Investigating photoreceptor densities, potential visual acuity, and cone mosaics of shallow water, temperate fish species

D E Hunt; N J F Rawlinson; G A Thomas; Jennifer M Cobcroft

doi:10.1016/j.visres.2015.03.017

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Investigating photoreceptor densities, potential visual acuity, and cone mosaics of shallow water, temperate fish species

Journal article

Peer reviewed

Investigating photoreceptor densities, potential visual acuity, and cone mosaics of shallow water, temperate fish species

D E Hunt, N J F Rawlinson, G A Thomas and Jennifer M Cobcroft

Vision Research, Vol.111(Part A), pp.13-21

2015

DOI: https://doi.org/10.1016/j.visres.2015.03.017

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Abstract

potential visual acuity

rod density

cone density

cone mosaic

minimum separable angle

The eye is an important sense organ for teleost species but can vary greatly depending on the adaption to the habitat, environment during ontogeny and developmental stage of the fish. The eye and retinal morphology of eight commonly caught trawl bycatch species were described: Lepidotrigla mulhalli; Lophonectes gallus; Platycephalus bassensis; Sillago flindersi; Neoplatycephalus richardsoni; Thamnaconus degeni; Parequula melbournensis; and Trachurus declivis. The cone densities ranged from 38 cones per 0.01 mm2 for S. flindersi to 235 cones per 0.01 mm2 for P. melbournensis. The rod densities ranged from 22 800 cells per 0.01 mm2 for L. mulhalli to 76 634 cells per 0.01 mm2 for T. declivis and potential visual acuity (based on anatomical measures) ranged from 0.08 in L. gallus to 0.31 in P. melbournensis. Higher rod densities were correlated with maximum habitat depths. Six species had the regular pattern of four double cones arranged around a single cone in the photoreceptor mosaic, while T. declivis had only rows of double cones. P. melbournensis had the greatest potential ability for detecting fine detail based on eye anatomy. The potential visual acuity estimates and rod densities can be applied to suggest the relative detection ability of different species in a commercial fishing context, since vision is a critical sense in an illuminated environment for perceiving an oncoming trawl.

Details

Title: Investigating photoreceptor densities, potential visual acuity, and cone mosaics of shallow water, temperate fish species
Authors: D E Hunt (Author) - University of Tasmania
N J F Rawlinson (Author) - University of Tasmania
G A Thomas (Author) - University College London, United Kingdom
Jennifer M Cobcroft (Author) - University of the Sunshine Coast - Faculty of Science, Health, Education and Engineering
Publication details: Vision Research, Vol.111(Part A), pp.13-21
Publisher: Pergamon
Date published: 2015
DOI: 10.1016/j.visres.2015.03.017
ISSN: 0042-6989
Organisation Unit: University of the Sunshine Coast, Queensland
Language: English
Record Identifier: 99449135902621
Output Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Web Of Science research areas: Neurosciences; Ophthalmology; Psychology

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