Interdecadal and Interannnual Variabilities of the Antarctic Oscillation Simulated by CAM3 被引量：1

Interdecadal and Interannnual Variabilities of the Antarctic Oscillation Simulated by CAM3

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摘要 Based on four sets of numerical simulations prescribed with atmospheric radiative forcing and sea surface temperature(SST) forcing in the Community Atmospheric Model version 3(CAM3), the interannual and interdecadal variabilities of the Antarctic oscillation(AAO) during austral summer were studied. It was found that the interannual variability is mainly driven by SST forcing. On the other hand, atmospheric radiative forcing plays a major role in the interdecadal variability. A cooling trend was found in the high latitudes of the Southern Hemisphere(SH) when atmospheric radiative forcing was specified in the model. This cooling trend tended to enhance the temperature gradient between the mid and high latitudes in the SH, inducing a transition of the AAO from a negative to a positive phase on the interdecadal timescale. The cooling trend was also partly weakened by the SST forcing, leading to a better simulation compared with the purely atmospheric radiative forcing run. Therefore, SST forcing cannot be ignored, although it is not as important as atmospheric radiative forcing. Based on four sets of numerical simulations prescribed with atmospheric radiative forcing and sea surface temperature（SST） forcing in the Community Atmospheric Model version 3（CAM3）, the interannual and interdecadal variabilities of the Antarctic oscillation（AAO） during austral summer were studied. It was found that the interannual variability is mainly driven by SST forcing. On the other hand, atmospheric radiative forcing plays a major role in the interdecadal variability. A cooling trend was found in the high latitudes of the Southern Hemisphere（SH） when atmospheric radiative forcing was specified in the model. This cooling trend tended to enhance the temperature gradient between the mid and high latitudes in the SH, inducing a transition of the AAO from a negative to a positive phase on the interdecadal timescale. The cooling trend was also partly weakened by the SST forcing, leading to a better simulation compared with the purely atmospheric radiative forcing run. Therefore, SST forcing cannot be ignored, although it is not as important as atmospheric radiative forcing.

作者 XUE Feng SUN Dan ZHOU Tian-Jun

机构地区 The International Center for Climate and Environment Sciences (ICCES) The State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics (LASG) Beijing Meteorological Bureau

出处《Atmospheric and Oceanic Science Letters》 CSCD 2014年第6期515-520,共6页 大气和海洋科学快报（英文版）

基金 supported by the Carbon Budget and Related Issues of the Chinese Academy of Sciences (Grant No. XDA05110201) the National Basic Research Program of China (Grant No. 2010CB951901)

关键词 Antarctic oscillation interannual variability interdecadal variability 年代际变化数值模拟南极涛动变异大气模型高纬度地区辐射强迫海洋表面温度

分类号 P435 [天文地球—大气科学及气象学]

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