Perceptual asymmetry is one of the most important characteristics of our visual
functioning. We carefully reviewed the scientific literature in order to examine
such asymmetries, separating them into two major categories: within-visual field
asymmetries and between-visual field asymmetries. We explain these asymmetries
in terms of perceptual aspects or tasks, the what of the
asymmetries; and in terms of underlying mechanisms, the why of
the asymmetries. Tthe within-visual field asymmetries are fundamental to
orientation, motion direction, and spatial frequency processing. between-visual
field asymmetries have been reported for a wide range of perceptual phenomena.
foveal dominance over the periphery, in particular, has been prominent for
visual acuity, contrast sensitivity, and colour discrimination. Tthis also holds
true for object or face recognition and reading performance. upper-lower visual
field asymmetries in favour of the lower have been demonstrated for temporal and
contrast sensitivities, visual acuity, spatial resolution, orientation, hue and
motion processing. Iin contrast, the upper field advantages have been seen in
visual search, apparent size, and object recognition tasks. left-right visual
field asymmetries include the left field dominance in spatial (e.g.,
orientation) processing and the right field dominance in non-spatial (e.g.,
temporal) processing. left field is also better at low spatial frequency or
global and coordinate spatial processing, whereas the right field is better at
high spatial frequency or local and categorical spatial processing. All these
asymmetries have inborn neural/physiological origins, the primary
why, but can be also susceptible to visual experience, the
critical why (promotes or blocks the asymmetries by
altering neural functions)
