Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions

Recent studies have identified an approximately proportional relationship between global warming and cumulative carbon emissions, yet the robustness of this relationship has not been tested over a broad range of cumulative emissions and emission rates. This study explores the path dependence of the...

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Published in:Earth System Dynamics
Main Authors: Herrington, T., Zickfeld, K.
Format: Text
Language:English
Published: 2018
Subjects:
Arctic
Global warming
Sea ice
Online Access:https://doi.org/10.5194/esd-5-409-2014
https://esd.copernicus.org/articles/5/409/2014/
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spelling ftcopernicus:oai:publications.copernicus.org:esd25584 2023-05-15T15:08:43+02:00 Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions Herrington, T. Zickfeld, K. 2018-09-27 application/pdf https://doi.org/10.5194/esd-5-409-2014 https://esd.copernicus.org/articles/5/409/2014/ eng eng doi:10.5194/esd-5-409-2014 https://esd.copernicus.org/articles/5/409/2014/ eISSN: 2190-4987 Text 2018 ftcopernicus https://doi.org/10.5194/esd-5-409-2014 2020-07-20T16:24:51Z Recent studies have identified an approximately proportional relationship between global warming and cumulative carbon emissions, yet the robustness of this relationship has not been tested over a broad range of cumulative emissions and emission rates. This study explores the path dependence of the climate and carbon cycle response using an Earth system model of intermediate complexity forced with 24 idealized emissions scenarios across five cumulative emission groups (1275–5275 Gt C) with varying rates of emission. We find the century-scale climate and carbon cycle response after cessation of emissions to be approximately independent of emission pathway for all cumulative emission levels considered. The ratio of global mean temperature change to cumulative emissions – referred to as the transient climate response to cumulative carbon emissions (TCRE) – is found to be constant for cumulative emissions lower than ∼1500 Gt C but to decline with higher cumulative emissions. The TCRE is also found to decrease with increasing emission rate. The response of Arctic sea ice is found to be approximately proportional to cumulative emissions, while the response of the Atlantic Meridional Overturning Circulation does not scale linearly with cumulative emissions, as its peak response is strongly dependent on emission rate. Ocean carbon uptake weakens with increasing cumulative emissions, while land carbon uptake displays non-monotonic behavior, increasing up to a cumulative emission threshold of ∼2000 Gt C and then declining. Text Arctic Global warming Sea ice Copernicus Publications: E-Journals Arctic Earth System Dynamics 5 2 409 422
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Recent studies have identified an approximately proportional relationship between global warming and cumulative carbon emissions, yet the robustness of this relationship has not been tested over a broad range of cumulative emissions and emission rates. This study explores the path dependence of the climate and carbon cycle response using an Earth system model of intermediate complexity forced with 24 idealized emissions scenarios across five cumulative emission groups (1275–5275 Gt C) with varying rates of emission. We find the century-scale climate and carbon cycle response after cessation of emissions to be approximately independent of emission pathway for all cumulative emission levels considered. The ratio of global mean temperature change to cumulative emissions – referred to as the transient climate response to cumulative carbon emissions (TCRE) – is found to be constant for cumulative emissions lower than ∼1500 Gt C but to decline with higher cumulative emissions. The TCRE is also found to decrease with increasing emission rate. The response of Arctic sea ice is found to be approximately proportional to cumulative emissions, while the response of the Atlantic Meridional Overturning Circulation does not scale linearly with cumulative emissions, as its peak response is strongly dependent on emission rate. Ocean carbon uptake weakens with increasing cumulative emissions, while land carbon uptake displays non-monotonic behavior, increasing up to a cumulative emission threshold of ∼2000 Gt C and then declining.
format Text
author Herrington, T.
Zickfeld, K.
spellingShingle Herrington, T.
Zickfeld, K.
Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
author_facet Herrington, T.
Zickfeld, K.
author_sort Herrington, T.
title Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
title_short Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
title_full Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
title_fullStr Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
title_full_unstemmed Path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
title_sort path independence of climate and carbon cycle response over a broad range of cumulative carbon emissions
publishDate 2018
url https://doi.org/10.5194/esd-5-409-2014
https://esd.copernicus.org/articles/5/409/2014/
geographic Arctic
geographic_facet Arctic
genre Arctic
Global warming
Sea ice
genre_facet Arctic
Global warming
Sea ice
op_source eISSN: 2190-4987
op_relation doi:10.5194/esd-5-409-2014
https://esd.copernicus.org/articles/5/409/2014/
op_doi https://doi.org/10.5194/esd-5-409-2014
container_title Earth System Dynamics
container_volume 5
container_issue 2
container_start_page 409
op_container_end_page 422
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