Isotopic and ionic changes in a snow cover at different altitudes: observations at Austre Okstindbreen in 1991

Abstract

Ionic and isotopic analyses of snow samples collected at four sites at the Norwegian glacier Austre Okstindbreen during two field seasons in 1991 showed that, before melting started, the snowpack was vertically inhomogeneous. Patterns of variation with depth of both ions and oxygen isotopes were maintained throughout the pre-melt period. Horizontal variations of ionic concentration were smaller than vertical ones. The stratigraphic pattern of ionic concentrations in the pack at lower altitudes reflected the influence of melting-refreezing processes, as well as original variations in the falling snow. The mean ionic content of the first set of samples collected at the lowest site was much lower than that at the others, indicating that ions had already been removed by meltwater. Much liquid water was present in the snowpack when drainage started, and ions were removed quickly with the first meltwater. During the melting phase, comparative rates of loss of ions resulting from differential movement through the pack were SO₄²⁻> Na⁺> Cl⁻. At 1475m, only 13% of the winter accumulation melted between 6 June and 9 July, but at least 88% of the Na⁺, 89% of the Cl⁻and about 100% of the SO₄²⁻was lost. Initially, there was no altitudinal trend in the mean δ¹⁸O values of the snowpack. Warming of the pack was accompanied by a tendency towards isotopic homogenisation. At the three sites at which snow remained in July, considerable¹⁸O enrichment had occurred since the middle of June.