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Stabilizing CO 2 concentrations with incomplete international cooperation

Author

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  • J. EDMONDS
  • L. CLARKE
  • J. LURZ
  • M. WISE

Abstract

Many stabilization scenarios have examined the implications of stabilization on the assumption that all regions and all sectors of all of the world's economies undertake emissions mitigations wherever and whenever it is cheapest to do so. This idealized assumption is just one of many ways in which emissions mitigation actions could play out globally, but not necessarily the most likely. This paper explores the implications of generic policy regimes that lead to stabilization of CO 2 concentrations under conditions in which non-Annex I regions delay emissions reductions and in which carbon prices vary across participating regions. The resulting stabilization scenarios are contrasted with the idealized results. Delays in the date by which non-Annex I regions begin to reduce emissions raise the price of carbon in Annex I regions relative to the price of carbon in Annex I in an idealized regime for any given CO 2 concentration limit. This effect increases the longer the delay in non-Annex I accession, the lower the non-Annex I carbon prices relative to the Annex I prices, and the more stringent the stabilization level. The effect of delay is very pronounced when CO 2 concentrations are stabilized at 450 ppmv, however the effect is much less pronounced at 550 ppmv and above. For long delays in non-Annex I accession, 450 ppmv stabilization levels become infeasible.

Suggested Citation

  • J. Edmonds & L. Clarke & J. Lurz & M. Wise, 2008. "Stabilizing CO 2 concentrations with incomplete international cooperation," Climate Policy, Taylor & Francis Journals, vol. 8(4), pages 355-376, July.
    • Handle: RePEc:taf:tcpoxx:v:8:y:2008:i:4:p:355-376
    DOI: 10.3763/cpol.2007.0469
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    Cited by:

    1. Yingying Lu & David I. Stern, 2016. "Substitutability and the Cost of Climate Mitigation Policy," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 64(1), pages 81-107, May.
    2. Runst, Petrik & Höhle, David, 2022. "The German eco tax and its impact on CO2 emissions," Energy Policy, Elsevier, vol. 160(C).
    3. Eom, Jiyong & Edmonds, Jae & Krey, Volker & Johnson, Nils & Longden, Thomas & Luderer, Gunnar & Riahi, Keywan & Van Vuuren, Detlef P., 2015. "The impact of near-term climate policy choices on technology and emission transition pathways," Technological Forecasting and Social Change, Elsevier, vol. 90(PA), pages 73-88.
    4. Volker Krey, 2014. "Global energy-climate scenarios and models: a review," Wiley Interdisciplinary Reviews: Energy and Environment, Wiley Blackwell, vol. 3(4), pages 363-383, July.
    5. Marcucci, Adriana & Turton, Hal, 2015. "Induced technological change in moderate and fragmented climate change mitigation regimes," Technological Forecasting and Social Change, Elsevier, vol. 90(PA), pages 230-242.
    6. Hongbo Duan, Lei Zhu, Gürkan Kumbaroglu, and Ying Fan, 2016. "Regional Opportunities for China To Go Low-Carbon: Results from the REEC Model," The Energy Journal, International Association for Energy Economics, vol. 0(China Spe).
    7. Lining Wang & Wenying Chen & XunZhang Pan & Nan Li & Huan Wang & Danyang Li & Han Chen, 2018. "Scale and benefit of global carbon markets under the 2 °C goal: integrated modeling and an effort-sharing platform," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 23(8), pages 1207-1223, December.

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