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Extremely fast prey capture in pipefish is powered by elastic recoil
Van Wassenbergh, S.; Strother, J.A.; Flammang, B.E.; Ferry-Graham, L.A.; Aerts, P. (2008). Extremely fast prey capture in pipefish is powered by elastic recoil. J. R. Soc. Interface 5(20): 285-296.
In: Journal of the Royal Society. Interface. The Royal Society: London. ISSN 1742-5689; e-ISSN 1742-5662, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

    Energy storage
    Properties > Physical properties > Mechanical properties > Elasticity
    Syngnathidae Bonaparte, 1831 [WoRMS]
Author keywords
    power amplification

Auteurs  Top 
  • Van Wassenbergh, S.
  • Strother, J.A.
  • Flammang, B.E.
  • Ferry-Graham, L.A.
  • Aerts, P.

    The exceptionally high speed at which syngnathid fishes are able to rotate their snout towards prey and capture it by suction is potentially caused by a catapult mechanism in which the energy previously stored in deformed elastic elements is suddenly released. According to this hypothesis, tension is built up in tendons of the post-cranial muscles before prey capture is initiated. Next, an abrupt elastic recoil generates high-speed dorsal rotation of the head and snout, rapidly bringing the mouth close to the prey, thus enabling the pipefish to be close enough to engulf the prey by suction. However, no experimental evidence exists for such a mechanism of mechanical power amplification during feeding in these fishes. To test this hypothesis, inverse dynamical modelling based upon kinematic data from high-speed videos of prey capture in bay pipefish Syngnathus leptorhynchus, as well as electromyography of the muscle responsible for head rotation (the epaxial muscle) was performed. The remarkably high instantaneous muscle-mass-specific power requirement calculated for the initial phase of head rotation (up to 5795W kgK1), as well as the early onset times of epaxial muscle activity (often observed more than 300 ms before the first externally discernible prey capture motion), support the elastic power enhancement hypothesis.

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