Control of flight by means of lateral visual stimuli in gregarious desert locusts, Schistocerca gregaria

. Tethered flying locusts were stimulated either by a periodic grating or by a spotted ‘swarm‐simulating’ pattern moving horizontally, parallel to their longitudinal body axis within their lateral visual fields. The direction of movement of the pattern was changed periodically from progressive to regressive and vice versa. Both kinds of patterns induced a correlated modulation of yaw‐torque and thrust. The two measured flight parameters were modulated independently of each other. Each parameter either increased with progressive and decreased with regressive pattern motion or vice versa. The characteristic curves of thrust and yaw‐torque responses ‐ i.e. response amplitude versus contrast frequency resp. angular velocity – measured upon stimulation with the periodic grating between 2 and 70 Hz were at a maximum at 10 Hz and decreased at higher and lower contrast frequencies. The shape of the curves was nearly identical. The characteristic curves measured upon stimulation with the ‘swarm‐simulating’ pattern between 60 and 1500 o s ‐1 could be simulated using the spatial wavelength content of the pattern and the characteristic curves for periodic gratings. Therefore, we suggest that the speed and direction of locusts' flight result from the optomotor effectiveness of the pattern image formed by the neighbouring individuals under free flight. The measured responses would thus contribute to the common orientation of groups of locusts within a migrating swarm and thus to swarm cohesion.