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Table of Contents
Vol. 55, No. 3, 2000
Issue release date: March 2000
Section title: Original Paper
Brain Behav Evol 2000;55:152–162
(DOI:10.1159/000006649)

Temperature Dependence of Electrocommunication Signals and Their Underlying Neural Rhythms in the Weakly Electric Fish, Apteronotus leptorhynchus

Dunlap K.D.a, b · Smith G.T.b · Yekta A.a
aDepartment of Biology, Trinity College, Hartford, Conn., andaSection of Neurobiology, School of Biological Sciences, University of Texas, Austin, Tex., USA

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Article / Publication Details

First-Page Preview
Abstract of Original Paper

Published online: July 07, 2000
Issue release date: March 2000

Number of Print Pages: 11
Number of Figures: 5
Number of Tables: 3

ISSN: 0006-8977 (Print)
eISSN: 1421-9743 (Online)

For additional information: http://www.karger.com/BBE

Abstract

Weakly electric fish emit an electric communication signal that is controlled by a highly specialized neural circuit. In Apteronotus, the continuous electric organ discharge (EOD) is generated by electrotonically coupled neurons in the hindbrain pacemaker nucleus, and transient EOD modulations involve chemical synapses from descending midbrain and thalamic prepacemaker nuclei. We characterized the effects of temperature change (18–32°C) on both the continuous EOD and EOD modulations, chirps, in A. leptorhynchus. EOD frequency was linearly related to temperature (Q10=1.62). By contrast, the temperature dependence of EOD amplitude changed with temperature. Amplitude increased steeply with temperature below 25°C (Q10=2.0), but increased only gradually above 25°C (Q10=1.15). EOD waveform, and consequently harmonic content, was also affected by temperature. The amplitude of the second harmonic was relatively high at both low and high temperature and relatively low at intermediate temperatures. The amplitude of the third harmonic increased monotonically with temperature. Thus, temperature has qualitative as well as quantitative effects on the production of the EOD. Chirp rate (Q10=3.2) had a higher temperature dependence than that of the continuous EOD, which likely reflects its reliance on chemical rather than electrotonic synapses. In vitro pacemaker firing frequency had a similar, but slightly higher Q10 (1.82) than that of the EOD frequency.

© 2000 S. Karger AG, Basel


Article / Publication Details

First-Page Preview
Abstract of Original Paper

Published online: July 07, 2000
Issue release date: March 2000

Number of Print Pages: 11
Number of Figures: 5
Number of Tables: 3

ISSN: 0006-8977 (Print)
eISSN: 1421-9743 (Online)

For additional information: http://www.karger.com/BBE


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