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Title
Proceedings of the Symposium on Global and Environmental Monitoring

282
DETERMINATION AND SIGNIFICANCE OF SNOW BOUNDARIES ON
GLACIERS
Harold Haefner
Remote Sensing Laboratories, Department of Geography
University of Zurich-Irchel
Zurich, Switzerland
ABSTRACT
The seasonal variation of the snow accumulation and melting process in its regional or global
context has its tremendeous economical and ecological impacts. It not only affects the run-off
pattern and the water balance but as well changes the albedo, which again feedbacks on the
radiation budget of the earth and ultimately on the climate. Adequate remote sensing methods have
been developed to map and monitor the areal dynamics of the snowcover during the last years. Of
specific interest today are the conditions of the snowcover on the surface of glaciers in mountainous
regions. Here the accumulation and melting pattern of the snow strongly influences the energy and
mass balance of the glaciers and consequently its run-off regime. Alterations of the weather
conditions have a direct impact on this process. Or in reverse, by monitoring the melting process it
becomes possible to deduce changes of weather, and in the long run of the climate.
An extensive and longterm project has been established by the Department of Geography,
University of Zurich, to develop the methodology for a careful and accurate monitoring of the
various boundaries such as transient snowline, annual snowline, fimline, equlibrium line etc. and
the deduction of the two most important glacial indices ELA and AAR. Only a thourough
understanding of the glaciological terminology, the use of satellite data from the adequate season
and appropriate techniques allow to derive significant, comparable results.
The method is based on the establishment of a relationship between the directly detectable
boundaries and the equilibrium line as basis for the assessment of the ELA. To monitor the AAR,
the total surface of the glacier has to be measured periodically with great accuracy.
First results of the project include a detailed study of the migration of the snowlines on the Aletsch
Glacier during one melting period, the derivation of the corresponding melting curve, and a
comparative assessment of the annual snowline and the ELA on three different glaciers for four
successive seasons.
KEYWORDS
glacier, snowline, fimline, equilibrium line altitude, accumulation area ratio, melting curve, climatic
change, high-resolution satellite data