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1

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Stimulus filtering and electroreception: Tuberous electroreceptors in three species of Gymnotoid fish (1976)

Hopkins, Carl D.

Springer

Journal of comparative physiology 111 (1976), S. 171-207

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Electroreceptive neurons in the posterior branch of the anterior lateral line nerve of three species of electric fish (Gymnotoidei):Sternopygus macrums, Eigenmannia virescens, andApteronotus albifrons, show speciesspecific differences in the filtering of electrical stimuli. All of the tuberous electroreceptor fibers of an individual are tuned to the same frequency: that of the electric organ discharge (EOD) of the species, more specifically, to that of the individual. The fibers inSternopygus are tuned to 50–150 Hz; those inEigenmannia to 250–500 Hz, and those inApteronotus to 800–1,200 Hz (Figs. 3, 5, 8). Two classes of organs inSternopygus andEigenmannia, P and T units, respond to sinusoidal stimuli at the unit's best frequency (BF) with a phase-locked partially-adapting (P), or tonic (sustained) (T) discharge. T-units are more sharply tuned and are more sensitive than P-units. Only one class of organs,P or partially adapting units, have been found inApteronotus and phase-locking is less evident than it is in other species. Nerve section proximal to the recording site does not alter the tuning curves inSternopygus (Fig. 18), but local warming and cooling of the cutaneous receptor site in bothSternopygus andEigenmannia shifts the tuning curve to higher and lower frequencies, respectively (Fig. 17). Species-specific differences in peripheral electroreceptor tuning are thought to play an important role in the functioning of electric communication and electro-location among gymnotoid fish.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00605531

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2

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Hormonal control of sex differences in the electric organ discharge (EOD) of mormyrid fishes (1985)

Bass, Andrew H. ; Hopkins, Carl D.

Springer

Journal of comparative physiology 156 (1985), S. 587-604

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Field studies have demonstrated that several species of mormyrid fish from Gabon, West Africa have a sex difference in the pulse-like waveform of their Electric Organ Discharge (EOD). Administration of androgen hormones (testosterone or dihydrotestosterone) to a female or juvenile can induce the EOD typical of a sexually mature male. Data for two such species —Brienomyrus brachyistius (triphasic) andStomatorhinus corneti — are presented, showing that transformation of a female's or juvenile's EOD to a male-like EOD involves a 2–3 fold increase in EOD duration and a downward shift in the peak frequency of the EOD's power spectrum (as determined by Fourier analysis). ForBrienomyrus brachyistius (triphasic), estradiol can also induce changes in the EOD waveform, although not as dramatic as that for androgens. Changes in EOD duration and power spectra are often accompanied by an alteration of the wave-shape or ‘morphology’ of the EOD pulse, i.e., the relative amplitude of its peaks and the presence of inflection points in its negative and positive phases. A third species,Hippopotamyrus batesii (triphasic), not previously known to have an EOD sex difference, also responds to testosterone treatment with an increase in EOD duration. Preliminary field data indicate this species may have a sexual dimorphism in its EOD, suggesting that the response to a steroid hormone may be an indicator of a sex difference in a species' EOD waveform. Such findings are discussed in relation to the affects of steroids on vertebrate neurons and muscle, and the evolution of electric communication systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00619109

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Acoustic communication in an electric fish,Pollimyrus isidori (Mormyridae) (1986)

Crawford, John D. ; Hagedorn, Mary ; Hopkins, Carl D.

Springer

Journal of comparative physiology 159 (1986), S. 297-310

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary It has been known since von Frisch's work in the 1930's that mormyrid electric fishes are quite sensitive to sound. We now describe a repertoire of natural sounds produced by the mormyrid,Pollimyrus isidori, during breeding and aggression; reception of communication sounds is probably a major function for mormyrid audition. 1. In aquaria,Pollimyrus isidori produce ‘grunts’, ‘moans’, ‘growls’, ‘pops’ and ‘hoots’ at various phases during nesting, courtship, and territory defense. 2. All five sounds are produced primarily at night. Territorial males produce grunts, moans and growls during courtship. Vocalizing is stimulated by the presence of a gravid female on the male's territory and decreases with the onset of spawning. Hoots and pops are given during agonistic behavior. 3. Grunts are bursts of acoustic pulses, stereotyped for an individual, with the potential as individual signatures. 4. The electric organ is silent during grunts and moans and is discharged at a reduced rate during growls. 5. The courtship and spawning ofPollimyrus isidori is described.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00603976

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Shifts in frequency tuning of electroreceptors in androgen-treated mormyrid fish (1984)

Bass, Andrew H. ; Hopkins, Carl D.

Springer

Journal of comparative physiology 155 (1984), S. 713-724

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Several species of mormyrid electric fish have a sex difference in the pulse waveform of their electric organ discharge (EOD). Field studies in Gabon, West Africa have shown for one such species,Brienomyrus brachyistius (triphasic), that the sexually mature male EOD differs in shape and is nearly twice the duration of the EODs of females and juveniles. Fourier analysis reveals that differences in EOD duration correlate with those in the EOD power spectrum which has a peak at 0.3 kHz in males and 1.3 kHz in females and juveniles. We find a corresponding sex difference in the frequency tuning of at least one class of electroreceptors known as Knollenorgans. The average ‘best’ or ‘characteristic’ frequency of Knollenorgans is lower in males compared to females and juveniles. This correlates with a lower peak in the power spectrum of the male's pulse. When females are treated with gonadal androgens, their EODs increase 2–3 fold in duration, and the power spectra of their pulses are correspondingly lowered to match that of mature males. The average best frequency of Knollenorgans decreases by nearly 1 kHz which matches the downward shift of their EOD's power spectrum. For a second species ofBrienomyrus (sp. 2) which is commercially imported from Nigeria, we have not detected a sex difference in the power spectrum or duration of the EOD. The power spectrum peaks at about 4.2 kHz in males, females, and juveniles. Androgens, however, do cause a coincident downward shift in the average peak of the EOD power spectrum (from 4.2 to 1.3 kHz) and the average best frequency of Knollenorgans (from 2.3 to 1.4 kHz). Specimens ofBrienomyrus (sp. 2) that have been electrically silenced by surgical means are tuned, on the average, only 0.2 kHz higher than control animals. Silenced animals that have been treated with androgens are tuned, on the average, 0.2 kHz below controls. The results suggest that electroreceptor tuning is only partially modifiable during androgen treatment if the electroreceptors arenot being stimulated by an external electrical stimulus, i.e. the animal's own EOD. Since androgen treatment has a dramatic effect on receptor tuningonly in intact fish, it seems likely that retuning isnot due to a direct action of androgens on receptors, but rather due to the action of the principal electrical stimulus upon the receptors, i.e. the EOD. The implications of such results for the development of species and sex differences in electro-receptor tuning is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00611588

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Evolutionary designs for electric signals and electroreceptors in gymnotoid fishes of Surinam (1978)

Hopkins, Carl D. ; Heiligenberg, Walter F.

Springer

Behavioral ecology and sociobiology 3 (1978), S. 113-134

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ISSN: 1432-0762

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1. Field collections of gymnotoid electric fish in coastal Surinam streams; 23 March–6 April, 1976, yielded 11 species belonging to two families (Rhamphichthyidae and Gymnotidae). Electric organ discharges (EODs) were recorded and power spectra were generated by Fourier analysis. Each species could be classified as either wave or pulse type. Although EODs varied from species to species, individuals had species-typical discharges. EODs appear to function in electrolocation and electric communication. Coexisting pulse fish diverged in either pulse spectrum or pulse repetition rate. Although each species showed ecological preferences for one habitat or another, no general correlation was found between EOD form and habitat type (Fig. 1). 2. Three species of coexisting Hypopomus showed widely differing EOD durations. Peak spectral energies were nonoverlapping (Fig. 4a). 3. Electrophysiologic studies of the electroreceptors in Hypopomus species revealed five types of electroreceptors. Two types of units appear to act as EOD filters, responding maximally to spectral frequencies characteristic of the peak power of the species-specific EOD (Fig. 7). 4. Relationships between EOD rate and spectrum are discussed with reference to their roles in communication and in electrolocation. A theory for the evolution of EOD wave forms is presented (Fig. 9).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00294985

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Evolution of electric communication channels of mormyrids (1980)

Hopkins, Carl D.

Springer

Behavioral ecology and sociobiology 7 (1980), S. 1-13

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ISSN: 1432-0762

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1. Field studies in the Ivindo River district of Gabon, West Africa, yielded information on the ecology and the electric discharge characteristics of 23 species of mormyrid fishes. The electric organ discharge (EOD) acts as an electric signature that defines the properties of an electric communication and electrolocation channel. Correlations between the properties of this signature and the ecological and social conditions of the fish in their natural environment suggest that signature properties are under natural selection, much as are social communication displays. 2. EOD duration is reduced in those species that aggregate in dense schools. Those with long-duration discharges are widely spaced in stream habitats. EOD waveforms are usually species-specific. EODs are highly divergent within some genera, but convergence to the same EOD pattern is also found among schooling species. Species producing monophasic EODs inhabit rivers rather than small streams. A river habitat is evenly represented by fish species with EODs at all frequencies in the available spectrum. Stream habitats are represented mainly by species with shortduration pulses that emphasize the high-frequency end of the available spectrum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00302513

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Comparative aspects of brain organization of an african “wave” electric fish, Gymnarchus niloticus (1982)

Bass, Andrew H. ; Hopkins, Carl D.

New York, NY : Wiley-Blackwell

Journal of Morphology 174 (1982), S. 313-334

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ISSN: 0362-2525

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Medicine

Notes: Gymnarchus niloticus, one of the less-well-known electroreceptive teleost fishes, is the only African mormyriform fish with a wavelike or tone electric organ discharge. For Gymnarchus, this is the first detailed description of the lateral line lobe, vestibulolateral lobe, cerebellum, and midbrain torus semicircularis - central electrosensory structures. Brain organization in Gymnarchus closely resembles that of mormyrids. In particular, the lateral line lobe is a bilateral structure with three cortical zones - ventral, dorsal, medial - and a fourth central zone of large cells. The convergent evolution of the electric sense of mormyriform and gymnotoid fish, and its central representation, is discussed.

Additional Material: 13 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jmor.1051740306

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