The Visual System of Fish by Ron Douglas

The Visual System of Fish

byRon Douglas, Mustafa Djamgoz

Paperback | September 26, 2011

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A question often asked of those of us who work in the seemingly esoteric field of fish vision is, why? To some of us the answer seems obvious - how many other visual scientists get to dive in a tropical lagoon in the name of science and then are able to eat their subjects for dinner? However, there are better, or at least scientifically more acceptable, reasons for working on the visual system of fish. First, in terms of numbers, fish are by far the most important of all vertebrate classes, probably accounting for over half (c. 22 000 species) of all recognized vertebrate species (Nelson, 1984). Furthermore, many of these are of commercial importance. Secondly, if one of the research aims is to understand the human visual system, animals such as fish can tell us a great deal, since in many ways their visual systems, and specifically their eyes, are similar to our own. This is fortunate, since there are several techniques, such as intracellular retinal recording, which are vital to our understanding of the visual process, that cannot be performed routinely on primates. The cold­ blooded fish, on the other hand, is an ideal subject for such studies and much of what we know about, for example, the fundamentals of information processing in the retina is based on work carried out on fish (e. g. Svaetichin, 1953).
Title:The Visual System of FishFormat:PaperbackDimensions:9.25 X 6.1 X 0 inPublished:September 26, 2011Publisher:Springer NetherlandsLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9401066728

ISBN - 13:9789401066723

Appropriate for ages: All ages

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Table of Contents

1 The underwater visual environment.- 1.1 Introduction.- 1.2 Definition of terms.- 1.3 The photic environment.- 1.4 Underwater vision and ultraviolet light.- 1.5 Dynamic changes in underwater light - spatiotemporal properties.- 1.6 The underwater polarized light field.- Acknowledgements.- References.- 2 The optical system of fishes.- 2.1 Introduction.- 2.1 Optics.- 2.3 Accommodation.- Acknowledgements.- References.- 3 Optical variability of the fish lens.- 3.1 Introduction.- 3.2 Lens shape.- 3.3 Relative focal length (Matthiessen''s ratio).- 3.4 Spherical aberration.- 3.5 Chromatic aberration.- 3.6 Functional significance of fish lens quality.- 3.7 Concluding remarks.- References.- 4 Visual pigments of fishes.- 4.1 Introduction.- 4.2 Visual pigment structure.- 4.3 Receptor types.- 4.4 Distribution of visual pigments.- References.- 5 Retinal structure of fishes.- 5.1 Introduction.- 5.2 Diversity of retinal structure.- 5.3 Differentiation, structure and connectivity of retinal cells.- 5.4 Cyclic changes of cell morphology in the outer retina.- Acknowledgements.- References.- 6 Electrophysiological characteristics of retinal neurones: synaptic interactions and functional outputs.- 6.1 Introduction.- 6.2 Receptive field organizations: spatial and spectral aspects.- 6.3 Voltage-dependent conductances.- 6.4 Specific synaptic interactions.- 6.5 Efferent inputs.- 6.6 Concluding remarks.- Acknowledgements.- Abbreviations.- References.- 7 Neurotransmitters and neuromodulators of the fish retina.- 7.1 Introduction.- 7.2 Neurotransmitters of the distal retina.- 7.3 Neurotransmitters of the proximal retina.- 7.4 Summary.- Acknowledgements.- Abbreviations.- References.- 8 Tectal morphology: connections, neurones and synapses.- 8.1 Introduction.- 8.2 Retinal projections.- 8.3 Tectal position and lamination.- 8.4 Tectal afferents.- 8.5 Intrinsic structural organization of the tectum.- 8.6 Tectal efferents.- 8.7 Concluding remarks.- Abbreviations.- References.- 9 The physiology of the teleostean optic tectum.- 9.1 Introduction.- 9.2 General physiological properties.- 9.3 Tectal input pathways: the retinotectal pathway.- 9.4 The marginal fibre pathway.- 9.5 The retinal efferents (retinopetal component).- 9.6 The tectoreticular pathway.- 9.7 Conclusion.- Acknowledgements.- Abbreviations.- References.- 10 The visual pathways and central non-tectal processing.- 10.1 Introduction.- 10.2 Visual structures in the diencephalon including the pretectum.- 10.3 Visual structures in the telencephalon.- 10.4 Visual structures in the ventral mesencephalon.- Acknowledgements.- Abbreviations.- References.- 11 Behavioural studies of fish vision: an analysis of visual capabilities.- 11.1 Introduction.- 11.2 Behavioural methods.- 11.3 Visual capabilities.- References.- 12 Development of the visual system.- 12.1 Introduction.- 12.2 Development of the optics of the eye.- 12.3 Development of the retina.- 12.4 Development of the optic tectum.- References.- 13 Haplochromis burtoni: a case study.- 13.1 Introduction.- 13.2 Visually guided behaviour.- 13.3 Social regulation of growth.- 13.4 Retinal structure.- 13.5 Retinal growth.- 13.6Summary.- Acknowledgements.- References.- 14 Vision in elasmobranchs.- 14.1 Introduction.- 14.2 Physiological optics.- 14.3 Tapetum lucidum.- 14.4 Retinal anatomy and physiology.- 14.5 Concluding remarks.- Acknowledgements.- Abbreviations.- References.- 15 Stimulus, environment and vision in fishes.- 15.1 Introduction.- 15.2 The underwater light environment.- 15.3 Visual adaptations to the environment.- 15.4 Fish as visual stimuli.- 15.5 Summary.- References.- Species index.