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Quantifying risks avoided by limiting global warming to 1.5 or 2 °C above pre-industrial levels

Quantifying risks avoided by limiting global warming to 1.5 or 2 °C above pre-industrial levels
Quantifying risks avoided by limiting global warming to 1.5 or 2 °C above pre-industrial levels
The Paris Agreement aims to constrain global warming to ‘well below 2 °C’ and to ‘pursue efforts’ to limit it to 1.5 °C above pre-industrial levels. We quantify global and regional risk-related metrics associated with these levels of warming that capture climate change–related changes in exposure to water scarcity and heat stress, vector-borne disease, coastal and fluvial flooding and projected impacts on agriculture and the economy, allowing for uncertainties in regional climate projection. Risk-related metrics associated with 2 °C warming, depending on sector, are reduced by 10–44% globally if warming is further reduced to 1.5 °C. Comparing with a baseline in which warming of 3.66 °C occurs by 2100, constraining warming to 1.5 °C reduces these risk indicators globally by 32–85%, and constraining warming to 2 °C reduces them by 26–74%. In percentage terms, avoided risk is highest for fluvial flooding, drought, and heat stress, but in absolute terms risk reduction is greatest for drought. Although water stress decreases in some regions, it is often accompanied by additional exposure to flooding. The magnitude of the percentage of damage avoided is similar to that calculated for avoided global economic risk associated with these same climate change scenarios. We also identify West Africa, India and North America as hotspots of climate change risk in the future.
Avoided impacts, Climate change, Economic damages, Fluvial flooding, Hotspots, Mitigation, Paris Agreement
0165-0009
Warren, Rachel
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Andrews, Oliver
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Brown, Sally
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Colón-González, Felipe J.
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Forstenhäusler, Nicole
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Gernaat, David E.H.J.
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Goodwin, Philip
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Harris, Ian
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He, Yi
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Hope, Chris
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Manful, Desmond
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Osborn, Timothy J.
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Price, Jeff
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Van Vuuren, Detlef
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Wright, Rebecca Mary
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Warren, Rachel
8d3ababb-ba65-4fa2-920b-185a8063b135
Andrews, Oliver
c8d8db2a-486e-4f45-9a4e-d41f86651406
Brown, Sally
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Colón-González, Felipe J.
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Forstenhäusler, Nicole
4a15c0c7-75b2-4671-8956-ea79d5cab374
Gernaat, David E.H.J.
c10d4389-b358-4a85-a9d5-947234eaa609
Goodwin, Philip
87dbb154-5c39-473a-8121-c794487ee1fd
Harris, Ian
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He, Yi
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Hope, Chris
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Manful, Desmond
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Osborn, Timothy J.
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Price, Jeff
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Van Vuuren, Detlef
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Wright, Rebecca Mary
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Warren, Rachel, Andrews, Oliver, Brown, Sally, Colón-González, Felipe J., Forstenhäusler, Nicole, Gernaat, David E.H.J., Goodwin, Philip, Harris, Ian, He, Yi, Hope, Chris, Manful, Desmond, Osborn, Timothy J., Price, Jeff, Van Vuuren, Detlef and Wright, Rebecca Mary (2022) Quantifying risks avoided by limiting global warming to 1.5 or 2 °C above pre-industrial levels. Climatic Change, 172 (3-4), [39]. (doi:10.1007/s10584-021-03277-9).

Record type: Article

Abstract

The Paris Agreement aims to constrain global warming to ‘well below 2 °C’ and to ‘pursue efforts’ to limit it to 1.5 °C above pre-industrial levels. We quantify global and regional risk-related metrics associated with these levels of warming that capture climate change–related changes in exposure to water scarcity and heat stress, vector-borne disease, coastal and fluvial flooding and projected impacts on agriculture and the economy, allowing for uncertainties in regional climate projection. Risk-related metrics associated with 2 °C warming, depending on sector, are reduced by 10–44% globally if warming is further reduced to 1.5 °C. Comparing with a baseline in which warming of 3.66 °C occurs by 2100, constraining warming to 1.5 °C reduces these risk indicators globally by 32–85%, and constraining warming to 2 °C reduces them by 26–74%. In percentage terms, avoided risk is highest for fluvial flooding, drought, and heat stress, but in absolute terms risk reduction is greatest for drought. Although water stress decreases in some regions, it is often accompanied by additional exposure to flooding. The magnitude of the percentage of damage avoided is similar to that calculated for avoided global economic risk associated with these same climate change scenarios. We also identify West Africa, India and North America as hotspots of climate change risk in the future.

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Accepted/In Press date: 21 November 2021
e-pub ahead of print date: 29 June 2022
Published date: 29 June 2022
Additional Information: Funding Information: This research leading to these results received funding from the UK Government, Department for Business, Energy and Industrial Strategy, as part of the Implications of global warming of 1.5 °C and 2 °C project. OA, YH, JP and RW were also funded by joint UK NERC and UK Government Department of BEIS grant NE/P01495X/1. Publisher Copyright: © 2022, The Author(s).
Keywords: Avoided impacts, Climate change, Economic damages, Fluvial flooding, Hotspots, Mitigation, Paris Agreement
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Identifiers

Local EPrints ID: 468400
URI: http://eprints.soton.ac.uk/id/eprint/468400
DOI: doi:10.1007/s10584-021-03277-9
ISSN: 0165-0009
PURE UUID: 2e8e310c-d0ae-40d3-b114-ed625fbd8e23
ORCID for Sally Brown: ORCID iD orcid.org/0000-0003-1185-1962
ORCID for Philip Goodwin: ORCID iD orcid.org/0000-0002-2575-8948

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Date deposited: 12 Aug 2022 21:19
Last modified: 17 Mar 2024 03:32

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Contributors

Author: Rachel Warren
Author: Oliver Andrews
Author: Sally Brown ORCID iD
Author: Felipe J. Colón-González
Author: Nicole Forstenhäusler
Author: David E.H.J. Gernaat
Author: Philip Goodwin ORCID iD
Author: Ian Harris
Author: Yi He
Author: Chris Hope
Author: Desmond Manful
Author: Timothy J. Osborn
Author: Jeff Price
Author: Detlef Van Vuuren
Author: Rebecca Mary Wright

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