A large ozone-circulation feedback and its implications for global warming assessments

Peer J. Nowack (), N. Luke Abraham, Amanda C. Maycock, Peter Braesicke, Jonathan M. Gregory, Manoj M. Joshi, Annette Osprey and John A. Pyle
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Peer J. Nowack: Centre for Atmospheric Science, University of Cambridge
N. Luke Abraham: Centre for Atmospheric Science, University of Cambridge
Amanda C. Maycock: Centre for Atmospheric Science, University of Cambridge
Peter Braesicke: Centre for Atmospheric Science, University of Cambridge
Jonathan M. Gregory: National Centre for Atmospheric Science
Manoj M. Joshi: National Centre for Atmospheric Science
Annette Osprey: National Centre for Atmospheric Science
John A. Pyle: Centre for Atmospheric Science, University of Cambridge

Nature Climate Change, 2015, vol. 5, issue 1, 41-45

Abstract: Climate models include many processes that may be simplified to save computational time. This work shows that model representation of upper atmosphere ozone can impact on the projected climate sensitivity.

Date: 2015
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DOI: 10.1038/nclimate2451

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