Litcius/Paper detail

Delayed Antarctic sea-ice decline in high-resolution climate change simulations

Thomas Rackow, Sergey Danilov, Helge Goessling, Hartmut Hellmer, Dmitry Sein, Tido Semmler, Dmitry Sidorenko, Thomas Jung

2022Nature Communications109 citationsDOIOpen Access PDF

Abstract

Despite global warming and Arctic sea-ice loss, on average the Antarctic sea-ice extent has not declined since 1979 when satellite data became available. In contrast, climate model simulations tend to exhibit strong negative sea-ice trends for the same period. This Antarctic sea-ice paradox leads to low confidence in 21st-century sea-ice projections. Here we present multi-resolution climate change projections that account for Southern Ocean mesoscale eddies. The high-resolution configuration simulates stable September Antarctic sea-ice extent that is not projected to decline until the mid-21st century. We argue that one reason for this finding is a more realistic ocean circulation that increases the equatorward heat transport response to global warming. As a result, the ocean becomes more efficient at moderating the anthropogenic warming around Antarctica and hence at delaying sea-ice decline. Our study suggests that explicitly simulating Southern Ocean eddies is necessary for providing Antarctic sea-ice projections with higher confidence.

Topics & Concepts

Sea iceClimatologyArctic ice packOceanographyArctic sea ice declineClimate changeIce-albedo feedbackCryosphereGlobal warmingAntarctic sea iceArcticGeologyEnvironmental scienceClimate modelFuture sea levelArctic and Antarctic ice dynamicsClimate variability and modelsOceanographic and Atmospheric Processes