Does a homogeneous population of elementary movement detectors activate the landing response of blowflies, Calliphora erythrocephala?

Abstract

The landing response of tethered flying blowflies, Calliphora erythrocephala, was elicited by moving periodic gratings, and by stripes moving apart. The influence of binocular interactions on the landing response was investigated by comparing the responses of intact ("binocular") animals to the response of flies which had one eye covered with black paint ("monocular" flies) effectively eliminating the input from this eye. Directions of motion eliciting a maximal response (preference direction) were determined in intact animals, and in "molecular" flies for different regions of the visual field. Preference directions determined in "monocular" flies follow the orientation of Z-axes (Fig. 4). Preference directions determined in intact animals and in "monocular" flies differ in the binocular eye region: in intact animals, the preference directions corresponds to vertical directions of motion; whereas the preference direction determined for the same area in "monocular" flies are inclined obliquely against the vertical plane. Sex-specific differences were found for the ventral binocular eye region in which the shift of preference directions is more pronounced in male than in female flies. The experimental data support the hypothesis that elementary movement detectors are aligned along the Z-axes of the eye, and that preference directions deviating from the orientation of elementary movement detectors are caused by binocular interactions.