Facilitation of neural responses to targets moving against optic flow

Abstract

AbstractFor the human observer, it can be difficult to follow the motion of small objects, especially when they move against background clutter. In contrast, insects efficiently do this, as evidenced by their ability to capture prey, pursue conspecifics, or defend territories, even in highly textured surrounds. We here recorded from target selective descending neurons (TSDNs) which likely subserve these impressive behaviors. To simulate the type of background optic flow that would be generated by the pursuer’s own movements through the world, we used the coherent motion of a perspective distorted sparse dot field. We show that hoverfly TSDN responses to target motion are suppressed when such background optic flow moves in the same direction as the target. Indeed, the neural responses are strongly attenuated against both translational sideslip as well as rotational yaw. More strikingly, we show that TSDNs are facilitated by background optic flow in the opposite direction to the target, if the target moves horizontally. Furthermore, we show that a small, frontal spatial window of background optic flow is enough to fully facilitate or attenuate TSDN responses to target motion. We argue that the TSDN response facilitation could be beneficial in modulating corrective turns during target pursuit.Significance statementTarget detection in visual clutter is a difficult computational task that insects, with their poor resolution compound eyes and small brains, do successfully and with extremely short behavioral delays. We here show that the responses of target selective descending neurons are attenuated by background motion in the same direction as target motion, but facilitated by opposite direction background motion. This finding is important for understanding conspecific pursuit behavior, since these descending neurons likely control behavioral output. The facilitation that we describe would come into effect if the hoverfly is subjected to background motion in one direction, but the target it is pursuing moves in the opposite direction, and could therefore be used to modulate gaze stabilizing corrective turns.