The Linkage between Midwinter Suppression of the North Pacific Storm Track and Atmospheric Circulation Features in the Northern Hemisphere

The midwinter suppression (MWS) of the North Pacific storm track (NPST) has been an active research topic for decades. Based on the daily-mean NCEP/NCAR reanalysis from 1948 to 2018, this study investigates the MWS-related atmospheric circulation characteristics in the Northern Hemisphere by regress...

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Bibliographic Details
Published in:Advances in atmospheric sciences 2022-03, Vol.39 (3), p.502-518
Main Authors: Yang, Minghao, Li, Chongyin, Li, Xin, Chen, Xiong, Li, Lifeng
Format: Article
Language:English
Subjects:
Air temperature
Anomalies
Atmospheric blocking
Atmospheric circulation
Atmospheric Sciences
Baroclinic mode
Baroclinity
Barotropic mode
Diabatic heating
Earth and Environmental Science
Earth Sciences
East Asian monsoon
Energy budget
Energy conversion
Geophysics/Geodesy
Meteorology
NCEP/NCAR reanalysis
Northern Hemisphere
Original Paper
Potential energy
Pressure anomalies
Regression analysis
Sea level
Sea level anomalies
Sea level pressure
Storm tracks
Storms
Temperature anomalies
Upstream
Ural blocking
Winter monsoon
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Summary:The midwinter suppression (MWS) of the North Pacific storm track (NPST) has been an active research topic for decades. Based on the daily-mean NCEP/NCAR reanalysis from 1948 to 2018, this study investigates the MWS-related atmospheric circulation characteristics in the Northern Hemisphere by regression analysis with respect to a new MWS index, which may shed more light on this difficult issue. The occurrence frequency of the MWS of the upper-tropospheric NPST is more than 0.8 after the mid-1980s. The MWS is accompanied by significantly positive sea-level pressure anomalies in Eurasia and negative anomalies over the North Pacific, which correspond to a strengthened East Asian winter monsoon. The intensified East Asian trough and atmospheric blocking in the North Pacific as well as the significantly negative low-level air temperature anomalies, lying upstream of the MNPST, are expected to be distinctly associated with the MWS. However, the relationship between the MWS and low-level atmospheric baroclinicity is somewhat puzzling. From the diagnostics of the eddy energy budget, it is identified that the inefficiency of the barotropic energy conversion related to the barotropic governor mechanism does not favor the occurrence of the MWS. In contrast, weakened baroclinic energy conversion, buoyancy conversion, and generation of eddy available potential energy by diabatic heating are conducive to the occurrence of the MWS. In addition, Ural blocking in the upstream region of the MNPST may be another candidate mechanism associated with the MWS.
ISSN:0256-1530
1861-9533
DOI:10.1007/s00376-021-1145-4