Hobbs, Sarah Jane, LICKA, T. and Polman, R. (2011) The difference in kinematics of horses walking, trotting and cantering on a flat and banked 10 m circle. Equine Veterinary Journal, 43 (6). pp. 686-694. ISSN 04251644
PDF (Publisher's post-print for classroom teaching and internal training purposes at UCLan)
- Published Version
Restricted to Registered users only
Official URL: http://dx.doi.org/10.1111/j.2042-3306.2010.00334.x
Reasons for performing study: Locomotion adaptation mechanisms have been observed in horses, but little information is available in relation to banked and nonbanked curve locomotion, which might be important to optimise training environments.
Objectives: To determine if adaptation mechanisms in horses existed when moving on a banked compared to a flat curve and whether adaptation was similar in different gaits.
Methods: Eight infrared cameras were positioned on the outside of a 10 m lungeing circle and calibrated. Retroreflective markers were used to define left and right metacarpus (McIII) and proximal phalanges (P1), metatarsus (MtIII), head and sacrum. Data were recorded at 308 Hz from 6 horses lunged at walk, trot and canter on a flat and 10° banked circle in a crossover design. Measurements extracted were speed, stride length, McIII inclination, MtIII inclination, relative body inclination and duty factor. Data were smoothed with a fourth order Butterworth filter with 30 Hz cut-off. ANOVA was used to determine differences between conditions and limbs.
Results: Adaptation mechanisms were influenced by gait. At canter inside forelimb duty factor was significantly longer (P<0.05) on a flat curve compared to a banked curve; at walk this was reversed. McIII inclination, MtIII inclination and relative body inclination were significantly greater (P<0.05) at trot and canter on a flat curve, so more inward tilt was found relative to the bearing surface.
Conclusion: Adaptation to curved motion is gait specific. At faster gaits it appears that horses negotiate a banked curve with limb posture closer to body posture and probably with demands on the musculoskeletal system more similar to straight canter.
|Uncontrolled Keywords (separate with ;):||horse; circle; locomotion; centripetal force; kinematics; limb inclination; curve|
|Subjects:||Q Science > QL Zoology|
|Schools:||College of Health and Wellbeing > School of Sport and Wellbeing|
|Deposited By:||Sarah Jane Hobbs|
|Deposited On:||29 Mar 2012 09:32|
|Last Modified:||07 Jan 2016 11:21|
Downloads per month over past year
Downloads for past 30 days
Repository Staff Only: item control page