We use one day Synthetic Aperture Radar (SAR) interferograms from data of the Earth Remote Sensing Satellites ERS-1 and ERS-2 to study ice flow and uplift of two surface depressions within the Vatnaj¿kull ice cap, Iceland. The ice cauldrons are created by melting at subglacial geothermal areas. Meltwater accumulates in a reservoir under the cauldrons over 2 to 3 years until it drains in a j¿kulhlaup under the ice dam surrounding the reservoir. The ice surface in the depressions drops down by several tens of meters during these draining events but rises again, as ice flows into the depressions, until a j¿kulhlaup occurs again. Using SAR interferograms we quantify an uplift rate of about 2 to 18 cm/day within the j¿kulhlaup cycle varying with the surface slope of the depressions. The uplift rate is high during the first months after a j¿kulhlaup when the cauldron is relatively deep with steep slopes, but the uplift rate decreases as the cauldron is gradually filled. A simple axisymmetric model simulating the ice-flow into one of the depressions describes quantitatively the filling rate of the cauldron and qualitatively the shape of the ice flow field. The best-fit model has an ice flow law parameter A0 that is about one order of magnitude lower than typically estimated for temperate glaciers. ¿ 1998 American Geophysical Union