Litcius/Paper detail

Microstructures in a shear margin: Jarvis Glacier, Alaska

Christopher Gerbi, Stephanie Mills, Renée Clavette, Seth Campbell, Steven Bernsen, David Clemens‐Sewall, Ian Lee, R. L. Hawley, K. J. Kreutz, Kate Hruby

2021Journal of Glaciology28 citationsDOIOpen Access PDF

Abstract

Abstract Microstructures, including crystallographic fabric, within the margin of streaming ice can exert strong control on flow dynamics. To characterize a natural setting, we retrieved three cores, two of which reached bed, from the flank of Jarvis Glacier, eastern Alaska Range, Alaska. The core sites lie ~1 km downstream of the source, with abundant water present in the extracted cores and at the base of the glacier. All cores exhibit dipping layers, a combination of debris bands and bubble-free domains. Grain sizes coarsen on average approaching the lateral margin. Crystallographic orientations are more clustered and with c -axes closer to horizontal nearer the lateral margin. The measured fabric is sufficiently weak to induce little mechanical anisotropy, but the data suggest that despite the challenging conditions of warm ice, abundant water and a short flow distance, many aspects of the microstructure, including measurable crystallographic fabric, evolved in systematic ways.

Topics & Concepts

GeologyGlacierAnisotropyMargin (machine learning)Ice coreShear (geology)GeomorphologyMicrostructureMineralogyGeometryPaleontologyOceanographyMaterials scienceComposite materialOpticsMathematicsMachine learningPhysicsComputer scienceCryospheric studies and observationsWinter Sports Injuries and PerformanceArctic and Antarctic ice dynamics