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New insights into muscle function during pivot feeding in seahorses

(2014) PLOS ONE. 9(10).
Author
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Abstract
Seahorses, pipefish and their syngnathiform relatives are considered unique amongst fishes in using elastic recoil of post-cranial tendons to pivot the head extremely quickly towards small crustacean prey. It is known that pipefish activate the epaxial muscles for a considerable time before striking, at which rotations of the head and the hyoid are temporarily prevented to allow energy storage in the epaxial tendons. Here, we studied the motor control of this system in seahorses using electromyographic recordings of the epaxial muscles and the sternohyoideus-hypaxial muscles with simultaneous high-speed video recordings of prey capture. In addition we present the results from a stimulation experiment including the muscle hypothesised to be responsible for the locking and triggering of pivot feeding in seahorses (m. adductor arcus palatini). Our data confirmed that the epaxial pre-activation pattern observed previously for pipefish also occurs in seahorses. Similar to the epaxials, the sternohyoideus-hypaxial muscle complex shows prolonged anticipatory activity. Although a considerable variation in displacements of the mouth via head rotation could be observed, it could not be demonstrated that seahorses have control over strike distance. In addition, we could not identify the source of the kinematic variability in the activation patterns of the associated muscles. Finally, the stimulation experiment supported the previously hypothesized role of the m. adductor arcus palatini as the trigger in this elastic recoil system. Our results show that pre-stressing of both the head elevators and the hyoid retractors is taking place. As pre-activation of the main muscles involved in pivot feeding has now been demonstrated for both seahorses and pipefish, this is probably a generalized trait of Syngnathidae.
Keywords
Syngnathidae, prey capture, electromyography, biomechanics, PREY CAPTURE KINEMATICS, ELASTIC ENERGY-STORAGE, SNOUT LENGTH, POWER OUTPUT, FAST SUCTION, PERFORMANCE, MECHANICS, TONGUE, STRIKE, FORCE

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Citation

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MLA
Van Wassenbergh, Sam, et al. “New Insights into Muscle Function during Pivot Feeding in Seahorses.” PLOS ONE, vol. 9, no. 10, 2014, doi:10.1371/journal.pone.0109068.
APA
Van Wassenbergh, S., Dries, B., & Herrel, A. (2014). New insights into muscle function during pivot feeding in seahorses. PLOS ONE, 9(10). https://doi.org/10.1371/journal.pone.0109068
Chicago author-date
Van Wassenbergh, Sam, Billy Dries, and Anthony Herrel. 2014. “New Insights into Muscle Function during Pivot Feeding in Seahorses.” PLOS ONE 9 (10). https://doi.org/10.1371/journal.pone.0109068.
Chicago author-date (all authors)
Van Wassenbergh, Sam, Billy Dries, and Anthony Herrel. 2014. “New Insights into Muscle Function during Pivot Feeding in Seahorses.” PLOS ONE 9 (10). doi:10.1371/journal.pone.0109068.
Vancouver
1.
Van Wassenbergh S, Dries B, Herrel A. New insights into muscle function during pivot feeding in seahorses. PLOS ONE. 2014;9(10).
IEEE
[1]
S. Van Wassenbergh, B. Dries, and A. Herrel, “New insights into muscle function during pivot feeding in seahorses,” PLOS ONE, vol. 9, no. 10, 2014.
@article{5717101,
  abstract     = {{Seahorses, pipefish and their syngnathiform relatives are considered unique amongst fishes in using elastic recoil of post-cranial tendons to pivot the head extremely quickly towards small crustacean prey. It is known that pipefish activate the epaxial muscles for a considerable time before striking, at which rotations of the head and the hyoid are temporarily prevented to allow energy storage in the epaxial tendons. Here, we studied the motor control of this system in seahorses using electromyographic recordings of the epaxial muscles and the sternohyoideus-hypaxial muscles with simultaneous high-speed video recordings of prey capture. In addition we present the results from a stimulation experiment including the muscle hypothesised to be responsible for the locking and triggering of pivot feeding in seahorses (m. adductor arcus palatini). Our data confirmed that the epaxial pre-activation pattern observed previously for pipefish also occurs in seahorses. Similar to the epaxials, the sternohyoideus-hypaxial muscle complex shows prolonged anticipatory activity. Although a considerable variation in displacements of the mouth via head rotation could be observed, it could not be demonstrated that seahorses have control over strike distance. In addition, we could not identify the source of the kinematic variability in the activation patterns of the associated muscles. Finally, the stimulation experiment supported the previously hypothesized role of the m. adductor arcus palatini as the trigger in this elastic recoil system. Our results show that pre-stressing of both the head elevators and the hyoid retractors is taking place. As pre-activation of the main muscles involved in pivot feeding has now been demonstrated for both seahorses and pipefish, this is probably a generalized trait of Syngnathidae.}},
  articleno    = {{e109068}},
  author       = {{Van Wassenbergh, Sam and Dries, Billy and Herrel, Anthony}},
  issn         = {{1932-6203}},
  journal      = {{PLOS ONE}},
  keywords     = {{Syngnathidae,prey capture,electromyography,biomechanics,PREY CAPTURE KINEMATICS,ELASTIC ENERGY-STORAGE,SNOUT LENGTH,POWER OUTPUT,FAST SUCTION,PERFORMANCE,MECHANICS,TONGUE,STRIKE,FORCE}},
  language     = {{eng}},
  number       = {{10}},
  pages        = {{9}},
  title        = {{New insights into muscle function during pivot feeding in seahorses}},
  url          = {{http://doi.org/10.1371/journal.pone.0109068}},
  volume       = {{9}},
  year         = {{2014}},
}

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