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Does the subtropical jet catalyze the midlatitude atmospheric regimes?
Author(s) -
Ruti Paolo M.,
Lucarini Valerio,
Dell'Aquila Alessandro,
Calmanti Sandro,
Speranza Antonio
Publication year - 2006
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2005gl024620
Subject(s) - middle latitudes , bimodality , environmental science , climatology , atmospheric sciences , jet (fluid) , orographic lift , range (aeronautics) , climate model , troposphere , atmosphere (unit) , probability density function , climate change , geology , meteorology , precipitation , physics , mathematics , oceanography , materials science , statistics , quantum mechanics , galaxy , composite material , thermodynamics
Understanding the atmospheric low‐frequency variability is of crucial importance in fields such as climate studies, climate change detection, and extended‐range weather forecast. The Northern Hemisphere climate features the planetary waves as a relevant ingredient of the atmospheric variability. Several observations and theoretical arguments seem to support the idea that winter planetary waves indicator obey a non‐Gaussian statistics and may present a multimodal probability density function, thus characterizing the low‐frequency portion of the climate system. We show that the upper tropospheric jet strength is a critical parameter in determining whether the planetary waves indicator exhibits a uni‐ or bimodal behavior, and we determine the relevant threshold value of the jet. These results are obtained by considering the data of the NCEP‐NCAR and ECMWF reanalyses for the overlapping period. Our results agree with the non‐linear orographic theory, which explains the statistical non‐normality of the low‐frequency variability of the atmosphere and its possible bimodality.