Neural Bases of Stereopsis across Visual Field of the Alert Macaque Monkey

doi:10.1093/cercor/bhl050

Cerebral Cortex Advance Access originally published online on August 14, 2006
Cerebral Cortex 2007 17(6):1260-1273; doi:10.1093/cercor/bhl050

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Feature Article

Neural Bases of Stereopsis across Visual Field of the Alert Macaque Monkey

Jean-Baptiste Durand, Simona Celebrini and Yves Trotter

Centre de Recherche Cerveau & Cognition, Centre National de la Recherche Scientifique, Université Paul Sabatier, Faculté de Médecine de Rangueil Toulouse 3, France

Address correspondence to Yves Trotter, Centre de Recherche Cerveau & Cognition (UMR 5549), Faculté de Médecine de Rangueil, 31062 Toulouse Cédex 9, France. Email: Yves.Trotter{at}cerco.ups-tlse.fr.

Left and right retinal images of an object seen by the 2 eyescan occupy slightly disparate horizontal and/or vertical locations.The role of horizontal disparity (HD) in stereoscopic visionis well established, but the functional contribution of verticaldisparity (VD) remains unclear. Various psychophysical studieshave shown that HD and VD are used differently by the visualsystem depending on their location in the visual field, whethernear the center of gaze or more peripheral. We show this horizontal/verticaldistinction at the cellular level in monkey primary visual cortex(area V1). The range of VD encoding is reduced in central butnot in the peripheral representation of the visual field. Moreover,neurons respond selectively to particular combinations of bothtypes of disparities depending on the coded orientation as predictedby the disparity energy model. The preferred orientations ofneurons near the fovea present a vertical bias that is wellsuited for stereopsis based on HD selectivity alone. In theperiphery, instead, preferred orientations are radially biased,which allows a peripheral detector to convey the same depthsignal based on either HD or VD. Such an organization has functionalimplications in both the perceptual and oculomotor domains.

Key Words: central and peripheral V1 • disparity energy model • extracellular recordings • horizontal and vertical disparities

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