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Operationalizing the net-negative carbon economy

Author

Listed:
  • Johannes Bednar

    (International Institute for Applied Systems Analysis (IIASA)
    School of Geography and the Environment, University of Oxford)

  • Michael Obersteiner

    (International Institute for Applied Systems Analysis (IIASA)
    School of Geography and the Environment, University of Oxford)

  • Artem Baklanov

    (International Institute for Applied Systems Analysis (IIASA)
    HSE University)

  • Marcus Thomson

    (University of California)

  • Fabian Wagner

    (International Institute for Applied Systems Analysis (IIASA))

  • Oliver Geden

    (International Institute for Applied Systems Analysis (IIASA)
    German Institute for International and Security Affairs)

  • Myles Allen

    (School of Geography and the Environment, University of Oxford)

  • Jim W. Hall

    (School of Geography and the Environment, University of Oxford)

Abstract

The remaining carbon budget for limiting global warming to 1.5 degrees Celsius will probably be exhausted within this decade1,2. Carbon debt3 generated thereafter will need to be compensated by net-negative emissions4. However, economic policy instruments to guarantee potentially very costly net carbon dioxide removal (CDR) have not yet been devised. Here we propose intertemporal instruments to provide the basis for widely applied carbon taxes and emission trading systems to finance a net-negative carbon economy5. We investigate an idealized market approach to incentivize the repayment of previously accrued carbon debt by establishing the responsibility of emitters for the net removal of carbon dioxide through ‘carbon removal obligations’ (CROs). Inherent risks, such as the risk of default by carbon debtors, are addressed by pricing atmospheric CO2 storage through interest on carbon debt. In contrast to the prevailing literature on emission pathways, we find that interest payments for CROs induce substantially more-ambitious near-term decarbonization that is complemented by earlier and less-aggressive deployment of CDR. We conclude that CROs will need to become an integral part of the global climate policy mix if we are to ensure the viability of ambitious climate targets and an equitable distribution of mitigation efforts across generations.

Suggested Citation

  • Johannes Bednar & Michael Obersteiner & Artem Baklanov & Marcus Thomson & Fabian Wagner & Oliver Geden & Myles Allen & Jim W. Hall, 2021. "Operationalizing the net-negative carbon economy," Nature, Nature, vol. 596(7872), pages 377-383, August.
    • Handle: RePEc:nat:nature:v:596:y:2021:i:7872:d:10.1038_s41586-021-03723-9
    DOI: 10.1038/s41586-021-03723-9
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    Citations

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    Cited by:

    1. Kai Lessmann & Friedemann Gruner & Matthias Kalkuhl & Ottmar Edenhofer, 2024. "Emissions Trading with Clean-up Certificates: Deterring Mitigation or Increasing Ambition?," CESifo Working Paper Series 11167, CESifo.
    2. Chris Kenyon & Mourad Berrahoui & Andrea Macrina, 2022. "Transparency principle for carbon emissions drives sustainable finance," Papers 2202.07689, arXiv.org.
    3. Kim, Hoo Hugo & Basak, Bikram & Lee, Dong-Yeol & Chung, Woo Jin & Chang, Soon Woong & Kwak, Min-Jin & Kim, Seung Hyun & Hwang, Jae Kyoon & Keum, Jihyun & Park, Hyun-Kyung & Ha, Geon-Soo & Kim, Kwang H, 2023. "Insights into prokaryotic metataxonomics and predictive metabolic function in field-scale anaerobic digesters treating various organic wastes," Renewable and Sustainable Energy Reviews, Elsevier, vol. 187(C).
    4. Natalie Warzywoda & Paul Dargusch & Genia Hill, 2022. "How Meaningful Are Modest Carbon Emissions Reductions Targets? The Case of Sumitomo Electrical Group’s Short-Term Targets towards Longer-Term Net Zero," Sustainability, MDPI, vol. 14(7), pages 1-10, April.
    5. Fang, Yan Ru & Peng, Wei & Urpelainen, Johannes & Hossain, M.S. & Qin, Yue & Ma, Teng & Ren, Ming & Liu, Xiaorui & Zhang, Silu & Huang, Chen & Dai, Hancheng, 2023. "Neutralizing China's transportation sector requires combined decarbonization efforts from power and hydrogen supply," Applied Energy, Elsevier, vol. 349(C).
    6. Yang, Chuxiao & Wu, Haitao & Guo, Yunxia & Hao, Yu, 2024. "Possible carbon circular pathway exploration for oil transition under the consideration of energy supply constraint and uncertainty," Ecological Economics, Elsevier, vol. 222(C).
    7. Anders Henrik Sirén, 2024. "The global potential for carbon removal through biochar in shifting cultivation systems," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 29(7), pages 1-14, October.
    8. Wähling, Lara-Sophie & Fridahl, Mathias & Heimann, Tobias & Merk, Christine, 2023. "The sequence matters: Expert opinions on policy mechanisms for bioenergy with carbon capture and storage," Open Access Publications from Kiel Institute for the World Economy 275739, Kiel Institute for the World Economy (IfW Kiel).
    9. Wilfried Rickels & Roland Rothenstein, 2022. "CO2-Zentralbank: Rechtzeitiger Zertifikateankauf [CO2 Central Bank: Timely purchase of certificates]," Wirtschaftsdienst, Springer;ZBW - Leibniz Information Centre for Economics, vol. 102(4), pages 249-249, April.
    10. Jingzhao Zhang & Yanan Wang & Benben Jiang & Haowei He & Shaobo Huang & Chen Wang & Yang Zhang & Xuebing Han & Dongxu Guo & Guannan He & Minggao Ouyang, 2023. "Realistic fault detection of li-ion battery via dynamical deep learning," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    11. Guo, Chaoyi & Zhou, Ziqiao & Liu, Xinyuan & Liu, Xiaorui & Meng, Jing & Dai, Hancheng, 2023. "The unintended dilemma of China's target-based carbon neutrality policy and provincial economic inequality," Energy Economics, Elsevier, vol. 126(C).
    12. Nair, Purusothmn Nair S Bhasker & Tan, Raymond R. & Foo, Dominic C.Y., 2022. "Extended graphical approach for the implementation of energy-consuming negative emission technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).

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