机构地区:[1]State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics, Institute of Atmospheric Physics, Chinese Academy of Sciences [2]International Arctic Research Center, University of Alaska Fairbanks, Fairbanks, Alaska 99775, USA
出 处:《Chinese Science Bulletin》2014年第27期3457-3464,共8页
基 金:supported by the National Natural Science Foundation of China (40905040 and 41030961);the National Basic Research Program of China (2010CB950400);the R&D Special Fund for Public Welfare Industry of China (meteorology) (GYHY201306031)
摘 要:The Northern Hemisphere Annular Mode(NAM) represents the zonally symmetric planetary-scale atmospheric mass fluctuations between middle and high latitudes, whose variations have shown a large impact on other components of the climate system. Previous studies have indicated that the NAM is correlated with the Ferrel cell in their monthly or longer timescale variability.However, there have been few studies investigating their connections at daily timescale, though daily variability of NAM has been suggested to be an important component and has significant implication for weather forecast. The results from this study demonstrate that variability of the Ferrel cell leads that of the NAM by about 1–2 days. This statistically identified temporal phase difference between NAM and Ferrel cell variability can be elucidated by meridional mass redistribution. Intensified(weakened)Ferrel cell causes anomalously smaller(larger) poleward mass transport from the middle to the high latitudes,resulting in an increase(a decrease) in mass in the middle latitudes and a decrease(an increase) in the high latitudes.As a consequence, anomalously higher(lower) poleward pressure gradient forms and the NAM subsequently shifts to a positive(negative) phase at a time lag of 1–2 days. The findings here would augment the existing knowledge for better understanding the connection between the Ferrel Cell and the NAM, and may provide skillful information for improving NAM as well as daily scale weather prediction.The Northern Hemisphere Annular Mode (NAM) represents the zonally symmetric planetary-scale atmospheric mass fluctuations between middle and high latitudes, whose variations have shown a large impact on other components of the climate system. Previous studies have indicated that the NAM is correlated with the Ferrel cell in their monthly or longer timescale variability. However, there have been few studies investigating their connections at daily timescale, though daily variability of NAM has been suggested to be an important component and has significant implication for weather forecast. The results from this study demonstrate that variability of the Ferrel cell leads that of the NAM by about 2-2 days. This statistically identified temporal phase difference between NAM and Ferrel cell variability can be elucidated by meridional mass redistribution. Intensified (weakened) Ferrel cell causes anomalously smaller (larger) poleward mass transport from the middle to the high latitudes, resulting in an increase (a decrease) in mass in the middle latitudes and a decrease (an increase) in the high latitudes. As a consequence, anomalously higher (lower) poleward pressure gradient forms and the NAM subsequently shifts to a positive (negative) phase at a time lag of 1-2 days. The findings here would augment the existing knowledge for better understanding the connection between the Ferrel Cell and the NAM, and may provide skillful information for improving NAM as well as daily scale weather prediction.
关 键 词:环流变化 北半球 异性 日变 环状 高纬度地区 大气质量 时间尺度
分 类 号:P434[天文地球—大气科学及气象学] S153.61[农业科学—土壤学]
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