Dynamic determinants of optimal global climate policy

Michael Grubb*, Rutger Jan Lange, Nicolas Cerkez, Ida Sognnaes, Claudia Wieners, Pablo Salas

*Corresponding author for this work

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Abstract

We explore the impact of dynamic characteristics of greenhouse-gas emitting systems, such as inertia, induced innovation, and path-dependency, on optimal responses to climate change. Our compact and analytically tractable model, applied with stylized damage assumptions to derive optimal pathways, highlights how simple dynamic parameters affect responses including the optimal current effort and the cost of delay. The conventional cost-benefit result (i.e., an optimal policy with rising marginal costs that reflects discounted climate damages) arises only as a special case in which the dynamic characteristics of emitting systems are assumed to be insignificant. Our analysis highlights and distinguishes from the (often implicit) assumption in many cost-benefit models, which neglect inertia and assume exogenous technology progress. This tends to defer action. More generally, our model yields useful policy insights for the transition to deep decarbonization, showing that enhanced early action may greatly reduce both damages and abatement costs in the long run.

Original languageEnglish
Pages (from-to)490-508
Number of pages19
JournalStructural Change and Economic Dynamics
Volume71
DOIs
Publication statusPublished - Dec 2024

Bibliographical note

JEL classification: C61, O30, Q54

Publisher Copyright: © 2024 The Author(s)

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