Abstract
The possibility of estimating the equilibrium climate sensitivity of the earth-system from observations following explosive volcanic eruptions is assessed in the context of a perfect model study. Two modern climate models (the CCCma CGCM3 and the NCAR CCSM2) with different equilibrium climate sensitivities are employed in the investigation. The models are perturbed with the same transient volcano-like forcing and the responses analysed to infer climate sensitivities. For volcano-like forcing the global mean surface temperature responses of the two models are very similar, despite their differing equilibrium climate sensitivities, indicating that climate sensitivity cannot be inferred from the temperature record alone even if the forcing is known. Equilibrium climate sensitivities can be reasonably determined only if both the forcing and the change in heat storage in the system are known very accurately. The geographic patterns of clear-sky atmosphere/surface and cloud feedbacks are similar for both the transient volcano-like and near-equilibrium constant forcing simulations showing that, to a considerable extent, the same feedback processes are invoked, and determine the climate sensitivity, in both cases.
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Acknowledgments
Special thanks to Daniel Robatille for running the volcano-like simulations with the CCCma model and to K. von Salzen, G. Flato and F. Zwiers for comments on an earlier version. This research was supported in part by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) through its sponsorship of the International Pacific Research Center.
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Boer, G.J., Stowasser, M. & Hamilton, K. Inferring climate sensitivity from volcanic events. Clim Dyn 28, 481–502 (2007). https://doi.org/10.1007/s00382-006-0193-x
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DOI: https://doi.org/10.1007/s00382-006-0193-x