Structural Uncertainty and the Value of Statistical Life in the Economics of Catastrophic Climate Change

Weitzman, Martin

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Structural Uncertainty and the Value of Statistical Life in the Economics of Catastrophic Climate Change

NBER Working Paper No. w13490

36 Pages Posted: 16 Oct 2007 Last revised: 12 Nov 2022

See all articles by Martin Weitzman

Martin Weitzman

Harvard University - Department of Economics

Date Written: October 2007

Abstract

Using climate change as a prototype motivating example, this paper analyzes the implications of structural uncertainty for the economics of low-probability high-impact catastrophes. The paper shows that having an uncertain multiplicative parameter, which scales or amplifies exogenous shocks and is updated by Bayesian learning, induces a critical "tail fattening" of posterior-predictive distributions. These fattened tails can have strong implications for situations (like climate change) where a catastrophe is theoretically possible because prior knowledge cannot place sufficiently narrow bounds on overall damages. The essence of the problem is the difficulty of learning extreme-impact tail behavior from finite data alone. At least potentially, the influence on cost-benefit analysis of fat-tailed uncertainty about the scale of damages -- coupled with a high value of statistical life -- can outweigh the influence of discounting or anything else.

Suggested Citation: Suggested Citation

Weitzman, Martin L., Structural Uncertainty and the Value of Statistical Life in the Economics of Catastrophic Climate Change (October 2007). NBER Working Paper No. w13490, Available at SSRN: https://ssrn.com/abstract=1021968