Compounding tropical and stratospheric forcing of the record low Antarctic sea-ice in 2016

After exhibiting an upward trend since 1979, Antarctic sea ice extent (SIE) declined dramatically during austral spring 2016, reaching a record low by December 2016. Here we show that a combination of atmospheric and oceanic phenomena played primary roles for this decline. The anomalous atmospheric...

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Bibliographic Details
Published in:Nature Communications
Other Authors: Wang, Guomin (author), Hendon, Harry H. (author), Arblaster, Julie M. (author), Lim, Eun-Pa (author), Abhik, S. (author), van Rensch, Peter (author)
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Antarctic
Austral
Bellingshausen Sea
Pacific
Indian
Antarc*
Antarctica
Sea ice
Online Access:https://doi.org/10.1038/s41467-018-07689-7
Description
Summary:After exhibiting an upward trend since 1979, Antarctic sea ice extent (SIE) declined dramatically during austral spring 2016, reaching a record low by December 2016. Here we show that a combination of atmospheric and oceanic phenomena played primary roles for this decline. The anomalous atmospheric circulation was initially driven by record strength tropical convection over the Indian and western Pacific Oceans, which resulted in a wave-3 circulation pattern around Antarctica that acted to reduce SIE in the Indian Ocean, Ross and Bellingshausen Sea sectors. Subsequently, the polar stratospheric vortex weakened significantly, resulting in record weakening of the circumpolar surface westerlies that acted to decrease SIE in the Indian Ocean and Pacific Ocean sectors. These processes appear to reflect unusual internal atmosphere-ocean variability. However, the warming trend of the tropical Indian Ocean, which may partly stem from anthropogenic forcing, may have contributed to the severity of the 2016 SIE decline.

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