Intraseasonal variability in South America during the cold season

Intraseasonal (IS) variability in South America is analyzed during the cold season using 10-90 day bandpass filtered OLR anomalies (FOLR). IS variability explains a large percentage of variance with maximum values over Paraguay, northeastern Argentina, and southern Brazil. The leading pattern of FOL...

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Bibliographic Details
Main Authors: Alvarez, M.S., Vera, C.S., Kiladis, G.N., Liebmann, B.
Format: Journal/Newspaper
Language:unknown
Subjects:
Intraseasonal variability
Outgoing longwave radiation
South America
Winter
anticyclone
longwave radiation
precipitation assessment
Rossby wave
seasonal variation
Southern Hemisphere
Antarctic Peninsula
Antarctica
Argentina
Brazil
Indian Ocean
Indian Ocean (Tropical)
Pacific Ocean
Pacific Ocean (West)
Paraguay
West Antarctica
Antarc*
Antarctic
Online Access:https://hdl.handle.net/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez
id ftunibueairesbd:todo:paper_09307575_v42_n11-12_p3253_Alvarez
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spelling ftunibueairesbd:todo:paper_09307575_v42_n11-12_p3253_Alvarez 2023-10-29T02:31:59+01:00 Intraseasonal variability in South America during the cold season Alvarez, M.S. Vera, C.S. Kiladis, G.N. Liebmann, B. https://hdl.handle.net/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez unknown http://hdl.handle.net/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar Intraseasonal variability Outgoing longwave radiation South America Winter anticyclone longwave radiation precipitation assessment Rossby wave seasonal variation Southern Hemisphere Antarctic Peninsula Antarctica Argentina Brazil Indian Ocean Indian Ocean (Tropical) Pacific Ocean Pacific Ocean (West) Paraguay West Antarctica JOUR ftunibueairesbd https://doi.org/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez 2023-10-05T01:23:31Z Intraseasonal (IS) variability in South America is analyzed during the cold season using 10-90 day bandpass filtered OLR anomalies (FOLR). IS variability explains a large percentage of variance with maximum values over Paraguay, northeastern Argentina, and southern Brazil. The leading pattern of FOLR, as isolated from an EOF analysis, (Cold Season IS pattern, CSIS), is characterized by a monopole centered over southeastern South America (SESA) with a northwest-southeast orientation. CSIS induces a large modulation on daily precipitation anomalies, especially on both wet spells and daily precipitation extremes, which are favored during positive (wet) CSIS phases. Large-Scale OLR anomalies over the tropical Indian and west Pacific Oceans associated with CSIS exhibit eastward propagation along tropical latitudes. In addition, circulation anomalies in the Southern Hemisphere reveal the presence of an anticyclonic anomaly over Antarctica with opposite-sign anomalies in middle latitudes 10 days before CSIS is maximum as well as evidence of Rossby wave-like patterns. Positive precipitation anomalies in SESA are favored during wet CSIS phases by the intensification of a cyclonic anomaly located further south, which is discernible over the southeastern Pacific for at least 14 days before CSIS peaks. The cyclonic anomaly evolution is accompanied by the intensification of an upstream anticyclonic anomaly, which remains quasi-stationary near the Antarctica Peninsula before the CSIS peak. We speculate that the stationary behavior of the anticyclonic center is favored by a hemispheric circulation anomaly pattern resembling that associated with a negative southern annular mode phase and a wavenumber 3-4 pattern at middle latitudes. © 2013 Springer-Verlag Berlin Heidelberg. Fil:Vera, C.S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Journal/Newspaper Antarc* Antarctic Antarctic Peninsula Antarctica West Antarctica Biblioteca Digital FCEN-UBA (Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires)
institution Open Polar
collection Biblioteca Digital FCEN-UBA (Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires)
op_collection_id ftunibueairesbd
language unknown
topic Intraseasonal variability
Outgoing longwave radiation
South America
Winter
anticyclone
longwave radiation
precipitation assessment
Rossby wave
seasonal variation
Southern Hemisphere
Antarctic Peninsula
Antarctica
Argentina
Brazil
Indian Ocean
Indian Ocean (Tropical)
Pacific Ocean
Pacific Ocean (West)
Paraguay
West Antarctica
spellingShingle Intraseasonal variability
Outgoing longwave radiation
South America
Winter
anticyclone
longwave radiation
precipitation assessment
Rossby wave
seasonal variation
Southern Hemisphere
Antarctic Peninsula
Antarctica
Argentina
Brazil
Indian Ocean
Indian Ocean (Tropical)
Pacific Ocean
Pacific Ocean (West)
Paraguay
West Antarctica
Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
Liebmann, B.
Intraseasonal variability in South America during the cold season
topic_facet Intraseasonal variability
Outgoing longwave radiation
South America
Winter
anticyclone
longwave radiation
precipitation assessment
Rossby wave
seasonal variation
Southern Hemisphere
Antarctic Peninsula
Antarctica
Argentina
Brazil
Indian Ocean
Indian Ocean (Tropical)
Pacific Ocean
Pacific Ocean (West)
Paraguay
West Antarctica
description Intraseasonal (IS) variability in South America is analyzed during the cold season using 10-90 day bandpass filtered OLR anomalies (FOLR). IS variability explains a large percentage of variance with maximum values over Paraguay, northeastern Argentina, and southern Brazil. The leading pattern of FOLR, as isolated from an EOF analysis, (Cold Season IS pattern, CSIS), is characterized by a monopole centered over southeastern South America (SESA) with a northwest-southeast orientation. CSIS induces a large modulation on daily precipitation anomalies, especially on both wet spells and daily precipitation extremes, which are favored during positive (wet) CSIS phases. Large-Scale OLR anomalies over the tropical Indian and west Pacific Oceans associated with CSIS exhibit eastward propagation along tropical latitudes. In addition, circulation anomalies in the Southern Hemisphere reveal the presence of an anticyclonic anomaly over Antarctica with opposite-sign anomalies in middle latitudes 10 days before CSIS is maximum as well as evidence of Rossby wave-like patterns. Positive precipitation anomalies in SESA are favored during wet CSIS phases by the intensification of a cyclonic anomaly located further south, which is discernible over the southeastern Pacific for at least 14 days before CSIS peaks. The cyclonic anomaly evolution is accompanied by the intensification of an upstream anticyclonic anomaly, which remains quasi-stationary near the Antarctica Peninsula before the CSIS peak. We speculate that the stationary behavior of the anticyclonic center is favored by a hemispheric circulation anomaly pattern resembling that associated with a negative southern annular mode phase and a wavenumber 3-4 pattern at middle latitudes. © 2013 Springer-Verlag Berlin Heidelberg. Fil:Vera, C.S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.
format Journal/Newspaper
author Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
Liebmann, B.
author_facet Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
Liebmann, B.
author_sort Alvarez, M.S.
title Intraseasonal variability in South America during the cold season
title_short Intraseasonal variability in South America during the cold season
title_full Intraseasonal variability in South America during the cold season
title_fullStr Intraseasonal variability in South America during the cold season
title_full_unstemmed Intraseasonal variability in South America during the cold season
title_sort intraseasonal variability in south america during the cold season
url https://hdl.handle.net/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez
genre Antarc*
Antarctic
Antarctic Peninsula
Antarctica
West Antarctica
genre_facet Antarc*
Antarctic
Antarctic Peninsula
Antarctica
West Antarctica
op_relation http://hdl.handle.net/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez
op_rights info:eu-repo/semantics/openAccess
http://creativecommons.org/licenses/by/2.5/ar
op_doi https://doi.org/20.500.12110/paper_09307575_v42_n11-12_p3253_Alvarez
_version_ 1781052929165230080

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