A multi-model analysis of long-term emissions and warming implications of current mitigation efforts
Most of the integrated assessment modelling literature focuses on cost-effective pathways towards given temperature goals. Conversely, using seven diverse integrated assessment models, we project global energy CO 2 emissions trajectories on the basis of near-term mitigation efforts and two assumptio...
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| Veröffentlicht in: | Nature climate change 2021-12, Vol.11 (12), p.1055-1062 |
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| creator | Sognnaes, Ida Gambhir, Ajay van de Ven, Dirk-Jan Nikas, Alexandros Anger-Kraavi, Annela Bui, Ha Campagnolo, Lorenza Delpiazzo, Elisa Doukas, Haris Giarola, Sara Grant, Neil Hawkes, Adam Köberle, Alexandre C. Kolpakov, Andrey Mittal, Shivika Moreno, Jorge Perdana, Sigit Rogelj, Joeri Vielle, Marc Peters, Glen P. |
| description | Most of the integrated assessment modelling literature focuses on cost-effective pathways towards given temperature goals. Conversely, using seven diverse integrated assessment models, we project global energy CO
2
emissions trajectories on the basis of near-term mitigation efforts and two assumptions on how these efforts continue post-2030. Despite finding a wide range of emissions by 2050, nearly all the scenarios have median warming of less than 3 °C in 2100. However, the most optimistic scenario is still insufficient to limit global warming to 2 °C. We furthermore highlight key modelling choices inherent to projecting where emissions are headed. First, emissions are more sensitive to the choice of integrated assessment model than to the assumed mitigation effort, highlighting the importance of heterogeneous model intercomparisons. Differences across models reflect diversity in baseline assumptions and impacts of near-term mitigation efforts. Second, the common practice of using economy-wide carbon prices to represent policy exaggerates carbon capture and storage use compared with explicitly modelling policies.
Mitigation pathways tend to focus on an end temperature target and calculate how to keep within these bounds. This work uses seven integrated assessment models to consider current mitigation efforts and project likely temperature trajectories. |
| doi_str_mv | 10.1038/s41558-021-01206-3 |
| format | Article |
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emissions trajectories on the basis of near-term mitigation efforts and two assumptions on how these efforts continue post-2030. Despite finding a wide range of emissions by 2050, nearly all the scenarios have median warming of less than 3 °C in 2100. However, the most optimistic scenario is still insufficient to limit global warming to 2 °C. We furthermore highlight key modelling choices inherent to projecting where emissions are headed. First, emissions are more sensitive to the choice of integrated assessment model than to the assumed mitigation effort, highlighting the importance of heterogeneous model intercomparisons. Differences across models reflect diversity in baseline assumptions and impacts of near-term mitigation efforts. Second, the common practice of using economy-wide carbon prices to represent policy exaggerates carbon capture and storage use compared with explicitly modelling policies.
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emissions trajectories on the basis of near-term mitigation efforts and two assumptions on how these efforts continue post-2030. Despite finding a wide range of emissions by 2050, nearly all the scenarios have median warming of less than 3 °C in 2100. However, the most optimistic scenario is still insufficient to limit global warming to 2 °C. We furthermore highlight key modelling choices inherent to projecting where emissions are headed. First, emissions are more sensitive to the choice of integrated assessment model than to the assumed mitigation effort, highlighting the importance of heterogeneous model intercomparisons. Differences across models reflect diversity in baseline assumptions and impacts of near-term mitigation efforts. Second, the common practice of using economy-wide carbon prices to represent policy exaggerates carbon capture and storage use compared with explicitly modelling policies.
Mitigation pathways tend to focus on an end temperature target and calculate how to keep within these bounds. 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| fulltext | fulltext |
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| ispartof | Nature climate change, 2021-12, Vol.11 (12), p.1055-1062 |
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| source | PAIS Index; Nature Journals Online; SpringerLink Journals - AutoHoldings |
| subjects | 704/106/694/682 704/844/682 706/689/694/2786 Carbon Carbon capture and storage Carbon dioxide Carbon dioxide emissions Carbon sequestration Climate Change Climate Change/Climate Change Impacts Earth and Environmental Science Economic growth Emissions Environment Environmental Law/Policy/Ecojustice Environmental policy GDP Global warming Gross Domestic Product Mitigation Modelling Paris Agreement Prices Pricing policies Storage Temperature |
| title | A multi-model analysis of long-term emissions and warming implications of current mitigation efforts |
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