Three-Dimensional Deformation Measured in an Alaskan Glacier
- 28 August 1998
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 281 (5381), 1340-1342
- https://doi.org/10.1126/science.281.5381.1340
Abstract
Measurements of movement along 28 boreholes reveal the three-dimensional flow field in a 6 million cubic meter reach of Worthington Glacier, a temperate valley glacier located in Alaska. Sliding at the bed accounted for 60 to 70 percent of the glacier's surface motion. Strain rates in the ice were low from the surface to a depth of about 120 meters, but then increased rapidly toward the bed. Ice deformation was not affected by temporal changes in the sliding rate. The three-dimensional pattern of motion indicates that plane strain, which is often assumed by models, is a poor approximation of this viscous flow.Keywords
This publication has 12 references indexed in Scilit:
- Mechanical and hydrologic basis for the rapid motion of a large tidewater glacier: 2. InterpretationJournal of Geophysical Research, 1994
- Flow Laws For Glacier Ice: Comparison Of Numerical Predictions And Field MeasurementsJournal of Glaciology, 1990
- A 3 Year Record of Seasonal Variations in Surface Velocity, StorglaciÄren, SwedenJournal of Glaciology, 1989
- Flow law for polycrystalline ice in glaciers: Comparison of theoretical predictions, laboratory data, and field measurementsReviews of Geophysics, 1981
- MACHINE CONTOURING USING MINIMUM CURVATUREGeophysics, 1974
- Variations in the Sliding of a Temperate GlacierJournal of Glaciology, 1974
- Determination of the Three-Dimensional Velocity Field in a GlacierJournal of Glaciology, 1971
- Flow in a Transverse Section of Athabasca Glacier, Alberta, CanadaJournal of Glaciology, 1971
- Measurements on Athabasca Glacier relating to the flow law of iceJournal of Geophysical Research, 1963
- The flow law of ice from measurements in glacier tunnels, laboratory experiments and the Jungfraufirn borehole experimentProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1953