1. Sliding dominates slow-flowing margin regions, Greenland Ice Sheet
- Author
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Maier, Nathan, Humphrey, Neil, Harper, Joel, and Meierbachtol, Toby
- Subjects
geography ,Multidisciplinary ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Bedrock ,Ice stream ,SciAdv r-articles ,Greenland ice sheet ,Geology ,Forcing (mathematics) ,Deformation (meteorology) ,010502 geochemistry & geophysics ,01 natural sciences ,Geophysics ,13. Climate action ,Ice sheet ,Meltwater ,Geomorphology ,Research Articles ,Research Article ,0105 earth and related environmental sciences ,Ablation zone - Abstract
We measure sliding-dominated plug flow over a hard bed during winter and show that this flow style is typical of margins in Greenland., On the Greenland Ice Sheet (GrIS), ice flow due to deformation and sliding across the bed delivers ice to lower-elevation marginal regions where it can melt. We measured the two mechanisms of motion using a three-dimensional array of 212 tilt sensors installed within a network of boreholes drilled to the bed in the ablation zone of GrIS. Unexpectedly, sliding completely dominates ice motion all winter, despite a hard bedrock substrate and no concurrent surface meltwater forcing. Modeling constrained by detailed tilt observations made along the basal interface suggests that the high sliding is due to a slippery bed, where sparsely spaced bedrock bumps provide the limited resistance to sliding. The conditions at the site are characterized as typical of ice sheet margins; thus, most ice flow near the margins of GrIS is mainly from sliding, and marginal ice fluxes are near their theoretical maximum for observed surface speeds.
- Published
- 2019
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