Your search keyword '"Brienomyrus niger"' showing total 6 results

1. Electric Organ Discharge Displays during Social Encounter in the Weakly Electric Fish Brienomyrus niger L. (Mormyridae)

Author

Jacques Serrier, Peter Rask Møller, and Deborah Bowling

Subjects

biology, Electroreception, Ecology, Brienomyrus niger, Zoology, Electric organ discharge, biology.organism_classification, Baseline activity, Animal Science and Zoology, Animal communication, Mormyridae, Social encounter, Electric fish, Ecology, Evolution, Behavior and Systematics

Abstract

We investigated the electric organ discharge (EOD) activity of the mormyrid fish Brienomyrus niger during social encounters. The fish were contained in porous ceramic shelters and tested alone and in pairs in an experimental tank designed to restrict communication to the electrosensory modality. We moved one fish toward and away from a stationary conspecific, beginning at a distance known to be outside the range of communication (250 cm). Baseline EOD activity was recorded prior to interaction and categorized as ‘variable’, ‘regular’, and ‘scallop’. When moved closer together, the fish modulated this baseline activity in four ways: (1) At 100–130 cm apart, the stationary fish emitted a maximum of sudden EOD rate increases which defined the outer limit of its communication range. (The associated Electric Field Gradient was 1 μV/cm). (2) Long EOD cessations, which we called social silence, lasted from 5–130 s and occurred most frequently when the fish were 36 to 55 cm apart (EFG: 100 μV/cm). The duration of social silence was negatively correlated (r = − 0.862) with the responding fish's size, and was independent of the partner's sex and size. Fish whose EOD baseline pattern was ‘scallop’ were least likely to fall electrically silent, and those that were categorized as ‘regular’ or ‘variable’ were most likely to cease discharging. (3) Within electrolocation range, fish ‘regularized’ their EOD activity while the partner was ‘silent’ (EFG: 1 mV/cm). (4) Following long EOD cessations the fish resumed discharging with characteristic EOD rebound patterns. The possible ethological significance of these findings is discussed.

Published

2010

2. The Optomotor Response in Weak-electric Mormyrid Fish: Can they See?

Author

Claudine Teyssedre and Peter Rask Møller

Subjects

Gnathonemus, genetic structures, biology, Brienomyrus niger, Stimulus pattern, Zoology, Anatomy, biology.organism_classification, Behavioral data, Optomotor response, General Earth and Planetary Sciences, %22">Fish , Animal Science and Zoology, sense organs, Ecology, Evolution, Behavior and Systematics, Electric mormyrid, General Environmental Science

Abstract

The present study has explored the optomotor response in two species of mormyrid fish, Gnathonemus petersii and Brienomyrus niger. Both species tended to follow a black and white striped stimulus pattern under illumination levels of 6, 12, and 60 lx. The optomotor response ceased to occur under 540 lx. The behavioral data support earlier histological findings implicating the mormyrid retina in dim light vision.

Published

2010

3. Electrolocation and jamming avoidance in the mormyrid fishBrienomyrus

Author

Walter Heiligenberg

Subjects

Physics, Behavioral Neuroscience, Optics, Electroreception, Electric organ, Physiology, Brienomyrus niger, business.industry, Animal Science and Zoology, Jamming, Pulse intensity, business, Ecology, Evolution, Behavior and Systematics

Abstract

Brienomyrus niger fires its electric organ in short pulses of approximately 0.3 ms duration, at a rather irregular rate, which rapidly increases in novel situations. The animal electrolocates objects in its near field by evaluating electroreceptive feedback from its ownelectricorgandischarges (EODs). Electrolocation performance is measured by the critical distance at which an approaching nonconducting object of standard size and velocity is detected (Figs. 1, 3).

Published

1976

4. Effects of water conductivity on electrocommunication in the weak-electric fish Brienomyrus niger (Mormyriformes)

Author

Ann Squire and Peter Rask Møller

Subjects

Electrocommunication, Amplitude, Materials science, Electroreception, Brienomyrus niger, Ecology, Electric field, Analytical chemistry, Animal Science and Zoology, Water conductivity, Conductivity, Electric fish, Ecology, Evolution, Behavior and Systematics

Abstract

A characteristic electric organ discharge display in social encounters between mormyrid fish is a temporary discharge cessation. Using this response, we have investigated the useful range of electrocommunication under different water conductivity conditions in the mormyrid Brienomyrus niger. An individual fish was confined to a porous ceramic shelter tube and moved from a starting distance of 380 cm toward a similarly confined conspecific until discharge, cessation occurred. The moved fish was subsequently returned to its original, position. Water conductivity affects the peak-to-peak source voltage of the electric organ and the sensitivity of the fish's electroreceptors. Within a range of 10 to 36 000 μS/cm, the peak-to-peak amplitude of the electric organ discharge declined as a power function. At 120 μS/cm, the amplitude was 50%, and at 300μS/cm, 30% of the 10 μS/cm value. The interfish distance at which discharge cessation occurred and the associated electric field gradients were dependent on water conductivity and upon the spatial orientation of the two fish (end-to-end or parallel orientations of their shelter tubes). The respective ranges were from 135 cm and 0.02 mV/cm at 52 μS/cm (parallel orientation) to 22 cm and 0.36 mV/cm at 678 μS/cm (end-to-end orientation). When the data for both tube orientations were combined, the relationship between water conductivity (x) and the distance at which discharge cessation occurred (y) could be expressed by a power function, y=K·xa (with K=102.97 and a=−0.56). When an electrically ‘silent’ fish was moved away from its conspecific, a discharge resumption in the form of a high-frequency rebound occasionally effected changes in the other fish's discharge activity at distances up to 157 cm (with an associated electric, field gradient of 0.01 mV/cm under the lowest conductivity condition).

Published

1982

5. The Attack Frequency of Gnathonemus petersii towards Electrically Silent (Denervated) and Intact Conspecifics, and towards Another Mormyrid ( Brienomyrus niger)

Author

Bernd Kramer

Subjects

Gnathonemus, biology, Brienomyrus niger, Ecology, Random model, Zoology, Stimulus (physiology), biology.organism_classification, 590 Tiere (Zoologie), Electric signal, Animal ecology, ddc:590, Animal Science and Zoology, Attack frequency, Latency response, Ecology, Evolution, Behavior and Systematics

Abstract

1. Aggression experiments were performed with Gnathonemus petersii. Three kinds of stimulus fish were used in random order to elicit attacks: (1) intact conspecifics, (2) electrically silent (operated) conspecifics, and (3) the mormyrid Brienomyrus niger. 2. The aggression indices for the two experiments with B. niger and the intact conspecific, i.e. the two electrically active fish, were similar (p

Published

1976

6. Electric Fish as a Tool for Water Quality Assessment

Author

Peter Rask Møller and Patricia Grove

Subjects

Veterinary medicine, Electric organ, Brienomyrus niger, Ecology, Aquatic Science, Biology, Broad spectrum, chemistry.chemical_compound, Dieldrin, chemistry, Malathion, Bioassay, Water quality, Electric fish, Ecology, Evolution, Behavior and Systematics

Abstract

The temporal pattern of electric organ discharges emitted by a mormyrid fish, Brienomyrus niger, was affected by two broad spectrum insecticides, dieldrin and malathion, in concentrations of 1 μg/liter. Such discharge patterns have potential as a sensitive and convenient bioassay tool.

Published

1979