Shallow seismic sections, multibeam bathymetric images and geotechnical investigations of the seafloor in Karmsundet and Skudenesfjorden, SW Norway, have revealed the occurrence of large slide scars and associated mass-movement deposits. The slide escarpments are up to 30–40 m high and 8 km long, with up to 20×10 6 m 3 of sediment released during a single event of retrogressive sliding. The slide scars show a range of associated seafloor topography, reflecting various modes of sediment displacement. The variation in the escarpment morphology and sediment deformation style can be attributed to the varied intensity of liquefaction. Sliding involved mud deposits of Allerød–Younger Dryas to early Holocene age, but partly also deposits older than ca. 12,000 14 C years bp . The sediment failures were probably triggered by seismic reactivation of a local fault by postglacial regional isostatic rebound. Prior to failure, the seafloor deposits were undercompacted and metastable due to high pore pressure, the presence of shallow gas and the relatively steep local slope created by the formation of a major scour trough by sea currents. Minor gravitational sliding may still occur along some of the escarpments, although engineering slope-stability analysis indicates that the deposits can be regarded as stable in the present-day conditions of static load and the anticipated weak sporadic earthquakes with an occurrence likelihood of 10 −4 /year and a peak acceleration of 0.25 g.