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Incorporating Path Dependency into Decision-Analytic Methods: An Application to Global Climate-Change Policy

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  • Mort Webster

    (Earth Atmosphere and Planetary Sciences Department, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139)

Abstract

Climate policy decisions are necessarily sequential decisions over time under uncertainty, given the magnitude of uncertainty in both economic and scientific processes, the decades-to-centuries time scale of the phenomenon, and the ability to reduce uncertainty and revise decisions along the way. Thus, an appropriate choice of analytical method is decision analysis. However, applying decision analysis in the context of idealized government decision makers over a century raises the question of how to deal with the fact that political systems tend to exhibit path dependency, a force that makes large policy shifts difficult and rare, and limits most decisions to small incremental changes. This paper explores the effect of considering path dependency in an application of decision analysis to climate-change policy decisions, presenting two alternative methods for modeling path dependency. I demonstrate that consideration of path dependence in the context of climate policy justifies greater near-term emissions reductions. The more general result of path-dependency is to shift the near-term strategy towards a more moderate hedging strategy, because drastic shifts later will be difficult.

Suggested Citation

  • Mort Webster, 2008. "Incorporating Path Dependency into Decision-Analytic Methods: An Application to Global Climate-Change Policy," Decision Analysis, INFORMS, vol. 5(2), pages 60-75, June.
    • Handle: RePEc:inm:ordeca:v:5:y:2008:i:2:p:60-75
    DOI: 10.1287/deca.1080.0114
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    3. Mylène van der Koogh & Emile Chappin & Renée Heller & Zofia Lukszo, 2021. "Are We Satisfying the Right Conditions for the Mobility Transition? A Review and Evaluation of the Dutch Urban Mobility Policies," Sustainability, MDPI, vol. 13(22), pages 1-25, November.
    4. Olaleye, Olaitan & Baker, Erin, 2015. "Large scale scenario analysis of future low carbon energy options," Energy Economics, Elsevier, vol. 49(C), pages 203-216.
    5. Tina Comes & Bartel Van de Walle & Luk Van Wassenhove, 2020. "The Coordination‐Information Bubble in Humanitarian Response: Theoretical Foundations and Empirical Investigations," Production and Operations Management, Production and Operations Management Society, vol. 29(11), pages 2484-2507, November.
    6. L. Robin Keller & Kelly M. Kophazi, 2008. "From the Editors..," Decision Analysis, INFORMS, vol. 5(2), pages 57-59, June.
    7. Aram, Simon Appah & Osei Lartey, Patrick & Amoah, Samuel Kofi & Appiah, Augustine, 2021. "Gold eco-toxicology: Assessment of the knowledge gap on the environmental and health effects of mercury between artisanal small scale and medium scale gold miners in Ghana," Resources Policy, Elsevier, vol. 72(C).
    8. Mort Webster & Nidhi Santen & Panos Parpas, 2012. "An approximate dynamic programming framework for modeling global climate policy under decision-dependent uncertainty," Computational Management Science, Springer, vol. 9(3), pages 339-362, August.
    9. Kelly Levin & Benjamin Cashore & Steven Bernstein & Graeme Auld, 2012. "Overcoming the tragedy of super wicked problems: constraining our future selves to ameliorate global climate change," Policy Sciences, Springer;Society of Policy Sciences, vol. 45(2), pages 123-152, June.
    10. Golub, Alexander & Lubowski, Ruben & Piris-Cabezas, Pedro, 2017. "Balancing Risks from Climate Policy Uncertainties: The Role of Options and Reduced Emissions from Deforestation and Forest Degradation," Ecological Economics, Elsevier, vol. 138(C), pages 90-98.

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