Global Warming and a Potential Tipping Point in the Atlantic Thermohaline Circulation: The Role of Risk Aversion

Common integrated assessment models produce the counterintuitive result that higher risk aversion does not lead to stronger near-term abatement. This paper re-examines this result with a DICE model that is fully coupled with a thermohaline circulation model. It also features Epstein-Zin utility and uncertainty about climate sensitivity that resolves after some time. The simulations show that aversion to this tipping point risk has little effect. For climate sensitivity of realistic magnitude, a collapse of the circulation occurs in the distant future, which allows acting after learning. Furthermore, the anticipated damage costs are not sufficiently great to justify precautionary measures.

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Year of publication:	2014
Authors:	Belaia, Mariia ; Funke, Michael ; Glanemann, Nicole
Publisher:	Munich : Center for Economic Studies and ifo Institute (CESifo)
Subject:	integrated assessment modeling \| risk aversion \| Epstein-Zin utility \| DICE \| thermohaline circulation \| climate sensitivity \| uncertainty

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Series:	CESifo Working Paper ; 4930
Type of publication:	Book / Working Paper
Type of publication (narrower categories):	Working Paper
Language:	English
Other identifiers:	792644336 [GVK] hdl:10419/102251 [Handle] RePec:ces:ceswps:_4930 [RePEc]
Classification:	Q54 - Climate; Natural Disasters ; Q56 - Environment and Development; Environment and Trade; Sustainability; Environmental Accounting ; C61 - Optimization Techniques; Programming Models; Dynamic Analysis ; C63 - Computational Techniques
Source:	EconStor

Persistent link: https://www.econbiz.de/10010398676