Seasonal variation of atmospheric water circulation in the Antarctic region derived from objective analysis data

Precipitable water, total moisture flux and its convergence are calculated based on the 6-year (1986-1991) twice-daily U.S. NMC data to investigate the atmospheric water circulation in the Antarctic region. The precipitable water becomes large in summer, but the zonal mean poleward moisture flux and...

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Bibliographic Details
Main Author: Koji Yamazaki
Format: Article in Journal/Newspaper
Language:English
Japanese
Published: National Institute of Polar Research 1997
Subjects:
Online Access:https://doi.org/10.15094/00008966
https://doaj.org/article/2db72c7b18ae4ed68f0e42f0a6e630aa
Description
Summary:Precipitable water, total moisture flux and its convergence are calculated based on the 6-year (1986-1991) twice-daily U.S. NMC data to investigate the atmospheric water circulation in the Antarctic region. The precipitable water becomes large in summer, but the zonal mean poleward moisture flux and its convergence, which corresponds to "precipitation minus evaporation", become large in winter and they also exhibit semi-annual variation. This is because the seasonal variation of moisture flux and its convergence is mainly controlled by the cyclonic activity in the Antarctic region. The westward moisture flux, which does not exist in the Arctic region, is seen poleward of 70° along the Antarctic continent and it is significant in summer. It is found that the atmospheric water circulation in the Antarctic region is very active compared with the global mean, especially in winter.