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

ABSTRACT

[1]  T. Rowe Homology and evolution of the deep dorsal thigh musculature in birds and other reptilia , 1986, Journal of morphology.

[2]  G. Cavagna,et al.  Mechanical work in terrestrial locomotion: two basic mechanisms for minimizing energy expenditure. , 1977, The American journal of physiology.

[3]  J. Steeves,et al.  Ontogeny of bipedal locomotion: walking and running in the chick. , 1996, The Journal of physiology.

[4]  Stephen M. Gatesy,et al.  Caudofemoral musculature and the evolution of theropod locomotion , 1990, Paleobiology.

[5]  M. Bennett Interrelationships of crural muscles and tendons in a range of birds , 1995 .

[6]  S. Gatesy,et al.  Bipedal locomotion: effects of speed, size and limb posture in birds and humans , 1991 .

[7]  J. Halbertsma The stride cycle of the cat: the modelling of locomotion by computerized analysis of automatic recordings. , 1983, Acta physiologica Scandinavica. Supplementum.

[8]  S. Reilly,et al.  Locomotion in alligator mississippiensis: kinematic effects of speed and posture and their relevance to the sprawling-to-erect paradigm , 1998, The Journal of experimental biology.

[9]  V. Tucker Energetic cost of locomotion in animals. , 1970, Comparative biochemistry and physiology.

[10]  S. Reilly,et al.  Sprawling locomotion in the lizard Sceloporus clarkii: the effects of speed on gait, hindlimb kinematics, and axial bending during walking , 1997 .

[11]  S. Gatesy Hind limb movements of the American alligator (Alligator mississippiensis) and postural grades , 1991 .

[12]  S. Reilly Sprawling Locomotion in the Lizard Sceloporus clarkii: Speed Modulation of Motor Patterns in a Walking Trot , 1998, Brain, Behavior and Evolution.

[13]  A. Patak,et al.  STRUCTURAL AND METABOLIC CHARACTERIZATION OF THE MUSCLES USED TO POWER RUNNING IN THE EMU (DROMAIUS NOVAEHOLLANDIAE), A GIANT FLIGHTLESS BIRD , 1993 .

[14]  S. Grillner Locomotion in vertebrates: central mechanisms and reflex interaction. , 1975, Physiological reviews.

[15]  James F. Zolman,et al.  Biostatistics: Experimental Design and Statistical Inference. , 1995 .

[16]  D. Bramble,et al.  Functional vertebrate morphology , 1985 .

[17]  R. Alexander,et al.  Estimates of speeds of dinosaurs , 1976, Nature.

[18]  G. Maloiy,et al.  Energy metabolism and heart rate during treadmill exercise in the Marabou stork. , 1980, Journal of applied physiology: respiratory, environmental and exercise physiology.

[19]  William K. Gregory,et al.  NOTES ON THE PRINCIPLES OF QUADRUPEDAL LOCOMOTION AND ON THE MECHANISM OF HE LIMBS IN HOOFED ANIMALS , 1912 .

[20]  G. E. Goslow,et al.  The cat step cycle: Hind limb joint angles and muscle lengths during unrestrained locomotion , 1973, Journal of morphology.

[21]  T. McMahon,et al.  Groucho running. , 1987, Journal of applied physiology.

[22]  G. E. Goslow,et al.  Electrical activity and relative length changes of dog limb muscles as a function of speed and gait. , 1981, The Journal of experimental biology.

[23]  P. Butler EXERCISE IN BIRDS , 1991 .

[24]  Time-Life Books,et al.  WALKING AND RUNNING. , 1885, Science.

[25]  R D Jacobson,et al.  A behavioral and electromyographic study of walking in the chick. , 1982, Journal of neurophysiology.

[26]  Ashley-Ross,et al.  METAMORPHIC AND SPEED EFFECTS ON HINDLIMB KINEMATICS DURING TERRESTRIAL LOCOMOTION IN THE SALAMANDER DICAMPTODON TENEBROSUS , 1994, The Journal of experimental biology.

[27]  R. M. Alexander,et al.  Mechanics of posture and gait of some large dinosaurs , 1985 .

[28]  P. Stein,et al.  Coordinated motor output in the hindlimb of the 7-day chick embryo. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[29]  K. Schmidt-Nielsen,et al.  Terrestrial locomotion in penguins: it costs more to waddle. , 1977, Science.

[30]  N. Heglund,et al.  Energetics and mechanics of terrestrial locomotion. II. Kinetic energy changes of the limbs and body as a function of speed and body size in birds and mammals. , 1982, The Journal of experimental biology.

[31]  S. Reilly,et al.  Sprawling locomotion in the lizard Sceloporus clarkii: quantitative kinematics of a walking trot , 1997, The Journal of experimental biology.

[32]  Ashley-Ross HINDLIMB KINEMATICS DURING TERRESTRIAL LOCOMOTION IN A SALAMANDER (DICAMPTODON TENEBROSUS) , 1994, The Journal of experimental biology.

[33]  T J Roberts,et al.  Muscular Force in Running Turkeys: The Economy of Minimizing Work , 1997, Science.

[34]  Alexander N. Kuznetsov,et al.  Energetical profit of the third segment in parasagittal legs , 1995 .

[35]  S. Gatesy Neuromuscular diversity in archosaur deep dorsal thigh muscles. , 1994, Brain, behavior and evolution.

[36]  G. Cavagna,et al.  Energetics and mechanics of terrestrial locomotion. IV. Total mechanical energy changes as a function of speed and body size in birds and mammals. , 1982, The Journal of experimental biology.

[37]  P. Mill,et al.  Pre‐ and post‐maturation survival in adults of the damselfly Pyrrhosoma nymphula (Zygoptera: Coenagrionidae) , 1995 .

[38]  S. Gatesy Hind limb scaling in birds and other theropods: Implications for terrestrial locomotion , 1991, Journal of morphology.

[39]  M A Fedak,et al.  Energy cost of bipedal running. , 1974, The American journal of physiology.

[40]  Stephen M. Gatesy,et al.  Bipedalism, flight, and the evolution of theropod locomotor diversity , 1997 .

[41]  M. Bennett Allometry of the leg muscles of birds , 1996 .

[42]  J. Vilensky,et al.  Effects of growth and speed on hindlimb joint angular displacement patterns in vervet monkeys (Cercopithecus aethiops). , 1990, American journal of physical anthropology.

[43]  Fieler Effects of speed on the hindlimb kinematics of the lizard dipsosaurus dorsalis , 1998, The Journal of experimental biology.

[44]  S. Grillner Control of Locomotion in Bipeds, Tetrapods, and Fish , 1981 .

[45]  J. Parlange,et al.  Water uptake, diameter change, and nonlinear diffusion in tree stems. , 1975, Plant physiology.