Litcius/Paper detail

Experimental evidence for a universal threshold characterizing wave-induced sea ice break-up

Joey J. Voermans, Jean Rabault, Kirill Filchuk, Ivan Ryzhov, Petra Heil, Aleksey Marchenko, Clarence O. Collins III, Mohammed Dabboor, Graig Sutherland, Alexander V. Babanin

2020˜The œcryosphere32 citationsDOIOpen Access PDF

Abstract

Abstract. Waves can drastically transform a sea ice cover by inducing break-up over vast distances in the course of a few hours. However, relatively few detailed studies have described this phenomenon in a quantitative manner, and the process of sea ice break-up by waves needs to be further parameterized and verified before it can be reliably included in forecasting models. In the present work, we discuss sea ice break-up parameterization and demonstrate the existence of an observational threshold separating breaking and non-breaking cases. This threshold is based on information from two recent field campaigns, supplemented with existing observations of sea ice break-up. The data used cover a wide range of scales, from laboratory-grown sea ice to polar field observations. Remarkably, we show that both field and laboratory observations tend to converge to a single quantitative threshold at which the wave-induced sea ice break-up takes place, which opens a promising avenue for robust parametrization in operational forecasting models.

Topics & Concepts

Sea iceSea ice concentrationParametrization (atmospheric modeling)GeologyClimatologySea ice thicknessDrift iceLead (geology)Arctic ice packAntarctic sea icePolarCover (algebra)Range (aeronautics)Field (mathematics)MeteorologyRemote sensingCryosphereParameterized complexityEnvironmental scienceArctic and Antarctic ice dynamicsOcean Waves and Remote SensingMeteorological Phenomena and Simulations