Litcius/Paper detail

Record winter winds in 2020/21 drove exceptional Arctic sea ice transport

Robbie Mallett, J. C. Stroeve, Sam Cornish, Alex Crawford, Jennifer V. Lukovich, Mark C. Serreze, A. P. Barrett, Walter N. Meier, Harry Heorton, Michel Tsamados

2021Communications Earth & Environment55 citationsDOIOpen Access PDF

Abstract

Abstract The volume of Arctic sea ice is in decline but exhibits high interannual variability, which is driven primarily by atmospheric circulation. Through analysis of satellite-derived ice products and atmospheric reanalysis data, we show that winter 2020/21 was characterised by anomalously high sea-level pressure over the central Arctic Ocean, which resulted in unprecedented anticyclonic winds over the sea ice. This atmospheric circulation pattern drove older sea ice from the central Arctic Ocean into the lower-latitude Beaufort Sea, where it is more vulnerable to melting in the coming warm season. We suggest that this unusual atmospheric circulation may potentially lead to unusually high summer losses of the Arctic’s remaining store of old ice.

Topics & Concepts

Arctic ice packArctic sea ice declineSea iceClimatologyAtmospheric circulationArcticOceanographyArctic geoengineeringArctic dipole anomalyEnvironmental scienceAntarctic sea iceCryosphereGeologyArctic and Antarctic ice dynamicsClimate change and permafrostCryospheric studies and observations
Record winter winds in 2020/21 drove exceptional Arctic sea ice transport | Litcius