Maximum warming occurs about one decade after a carbon dioxide emission. Ricke, K. L. & Caldeira, K. Environmental Research Letters, 9(12):124002, December, 2014. 00000
Maximum warming occurs about one decade after a carbon dioxide emission [link]Paper  doi  abstract   bibtex   
It is known that carbon dioxide emissions cause the Earth to warm, but no previous study has focused on examining how long it takes to reach maximum warming following a particular CO2 emission. Using conjoined results of carbon-cycle and physical-climate model intercomparison projects (Taylor et al 2012, Joos et al 2013), we find the median time between an emission and maximum warming is 10.1 years, with a 90% probability range of 6.6–30.7 years. We evaluate uncertainties in timing and amount of warming, partitioning them into three contributing factors: carbon cycle, climate sensitivity and ocean thermal inertia. If uncertainty in any one factor is reduced to zero without reducing uncertainty in the other factors, the majority of overall uncertainty remains. Thus, narrowing uncertainty in century-scale warming depends on narrowing uncertainty in all contributing factors. Our results indicate that benefit from avoided climate damage from avoided CO2 emissions will be manifested within the lifetimes of people who acted to avoid that emission. While such avoidance could be expected to benefit future generations, there is potential for emissions avoidance to provide substantial benefit to current generations.
@article{ricke_maximum_2014,
	title = {Maximum warming occurs about one decade after a carbon dioxide emission},
	volume = {9},
	issn = {1748-9326},
	url = {http://iopscience.iop.org/1748-9326/9/12/124002},
	doi = {10.1088/1748-9326/9/12/124002},
	abstract = {It is known that carbon dioxide emissions cause the Earth to warm, but no previous study has focused on examining how long it takes to reach maximum warming following a particular CO2 emission. Using conjoined results of carbon-cycle and physical-climate model intercomparison projects (Taylor et al 2012, Joos et al 2013), we find the median time between an emission and maximum warming is 10.1 years, with a 90\% probability range of 6.6–30.7 years. We evaluate uncertainties in timing and amount of warming, partitioning them into three contributing factors: carbon cycle, climate sensitivity and ocean thermal inertia. If uncertainty in any one factor is reduced to zero without reducing uncertainty in the other factors, the majority of overall uncertainty remains. Thus, narrowing uncertainty in century-scale warming depends on narrowing uncertainty in all contributing factors. Our results indicate that benefit from avoided climate damage from avoided CO2 emissions will be manifested within the lifetimes of people who acted to avoid that emission. While such avoidance could be expected to benefit future generations, there is potential for emissions avoidance to provide substantial benefit to current generations.},
	language = {en},
	number = {12},
	urldate = {2015-02-20},
	journal = {Environmental Research Letters},
	author = {Ricke, Katharine L. and Caldeira, Ken},
	month = dec,
	year = {2014},
	note = {00000},
	keywords = {boundaries, collapse, climate},
	pages = {124002},
	file = {Ricke and Caldeira - 2014 - Maximum warming occurs about one decade after a ca.pdf:C\:\\Users\\rsrs\\Documents\\Zotero Database\\storage\\W8KDDV5T\\Ricke and Caldeira - 2014 - Maximum warming occurs about one decade after a ca.pdf:application/pdf}
}
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