TY - JOUR
T1 - An updated analysis of northern hemisphere submonthly retrograde waves
AU - Raghunathan, Girish Nigamanth
AU - Huang, Huei Ping
N1 - Funding Information: Acknowledgments. The authors thank anonymous reviewers for their comments. This work is supported by National Science Foundation Grant AGS-1724555. The source of the ERA-Interim data is the European Centre for Medium-Range Weather Forecasts (ECMWF) (2011): the ERA-Interim dataset, Copernicus Climate Change Service (C3S) (accessed in June 2018–May 2019), available online (www.ecmwf.int/en/ forecasts/datasets/archive-datasets/reanalysis-datasets/ era-interim). Publisher Copyright: © 2019 American Meteorological Society.
PY - 2019
Y1 - 2019
N2 - This study performs an updated analysis of Northern Hemisphere retrograde disturbances that were first identified by classical observational studies as one of the dominating coherent structures in the higher latitudes on the submonthly time scale. Analyzing 8-30-day bandpass-filtered data based on reanalysis, a set of criteria on the phase and amplitude of zonal wave-1 Fourier coefficients of geopotential height anomalies at 250 mb (1 mb = 1 hPa) and 60°N are used to identify strong retrograde-wave events in the spirit of Madden and Speth. The new catalog of retrograde-wave events from 1979 to 2017 is used to extract basic statistics and structures of retrograde waves across all major events. The results broadly agree with those reported in the classical observational studies, reaffirming the robustness of the phenomenon. The new catalog can be used to aid further studies on the mechanisms and predictability of retrograde waves. As an example, an analysis of isentropic potential vorticity over the Pacific sector for selected retrograde-wave events reveals the common occurrence of an extrusion of low-PV air into the higher latitudes, followed by a westward shift of the low-PV patch and vortex shedding. Future directions of research surrounding the retrograde-wave phenomenon are discussed.
AB - This study performs an updated analysis of Northern Hemisphere retrograde disturbances that were first identified by classical observational studies as one of the dominating coherent structures in the higher latitudes on the submonthly time scale. Analyzing 8-30-day bandpass-filtered data based on reanalysis, a set of criteria on the phase and amplitude of zonal wave-1 Fourier coefficients of geopotential height anomalies at 250 mb (1 mb = 1 hPa) and 60°N are used to identify strong retrograde-wave events in the spirit of Madden and Speth. The new catalog of retrograde-wave events from 1979 to 2017 is used to extract basic statistics and structures of retrograde waves across all major events. The results broadly agree with those reported in the classical observational studies, reaffirming the robustness of the phenomenon. The new catalog can be used to aid further studies on the mechanisms and predictability of retrograde waves. As an example, an analysis of isentropic potential vorticity over the Pacific sector for selected retrograde-wave events reveals the common occurrence of an extrusion of low-PV air into the higher latitudes, followed by a westward shift of the low-PV patch and vortex shedding. Future directions of research surrounding the retrograde-wave phenomenon are discussed.
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U2 - 10.1175/JAS-D-19-0143.1
DO - 10.1175/JAS-D-19-0143.1
M3 - Article
SN - 0022-4928
VL - 76
SP - 3941
EP - 3954
JO - Journal of the Atmospheric Sciences
JF - Journal of the Atmospheric Sciences
IS - 12
ER -