A Significant Bilateral Field Advantage for Shapes Defined by Static and Motion Cues

Matching performance is better when pairs of visual stimuli are presented in bilateral conditions—in which one stimulus is presented to each side of the visual field—than in unilateral presentations—when both stimuli are presented to one side of the field. This is called the bilateral field advantage (BFA). The processing of visual motion has also been found to be more strongly integrated across the cerebral hemispheres than is processing of static cues. However, in these studies higher-order motion tasks, such as processing motion-defined form, have not been examined. To determine if the BFA generalises to such tasks, we measured the magnitude of the effect using a shape-matching task in which the stimuli were random polygons that were either in motion, motion-defined, or static. The polygon pairs were presented either: (i) bilaterally, one to either side of the vertical meridian; (ii) unilaterally, both to one side of the vertical meridian (left or right visual fields); or (iii) centrally, vertically separated across the horizontal meridian (a control condition). An equal advantage of bilateral conditions over unilateral ones was found for all three types of polygon shape cues, showing that the BFA generalises to conditions where shapes are in motion and where shape is defined by motion. These findings are compatible with the notion that motion processing is strongly integrated across the cerebral hemispheres, and with the idea that this integration manifests itself with simple motion information, rather than with higher-order motion processing such as matching shapes defined by motion.