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The impact of temperature and crystal orientation fabric on the dynamics of mountain glaciers and ice streams

Kate Hruby, Christopher Gerbi, Peter O. Koons, Seth Campbell, Carlos Martín, R. L. Hawley

2020Journal of Glaciology26 citationsDOIOpen Access PDF

Abstract

Abstract Streaming ice accounts for a major fraction of global ice flux, yet we cannot yet fully explain the dominant controls on its kinematics. In this contribution, we use an anisotropic full-Stokes thermomechanical flow solver to characterize how mechanical anisotropy and temperature distribution affect ice flux. For the ice stream and glacier geometries we explored, we found that the ice flux increases 1–3% per °C temperature increase in the margin. Glaciers and ice streams with crystallographic fabric oriented approximately normal to the shear plane increase by comparable amounts: an otherwise isotropic ice stream containing a concentrated transverse single maximum fabric in the margin flows 15% faster than the reference case. Fabric and temperature variations independently impact ice flux, with slightly nonlinear interactions. We find that realistic variations in temperature and crystallographic fabric both affect ice flux to similar degrees, with the exact effect a function of the local fabric and temperature distributions. Given this sensitivity, direct field-based measurements and models incorporating additional factors, such as water content and temporal evolution, are essential for explaining and predicting streaming ice dynamics.

Topics & Concepts

GeologyGlacierIce streamFlux (metallurgy)Ice crystalsAnisotropyIce divideSea ice growth processesSTREAMSIsotropyGeomorphologySea iceClimatologyArctic ice packMaterials scienceAntarctic sea iceCryosphereMeteorologyPhysicsOpticsMetallurgyComputer scienceComputer networkCryospheric studies and observationsWinter Sports Injuries and PerformanceArctic and Antarctic ice dynamics
The impact of temperature and crystal orientation fabric on the dynamics of mountain glaciers and ice streams | Litcius