scholarly journals Electrical and behavioral courtship displays in the mormyrid fish Brienomyrus brachyistius

2007 ◽  
Vol 210 (13) ◽  
pp. 2244-2252 ◽  
Author(s):  
R. Y. Wong ◽  
C. D. Hopkins
Keyword(s):  
Mormyrid Fish ◽  
Courtship Displays ◽  
Brienomyrus Brachyistius

Feeding patterns of the Mormyrid fish Brienomyrus brachyistius (Gill, 1862) in Kogon and Tinguilinta rivers (Guinea Republic).

2019 ◽  
Vol 23 (4) ◽  
pp. 239-248
Author(s):  
Boussou K. C. ◽  
Yoboué A. N. ◽  
Djiriéoulou K. C. ◽  
Aliko N. G. ◽  
Konan K. F.
Keyword(s):  
Feeding Patterns ◽  
Mormyrid Fish ◽  
Brienomyrus Brachyistius

scholarly journals Sensory processing and corollary discharge effects in posterior caudal lobe Purkinje cells in a weakly electric mormyrid fish

2014 ◽  
Vol 112 (2) ◽  
pp. 328-339 ◽  
Author(s):  
Karina Alviña ◽  
Nathaniel B. Sawtell
Keyword(s):  
Purkinje Cells ◽  
Mossy Fiber ◽  
Corollary Discharge ◽  
Electrophysiological Response ◽  
Caudal Lobe ◽  
Mormyrid Fish ◽  
Sensory Structures ◽  
Proprioceptive Inputs ◽  
Weakly Electric ◽  
Complete Account

Although it has been suggested that the cerebellum functions to predict the sensory consequences of motor commands, how such predictions are implemented in cerebellar circuitry remains largely unknown. A detailed and relatively complete account of predictive mechanisms has emerged from studies of cerebellum-like sensory structures in fish, suggesting that comparisons of the cerebellum and cerebellum-like structures may be useful. Here we characterize electrophysiological response properties of Purkinje cells in a region of the cerebellum proper of weakly electric mormyrid fish, the posterior caudal lobe (LCp), which receives the same mossy fiber inputs and projects to the same target structures as the electrosensory lobe (ELL), a well-studied cerebellum-like structure. We describe patterns of simple spike and climbing fiber activation in LCp Purkinje cells in response to motor corollary discharge, electrosensory, and proprioceptive inputs and provide evidence for two functionally distinct Purkinje cell subtypes within LCp. Protocols that induce rapid associative plasticity in ELL fail to induce plasticity in LCp, suggesting differences in the adaptive functions of the two structures. Similarities and differences between LCp and ELL are discussed in light of these results.

Categorisation of Interpulse Intervals and Stochastic Analysis of Discharge Patterns in Resting Weak-Electric Mormyrid Fish (Gnathonemus Petersii)

Behaviour ◽  
1987 ◽  
Vol 102 (3-4) ◽  
pp. 264-282 ◽  
Author(s):  
Claudine TEYSSÈDRE ◽  
Michel Boudinot ◽  
Catherine Minisclou
Keyword(s):  
Individual Differences ◽  
Stochastic Analysis ◽  
Electric Organ Discharge ◽  
Electric Organ ◽  
Electric Pulses ◽  
Oscillating Systems ◽  
Mormyrid Fish ◽  
Discharge Patterns ◽  
Gnathonemus Petersii ◽  
Criterion Method

AbstractInter-individual similarities in the electric organ discharge activity of immobile, isolated and undisturbed mormyrid fish were investigated. Two types of analysis were performed on the discharge patterns of 10 Gnathonemus petersii: (1) The Bout Interval Criterion method was used to categorise the intervals between consecutive electric pulses; (2) an analysis of sequences of acts was performed to study the serial ordering of the interpulse intervals. Interpulse intervals were demonstrated to belong to distinct classes, having similar limits for most animals. Most fish show five classes of interpulse intervals (23 to 68 ms; 69 to 108 ms; 109 to 170 ms; 171 to 212 ms; >212 ms), to which a sixth class (<23 ms) is added in some cases. Each class contains a similar number of intervals in all individuals. Particular associations were found between the occurrences of interpulse intervals belonging to different classes. Some of these associations (for example BB and EC) are displayed by most fish, whereas others express individual differences in the patterns of discharge. The discharge of immobile, undisturbed, isolated mormyrid fish is thus shown to present many similarities among individuals. Inter-individual differences exist only in the serial ordering of the intervals, where they arc best regarded as variations around a same theme. The absence of overlapping between the two main categories of interpulse intervals (category I: 69 to 108 ms; category II: 171 to 212 ms), as well as the constancy of their baselines, suggest that two oscillating systems participate to the electromotor command. The stochastic analysis of the serial ordering of the interpulse intervals suggest in addition that these two oscillators do not function independently. Momentaneous modifications of the activity of these two oscillators would provide an economical explanation for the various changes in the types of interpulse intervals associated with behavioural state or social interactions.

Electrosensory pathways to the valvula cerebelli in mormyrid fish

1981 ◽  
Vol 42 (1) ◽  
Author(s):  
T.E. Finger ◽  
C.C. Bell ◽  
C.J. Russell
Keyword(s):  
Mormyrid Fish

Ultrastructure of the Skin of Mormyrid Fish, with Special Reference to the Melanophores

1979 ◽  
Vol 45 (3) ◽  
pp. 305-311 ◽  
Author(s):  
Kouichi YOSHIZAKI ◽  
Tamotsu TAMURA
Keyword(s):  
Special Reference ◽  
Mormyrid Fish

scholarly journals Electric organ discharge patterns during group hunting by a mormyrid fish

2005 ◽  
Vol 272 (1570) ◽  
pp. 1305-1314 ◽  
Author(s):  
Matthew E Arnegard ◽  
Bruce A Carlson
Keyword(s):  
Low Voltage ◽  
Electric Organ Discharge ◽  
Electric Organ ◽  
Lake Malawi ◽  
Weakly Electric Fish ◽  
Species Flock ◽  
Unexpected Finding ◽  
Size Estimation ◽  
Vertebrate Lineage ◽  
Mormyrid Fish

Weakly electric fish emit and receive low-voltage electric organ discharges (EODs) for electrolocation and communication. Since the discovery of the electric sense, their behaviours in the wild have remained elusive owing to their nocturnal habits and the inaccessible environments in which they live. The transparency of Lake Malawi provided the first opportunity to simultaneously observe freely behaving mormyrid fish and record their EODs. We observed a piscivorous mormyrid, Mormyrops anguilloides , hunting in small groups in Lake Malawi while feeding on rock-frequenting cichlids of the largest known vertebrate species flock. Video recordings yielded the novel and unexpected finding that these groups resembled hunting packs by being largely composed of the same individuals across days. We show that EOD accelerations accompany prey probing and size estimation by M. anguilloides . In addition, group members occasionally synchronize bursts of EODs with an extraordinary degree of precision afforded by the mormyrid echo response. The characteristics and context of burst synchronization suggest that it may function as a pack cohesion signal. Our observations highlight the potential richness of social behaviours in a basal vertebrate lineage, and provide a framework for future investigations of the neural mechanisms, behavioural rules and ecological significance of social predation in M. anguilloides .

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