considered GWLs (nearly threefold for an increasing warming thresholds from 1.5 to 3 °C). As these heat conditions become more frequent, they lead to the emergence of days with potentially dangerous heat-related risks, where almost everyone feels discomfort due to heat stress. It thus appears that the majority of populations living in countries located along the Atlantic coast and in the northern and central part of the study area are likely to be more vulnerable to certain health problems, which could have repercussions on the socio-economic development of the sub-region through decreased workers’ productivity and increased cooling degree days. Overall, these heat-related risks are more extended and more frequent when the GWL reaches 2 °C and above.
ArticleNumber 150099
Author Yepdo, Zéphirin D.
Vondou, Derbetini A.
Tanessong, Roméo S.
Weber, Torsten
Diedhiou, Arona
Fotso-Nguemo, Thierry C.
Diallo, Ismaila
Nghonda, Jean P.
Author_xml – sequence: 1
  givenname: Thierry C.
  orcidid: 0000-0002-8681-5328
  surname: Fotso-Nguemo
  fullname: Fotso-Nguemo, Thierry C.
  email: fotso.nguemo@gmail.com
  organization: Climate Change Research Laboratory (CCRL), National Institute of Cartography, P.O. Box 157, Yaounde, Cameroon
– sequence: 2
  givenname: Derbetini A.
  orcidid: 0000-0002-7321-9236
  surname: Vondou
  fullname: Vondou, Derbetini A.
  organization: Laboratory for Environmental Modelling and Atmospheric Physics (LEMAP), Department of Physics, Faculty of Science, University of Yaounde 1, P.O. Box 812, Yaounde, Cameroon
– sequence: 3
  givenname: Ismaila
  orcidid: 0000-0003-1209-4107
  surname: Diallo
  fullname: Diallo, Ismaila
  organization: Department of Meteorology and Atmospheric Science, Center for Earth System Modeling, Analysis, and Data (ESMAD), The Pennsylvania State University, University Park, PA 16802, USA
– sequence: 4
  givenname: Arona
  orcidid: 0000-0003-3841-1027
  surname: Diedhiou
  fullname: Diedhiou, Arona
  organization: Laboratoire Mixte International “Nexus Climat-Eau-Energie-Agriculture en Afrique de l'Ouest et Services climatiques” (LMI NEXUS), Université Félix Houphouët Boigny, P.O. Box 463, Abidjan, Cote d'Ivoire
– sequence: 5
  givenname: Torsten
  orcidid: 0000-0002-8133-8622
  surname: Weber
  fullname: Weber, Torsten
  organization: Climate Service Center Germany (GERICS), Helmholtz-Zentrum Hereon, 20095 Hamburg, Germany
– sequence: 6
  givenname: Roméo S.
  orcidid: 0000-0003-3804-5901
  surname: Tanessong
  fullname: Tanessong, Roméo S.
  organization: Laboratory for Environmental Modelling and Atmospheric Physics (LEMAP), Department of Physics, Faculty of Science, University of Yaounde 1, P.O. Box 812, Yaounde, Cameroon
– sequence: 7
  givenname: Jean P.
  surname: Nghonda
  fullname: Nghonda, Jean P.
  organization: Climate Change Research Laboratory (CCRL), National Institute of Cartography, P.O. Box 157, Yaounde, Cameroon
– sequence: 8
  givenname: Zéphirin D.
  surname: Yepdo
  fullname: Yepdo, Zéphirin D.
  organization: Climate Change Research Laboratory (CCRL), National Institute of Cartography, P.O. Box 157, Yaounde, Cameroon
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Snippet Investigating the effects of the increased global warming through the lens of the Paris agreements would be of particular importance for Central African...
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SubjectTerms at-risk population
Central Africa
Climate change
climate models
coasts
CORDEX-Africa
environment
equations
Global warming levels
heat
heat stress
Heat stress index
Human discomfort index
socioeconomic development
socioeconomics
Title Potential impact of 1.5, 2 and 3 °C global warming levels on heat and discomfort indices changes over Central Africa
URI https://dx.doi.org/10.1016/j.scitotenv.2021.150099
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