Locomotion in the quail (Coturnix japonica): the kinematics of walking and increasing speed

ABSTRACT Hindlimb segmental kinematics and stride characteristics are quantified in several quail locomoting on a treadmill over a six‐fold increase in speed. These data are used to describe the kinematics of a walking stride and to identify which limb elements are used to change stride features as...

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Bibliographic Details
Published in:Journal of morphology (1931) 2000-02, Vol.243 (2), p.173-185
Main Author: Reilly, Stephen M.
Format: Article
Language:English
Subjects:
Animals
Aves
Biomechanical Phenomena
bipedal locomotion
birds
Coturnix - physiology
erect posture
functional morphology
Gait
Hindlimb - physiology
kinematics
Motor Activity - physiology
Posture
Time Factors
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Summary:ABSTRACT Hindlimb segmental kinematics and stride characteristics are quantified in several quail locomoting on a treadmill over a six‐fold increase in speed. These data are used to describe the kinematics of a walking stride and to identify which limb elements are used to change stride features as speed increases. In quail, the femur does not move during locomotion and the tarsometatarsus–phalangeal joint is a major moving joint; thus, quail have lost the most proximal moving joint and added one distally. The tibiotarsus and tarsometatarsus act together as a fixed strut swinging from the knee during stance phase (the ankle angle remains constant at a given speed) and the tarsometatarsus–phalangeal joint appears to have a major role in increasing limb length during the propulsive phase of the stride. Speed is increased with greater knee extension and by lengthening the tibiotarsus/tarsometatarsus via increased ankle extension at greater speeds. Because the femur is not moved and three distal elements are, quail move the limb segments through a stride and increase speed in a way fundamentally different from other nonavian vertebrates. However, the three moving joints in quail (the knee, ankle, and tarsometatarsophangeal joint) have strikingly similar kinematics to the analogous moving joints (the hip, knee, and ankle) in other vertebrates. Comparisons to other vertebrates indicate that birds appear to have two modes of limb function (three‐ and four‐segment modes) that vary with speed and locomotory habits. J. Morphol. 243:173–185, 2000 © 2000 Wiley‐Liss, Inc.
ISSN:0362-2525
1097-4687
DOI:10.1002/(SICI)1097-4687(200002)243:2<173::AID-JMOR6>3.0.CO;2-E