CHARACTER OF THE EN GLACIAL AND SUB GLACIAL DRAINAGE SYSTEM IN THE UPPER PART OF THE ABLATION AREA OF STORGLACIAREN, SWEDEN
ABSTRACT. On 4 July 1986, dye was injected at a point slightly above the equilibrium line on Storglaciaren, a small valley glacier in northern Sweden. Just below the equilibrium line, the glacier bed is over-deepened. The dye re-appeared in a stream at the glacier terminus over the next 35 d. This s...
| Main Authors: | , , |
|---|---|
| Other Authors: | |
| Format: | Text |
| Language: | English |
| Subjects: | |
| Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.429.5453 http://www.igsoc.org/journal/34/117/igs_journal_vol34_issue117_pg228-231.pdf |
| Summary: | ABSTRACT. On 4 July 1986, dye was injected at a point slightly above the equilibrium line on Storglaciaren, a small valley glacier in northern Sweden. Just below the equilibrium line, the glacier bed is over-deepened. The dye re-appeared in a stream at the glacier terminus over the next 35 d. This stream normally carries relatively little sediment, in constrast to the situation in another nearby stream that also emerges from the glacier. This suggests that the dye traveled in englacial rather than subglacial conduits. Tracer tests utilizing salt in bore holes in the overdeepening support this interpretation, as the bore holes were draining well above the bed. The dye appeared during three distinct events, suggesting that it became divided into at least three separate parcels shortly after Injection. This probably occurred in the crevassed area in the vicinity of the injection point. The englacial location of the drainage may be explained by the fact that, in order to remain at the pressure melting-point, water in subglacial conduits coming out of the overdeepening may have had to warm up faster than would be possible by viscous heating alone. Such conduits would thus tend to freeze closed. |
|---|