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Retinal development of West Australian dhufish, Glaucosoma hebraicum

Published online by Cambridge University Press:  20 May 2002

JULIA SHAND
Affiliation:
Department of Zoology, University of Western Australia, Crawley, WA 6009, Australia
MICHAEL A. ARCHER
Affiliation:
Department of Zoology, University of Western Australia, Crawley, WA 6009, Australia
NICOLE THOMAS
Affiliation:
Department of Zoology, University of Western Australia, Crawley, WA 6009, Australia
JENNIFER CLEARY
Affiliation:
Aquaculture Development Unit, Fremantle Maritime Centre, 1 Fleet St. Fremantle, WA 6160, Australia

Abstract

An investigation of retinal specializations was carried out in larval and juvenile dhufish, Glaucosoma hebraicum (Glaucosomidae, Teleostei). The development of photoreceptors and formation of the retinal mosaic was followed by light and electron microscopy. At hatching the eye was undifferentiated. Cone photoreceptors were present by day 3 posthatch (dph), when exogenous feeding began. Single and multiple cones were present in a row arrangement from 3 dph to 20 dph, when the first rod nuclei were observed. Between 20 dph and approximately 3 months posthatch (mph), the row arrangement was replaced by a square mosaic of four double cones surrounding a single cone, and the cones increased in size, with the outer segments reaching up to 30 μm in length. During the period of spatial rearrangement, triple cones were often observed. From their first appearance, rod photoreceptors were added rapidly. Investigation of ganglion cell topography in 3-mph fish that had attained the adult-like square photoreceptor mosaic was carried out using retinal wholemounts. The highest densities of neurones in the ganglion cell layer were in temporal retina but no well-defined area centralis was observed. Microspectrophotometric measurements of the visual pigments within the outer segments of the photoreceptors of 3-mph fish revealed double cones with identical absorption spectra in each member of the outer segment, and the wavelength of maximum absorption (λmax) located at 522 nm. Single cones were found to possess a visual pigment with λmax at 460 nm and rods with a λmax of 498 nm. The results imply that the larvae and juveniles are adapted for survival in coastal waters and may be active in relatively low light levels from early stages of development.

Type
Research Article
Copyright
© 2001 Cambridge University Press

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