The mechanical power output of the pectoralis muscle of blue-breasted quail (Coturnix chinensis): the in vivo length cycle and its implications for muscle performance

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The Journal of Experimental Biology 204, 3587-3600 (2001)
© 2001 The Company of Biologists Limited

The mechanical power output of the pectoralis muscle of blue-breasted quail (Coturnix chinensis): the in vivo length cycle and its implications for muscle performance

Graham N. Askew¹^,* and Richard L. Marsh²

¹ Department of Zoology, Downing Street, University of Cambridge, Cambridge CB2 3EJ, UK and
² Department of Biology, Northeastern University, 360 Huntington Avenue, Boston, MA 02115, USA

*Author for correspondence at present address: School of Biology, University of Leeds, Leeds LS2 9JT, UK (e-mail: g.n.askew{at}leeds.ac.uk)

Accepted July 27, 2001

Sonomicrometry and electromyographic (EMG) recordings were madefor the pectoralis muscle of blue-breasted quail (Coturnix chinensis)during take-off and horizontal flight. In both modes of flight,the pectoralis strain trajectory was asymmetrical, with 70 %of the total cycle time spent shortening. EMG activity was foundto start just before mid-upstroke and continued into the downstroke.The wingbeat frequency was 23 Hz, and the total strainwas 23 % of the mean resting length.

Bundles of fibres were dissected from the pectoralis and subjectedin vitro to the in vivo length and activity patterns, whilstmeasuring force. The net power output was only 80 W kg^–1because of a large artefact in the force record during lengthening.For more realistic estimates of the pectoralis power output,we ignored the power absorbed by the muscle bundles during lengthening.The net power output during shortening averaged over the entirecycle was approximately 350 W kg^–1, and in severalpreparations over 400 W kg^–1. Sawtooth cycleswere also examined for comparison with the simulation cycles,which were identical in all respects apart from the velocityprofile. The power output during these cycles was found to be14 % lower than during the in vivo strain trajectory. Thisdifference was due to a higher velocity of stretch, which resultedin greater activation and higher power output throughout thelater part of shortening, and the increase in shortening velocitytowards the end of shortening, which facilitated deactivation.

The muscle was found to operate at a mean length shorter thanthe plateau of the length/force relationship, which resultedin the isometric stress measured at the mean resting lengthbeing lower than is typically reported for striated muscle.

Key words: blue-breasted quail, Coturnix chinensis, muscle mechanics, power output, sonomicrometry, electromyography, work loop, strain trajectory.

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