Effects of the substratum on the formation of glacial tunnel valleys: an example from the M iddle P leistocene of the southern N orth S ea B asin

Tunnel valleys are elongated incisions formed by meltwater underneath ice sheets that rest on unlithified bed materials. The formation of tunnel valleys is commonly believed to be influenced by the properties of the preglacial bed; however, a detailed analysis of this relationship has not been performed to date. To determine whether tunnel‐valley location and morphology are controlled by the substratum, a 3 D seismic survey was combined with lithological data from the W adden S ea area in the D utch sector of the southern N orth S ea B asin. This study shows that tunnel‐valley floors often coincide with seismic reflectors that mark lithological boundaries in the substratum, and that the location and depth of tunnel‐valley incision vary as a function of the properties of the substratum as expressed by lithological and geophysical‐log variations. Tunnel valleys are incised preferentially into fine‐grained layers, while the top of coarser‐grained units commonly coincide with the tunnel‐valley floor. These observations indicate that the geometry and orientation of tunnel valleys in the study area are controlled by contrasts in lithological properties of the bed. An explanation for the observed lithological control might lie in large water‐pressure differences over fine‐grained and impermeable layers along the flow‐path of subglacial meltwater flowing through the substratum, from areas with high pore‐water pressure towards areas with relatively low pressures in the vicinity of meltwater channels. These pressure differences might have been sufficient for the fracturing and fluidization of these layers. The concepts presented here have implications for existing genetic models and for the prediction of tunnel‐valley morphology in understudied areas.