Project presentation - Phase IV Dynamics of the Antarctic ice cap and climate changes (a contribution to EPICA) Promotor Professor Hugo DECLEIR and Frank PATTYN Topics The project ‘Dynamics of the Antarctic ice cap and climate changes’ is a Belgian contribution to the European Project for Ice coring in Antarctica. This project examined 1) the stability of the ice sheet in East Dronning Maud Land and Enderby Land where it is drained by a large fast-flowing continental ice stream (Shirase Glacier); and 2) the regional behaviour of the Antarctic ice sheet in East Dronning Maud Land in function of environmental change over a period of the last 200,000 years. Both tasks were accomplished by numerical modelling of the ice sheet system and by satellite remote sensing. For this purpose a flexible and multi-purpose flow line model was developed allowing to study the relevant glaciological processes in ice stream behaviour on the one hand and capable of linking, on sound physical principles, the observed climatic signal from ice core data with the geomorphological data as observed in the ice free areas, on the other hand. With respect to the observed glaciological parameters a method was developed for deriving glacier variations from sequential satellite images by an automatic matching technique. The analysis itself focused on the period of the last 200,000 years with special interest in the last glacial-Holocene transition and the present day dynamical situation: Since field evidence
from Shirase Drainage Basin reports a rapid thinning of the
ice sheet, model experiments were carried out to shed a light
on the relevant physical processes responsible for ice stream
behaviour. Indeed, from preliminary experiments (Pattyn and
Decleir, 1995) it was found that the large thinning rate
in Shirase Drainage Basin could not be explained as a response
to the climate signal alone. Some other mechanism should
account for this. Recent
glacio-geological and geomorphological field evidences in the
neighbouring Sør Rondane Mountains point - as
elsewhere in Antarctica - to a relative stable ice sheet cover
during the last million years. This was confirmed by applying
different model scenarios of the behaviour of Gjelbreen, an
outlet glacier of this mountain range. Results of the 'best
fit' scenario, i.e. the model outcome which is closest to the
field evidence, showed that the present ice sheet in the Sør
Rondane is close to its maximum position of the last glacial-interglacial
period. This proves that the ice sheet is out of phase with
the climatic signal and explains the small observed differences
in glacier stand between the present and the maximum. Specific expertise
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