Spread in the magnitude of climate model interdecadal global temperature variability traced to disagreements over high-latitude oceans

Unforced variability in global mean surface air temperature can obscure or exaggerate global warming on interdecadal time scales; thus, understanding both the magnitude and generating mechanisms of such variability is of critical importance for both attribution studies as well as decadal climate pre...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Brown, Patrick T., Li, Wenhong, Jiang, Jonathan H., Su, Hui
Format: Article in Journal/Newspaper
Language:English
Published: Blackwell Publishing Ltd 2016
Subjects:
Air-sea interaction
Climate models
Decadal variability
Global mean temperature
Internal variability
Unforced variability
Pacific
Sea ice
Online Access:https://repository.hkust.edu.hk/ir/Record/1783.1-120346
https://doi.org/10.1002/2016GL071442
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Summary:Unforced variability in global mean surface air temperature can obscure or exaggerate global warming on interdecadal time scales; thus, understanding both the magnitude and generating mechanisms of such variability is of critical importance for both attribution studies as well as decadal climate prediction. Coupled atmosphere-ocean general circulation models (climate models) simulate a wide range of magnitudes of unforced interdecadal variability in global mean surface air temperature (UITglobal), hampering efforts to quantify the influence of UITglobal on contemporary global temperature trends. Recently, a preliminary consensus has emerged that unforced interdecadal variability in local surface temperatures (UITlocal) over the tropical Pacific Ocean is particularly influential on UITglobal. Therefore, a reasonable hypothesis might be that the large spread in the magnitude of UITglobal across climate models can be explained by the spread in the magnitude of simulated tropical Pacific UITlocal. Here we show that this hypothesis is mostly false. Instead, the spread in the magnitude of UITglobal is linked much more strongly to the spread in the magnitude of UITlocal over high-latitude regions characterized by significant variability in oceanic convection, sea ice concentration, and energy flux at both the surface and the top of the atmosphere. Thus, efforts to constrain the climate model produced range of UITglobal magnitude would be best served by focusing on the simulation of air-sea interaction at high latitudes. ©2016. American Geophysical Union. All Rights Reserved.

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