Distinctive impact of spring AO on the succedent winter El Niño event: sensitivity to AO’s North Pacific component

Distinctive impact of spring AO on the succedent winter El Niño event: sensitivity to AO’s North Pacific component

Previous studies indicated that positive spring Arctic Oscillation (+ AO) has a marked impact on the succedent winter El Niño. However, + AO cannot always lead to an El Niño. We compare the observations with two groups: when + AO is followed by an El Niño (denoted as AO-EL) and when + AO cannot resu...

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Bibliographic Details
Published in:Climate dynamics Vol. 58; no. 1-2; pp. 235 - 255
Main Authors: Chen, Shangfeng, Chen, Wen
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 2022
Springer
Springer Nature B.V
Subjects:
Air-sea interaction
Analysis
Anomalies
Arctic Oscillation
Atlantic Oscillation
Atmospheric circulation
Atmospheric heating
Climate models
Climatology
Earth and Environmental Science
Earth Sciences
El Nino
El Nino events
El Nino phenomena
Environmental aspects
Geophysics/Geodesy
Heating
Ocean temperature
Ocean-atmosphere interaction
Oceanography
Sea surface
Sea surface temperature
Spring
Spring (season)
Surface temperature
Tropical climate
Westerlies
Wind
Wind stress
Wind stress curl
Winter
China
El Niño
Sea surface temperature
Atlantic Multidecadal Oscillation
Arctic Oscillation
North Pacific
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Summary:Previous studies indicated that positive spring Arctic Oscillation (+ AO) has a marked impact on the succedent winter El Niño. However, + AO cannot always lead to an El Niño. We compare the observations with two groups: when + AO is followed by an El Niño (denoted as AO-EL) and when + AO cannot result in an El Niño (denoted as AO-NEL). Large difference is originally found in the North Pacific component of the + AO between the two groups. North Pacific center of the + AO is much stronger and extends more southward for AO-EL than AO-NEL years. Specifically, for the AO-EL years, a strong anticyclonic anomaly appears over mid-latitude North Pacific in spring, accompanied by significant cyclonic anomaly, sea surface temperature (SST) warming, and increase in the atmospheric heating over subtropical North Pacific. Increase in SST and atmospheric heating over subtropical North Pacific lead to westerly wind anomalies over the tropical central and western Pacific via positive air-sea interaction, and further impacts succedent winter El Niño. Furthermore, the southwesterly wind anomalies over subtropical North Pacific provide negative wind stress curl over equatorial central Pacific and lead to subsurface warming there, which also has a contribution to the following winter El Niño occurrence. For the AO-NEL years, North Pacific component of the + AO is much weaker, which cannot induce clear westerly wind anomalies over the tropical central and western Pacific, and thus has little impact on the following winter El Niño. In addition, the Atlantic Multidecadal Oscillation has an effect on the North Pacific center of the spring AO. The observed results can be well verified in a long simulation of a coupled climate model.
ISSN:0930-7575
1432-0894
DOI:10.1007/s00382-021-05898-3