Risk of multiple interacting tipping points should encourage rapid CO2 emission reduction. Cai, Y., Lenton, T. M., & Lontzek, T. S. Nature Climate Change, 6(5):520–525, March, 2016.
Risk of multiple interacting tipping points should encourage rapid CO2 emission reduction [link]Paper  doi  abstract   bibtex   
Evidence suggests that several elements of the climate system could be tipped into a different state by global warming, causing irreversible economic damages. To address their policy implications, we incorporated five interacting climate tipping points into a stochastic-dynamic integrated assessment model, calibrating their likelihoods and interactions on results from an existing expert elicitation. Here we show that combining realistic assumptions about policymakers’ preferences under uncertainty, with the prospect of multiple future interacting climate tipping points, increases the present social cost of carbon in the model nearly eightfold from US$15 per tCO2 to US$116 per tCO2. Furthermore, passing some tipping points increases the likelihood of other tipping points occurring to such an extent that it abruptly increases the social cost of carbon. The corresponding optimal policy involves an immediate, massive effort to control CO2 emissions, which are stopped by mid-century, leading to climate stabilization at \textless1.5 °C above pre-industrial levels.
@article{cai_risk_2016,
	title = {Risk of multiple interacting tipping points should encourage rapid {CO2} emission reduction},
	volume = {6},
	issn = {1758-678X, 1758-6798},
	url = {http://www.nature.com/doifinder/10.1038/nclimate2964},
	doi = {10.1038/nclimate2964},
	abstract = {Evidence suggests that several elements of the climate system could be tipped into a different state by global warming, causing irreversible economic damages. To address their policy implications, we incorporated five interacting climate tipping points into a stochastic-dynamic integrated assessment model, calibrating their likelihoods and interactions on results from an existing expert elicitation. Here we show that combining realistic assumptions about policymakers’ preferences under uncertainty, with the prospect of multiple future interacting climate tipping points, increases the present social cost of carbon in the model nearly eightfold from US\$15 per tCO2 to US\$116 per tCO2. Furthermore, passing some tipping points increases the likelihood of other tipping points occurring to such an extent that it abruptly increases the social cost of carbon. The corresponding optimal policy involves an immediate, massive effort to control CO2 emissions, which are stopped by mid-century, leading to climate stabilization at {\textless}1.5 °C above pre-industrial levels.},
	number = {5},
	urldate = {2017-06-29},
	journal = {Nature Climate Change},
	author = {Cai, Yongyang and Lenton, Timothy M. and Lontzek, Thomas S.},
	month = mar,
	year = {2016},
	keywords = {DR, Damages, Geography: Global, IAM: Yes, Sector: Tipping Elements, Tags Edited, Valuation: Yes},
	pages = {520--525},
}

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