PECTORALIS MUSCLE FORCE AND POWER OUTPUT DURING FLIGHT IN THE STARLING

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Articles by BIEWENER, A. A.

Articles by GOSLOW, G. E., JR

Journal of Experimental Biology 164,1-18 (1992)
Published by Company of Biologists 1992

PECTORALIS MUSCLE FORCE AND POWER OUTPUT DURING FLIGHT IN THE STARLING

ANDREW A. BIEWENER ¹, KENNETH P. DIAL ², and G. E. GOSLOW JR ³

¹ Department of Organismal Biology and Anatomy, University of Chicago 1025 East 57th Street, Chicago, IL 60637, USA
² Division of Biological Sciences, University of Montana Missoula, MT 59812, USA
³ Section of Population Biology, Morphology and Genetics, Division of Biology and Medicine, Brown University Providence, RI02192, USA

Force recordings of the pectoralis muscle of European starlingshave been made in vivo during level flight in a wind tunnel,based on bone strain recordings at the muscle's attachment siteon the humerus (deltopectoral crest). This represents the firstdirect measurement of muscle force during activity in a liveanimal based on calibrated bone strain recordings. Our forcemeasurements confirm earlier electromyographic data and showthat the pectoralis begins to develop force during the finalone-third of the upstroke, reaches a maximal level halfway throughthe downstroke, and sustains force throughout the downstroke.Peak forces generated by the pectoralis during level flightat a speed estimated to be 13.7ms^-1 averaged 6.4N (28% of maximalisometric force), generating a mean mass-specific muscle poweroutput of 104 W kg^-1. Combining our data for the power outputof the pectoralis muscle with data for the metabolic power ofstarlings flying at a similar speed yields an overall flightefficiency of 13 %. The force recordings and length changesof the muscle, based on angular displacements of the humerus,indicate that the pectoralis muscle undergoes a lengthening--shorteningcontraction sequence during its activation and that, in additionto lift and thrust generation, overcoming wing inertia is probablyan important function of this muscle in flapping flight.

Key words: starling, pectoralis, in vivo force, flight, Sturnus vulgaris

Accepted on November 7, 1991

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