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Postembryonic growth of the macula neglecta auditory detector in the ray, Raja clavata : Continual increases in hair cell number, neural convergence, and physiological sensitivity
Author(s) -
Corwin Jeffrey T.
Publication year - 1983
Publication title -
journal of comparative neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.855
H-Index - 209
eISSN - 1096-9861
pISSN - 0021-9967
DOI - 10.1002/cne.902170309
Subject(s) - biology , sensory system , hair cell , receptive field , neuroscience , axon , electrophysiology , anatomy , inner ear , microbiology and biotechnology
Abstract Quantitative scanning electron microscopy in an age series demon‐strated that the macula neglecta auditory epithelium of the ray, Raja clavata , produces and accumulates sensory cells perpetually at 1–3 cells/ day, so that the total increases from approximately 500 cells at birth to 6,000 at 7 years of age. The shape of the macula also changes with growth, and changes in the marginal zones of small and intermediate size hair cells are consistent with this differential growth and their proposed role as hair cell production sites. The neurons contacting the epithelium do not increase in number as animals age; instead they hypertrophy, increasing axon diame‐ter and terminal field size. A hypothetical double‐gradient interaction be‐tween the growing nerves and new hair cells is proposed to explain the devel‐opment of synaptic connections and the continual production of individually oriented, functional hair cells. Electrophysiological recordings from the neu‐rons demonstrated best sensitivities between 40 Hz and 200 Hz, directional receptive fields, and little or no effect of changes in the ear's position relative to gravity. The convergence ratio from sensory cells to neurons increases because of their unequal patterns of growth, and physiological sensitivity improves 500‐fold and more as these animals age. These results contrast with current information on mammalian ears, where it appears that sensory cells are not produced at any time after birth.