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First published online February 29, 2008
Journal of Experimental Biology 211, 935-944 (2008)
Published by The Company of Biologists 2008
doi: 10.1242/jeb.006650

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High-speed gallop locomotion in the Thoroughbred racehorse. I. The effect of incline on stride parameters

K. J. Parsons^*, T. Pfau and A. M. Wilson

Structure and Motion Laboratory, The Royal Veterinary College, University of London, North Mymms, Hatfield, Hertfordshire AL9 7TA, UK

^* Author for correspondence (e-mail: kparsons{at}rvc.ac.uk)

Accepted 10 November 2007

During locomotion up an incline, power is required to elevate the centre of mass. This is provided when the animal's limbs are in contact with the ground. Measurements of stride timing variables from multiple limbs during high speed, over-ground locomotion would enhance our understanding of locomotor powering during changes in terrain. This study measured foot-on and foot-off times from galloping horses using a previously validated system of limb-mounted accelerometers and a global positioning system data logger. A detailed track survey provided incline information from all areas of the track. Measurements were made from six horses over a speed range of 9 to 13 m s^–1. Foot-fall timings were used to calculate variables, which included stance duration, protraction duration, stride frequency and duty factor. The relationship between track incline and measured variables was assessed. Stride variables from horses galloping on level (0–2% incline) and incline (8–12% incline) sections of the track were compared. Fore- and hindlimb protraction durations were significantly reduced across the speed range during incline galloping (P=0.001). This resulted in a mean increase in stride frequency from 2.01 to 2.08 strides s^–1 at 9.5 m s^–1 and 2.10 to 2.17 strides s^–1 at 12.5 m s^–1 during incline galloping. Duty factor was significantly greater for the hindlimbs during incline galloping (P<0.001), increasing from 0.31 to 0.32 at 9.5 m s^–1 and 0.28 to 0.29 at 12.5 m s^–1. Peak limb force was calculated from duty factor and assumed fore- to hindlimb impulse distributions. Smaller peak vertical forces were calculated in the forelimbs and increased peak vertical forces were calculated in the hindlimbs when galloping on an incline. Measured changes in stride timing variables differ from those reported in trotting horses. We propose that horses increase their stride frequency at a given speed during incline galloping to provide power for moving the centre of mass up the slope.

Key words: horse, biomechanics, incline, power, high speed locomotion, duty factor, stride frequency

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