A linearized barotropic model is used to investigate the scattering of barotropic shelf waves by variations of the shelf width in the presence of a sheared but stable mean along-shelf current located over the continental slope. The mean current is chosen to eliminate all backward propagating waves, so no energy is reflected from the scattering region. In addition, the mean current shear severely limits the number of forward propagating waves which carry energy downstream from the scattering region. For a narrowing shelf this tends to increase the strength of the scattering and, more importantly, generates large-amplitude evanescent modes which dominate the velocity fields within and slightly upstream and downstream of the scattering region. When viewed in combination with the mean current, the wave scattering forms intense mesoscale flows between the mean current and the coast. This mechanism may be partially responsible for the highly variable and energetic flows often associated with along-shelf currents found over many continental slopes. ¿ American Geophysical Union 1995