The carbon dioxide removal gap

Rapid emissions reductions, including reductions in deforestation-based land emissions, are the dominant source of global climate mitigation potential in the coming decades. However, carbon dioxide removal (CDR) will also have an important role to play. Despite this, it remains unclear whether curre...

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Veröffentlicht in:	Nature climate change 2024-06, Vol.14 (6), p.644-651
Hauptverfasser:	Lamb, William F., Gasser, Thomas, Roman-Cuesta, Rosa M., Grassi, Giacomo, Gidden, Matthew J., Powis, Carter M., Geden, Oliver, Nemet, Gregory, Pratama, Yoga, Riahi, Keywan, Smith, Stephen M., Steinhauser, Jan, Vaughan, Naomi E., Smith, Harry B., Minx, Jan C.
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Schlagworte:	704/106/694/682 704/844/685 Analysis Carbon capture and storage Carbon dioxide Carbon dioxide emissions Carbon dioxide removal Carbon sequestration Charcoal Climate Change Climate change mitigation Climate Change/Climate Change Impacts Deforestation Earth and Environmental Science Emissions Emissions control Energy demand Environment Environmental Law/Policy/Ecojustice Global climate Global warming Paris Agreement Proposals Scaling
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creator	Lamb, William F. Gasser, Thomas Roman-Cuesta, Rosa M. Grassi, Giacomo Gidden, Matthew J. Powis, Carter M. Geden, Oliver Nemet, Gregory Pratama, Yoga Riahi, Keywan Smith, Stephen M. Steinhauser, Jan Vaughan, Naomi E. Smith, Harry B. Minx, Jan C.
description	Rapid emissions reductions, including reductions in deforestation-based land emissions, are the dominant source of global climate mitigation potential in the coming decades. However, carbon dioxide removal (CDR) will also have an important role to play. Despite this, it remains unclear whether current national proposals for CDR align with temperature targets. Here we show the ‘CDR gap’, that is, CDR efforts proposed by countries fall short of those in integrated assessment model scenarios that limit warming to 1.5 °C. However, the most ambitious proposals for CDR are close to levels in a low-energy demand scenario with the most-limited CDR scaling and aggressive near-term emissions reductions. Further, we observe that many countries propose to expand land-based removals, but none yet commit to substantively scaling novel methods such as bioenergy carbon capture and storage, biochar or direct air carbon capture and storage. Carbon dioxide removals (CDR) have been integrated into country-submitted reports under the Paris Agreement. However, this Analysis finds a gap between levels of CDR in these national proposals and the scenarios limiting global warming to the 1.5 °C target.
doi_str_mv	10.1038/s41558-024-01984-6
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Clim. Chang</addtitle><description>Rapid emissions reductions, including reductions in deforestation-based land emissions, are the dominant source of global climate mitigation potential in the coming decades. However, carbon dioxide removal (CDR) will also have an important role to play. Despite this, it remains unclear whether current national proposals for CDR align with temperature targets. Here we show the ‘CDR gap’, that is, CDR efforts proposed by countries fall short of those in integrated assessment model scenarios that limit warming to 1.5 °C. However, the most ambitious proposals for CDR are close to levels in a low-energy demand scenario with the most-limited CDR scaling and aggressive near-term emissions reductions. Further, we observe that many countries propose to expand land-based removals, but none yet commit to substantively scaling novel methods such as bioenergy carbon capture and storage, biochar or direct air carbon capture and storage. 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subjects	704/106/694/682 704/844/685 Analysis Carbon capture and storage Carbon dioxide Carbon dioxide emissions Carbon dioxide removal Carbon sequestration Charcoal Climate Change Climate change mitigation Climate Change/Climate Change Impacts Deforestation Earth and Environmental Science Emissions Emissions control Energy demand Environment Environmental Law/Policy/Ecojustice Global climate Global warming Paris Agreement Proposals Scaling
title	The carbon dioxide removal gap
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