Litcius/Paper detail

Smoother sea ice with fewer pressure ridges in a more dynamic Arctic

Thomas Krumpen, Luisa von Albedyll, H. Jakob Bünger, Giulia Castellani, Jörg Hartmann, Veit Helm, Stefan Hendricks, Nils Hutter, Jack Landy, Simeon Lisovski, Christof Lüpkes, Jan Rohde, Mira Suhrhoff, Christian Haas

2025Nature Climate Change22 citationsDOIOpen Access PDF

Abstract

Abstract Pressure ridges, formed by sea ice deformation, affect momentum transfer in the Arctic Ocean and support a larger biomass than the surrounding-level ice. Although trends in Arctic sea ice thickness and concentration are well documented, changes in ridge morphology remain unclear. This study provides airborne-based evidence of a shift towards a smoother ice surface, with fewer pressure ridges and reduced surface drag, attributed to the loss of old ice. Furthermore, an increase in seasonal ice cover enhances overall deformation in the Arctic and acts as a negative feedback mechanism on pan-Arctic ridge morphology: the greater the proportion of seasonal ice, the higher the pan-Arctic mean ridge rate, dampening an overall decline in ridges with age. While thinner and less frequent ridges benefit industries such as shipping, these changes are likely to have profound impacts on the energy and mass balance and the ecosystem of the Arctic Ocean.

Topics & Concepts

OceanographyArcticArctic ice packSea iceGeologyThe arcticClimatologyEnvironmental scienceArctic and Antarctic ice dynamicsMethane Hydrates and Related PhenomenaCryospheric studies and observations