Quantifying uncertainties in climate system properties with the use of recent climate observations

Joint Program Reprint • Journal Article
Quantifying uncertainties in climate system properties with the use of recent climate observations
Forest, C.E., P.H. Stone, A.P. Sokolov, M.R. Allen and M. Webster (2002)
Science, 295(5552): 113-117

Reprint 2002-1 [Download]

Abstract/Summary:

We derive joint probability density distributions for three key uncertain properties of the climate system, using an optimal fingerprinting approach to compare simulations of an intermediate complexity climate model with three distinct diagnostics of recent climate observations. On the basis of the marginal probability distributions, the 5 to 95% confidence intervals are 1.4 to 7.7 kelvin for climate sensitivity and -0.30 to -0.95 watt per square meter for the net aerosol forcing. The oceanic heat uptake is not well constrained, but ocean temperature observations do help to constrain climate sensitivity. The uncertainty in the net aerosol forcing is much smaller than the uncertainty range for the indirect aerosol forcing alone given in the Intergovernmental Panel on Climate Change Third Assessment Report.

© 2002 American Association for the Advancement of Science

Citation:

Forest, C.E., P.H. Stone, A.P. Sokolov, M.R. Allen and M. Webster (2002): Quantifying uncertainties in climate system properties with the use of recent climate observations. Science, 295(5552): 113-117 (http://dx.doi.org/10.1126/science.1064419)

Supersedes:

Report 78. Quantifying Uncertainties in Climate System Properties using Recent Climate Observations (Joint Program Report Series, 2001)
  • Joint Program Reprint
  • Journal Article
Quantifying uncertainties in climate system properties with the use of recent climate observations

Forest, C.E., P.H. Stone, A.P. Sokolov, M.R. Allen and M. Webster

Science
2002-1
295(5552): 113-117

Abstract/Summary: 

We derive joint probability density distributions for three key uncertain properties of the climate system, using an optimal fingerprinting approach to compare simulations of an intermediate complexity climate model with three distinct diagnostics of recent climate observations. On the basis of the marginal probability distributions, the 5 to 95% confidence intervals are 1.4 to 7.7 kelvin for climate sensitivity and -0.30 to -0.95 watt per square meter for the net aerosol forcing. The oceanic heat uptake is not well constrained, but ocean temperature observations do help to constrain climate sensitivity. The uncertainty in the net aerosol forcing is much smaller than the uncertainty range for the indirect aerosol forcing alone given in the Intergovernmental Panel on Climate Change Third Assessment Report.

© 2002 American Association for the Advancement of Science

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Supersedes: 

Quantifying Uncertainties in Climate System Properties using Recent Climate Observations