[摘要] Landslides are important agents of sediment transport, cause hazards and are key agents for the evolution of scarplands. Scarplands are characterized by high-strength layers overlying low-inclined landslide-susceptible layers that precondition and prepare landsliding ongeological timescales. These landslides can be reactivated, and their rolein past hillslope evolution affected geomorphometry and material propertiesthat set the framework for present-day shallow landslide activity. To managepresent-day landslide hazards in scarplands, a combined assessment ofdeep-seated and shallow landsliding is required to quantify the interactionbetween geological conditions and vegetation that controls landslide activity. For this purpose, we investigated three hillslopes affected bylandsliding in the Franconian scarplands. We used geomorphic mapping toidentify landforms indicating landslide activity, electrical resistivity toidentify shear plane location and a mechanical stability model to assess thestability of deep-seated landslides. Furthermore, we mapped tree distribution and quantified root area ratio and root tensile strength to assess the influence of vegetation on shallow landsliding. Our results show that deep-seated landslides incorporate rotational and translational movement and suggest that sliding occurs along a geologic boundary between permeable Rhätolias sandstone and impermeable Feuerletten clays. Despite low hillslope angles, landslides could be reactivated when high pore pressures develop along low-permeability layers. In contrast, shallow landsliding is controlled by vegetation. Our results show that rooted area is more important than species-dependent root tensile strength and basal root cohesion is limited to the upper 0.5 m of the surface due to geologically controlled unfavourable soil conditions. Due to low slopeinclination, root cohesion can stabilize landslide toes or slopes undercutby forest roads, independent of potential soil cohesion, when tree densityis sufficient dense to provide lateral root cohesion. In summary, geologypreconditions and prepares deep-seated landslides in scarplands, which setsthe framework of vegetation-controlled shallow landslide activity.