Visual Behavior in Salamanders

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Salamanders are subject to misconceptions even among vertebrate zoologists and physiologists. They are often said to exist only in northern temperate zones, being bound to aquatic or very moist cool habitats. In reality, more than half of all salamander species live in subtropical and tropical zones, ex clusively in the New World. Again, more than half of the salamand~r species have become totally independent of aquatic habitats following the loss of a free larval stage. Many of the subtropical and tropical salamanders have become adapted to rather high temperatures up to 26-28 DC. The brain and the sensory systems of salamanders are often considered to be primitive, and their behavior is thought to be simple and uninfluenced by learning. However, careful studies show that the salamander brain possesses virtually all the ana tomical and functional properties found in anurans, which are usually regarded as being much more evolved with respect to the guidance of comparable behavior. Most of the salamander species not only possess a highly efficient visual system, which is the topic of the present work, but can orient themselves almost as effectively by means of olfaction, vibration sense, and electroreception. Furthermore, it has recently been shown that at least part of their behavior, especially that concerned with feeding and prey preferences, is strongly influenced by individual experience.

Table des matières

1 Taxonomy, Geography and Ecology of Salamanders.- 2 Visually Guided Behavior.- 2.1 Feeding Behavior.- 2.2 Optomotor Behavior.- 2.3 Visual Mate Recognition in Newts.- 3 Morphology and Function of the Salamander Eye.- 3.1 General Morphology.- 3.2 Morphology of the Retina.- 3.3 Functional Aspects.- 3.4 Eye Degeneration in Troglobitic Salamanders.- 4 Anatomy of the Visual System.- 4.1 General Anatomy of the Salamander Brain.- 4.2 Visual and Visuomotor Projections and Pathways.- 4.3 Intrinsic Organization and Cytoarchitecture of the Optic Tectum and the Diencephalon.- 4.4 Central Visual and Visuomotor Pathways.- 5 Neurophysiology of Visually Guided Behavior.- 5.1 Electrophysiological Methods.- 5.2 Response Properties of Retina Ganglion Cells to Preylike Stimuli.- 5.3 Color Coding in Retina Ganglion Cells.- 5.4 Response Characteristics of Tectal Neurons..- 5.5 Recordings from Diencephalic Visual Areas..- 5.6 Electric Stimulation Experiments.- 5.7 Brain Lesion Experiments.- 5.8 Responses of Tectal Neurons to Monochromatic Light..- 6 Conclusions and Speculations on the Neural Guidance of Visual Behavior in Salamanders.- 6.1 Neural Guidance of Feeding Behavior.- 6.2 Enemy and Barrier Avoidance.- 6.3 Optomotor Behavior.- 6.4 Conclusion: What is Known and What is not yet Known About Neural Guidance of Visual Behavior in Salamanders?.- Abbreviations Used in Figures.- References.

A propos de l'auteur

Gerhard Roth, 1942 in Graz geboren, war nach seinem Medizinstudium Organisationsleiter im Rechenzentrum Graz. Heute lebt er als freier Autor in Wien und in der Steiermark. Roth wurde unter anderem mit dem Preis der SWF-Bestenliste, dem "Alfred-Döblin-Preis" und dem "Preis des Österreichischen Buchhandels" ausgezeichnet. 2012 erhielt er den "Jakob-Wassermann-Literaturpreis" der Stadt Fürth, 2015 den "Jean-Paul-Preis" und 2016 den "Hoffmann-von-Fallersleben-Preis" für zeitkritische Literatur sowie den "Großen Österreichischen Staatspreis".

Résumé

Salamanders are subject to misconceptions even among vertebrate zoologists and physiologists. They are often said to exist only in northern temperate zones, being bound to aquatic or very moist cool habitats. In reality, more than half of all salamander species live in subtropical and tropical zones, ex clusively in the New World. Again, more than half of the salamand~r species have become totally independent of aquatic habitats following the loss of a free larval stage. Many of the subtropical and tropical salamanders have become adapted to rather high temperatures up to 26-28 DC. The brain and the sensory systems of salamanders are often considered to be primitive, and their behavior is thought to be simple and uninfluenced by learning. However, careful studies show that the salamander brain possesses virtually all the ana tomical and functional properties found in anurans, which are usually regarded as being much more evolved with respect to the guidance of comparable behavior. Most of the salamander species not only possess a highly efficient visual system, which is the topic of the present work, but can orient themselves almost as effectively by means of olfaction, vibration sense, and electroreception. Furthermore, it has recently been shown that at least part of their behavior, especially that concerned with feeding and prey preferences, is strongly influenced by individual experience.