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Uncertainty management and the dynamic adjustment of Deep Decarbonization Pathways

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  • Mathy, S.
  • Criqui, P.
  • Knoop, K.
  • Fischedick, M.
  • Samadi, S.

Abstract

Contrary to 'static' pathways that are defined once for all, this article deals with the need for policymakers to adopt a dynamic adaptive policy pathway for managing decarbonization over the period of implementation. When choosing a pathway as the most desirable option, it is important to keep in mind that each decarbonization option relies on the implementation of specific policies and instruments. But given structural, effectiveness and timing uncertainties specific to each policy option they may fail in delivering the expected outcomes in time. The possibility of diverging from an initial decarbonization trajectory to another one without incurring excessive costs should therefore be a strategic element in the design of an appropriate decarbonization strategy. The article relies on initial experiences in France and Germany on decarbonization planning and implementation to define elements for managing dynamic adjustment issues. Such an adaptive pathway strategy should combine long-lived incentives to form consistent expectations, as well as adaptive policies to improve overall robustness and resilience. We sketch key elements of a monitoring process based on an ex ante definition of leading indicators that should be assessed regularly and combined with signposts and trigger values at the subsector level.

Suggested Citation

  • Mathy, S. & Criqui, P. & Knoop, K. & Fischedick, M. & Samadi, S., 2016. "Uncertainty management and the dynamic adjustment of Deep Decarbonization Pathways," Working Papers 2016-03, Grenoble Applied Economics Laboratory (GAEL).
    • Handle: RePEc:gbl:wpaper:2016-03
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    1. Chris Bataille & Henri Waisman & Michel Colombier & Laura Segafredo & Jim Williams & Frank Jotzo, 2016. "The need for national deep decarbonization pathways for effective climate policy," Climate Policy, Taylor & Francis Journals, vol. 16(sup1), pages 7-26, June.
    2. Spencer, Thomas & Pierfederici, Roberta & Sartor, Oliver & Berghmans, Nicolas & Samadi, Sascha & Fischedick, Manfred & Knoop, Katharina & Pye, Steve & Criqui, Patrick & Mathy, Sandrine & Capros, Pante, 2017. "Tracking sectoral progress in the deep decarbonisation of energy systems in Europe," Energy Policy, Elsevier, vol. 110(C), pages 509-517.
    3. Rafał Nagaj & Bożena Gajdzik & Radosław Wolniak & Wieslaw Wes Grebski, 2024. "The Impact of Deep Decarbonization Policy on the Level of Greenhouse Gas Emissions in the European Union," Energies, MDPI, vol. 17(5), pages 1-23, March.
    4. Franck Lecocq & Alain Nadaï & Christophe Cassen, 2022. "Getting models and modellers to inform deep decarbonization strategies," Climate Policy, Taylor & Francis Journals, vol. 22(6), pages 695-710, July.
    5. Lee, Hwarang, 2023. "Decarbonization strategies for steel production with uncertainty in hydrogen direct reduction," Energy, Elsevier, vol. 283(C).
    6. Daniel Scamman & Baltazar Solano-Rodríguez & Steve Pye & Lai Fong Chiu & Andrew Z. P. Smith & Tiziano Gallo Cassarino & Mark Barrett & Robert Lowe, 2020. "Heat Decarbonisation Modelling Approaches in the UK: An Energy System Architecture Perspective," Energies, MDPI, vol. 13(8), pages 1-28, April.
    7. Frédéric Babonneau & Philippe Thalmann & Marc Vielle, 2018. "Defining deep decarbonization pathways for Switzerland: an economic evaluation," Climate Policy, Taylor & Francis Journals, vol. 18(1), pages 1-13, January.
    8. Li, Francis G.N. & Bataille, Chris & Pye, Steve & O'Sullivan, Aidan, 2019. "Prospects for energy economy modelling with big data: Hype, eliminating blind spots, or revolutionising the state of the art?," Applied Energy, Elsevier, vol. 239(C), pages 991-1002.
    9. Fanny Groundstroem, 2023. "Cross-border impacts of climate change affect the energy transition: Insights from the Finnish energy sector," Climatic Change, Springer, vol. 176(11), pages 1-24, November.
    10. Christopher G. F. Bataille, 2020. "Physical and policy pathways to net‐zero emissions industry," Wiley Interdisciplinary Reviews: Climate Change, John Wiley & Sons, vol. 11(2), March.
    11. Sandrine Mathy & P. Menanteau, 2020. "Mitigation strategies to enhance the ambition of the nationally determined contributions : an analysis of 4 European countries with the decarbonization wedges methodology," Post-Print hal-03190845, HAL.
    12. Mathy, Sandrine & Menanteau, Philippe & Criqui, Patrick, 2018. "After the Paris Agreement: Measuring the Global Decarbonization Wedges From National Energy Scenarios," Ecological Economics, Elsevier, vol. 150(C), pages 273-289.
    13. Bai, Wuliyasu & Zhang, Long & Lu, Shengfang & Ren, Jingzheng & Zhou, Zhiqiao, 2023. "Sustainable energy transition in Southeast Asia: Energy status analysis, comprehensive evaluation and influential factor identification," Energy, Elsevier, vol. 284(C).

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    JEL classification:

    • Q41 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Demand and Supply; Prices
    • Q42 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Alternative Energy Sources
    • Q47 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Energy Forecasting
    • Q48 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Energy - - - Government Policy

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