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Model structure in observational constraints on transient climate response
Model structure in observational constraints on transient climate response
by Millar, Richard J. , Ingram, William J. , Forster, Piers M. , Lowe, Jason A. , Otto, Alexander , Allen, Myles R.
in Assessments / Atmospheric Sciences / Climate / Climate change / Climate Change/Climate Change Impacts / Climate models / Climate science / Earth and Environmental Science / Earth Sciences / energy / Energy budgets / Equilibrium / Estimates / General circulation models / Global climate / Global climate models / Greenhouse effect / Intergovernmental Panel on Climate Change / Projection / Radiative forcing / Temperature
2015
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Model structure in observational constraints on transient climate response
by Millar, Richard J. , Ingram, William J. , Forster, Piers M. , Lowe, Jason A. , Otto, Alexander , Allen, Myles R.
in Assessments / Atmospheric Sciences / Climate / Climate change / Climate Change/Climate Change Impacts / Climate models / Climate science / Earth and Environmental Science / Earth Sciences / energy / Energy budgets / Equilibrium / Estimates / General circulation models / Global climate / Global climate models / Greenhouse effect / Intergovernmental Panel on Climate Change / Projection / Radiative forcing / Temperature
2015
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Model structure in observational constraints on transient climate response
Model structure in observational constraints on transient climate response
by Millar, Richard J. , Ingram, William J. , Forster, Piers M. , Lowe, Jason A. , Otto, Alexander , Allen, Myles R.
in Assessments / Atmospheric Sciences / Climate / Climate change / Climate Change/Climate Change Impacts / Climate models / Climate science / Earth and Environmental Science / Earth Sciences / energy / Energy budgets / Equilibrium / Estimates / General circulation models / Global climate / Global climate models / Greenhouse effect / Intergovernmental Panel on Climate Change / Projection / Radiative forcing / Temperature
2015

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Model structure in observational constraints on transient climate response
Model structure in observational constraints on transient climate response
Journal Article

Model structure in observational constraints on transient climate response

Millar, Richard J.,
Ingram, William J.,
Forster, Piers M.,
Lowe, Jason A.,
Otto, Alexander,
Allen, Myles R.
2015
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Overview
The transient climate response (TCR) is a highly policy-relevant quantity in climate science. We show that recent revisions to TCR in the IPCC 5th Assessment Report have more impact on projections over the next century than revisions to the equilibrium climate sensitivity (ECS). While it is well known that upper bounds on ECS are dependent on model structure, here we show that the same applies to TCR. Our results use observations of the planetary energy budget, updated radiative forcing estimates and a number of simple climate models. We also investigate the ratio TCR:ECS, or realised warming fraction (RWF), a highly policy-relevant quantity. We show that global climate models (GCMs) don’t sample a region of low TCR and high RWF consistent with observed climate change under all simple models considered. Whether the additional constraints from GCMs are sufficient to rule out these low climate responses is a matter for further research.
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Publisher
Springer Netherlands,Springer Nature B.V
Subject

Assessments

/ Atmospheric Sciences

/ Climate

/ Climate change

/ Climate Change/Climate Change Impacts

/ Climate models

/ Climate science

/ Earth and Environmental Science

/ Earth Sciences

/ energy

/ Energy budgets

/ Equilibrium

/ Estimates

/ General circulation models

/ Global climate

/ Global climate models

/ Greenhouse effect

/ Intergovernmental Panel on Climate Change

/ Projection

/ Radiative forcing

/ Temperature

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