Comparing heterogeneity of sea-ice models with viscous-plastic and Maxwell elasto-brittle rheology

Comparing heterogeneity of sea-ice models with viscous-plastic and Maxwell elasto-brittle rheology

Classical sea-ice models in climate model resolution do not resolve the small-scale physics of sea ice. New methods to address this problem include modifications to established viscous-plastic (VP) rheology models, sub-gridscale parameterizations or new rheologies such as the Maxwell elasto-brittle...

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Bibliographic Details
Main Authors: Mirjam Bourgett, Martin Losch, Mathieu Plante
Format: Article
Language:English
Published: Cambridge University Press 2025-01-01
Series:Annals of Glaciology
Subjects:
ice rheology
sea-ice dynamics
sea-ice modelling
Online Access:https://www.cambridge.org/core/product/identifier/S0260305524000405/type/journal_article
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Summary:Classical sea-ice models in climate model resolution do not resolve the small-scale physics of sea ice. New methods to address this problem include modifications to established viscous-plastic (VP) rheology models, sub-gridscale parameterizations or new rheologies such as the Maxwell elasto-brittle (MEB) rheology. Here, we investigate differences in gridscale dynamics simulated by the VP and MEB models, their dependency on tunable model parameters and their response to added stochastic perturbations of material parameters in a new implementation in the Massachusetts Institute of Technology general circulation model. Idealized simulations are used to demonstrate that material parameters can be tuned so that both VP and MEB rheologies lead to similar cohesive stress states, arching behaviour and heterogeneity in the deformation fields. As expected, simulations with MEB rheology generally show more heterogeneity than the VP model as measured by the number of simulated linear kinematic features (LKFs). For both rheologies, the cohesion determines the emergence of LKFs. Introducing gridscale heterogeneity by random model parameter perturbation, however, leads to a larger increase of LKF numbers in the VP simulations than in the MEB simulations and similar heterogeneity between VP and MEB models.
ISSN:0260-3055
1727-5644

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