Yang Xiuqun, Huang Shisong. Numerical simulation of influence of the anomalies of the Central-eastern Equatorial Pacific SST and Arctic seaice cover in summer on the atmospheric circulation[J]. Acta Oceanologica Sinica, 1992, (3): 401-411.
Citation:
Yang Xiuqun, Huang Shisong. Numerical simulation of influence of the anomalies of the Central-eastern Equatorial Pacific SST and Arctic seaice cover in summer on the atmospheric circulation[J]. Acta Oceanologica Sinica, 1992, (3): 401-411.
Yang Xiuqun, Huang Shisong. Numerical simulation of influence of the anomalies of the Central-eastern Equatorial Pacific SST and Arctic seaice cover in summer on the atmospheric circulation[J]. Acta Oceanologica Sinica, 1992, (3): 401-411.
Citation:
Yang Xiuqun, Huang Shisong. Numerical simulation of influence of the anomalies of the Central-eastern Equatorial Pacific SST and Arctic seaice cover in summer on the atmospheric circulation[J]. Acta Oceanologica Sinica, 1992, (3): 401-411.
Numerical simulation of influence of the anomalies of the Central-eastern Equatorial Pacific SST and Arctic seaice cover in summer on the atmospheric circulation
A series of numerical experiments have been conducted with a perpetual July, nine-level general circulation spectral model to determine the effect of variation of the Arctic sea ice cover extent and the joint effect of anomalies of both the Arctic sea ice cover and the Central-eastern Equatorial Pacific sea surface temperature on the summer general circulation. Results show that the two factors,anomalously large extent of the Arctic sea ice cover and anomalously warm sea surface temperature over the Central-eastern Equatorial Pacific Ocean, play substantially the equal role in the effect on the summer general circulation, and either of them can notably induce the atmospheric anomalies. The main dynamical processes determining the effect of the Arctic sea ice and the equatorial SST anomalies are associated with two leading teleconnection patterns, i.e. the Asia North/American and Eurasian patterns observed in atmosphere. The results presented in this paper again prove that the general circulation is fundamentally motivated by the non-uniform heating between the equator and the pole on the rotating earth.