Short-lived climate forcers have long-term climate impacts via the carbon–climate feedback

Short-lived climate forcers (SLCFs) like methane, ozone and aerosols have a shorter atmospheric lifetime than CO 2 and are often assumed to have a short-term effect on the climate system: should their emissions cease, so would their radiative forcing (RF). However, via their climate impact, SLCFs ca...

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Veröffentlicht in:	Nature climate change 2020-09, Vol.10 (9), p.851-855
Hauptverfasser:	Fu, Bo, Gasser, Thomas, Li, Bengang, Tao, Shu, Ciais, Philippe, Piao, Shilong, Balkanski, Yves, Li, Wei, Yin, Tianya, Han, Luchao, Li, Xinyue, Han, Yunman, An, Jie, Peng, Siyuan, Xu, Jing
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Schlagworte:	704/106/694/1108 704/106/694/674 Carbon Carbon dioxide Carbon dioxide atmospheric concentrations Carbon dioxide emissions Carbon sinks Climate Change Climate Change/Climate Change Impacts Climate effects Climate feedback Climate system Earth and Environmental Science Emissions Environment Environmental Law/Policy/Ecojustice Feedback Ocean, Atmosphere Ozone Radiative forcing Sciences of the Universe
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container_title	Nature climate change
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creator	Fu, Bo Gasser, Thomas Li, Bengang Tao, Shu Ciais, Philippe Piao, Shilong Balkanski, Yves Li, Wei Yin, Tianya Han, Luchao Li, Xinyue Han, Yunman An, Jie Peng, Siyuan Xu, Jing
description	Short-lived climate forcers (SLCFs) like methane, ozone and aerosols have a shorter atmospheric lifetime than CO 2 and are often assumed to have a short-term effect on the climate system: should their emissions cease, so would their radiative forcing (RF). However, via their climate impact, SLCFs can affect carbon sinks and atmospheric CO 2 , causing additional climate change. Here, we use a compact Earth system model to attribute CO 2 RF to direct CO 2 emissions and to climate–carbon feedbacks since the pre-industrial era. We estimate the climate–carbon feedback contributed 93 ± 50 mW m −2 (~5%) to total RF of CO 2 in 2010. Of this, SLCF impacts were −13 ± 50 mW m −2 , made up of cooling (−115 ± 43 mW m −2 ) and warming (102 ± 26 mW m −2 ) terms that largely cancel. This study illustrates the long-term impact that short-lived species have on climate and indicates that past (and future) change in atmospheric CO 2 cannot be attributed only to CO 2 emissions. Short-lived climate forcers (SLCFs) are thought to have short-term impacts relative to CO 2 . A compact Earth system model estimates SLCFs have caused substantial, long-term impacts via carbon–climate feedbacks since the pre-industrial era but species-dependent impacts of opposite sign largely cancel.
doi_str_mv	10.1038/s41558-020-0841-x
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Clim. Chang</addtitle><description>Short-lived climate forcers (SLCFs) like methane, ozone and aerosols have a shorter atmospheric lifetime than CO 2 and are often assumed to have a short-term effect on the climate system: should their emissions cease, so would their radiative forcing (RF). However, via their climate impact, SLCFs can affect carbon sinks and atmospheric CO 2 , causing additional climate change. Here, we use a compact Earth system model to attribute CO 2 RF to direct CO 2 emissions and to climate–carbon feedbacks since the pre-industrial era. We estimate the climate–carbon feedback contributed 93 ± 50 mW m −2 (~5%) to total RF of CO 2 in 2010. Of this, SLCF impacts were −13 ± 50 mW m −2 , made up of cooling (−115 ± 43 mW m −2 ) and warming (102 ± 26 mW m −2 ) terms that largely cancel. 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Clim. Chang</stitle><date>2020-09-01</date><risdate>2020</risdate><volume>10</volume><issue>9</issue><spage>851</spage><epage>855</epage><pages>851-855</pages><issn>1758-678X</issn><eissn>1758-6798</eissn><abstract>Short-lived climate forcers (SLCFs) like methane, ozone and aerosols have a shorter atmospheric lifetime than CO 2 and are often assumed to have a short-term effect on the climate system: should their emissions cease, so would their radiative forcing (RF). However, via their climate impact, SLCFs can affect carbon sinks and atmospheric CO 2 , causing additional climate change. Here, we use a compact Earth system model to attribute CO 2 RF to direct CO 2 emissions and to climate–carbon feedbacks since the pre-industrial era. We estimate the climate–carbon feedback contributed 93 ± 50 mW m −2 (~5%) to total RF of CO 2 in 2010. Of this, SLCF impacts were −13 ± 50 mW m −2 , made up of cooling (−115 ± 43 mW m −2 ) and warming (102 ± 26 mW m −2 ) terms that largely cancel. 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subjects	704/106/694/1108 704/106/694/674 Carbon Carbon dioxide Carbon dioxide atmospheric concentrations Carbon dioxide emissions Carbon sinks Climate Change Climate Change/Climate Change Impacts Climate effects Climate feedback Climate system Earth and Environmental Science Emissions Environment Environmental Law/Policy/Ecojustice Feedback Ocean, Atmosphere Ozone Radiative forcing Sciences of the Universe
title	Short-lived climate forcers have long-term climate impacts via the carbon–climate feedback
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