II JÖKLARANNSÓKNAFÉLAGS ÍSLANDS 5. ÁR REYKJAVlK 1955 On the Flow of Ice-Sheets and Glaciers by GUNNAR BODVARDSSON1) ABSTRACT: Differential equations for the form of a flowing thin ice-sheet are derived by the boundary condition that the shear stress on the bed is proportional to the product of the thickness and the gliding velocity. The general mathernatical character of the equations, stability of solutions and the response of ice-sheets to climatic variations are discussed. INTRODUCTION The difficulties encountered in the mathe- matical treatment of the flow of ice-sheets and glaciers can be listed as follow: (I) The general non-linear character of the basic equations of free-surface flow. Some simplification can be obtained by the assump- tion of a static distribution of pressure within the ice, and by the assumption of flow-lines parallel to the bed. (II) The complex rheological character of ice and its low strength. It is known that ice does not flow as a Newtonian fluid but shows 1) State Electricity Authority, Reykjavík, Iceland. a rather complex relation of sliear stress to the rate of strain. (Glen, 1952). This implies a further non-linearity of the basic equations of flow. The low strength furthermore implies that planes of discontinuity are encountered which leads to a great complication. Approxi- mations by the treatment of ice as a New- tonian fluid with constant viscosity have been made (Somigliana, 1921). (III) The unknown relation of the shear stress on Ihe bed to the gliding velocity. This uncertainty in the boundary conditions at the bed is probably at present the most serious difficulty encountered in the numerical treat- ment of the flow problems. Constant shear stress has been used by some authors (Nye, 1952). (IV) Complex three-dimensionl contours of the bed and variations in space and time of the rate of accumululation and ablation. In the treatment of the flow of actual ice-sheets it is consequently necessary to collect a great deal of clata on the contours of the bed and on the conditions in the accumulation and the ablation regions. The purpose of thc present paper is the dis- 1

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