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Ice viscosity is more sensitive to stress than commonly assumed

Joanna Millstein, Brent Minchew, Samuel S. Pegler

2022Communications Earth & Environment77 citationsDOIOpen Access PDF

Abstract

Abstract Accurate representation of the viscous flow of ice is fundamental to understanding glacier dynamics and projecting sea-level rise. Ice viscosity is often described by a simple but largely untested and uncalibrated constitutive relation, Glen’s Flow Law, wherein the rate of deformation is proportional to stress raised to the power n . The value n = 3 is commonly prescribed in ice-flow models, though observations and experiments support a range of values across stresses and temperatures found on Earth. Here, we leverage recent remotely-sensed observations of Antarctic ice shelves to show that Glen’s Flow Law approximates the viscous flow of ice with n = 4.1 ± 0.4 in fast-flowing areas. The viscosity and flow rate of ice are therefore more sensitive to changes in stress than most ice-flow models allow. By calibrating the governing equation of ice deformation, our result is a pathway towards improving projections of future glacier change.

Topics & Concepts

GlacierGeologyIce streamViscosityFlow (mathematics)MechanicsPower lawSea ice growth processesSea iceGeomorphologyOceanographyAntarctic sea iceCryosphereThermodynamicsPhysicsMathematicsStatisticsCryospheric studies and observationsWinter Sports Injuries and PerformanceLandslides and related hazards
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