We study experimentally the vortex streets produced by a high-aspect-ratio pitching foil placed in a hydrodynamic tunnel. PIV measurements give access to the spatio-temporal characteristics of the vorticity field in the wake and allow for a calculation of the spatial distribution of velocity fluctuations as well as an indirect estimate of the forces on the foil. A parametric study in terms of the non-dimensional frequency (the Strouhal number) and amplitude of the flapping motion allows to identify: 1) the transition from the well-known Bénard-von Kármán (BvK) wake to the reverse BvK vortex street that characterizes propulsive wakes, and 2) the symmetry breaking of this reverse BvK wake. The latter constitutes a spontaneous mechanism giving rise to a mean vortex-induced lift force on the flapping foil.