Low-dimensional dynamics in sensory biology. 1: Thermally sensitive electroreceptors of the catfish

We report the results of a search for evidence of periodic unstable orbits in the electroreceptors of the catfish. The function of these receptor organs is to sense weak external electric fields. In addition, they respond to the ambient temperature and to the ionic composition of the water. These qu...

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Bibliographic Details
Published in:Journal of computational neuroscience 1997-11, Vol.4 (4), p.335-347
Main Authors: Braun, H A, Schäfer, K, Voigt, K, Peters, R, Bretschneider, F, Pei, X, Wilkens, L, Moss, F
Format: Article
Language:English
Subjects:
Animals
Catfishes
Electric Organ - physiology
Electrophysiology
Kinetics
Research Design
Sensory Receptor Cells - physiology
Thermosensing - physiology
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Summary:We report the results of a search for evidence of periodic unstable orbits in the electroreceptors of the catfish. The function of these receptor organs is to sense weak external electric fields. In addition, they respond to the ambient temperature and to the ionic composition of the water. These quantities are encoded by receptors that make use of an internal oscillator operating at the level of the membrane potential. If such oscillators have three or more degrees of freedom, and at least one of which also exhibits a nonlinearity, they are potentially capable of chaotic dynamics. By detecting the existence of stable and unstable periodic orbits, we demonstrate bifurcations between noisy stable and chaotic behavior using the ambient temperature as a parameter. We suggest that the technique developed herein be regarded as an additional tool for the analysis of data in sensory biology and thus can be potentially useful in studies of functional responses to external stimuli. We speculate that the appearance of unstable orbits may be indicative of a state of heightened sensory awareness by the animal.
ISSN:0929-5313
DOI:10.1023/A:1008852000496