Fast muscle function in the European eel (Anguilla anguilla, L.) during aquatic and terrestrial locomotion

Eels are capable of locomotion both in water and on land using undulations of the body axis, powered by the lateral musculature. Differences in kinematics and the underlying patterns of fast muscle activation are apparent between locomotion in these two environments. The change in isometric fast mus...

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Bibliographic Details
Published in:Journal of Morphology
Main Authors: Spierts, I.L.Y., Ellerby, D.J., Altringham, J.D.
Format: Article in Journal/Newspaper
Language:English
Published: 2004
Subjects:
Life Science
Anguilla anguilla
European eel
Online Access:https://research.wur.nl/en/publications/fast-muscle-function-in-the-european-eel-anguilla-anguilla-l-duri
https://doi.org/10.1002/jmor.10223
Description
Summary:Eels are capable of locomotion both in water and on land using undulations of the body axis, powered by the lateral musculature. Differences in kinematics and the underlying patterns of fast muscle activation are apparent between locomotion in these two environments. The change in isometric fast muscle properties with axial location was less marked than in most other species. Time from stimulus to peak force (Ta) did not change significantly with axial position and was 82 ± 6 ms at 0.45 BL and 93 ± 3 ms at 0.75 BL, where BL is total body length from the snout. Time from stimulus to 90% relaxation (T90) changed significantly with axial location, increasing from 203 ± 11 at 0.45 BL to 239 ± 9 at 0.75 BL. Fast muscle power outputs were measured using the work loop technique, under conditions that simulated their use during aquatic and terrestrial locomotion Maximum power outputs at ±5% strain using optimal stimulus parameters were 17.3 ± 1.3 W kg-1 in muscle from 0.45 BL and 16.3 ± 1.5 W kg-1 in muscle from 0.75 BL. Power output peaked at a cycle frequency of 2 Hz. The muscle strain and stimulus parameters associated with swimming generated greater force and power than those associated with terrestrial crawling. This decrease in muscle performance may occur because on land the eel is constrained to a particular kinematic pattern in order to produce thrust against an underlying substrate.

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