Visual receptive field properties of feature detecting neurons in the dragonfly

The dragonfly, (Aeshna, Anax) which feeds on small flying insects, requires a visual system capable of signaling the movements of airborne prey. A group of 8 descending feature detectors in the dragonfly are tuned exclusively to moving contrasting objects. These target-selective descending neurons project from the brain to the thoracic ganglia. Their activity drives steering movement of the wings.In this study, we recorded target-selective descending neuron activity intracellularly.To define their receptive fields, we recorded responses to the movement of black square targets projected onto a screen in front of the animal. Each neuron was identified by dye injection.Target-selective descending neurons exhibit several receptive field properties. Our results show that they are strongly directionally selective. Two TSDNs, exclusively tuned to small targets, have receptive fields restricted to visual midline. Others, which are not selective for target size, have asymmetric receptive fields centered laterally.We suggest that the behavioral function of these specialized feature detectors is to steer the dragonfly during prey-tracking so as to fix the position of the prey image on the retina. If the dragonfly maintains a constant visual bearing to its prey over time it will intercept its prey.Abbreviations TSDN target-selective descending neuron - DCMD descending contralateral movement detector - MDT median dorsal tract - DIT dorsal intermediate tract - VNC ventral nerve cord