Abstract A review of the upper structure of the Arctic Ocean and its overlying ice cover suggests that significant potential exists for the generation of internal wave fields by the deeper drafts of the pressure ridge keels. Laboratory measurements are presented of the drag force on two-dimensional ice keel models of varying degrees of slenderness in both homogeneous and two-layer fluid systems. The experiments were performed in a towing tank 10 m long and covered the range from subcritical to fully supercritical flows. MW results show that the two-layer stratification increases the drag dramatically over that in a corresponding homogeneous flow, reaching a maximum in the transcritical flow regime as a result of the establishment of a system of internal waves. The increase in drag was greatest for the most slender obstacle, approaching the values to be expected from simple hydraulic theory. For the more steeply sloped obstacles, the wave growth is limited by dispersion, with a corresponding reduction in t...