Abstract
BackgroundThe perceived size of objects not only depends on their physical size but also on the surroundings in which they appear. For example, an object surrounded by small items looks larger than a physically identical object surrounded by big items (Ebbinghaus illusion), and a physically identical but distant object looks larger than an object that appears closer in space (Ponzo illusion). Activity in human primary visual cortex (V1) reflects the perceived rather than the physical size of objects, indicating an involvement of V1 in illusory size perception. Here we investigate the role of eye-specific signals in two common size illusions in order to provide further information about the mechanisms underlying illusory size perception.ResultsWe devised stimuli so that an object and its spatial context associated with illusory size perception could be presented together to one eye or separately to two eyes. We found that the Ponzo illusion had an equivalent magnitude whether the objects and contexts were presented to the same or different eyes, indicating that it may be largely mediated by binocular neurons. In contrast, the Ebbinghaus illusion became much weaker when objects and their contexts were presented to different eyes, indicating important contributions to the illusion from monocular neurons early in the visual pathway.ConclusionsOur findings show that two well-known size illusions - the Ponzo illusion and the Ebbinghaus illusion - are mediated by different neuronal populations, and suggest that the underlying neural mechanisms associated with illusory size perception differ and can be dependent on monocular channels in the early visual pathway.
Highlights
The perceived size of objects depends on their physical size and on the surroundings in which they appear
When two identical objects are placed in a context that suggests they are located at different distances from the observer, the contextually more distant object appears to be larger than the closer one, as a result of the assumption incorporated by the visual system about the distance of each object from the observer
The illusion magnitude was the same when the objects and the contexts were presented to the same eye or to different eyes (monocular vs. dichoptic: horizontal Ponzo illusion, t(5) = 0.10, p = 0.93; vertical Ponzo illusion, t(4) = -0.07, p = 0.95; paired t-test), but decreased when the objects were presented to both eyes simultaneously (binocular vs. monocular: horizontal Ponzo illusion, t(5) = 13.2, p < 0.0001; vertical Ponzo illusion, t(4) = 6.4, p < 0.005; binocular vs. dichoptic: horizontal Ponzo illusion, t(5) = 4.9, p < 0.01; vertical Ponzo illusion, t(4) = 2.8, p < 0.05; paired t-test)
Summary
The perceived size of objects depends on their physical size and on the surroundings in which they appear. Activity in human primary visual cortex (V1) reflects the perceived rather than the physical size of objects, indicating an involvement of V1 in illusory size perception. We investigate the role of eye-specific signals in two common size illusions in order to provide further information about the mechanisms underlying illusory size perception. The spatial extent of neural activity in human primary visual cortex (V1) reflects the perceived size rather than the physical size of an object in a Ponzo-like illusion [4,5], suggesting a possible role for V1 in illusory size perception. The first stage at which information from the two eyes converges is V1, but it contains populations of monocular neurons, which respond, with varying degree of exclusivity, to direct stimulation from only one of the
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