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Pathways for balancing CO2 emissions and sinks

Author

Listed:
  • Brian Walsh

    (International Institute for Applied Systems Analysis)

  • Philippe Ciais

    (Laboratoire des Sciences du Climat et de L’Environnement, CEA-CNRS-UVSQ)

  • Ivan A. Janssens

    (University of Antwerp)

  • Josep Peñuelas

    (CSIC, Global Ecology Unit CREAF-CSIC-UAB
    CREAF)

  • Keywan Riahi

    (International Institute for Applied Systems Analysis)

  • Felicjan Rydzak

    (International Institute for Applied Systems Analysis)

  • Detlef P. van Vuuren

    (PBL Netherlands Environmental Assessment Agency
    Copernicus Institute for Sustainable Development, Utrecht University)

  • Michael Obersteiner

    (International Institute for Applied Systems Analysis)

Abstract

In December 2015 in Paris, leaders committed to achieve global, net decarbonization of human activities before 2100. This achievement would halt and even reverse anthropogenic climate change through the net removal of carbon from the atmosphere. However, the Paris documents contain few specific prescriptions for emissions mitigation, leaving various countries to pursue their own agendas. In this analysis, we project energy and land-use emissions mitigation pathways through 2100, subject to best-available parameterization of carbon-climate feedbacks and interdependencies. We find that, barring unforeseen and transformative technological advancement, anthropogenic emissions need to peak within the next 10 years, to maintain realistic pathways to meeting the COP21 emissions and warming targets. Fossil fuel consumption will probably need to be reduced below a quarter of primary energy supply by 2100 and the allowable consumption rate drops even further if negative emissions technologies remain technologically or economically unfeasible at the global scale.

Suggested Citation

  • Brian Walsh & Philippe Ciais & Ivan A. Janssens & Josep Peñuelas & Keywan Riahi & Felicjan Rydzak & Detlef P. van Vuuren & Michael Obersteiner, 2017. "Pathways for balancing CO2 emissions and sinks," Nature Communications, Nature, vol. 8(1), pages 1-12, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14856
    DOI: 10.1038/ncomms14856
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    Cited by:

    1. Mario Guevara & Rodrigo Vargas, 2019. "Downscaling satellite soil moisture using geomorphometry and machine learning," PLOS ONE, Public Library of Science, vol. 14(9), pages 1-20, September.
    2. Wang, Changjian & Miao, Zhuang & Chen, Xiaodong & Cheng, Yu, 2021. "Factors affecting changes of greenhouse gas emissions in Belt and Road countries," Renewable and Sustainable Energy Reviews, Elsevier, vol. 147(C).
    3. Distefano, Tiziano & D’Alessandro, Simone, 2023. "Introduction of the carbon tax in Italy: Is there room for a quadruple-dividend effect?," Energy Economics, Elsevier, vol. 120(C).
    4. Correa, Diego F. & Beyer, Hawthorne L. & Fargione, Joseph E. & Hill, Jason D. & Possingham, Hugh P. & Thomas-Hall, Skye R. & Schenk, Peer M., 2019. "Towards the implementation of sustainable biofuel production systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 107(C), pages 250-263.
    5. Lili Sun & Huijuan Cui & Quansheng Ge & Caspar Daniel Adenutsi & Xining Hao, 2020. "Spatial Pattern of a Comprehensive f E Index for Provincial Carbon Emissions in China," Energies, MDPI, vol. 13(10), pages 1-18, May.
    6. Lei Liu & Tong Wu & Ziqianhong Wan, 2019. "The EU-China relationship in a new era of global climate governance," Asia Europe Journal, Springer, vol. 17(2), pages 243-254, June.
    7. Thomas Eichner & Gilbert Kollenbach & Mark Schopf, 2021. "Buying versus Leasing Fuel Deposits for Preservation," Scandinavian Journal of Economics, Wiley Blackwell, vol. 123(1), pages 110-143, January.
    8. Sharafat Ali & Haiyan Xu & Najid Ahmad, 2021. "Reviewing the strategies for climate change and sustainability after the US defiance of the Paris Agreement: an AHP–GMCR-based conflict resolution approach," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 23(8), pages 11881-11912, August.
    9. Aino Assmuth & Janne Rämö & Olli Tahvonen, 2021. "Optimal Carbon Storage in Mixed-Species Size-Structured Forests," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 79(2), pages 249-275, June.
    10. Bhatia, Shashi Kant & Bhatia, Ravi Kant & Jeon, Jong-Min & Kumar, Gopalakrishnan & Yang, Yung-Hun, 2019. "Carbon dioxide capture and bioenergy production using biological system – A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 110(C), pages 143-158.
    11. Yu, Ziyue & Deng, Xiangzheng & Cheshmehzangi, Ali & Mangi, Eugenio, 2023. "Structural succession of land resources under the influence of different policies: A case study for Shanxi Province, China," Land Use Policy, Elsevier, vol. 132(C).

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