Dynamic plasticity in coupled avian midbrain maps

Gurinder Singh Atwal
Phys. Rev. E 70, 061904 – Published 9 December 2004

Abstract

Internal mapping of the external environment is carried out using the receptive fields of topographic neurons in the brain, and in a normal barn owl the aural and visual subcortical maps are aligned from early experiences. However, instantaneous misalignment of the aural and visual stimuli has been observed to result in adaptive behavior, manifested by functional and anatomical changes of the auditory processing system. Using methods of information theory and statistical mechanics a model of the adaptive dynamics of the aural receptive field is presented and analyzed. The dynamics is determined by maximizing the mutual information between the neural output and the weighted sensory neural inputs, admixed with noise, subject to biophysical constraints. The reduced costs of neural rewiring, as in the case of young barn owls, reveal two qualitatively different types of receptive field adaptation depending on the magnitude of the audiovisual misalignment. By letting the misalignment increase with time, it is shown that the ability to adapt can be increased even when neural rewiring costs are high, in agreement with recent experimental reports of the increased plasticity of the auditory space map in adult barn owls due to incremental learning. Finally, a critical speed of misalignment is identified, demarcating the crossover from adaptive to nonadaptive behavior.

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  • Received 14 October 2003

DOI:https://doi.org/10.1103/PhysRevE.70.061904

©2004 American Physical Society

Authors & Affiliations

Gurinder Singh Atwal*

  • Department of Physics, and the Lewis-Sigler Institute for Integrative Genomics, Princeton University, Princeton, New Jersey 08544, USA

  • *Electronic address: gatwal@princeton.edu

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Issue

Vol. 70, Iss. 6 — December 2004

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