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Abstract
This study evaluates the ability of the global coupled climate models in hindcasting the Arctic Oscillation
(AO) and Antarctic Oscillation (AAO). The results show that the models can well simulate the spatial
distribution of AO with better results in winter than in spring. In the troposphere in spring, the simulation
of AO on the whole is still relatively good with a comparatively high correlation with the NCEP/NCAR
reanalysis. The models can also well reproduce the spatial distribution of AAO throughout the year at all
levels of the troposphere, and the spatial simulation is better at 850 hPa than at the surface. Although
the simulation is better in winter than in other seasons, the seasonal variation is not so significant and
the differences among di?erent models are relatively small. In addition, the capability of the models for
"predicting" the AO and the AAO index time series is limited, because only a few models can capture their
observed interannual variability at the 95% significance level.
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Citation
QIAN Zhuolei, WANG Huijun, SUN Jianqi. 2011: The Hindcast of Winter and Spring Arctic and Antarctic Oscillation with the Coupled Climate Models. Journal of Meteorological Research, 25(3): 340-354. DOI: 10.1007/s13351-011-0309-z
QIAN Zhuolei, WANG Huijun, SUN Jianqi. 2011: The Hindcast of Winter and Spring Arctic and Antarctic Oscillation with the Coupled Climate Models. Journal of Meteorological Research, 25(3): 340-354. DOI: 10.1007/s13351-011-0309-z
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QIAN Zhuolei, WANG Huijun, SUN Jianqi. 2011: The Hindcast of Winter and Spring Arctic and Antarctic Oscillation with the Coupled Climate Models. Journal of Meteorological Research, 25(3): 340-354. DOI: 10.1007/s13351-011-0309-z
QIAN Zhuolei, WANG Huijun, SUN Jianqi. 2011: The Hindcast of Winter and Spring Arctic and Antarctic Oscillation with the Coupled Climate Models. Journal of Meteorological Research, 25(3): 340-354. DOI: 10.1007/s13351-011-0309-z
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