Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation

Atmospheric and oceanic teleconnections link the Antarctic Circumpolar Wave (ACW) in the Southern Ocean [ White and Peterson, 1996 ] and the global El Niño-Southern Oscillation (ENSO) wave (GEW) in the tropical Indo-Pacific Ocean [ White and Cayan, 2000 ], both signals characterized by eastward phas...

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Published in:	Journal of Geophysical Research
Main Authors:	White, Warren B., Chen, Shyh-Chin, Allan, Robert J., Stone, Roger C.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2002
Subjects:	oceanography climate interannual variability El Nino arctic antarctic 4504 air sea meteorology atmospheric dynamics Antarctic Arctic Drake Passage Hoskins Indian Pacific Southern Ocean The Antarctic Antarc*
Online Access:	https://research.usq.edu.au/item/9y4x8/positive-feedbacks-between-the-antarctic-circumpolar-wave-and-the-global-el-nino-southern-oscillation https://research.usq.edu.au/download/f5acc31eec8b4fc6d75a9fb33185edf3405de50b4cc3926bad379cd29fd9cdae/31744/JGr_White_et_al_2002_full_article.doc https://doi.org/10.1029/2000JC000581

id	ftusqland:oai:research.usq.edu.au:9y4x8
record_format	openpolar
spelling	ftusqland:oai:research.usq.edu.au:9y4x8 2023-05-15T13:54:34+02:00 Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation White, Warren B. Chen, Shyh-Chin Allan, Robert J. Stone, Roger C. 2002 application/msword https://research.usq.edu.au/item/9y4x8/positive-feedbacks-between-the-antarctic-circumpolar-wave-and-the-global-el-nino-southern-oscillation https://research.usq.edu.au/download/f5acc31eec8b4fc6d75a9fb33185edf3405de50b4cc3926bad379cd29fd9cdae/31744/JGr_White_et_al_2002_full_article.doc https://doi.org/10.1029/2000JC000581 unknown https://research.usq.edu.au/download/f5acc31eec8b4fc6d75a9fb33185edf3405de50b4cc3926bad379cd29fd9cdae/31744/JGr_White_et_al_2002_full_article.doc https://doi.org/10.1029/2000JC000581 White, Warren B., Chen, Shyh-Chin, Allan, Robert J. and Stone, Roger C. 2002. "Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation ." Journal of Geophysical Research: Oceans. 107 (10), pp. 3165-3177. https://doi.org/10.1029/2000JC000581 oceanography climate interannual variability El Nino arctic antarctic 4504 air sea meteorology atmospheric dynamics article PeerReviewed 2002 ftusqland https://doi.org/10.1029/2000JC000581 2023-04-03T22:37:45Z Atmospheric and oceanic teleconnections link the Antarctic Circumpolar Wave (ACW) in the Southern Ocean [ White and Peterson, 1996 ] and the global El Niño-Southern Oscillation (ENSO) wave (GEW) in the tropical Indo-Pacific Ocean [ White and Cayan, 2000 ], both signals characterized by eastward phase propagation and 3- to 5-year- period variability. We extend the tropical standing mode of ENSO into the extratropics by regressing the Niño-3 sea surface temperature (SST) index against sea level pressure (SLP) anomalies over the globe, finding the Pacific-South America (PSA) pattern in SLP anomaly [ Cai and Baines, 2001 ] straddling Drake Passage in the Southern Ocean. The amplitude of this PSA pattern is ∼1/3 that of the ACW in this domain and thus cannot be considered its principal driver. On the other hand, suppressing the tropical standing mode of ENSO in interannual ST (surface temperature) and SLP anomalies over the globe allows the GEW to be observed much more readily, whereupon its eastward phase propagation across the Warm Pool is found to remotely force the ACW in the eastern Pacific and western Atlantic sectors of the Southern Ocean through atmospheric teleconnections [ Sardeshmukh and Hoskins, 1988 ] which propagate along with it. Subsequently, the ACW propagates this imposed GEW signal throughout the remainder of the Southern Ocean as a coupled wave in covarying ST and SLP anomalies, whereupon entering the Indian sector 1.5 to 2.5 years later it spawns a northern branch which takes another 1.5 to 2.5 years to propagate the ACW signal equatorward into the Warm Pool south of Indonesia. There it interferes constructively with the GEW. Thus the two forms of teleconnection, one fast and directed from the tropics to the high southern latitudes via the atmosphere and the other slow and directed from the high southern latitudes to the tropics via the ocean, complete a global circuit of 3- to 5-year duration that reinforces both the ACW and GEW and influences the tropical standing mode of ENSO. Article in Journal/Newspaper Antarc* Antarctic Arctic Drake Passage Southern Ocean University of Southern Queensland: USQ ePrints Antarctic Arctic Drake Passage Hoskins ENVELOPE(159.050,159.050,-81.833,-81.833) Indian Pacific Southern Ocean The Antarctic Journal of Geophysical Research 107 C10
institution	Open Polar
collection	University of Southern Queensland: USQ ePrints
op_collection_id	ftusqland
language	unknown
topic	oceanography climate interannual variability El Nino arctic antarctic 4504 air sea meteorology atmospheric dynamics
spellingShingle	oceanography climate interannual variability El Nino arctic antarctic 4504 air sea meteorology atmospheric dynamics White, Warren B. Chen, Shyh-Chin Allan, Robert J. Stone, Roger C. Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
topic_facet	oceanography climate interannual variability El Nino arctic antarctic 4504 air sea meteorology atmospheric dynamics
description	Atmospheric and oceanic teleconnections link the Antarctic Circumpolar Wave (ACW) in the Southern Ocean [ White and Peterson, 1996 ] and the global El Niño-Southern Oscillation (ENSO) wave (GEW) in the tropical Indo-Pacific Ocean [ White and Cayan, 2000 ], both signals characterized by eastward phase propagation and 3- to 5-year- period variability. We extend the tropical standing mode of ENSO into the extratropics by regressing the Niño-3 sea surface temperature (SST) index against sea level pressure (SLP) anomalies over the globe, finding the Pacific-South America (PSA) pattern in SLP anomaly [ Cai and Baines, 2001 ] straddling Drake Passage in the Southern Ocean. The amplitude of this PSA pattern is ∼1/3 that of the ACW in this domain and thus cannot be considered its principal driver. On the other hand, suppressing the tropical standing mode of ENSO in interannual ST (surface temperature) and SLP anomalies over the globe allows the GEW to be observed much more readily, whereupon its eastward phase propagation across the Warm Pool is found to remotely force the ACW in the eastern Pacific and western Atlantic sectors of the Southern Ocean through atmospheric teleconnections [ Sardeshmukh and Hoskins, 1988 ] which propagate along with it. Subsequently, the ACW propagates this imposed GEW signal throughout the remainder of the Southern Ocean as a coupled wave in covarying ST and SLP anomalies, whereupon entering the Indian sector 1.5 to 2.5 years later it spawns a northern branch which takes another 1.5 to 2.5 years to propagate the ACW signal equatorward into the Warm Pool south of Indonesia. There it interferes constructively with the GEW. Thus the two forms of teleconnection, one fast and directed from the tropics to the high southern latitudes via the atmosphere and the other slow and directed from the high southern latitudes to the tropics via the ocean, complete a global circuit of 3- to 5-year duration that reinforces both the ACW and GEW and influences the tropical standing mode of ENSO.
format	Article in Journal/Newspaper
author	White, Warren B. Chen, Shyh-Chin Allan, Robert J. Stone, Roger C.
author_facet	White, Warren B. Chen, Shyh-Chin Allan, Robert J. Stone, Roger C.
author_sort	White, Warren B.
title	Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
title_short	Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
title_full	Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
title_fullStr	Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
title_full_unstemmed	Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation
title_sort	positive feedbacks between the antarctic circumpolar wave and the global el nino-southern oscillation
publishDate	2002
url	https://research.usq.edu.au/item/9y4x8/positive-feedbacks-between-the-antarctic-circumpolar-wave-and-the-global-el-nino-southern-oscillation https://research.usq.edu.au/download/f5acc31eec8b4fc6d75a9fb33185edf3405de50b4cc3926bad379cd29fd9cdae/31744/JGr_White_et_al_2002_full_article.doc https://doi.org/10.1029/2000JC000581
long_lat	ENVELOPE(159.050,159.050,-81.833,-81.833)
geographic	Antarctic Arctic Drake Passage Hoskins Indian Pacific Southern Ocean The Antarctic
geographic_facet	Antarctic Arctic Drake Passage Hoskins Indian Pacific Southern Ocean The Antarctic
genre	Antarc* Antarctic Arctic Drake Passage Southern Ocean
genre_facet	Antarc* Antarctic Arctic Drake Passage Southern Ocean
op_relation	https://research.usq.edu.au/download/f5acc31eec8b4fc6d75a9fb33185edf3405de50b4cc3926bad379cd29fd9cdae/31744/JGr_White_et_al_2002_full_article.doc https://doi.org/10.1029/2000JC000581 White, Warren B., Chen, Shyh-Chin, Allan, Robert J. and Stone, Roger C. 2002. "Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation ." Journal of Geophysical Research: Oceans. 107 (10), pp. 3165-3177. https://doi.org/10.1029/2000JC000581
op_doi	https://doi.org/10.1029/2000JC000581
container_title	Journal of Geophysical Research
container_volume	107
container_issue	C10
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Positive feedbacks between the Antarctic Circumpolar Wave and the global El Nino-Southern Oscillation

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