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Aligning climate scenarios to emissions inventories shifts global benchmarks

Author

Listed:
  • Matthew J. Gidden

    (International Institute for Applied Systems Analysis
    Climate Analytics)

  • Thomas Gasser

    (International Institute for Applied Systems Analysis)

  • Giacomo Grassi

    (European Commission)

  • Nicklas Forsell

    (International Institute for Applied Systems Analysis)

  • Iris Janssens

    (International Institute for Applied Systems Analysis
    University of Antwerp)

  • William F. Lamb

    (Mercator Research Institute on Global Commons and Climate Change
    University of Leeds)

  • Jan Minx

    (Mercator Research Institute on Global Commons and Climate Change
    University of Leeds)

  • Zebedee Nicholls

    (International Institute for Applied Systems Analysis
    University of Melbourne
    Climate Resource)

  • Jan Steinhauser

    (International Institute for Applied Systems Analysis
    Potsdam Institute for Climate Impact Research)

  • Keywan Riahi

    (International Institute for Applied Systems Analysis)

Abstract

Taking stock of global progress towards achieving the Paris Agreement requires consistently measuring aggregate national actions and pledges against modelled mitigation pathways1. However, national greenhouse gas inventories (NGHGIs) and scientific assessments of anthropogenic emissions follow different accounting conventions for land-based carbon fluxes resulting in a large difference in the present emission estimates2,3, a gap that will evolve over time. Using state-of-the-art methodologies4 and a land carbon-cycle emulator5, we align the Intergovernmental Panel on Climate Change (IPCC)-assessed mitigation pathways with the NGHGIs to make a comparison. We find that the key global mitigation benchmarks become harder to achieve when calculated using the NGHGI conventions, requiring both earlier net-zero CO2 timing and lower cumulative emissions. Furthermore, weakening natural carbon removal processes such as carbon fertilization can mask anthropogenic land-based removal efforts, with the result that land-based carbon fluxes in NGHGIs may ultimately become sources of emissions by 2100. Our results are important for the Global Stocktake6, suggesting that nations will need to increase the collective ambition of their climate targets to remain consistent with the global temperature goals.

Suggested Citation

  • Matthew J. Gidden & Thomas Gasser & Giacomo Grassi & Nicklas Forsell & Iris Janssens & William F. Lamb & Jan Minx & Zebedee Nicholls & Jan Steinhauser & Keywan Riahi, 2023. "Aligning climate scenarios to emissions inventories shifts global benchmarks," Nature, Nature, vol. 624(7990), pages 102-108, December.
    • Handle: RePEc:nat:nature:v:624:y:2023:i:7990:d:10.1038_s41586-023-06724-y
    DOI: 10.1038/s41586-023-06724-y
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    Cited by:

    1. Lea Dorgeist & Clemens Schwingshackl & Selma Bultan & Julia Pongratz, 2024. "A consistent budgeting of terrestrial carbon fluxes," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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