Litcius/Paper detail

An enhanced sea-ice thermodynamic model applied to the Baltic Sea

Letizia Tedesco, Marcello Vichi, Jari Haapala, Tapani Stipa

2024Työväentutkimus Vuosikirja21 citationsDOIOpen Access PDF

Abstract

A refined Semtner 0-layer sea-ice model (ESIM1) is presented and applied to the Baltic landfast sea ice. The physical model is capable of simulating seasonal changes of snow and ice thickness. Particular attention is paid to reproducing the snow-ice and the superimposed-ice formation which play important roles in the total mass balance of the Baltic sea-ice. The model prognostic variables include all kinds of ice and snow layers that may be present during a Baltic landfast ice season and, in general, in every coastal area of an ice-covered ocean. The assessment of the model capabilities was done for 1979-1993 for four different stations in the Baltic Sea. A sensitivity test stresses the relevant role of some of the physical parameters, such as the oceanic heat flux, while a scenario analysis highlights the robustness of the model to perturbed physical forcing. Our results show that one of the key variables in modelling sea-ice thermodynamics is the snow layer and its metamorphism, and including the meteoric ice dynamics into a sea-ice model is relevant to properly simulate any ice season, also in view of climate change scenarios.

Topics & Concepts

Sea iceSnowSea ice thicknessClimatologyCryosphereGeologyArctic ice packAntarctic sea iceSea ice concentrationOceanographyEnvironmental scienceGeomorphologyArctic and Antarctic ice dynamicsClimate change and permafrostClimate variability and models