Title

Computational Significance of Lamination of the Telencephalon

Document Type

Book Chapter

Publication Date

1991

Keywords

Neural Circuit, Inferior Colliculus, Optic Tectum, Comparative Neurology, Neuroscience Abstract

Digital Object Identifier (DOI)

https://doi.org/10.1007/978-3-642-84545-1_21

Abstract

How is sensory information processed in nonmammalian vertebrates? Is the mechanism of information processing similar to that in mammalian brains? In the nonmammalian telencephalon (birds and reptiles in particular), there are neuronal populations corresponding to cell groups in the neocortex of mammals in terms of connections, single unit-responses, and functions. Some areas of these populations in sauropsids (reptiles and birds), however, are arranged in a nonlaminar, rather than laminar fashion. The major nonlaminar multinucleate area, the dorsal ventricular ridge (DVR), is an intraventricular protrusion of cells within the core of the cerebral hemispheres. Comparative studies of visual representation with the DVR of birds and mammalian neocortex has emphasized the need for a reassessment of the functional roles of lamination of the mammalian neocortex. Thus, for example, complex visual and cognitive performance can be accomplished by neural circuits in the DVR of sauropsids equivalent to those of the neocortex but without laminar organization. If the same computational strategies in the DVR are employed in the mammalian forebrain, what is the functional significance of lamination in the neocortex? The role of neural circuits and laminar organization can be and should be differentiated in order to understand computational strategies in the neocortex.

Was this content written or created while at USF?

No

Citation / Publisher Attribution

Computational Significance of Lamination of the Telencephalon, in M. A. Arbib & J. P. Ewert (Eds.), Visual Structures and Integrated Functions, Springer, p. 325-337

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