Height control by free‐flying Drosophila

. In a horizontal wind tunnel, Drosophila flew at almost constant height along tracks up to 2 m long. The flies rose or sank only slowly when it was so dark that they no longer responded to movements of the tunnel floor, suggesting that their height control is mediated, at least partly, by responses to their movement relative to the air. In the light, the flies maintained height better than in the dark and were very responsive to movements around them. They faithfully followed the up and down movements of horizon screens at their sides whether they were flying in still air or against a wind, even in the presence of many other stationary visual cues. The flies did not respond by compensatory height changes to real vertical movements of a patterned horizontal disc beneath them, nor to changes in the size of the floor pattern. They did respond to horizontal acceleration of the floor pattern in the direction opposite to their flight (optically simulating a descent by the fly), by an apparently compensatory increase in height, but they also rose (instead of sinking) in response to floor acceleration in the direction of their flight. When the floor was accelerated in either direction they showed compensatory groundspeed‐controlling responses. The increases in height might be alarm responses to sudden movements in the visual field beneath them. Both speed and height changing responses to floor movement were reduced when the number of stationary visual cues was increased. Drosophila thus control their height mainly by responses to the apparent movement of nearby visual cues at round about their own height.