Is a convergently derived muscle-activity pattern driving novel raking behaviours in teleost fishes?

@article{Konow2008IsAC,
  title={Is a convergently derived muscle-activity pattern driving novel raking behaviours in teleost fishes?},
  author={Nicolai Konow and Christopher P. J. Sanford},
  journal={Journal of Experimental Biology},
  year={2008},
  volume={211},
  pages={989 - 999}
}
  • N. Konow, C. Sanford
  • Published 15 March 2008
  • Biology, Environmental Science
  • Journal of Experimental Biology
SUMMARY Behavioural differences across prey-capture and processing mechanisms may be governed by coupled or uncoupled feeding systems. Osteoglossomorph and salmonid fishes process prey in a convergently evolved tongue-bite apparatus (TBA), which is musculoskeletally coupled with the primary oral jaws. Altered muscle-activity patterns (MAPs) in these coupled jaw systems could be associated with the independent origin of a novel raking behaviour in these unrelated lineages. Substantial MAP… 
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Biomechanics of a convergently derived prey-processing mechanism in fishes: evidence from comparative tongue bite apparatus morphology and raking kinematics
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Data on comparative morphology and kinematics from two representative species, the rainbow trout and the Australian arowana, suggest that both the TBA and raking are convergently derived in these lineages, and propose biomechanical models that will aid future analyses mapping structural and functional traits to the evolution of behaviors.
Congruence between muscle activity and kinematics in a convergently derived prey-processing behavior.
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Analysis of patterns of congruence in how organizational levels drive behavioral modulation in a novel raking prey-processing behavior found in teleosts belonging to two evolutionarily distinct lineages suggests a unique mechanism of modulation based on performance-enhancing changes in the design and function of the musculoskeletal system.
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Intra-oral prey processing (chewing) using the mandibular jaws occurs more extensively among teleost fishes than previously documented because of the lack of muscle spindles, γ-motoneurons and periodontal afferents, and the result of patterned interactions between sensory feedback and a central pattern generator.
Functional morphology and biomechanics of the tongue‐bite apparatus in salmonid and osteoglossomorph fishes
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Divergence was found in the morphology of the novel cleithrobranchial ligament, which potentially relates to kinematic differences between the raking lineage representatives, and two osteology‐based biomechanical models showed divergent force/velocity priorities in the study taxa.
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Recent advances in understanding of fish feeding anatomy, behavior, and function are reviewed, with a focus on progress in cranial biomechanics in fishes.
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  • Biology, Psychology
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The appearance of homoplasious behaviours produced by homologous neural substrates suggests that there might be features of these nervous systems that favoured the repeated evolution of particular behaviours.
Chewing or not? Intraoral food processing in a salamandrid newt
TLDR
A processing mechanism is identified in the salamandrid newt, Triturus carnifex, which after prey capture displays cyclic head bobbing in concert with rhythmic jaw and tongue movements, which casts salamanders as promising models for reconstructing the evolution of intraoral processing mechanisms at the fish–tetrapod split.
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