Ocean Constraints on Winter Antarctic Sea Ice Extent

Abstract

Winter Antarctic sea ice extent has historically shown relatively low variability compared to warmer seasons, but recent winters have shown very extreme low ice cover. As a result, there is significant interest in understanding the physical constraints on winter Antarctic sea ice cover. In this work the ocean's role in constraining maximum extent is explored. Using basic physical principles, the concept of “Stability at Freezing Temperature” is introduced, and then applied to calculate the total ocean heat that must be lost to the atmosphere before sea ice can begin to form. This method is found to capture spatial and interannual variability of the winter sea ice edge, including during recent extreme sea ice cover states. This framework can be used to separate the effects of ocean thermal and haline anomalies on the ice edge. It is also used to quantify the contributions from summer preconditioning, atmospheric cooling, and subsurface ocean heat transport, all of which are shown to contribute significantly to winter ice extent variability. This method provides an invaluable tool for understanding recent sudden changes in Antarctic sea ice cover. Show more