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Revocability and reversibility in societal decision-making

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  • Verbruggen, Aviel

Abstract

Reversibility and irreversibility are poorly defined in the decision-making literature. Defining reversibility as “the ability to maintain and to restore the functional performance of a system” is consistent with thermodynamics; specification of its crucial terms is case dependent. Reversibility is coming in degrees from flexibility, over rigidity to preclusion, with irreversibility as an absolute end. Further substantiating reversibility considers three variables: duration of impacts, revoking costs, and substitutability. Substitutability depends on weights assigned to the strict identity or to the functional performance of something valued. For given degrees of substitutability, revocability of an action is measurable in time-dependent revoking costs. Together with future time and doubt, reversibility sets a three-dimensional context for societal decision-making, revealing domes of expanding complexity. Cost–benefit analysis is a useful decision tool at lower complexity but falters at high complexity because there prevail non-monetary trade-offs. A revival and proper use of the concept reversibility are recommended for improved dialog on major societal issues, with climate change outstanding as the case where reversibility could turn into absolute irreversibility. Also shown is the correspondence between reversibility and ecological concepts like resilience, lock-in, tipping points, and others.

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  • Verbruggen, Aviel, 2013. "Revocability and reversibility in societal decision-making," Ecological Economics, Elsevier, vol. 85(C), pages 20-27.
    • Handle: RePEc:eee:ecolec:v:85:y:2013:i:c:p:20-27
    DOI: 10.1016/j.ecolecon.2012.10.011
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    3. Gerling, Charlotte & Schöttker, Oliver & Hearne, John, 2022. "Keep it or Leave it - the Role of Reversible Conservation Investments in Optimal Reserve Design under Climate Change," VfS Annual Conference 2022 (Basel): Big Data in Economics 264058, Verein für Socialpolitik / German Economic Association.
    4. Ribeiro, Barbara E. & Quintanilla, Miguel A., 2015. "Transitions in biofuel technologies: An appraisal of the social impacts of cellulosic ethanol using the Delphi method," Technological Forecasting and Social Change, Elsevier, vol. 92(C), pages 53-68.
    5. A. J. K. Pols & H. A. Romijn, 2017. "Evaluating irreversible social harms," Policy Sciences, Springer;Society of Policy Sciences, vol. 50(3), pages 495-518, September.
    6. Andy Stirling, 2016. "Precaution in the Governance of Technology," SPRU Working Paper Series 2016-14, SPRU - Science Policy Research Unit, University of Sussex Business School.
    7. Aviel Verbruggen & Yuliya Yurchenko, 2017. "Positioning Nuclear Power in the Low-Carbon Electricity Transition," Sustainability, MDPI, vol. 9(1), pages 1-14, January.
    8. Gerling, Charlotte & Schöttker, Oliver & Hearne, John, 2022. "The ”climate adaptation problem” in biodiversity conservation: the role of reversible conservation investments in optimal reserve design under climate change," MPRA Paper 114812, University Library of Munich, Germany.
    9. Gerling, Charlotte & Schöttker, Oliver & Hearne, John, 2022. "Irreversible and partly reversible investments in the optimal reserve design problem: the role of flexibility under climate change," MPRA Paper 112089, University Library of Munich, Germany.

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