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NACLIM Annual Meeting, 14-15/10/2014 J. García-Serrano, C. Frankignoul LOCEAN-IPSL, Paris, France On the feedback of the winter NAO-driven sea ice anomalies
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NACLIM Annual Meeting, 14-15/10/2014 [Strong et al. 2009, JCLIM] There is a negative feedback of the NAO-driven sea-ice anomalies to the atmosphere (in winter); which is due to its long damping time-scale
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NACLIM Annual Meeting, 14-15/10/2014 [Strong et al. 2009, JCLIM] [e.g. Magnusdottir et al. 2004, JCLIM; Deser et al. 2004, JCLIM] Z500 (DJFM)
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NACLIM Annual Meeting, 14-15/10/2014 [Strong et al. 2009, JCLIM] (detrended) SIC anomalies in the Atlantic basin persist for more than 2-3 months
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NACLIM Annual Meeting, 14-15/10/2014 feedback with December-SIC is dominated by anomalies east of Greenland, especially over the Greenland Sea feedback with January-SIC is dominated by anomalies west of Greenland
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NACLIM Annual Meeting, 14-15/10/2014
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- January: westward tilt with height over Europe, suggestive of Rossby wave; at 200hPa wave-like anomaly - February: hemispheric scale; projecting on the NAO + annular structure at 50hPa - negative feedback!
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NACLIM Annual Meeting, 14-15/10/2014 - February: regional scale; showing a dipole-like anomaly at 200hPa + wave-1 signature at 50hPa - negative feedback!
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NACLIM Annual Meeting, 14-15/10/2014 Summary: The negative feedback of the winter NAO-driven SIC anomalies to the atmosphere can be observed with monthly data, which is consistent with its long decaying time-scale (longer than 2-3 months). The feedback is statistically significant on the atmosphere of February, thereby January is a transition month. There appears to be an intra-seasonal behaviour in this feedback (atmospheric response): with SIC-forcing in December dominated by anomalies east of Greenland (i.e. the Greenland Sea), and SIC-forcing in January dominated by anomalies west of Greenland (i.e. Davis Strait/Labrador Sea). If there is a persistent NAO in December, SIC anomalies are followed, in February, by a NAO-like pattern in the troposphere and an annular structure in the stratosphere. If there is a persistent NAO in January, SIC anomalies are followed by a regional atmospheric anomaly over the North Atlantic, and a wave-1 structure in the stratosphere. The existence of the winter NAO-driven SIC dipolar anomaly might represent an additional source of uncertainty in the atmospheric response (AGCM) to current sea-ice trends and projected changes.
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NACLIM Annual Meeting, 14-15/10/2014 The existence of the winter NAO-driven SIC dipolar anomaly might represent an additional source of uncertainty in the atmospheric response (AGCM) to current sea-ice trends and projected changes. Nov-DecJan-Feb [Deser et al. 2010, JCLIM] [Screen et al. 2013, JCLIM]
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The research leading to these results has received funding from the European Union 7th Framework Programme (FP7 2007-2013), under grant agreement n.308299 NACLIM www.naclim.eu
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