Affiliation:
1. Arizona State University
2. University of Wisconsin and University of Missouri
3. University of Chicago
Abstract
Abstract
Geophysicists examine and document the repercussions for the earth’s climate induced by alternative emission scenarios and model specifications. Using simplified approximations, they produce tractable characterizations of the associated uncertainty. Meanwhile, economists write highly stylized damage functions to speculate about how climate change alters macroeconomic and growth opportunities. How can we assess both climate and emissions impacts, as well as uncertainty in the broadest sense, in social decision-making? We provide a framework for answering this question by embracing recent decision theory and tools from asset pricing, and we apply this structure with its interacting components to a revealing quantitative illustration.
Funder
Alfred P. Sloan Foundation
Research Computing Center at the University of Chicago
Publisher
Oxford University Press (OUP)
Subject
Economics and Econometrics,Finance,Accounting
Reference60 articles.
1. Warming caused by cumulative carbon emissions towards the trillionth tonne;Allen,;Nature,2009
2. A quartet of semigroups for model specification, robustness, prices of risk, and model detection;Anderson,;Journal of the European Economic Association,2003
3. Robust consumption and energy decisions;Anderson,,2018
4. Risks for the long run: A potential resolution of asset pricing puzzles;Bansal,;Journal of Finance,2004
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