Muscle-tendon stresses and elastic energy storage during locomotion in the horse.

[1]  R. Margaria,et al.  Energy cost of running. , 1963, Journal of applied physiology.

[2]  J. Wells,et al.  Comparison of mechanical properties between slow and fast mammalian muscles , 1965, The Journal of physiology.

[3]  C. R. Taylor,et al.  Energetic Cost of Locomotion in Kangaroos , 1973, Nature.

[4]  G A Cavagna,et al.  Effect of stretching on the elastic characteristics and the contractile component of frog striated muscle , 1974, The Journal of physiology.

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

[6]  R. Alexander,et al.  Storage of elastic strain energy in muscle and other tissues , 1977, Nature.

[7]  G. Cavagna,et al.  Mechanical work and efficiency in level walking and running , 1977, The Journal of physiology.

[8]  T. Yorio,et al.  Do Frogs Drinks , 1979 .

[9]  D. A. Dorsett,et al.  The Integration of the Patterned Output of Buccal Motoneurones During Feeding in Tritonia Hombergi , 1979 .

[10]  C. R. Taylor,et al.  The energetic cost of bipedal hopping in small mammals , 1980, Nature.

[11]  D. W. Milne,et al.  In vivo and in vitro measurement of tendon strain in the horse. , 1980, American journal of veterinary research.

[12]  R. F. Ker Dynamic tensile properties of the plantaris tendon of sheep (Ovis aries). , 1981, The Journal of experimental biology.

[13]  G. Cavagna,et al.  Energetics and mechanics of terrestrial locomotion. III. Energy changes of the centre of mass as a function of speed and body size in birds and mammals. , 1982, The Journal of experimental biology.

[14]  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.

[15]  N. Heglund,et al.  Energetics and mechanics of terrestrial locomotion. I. Metabolic energy consumption as a function of speed and body size in birds and mammals. , 1982, The Journal of experimental biology.

[16]  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.

[17]  A. Biewener Locomotory stresses in the limb bones of two small mammals: the ground squirrel and chipmunk. , 1983, The Journal of experimental biology.

[18]  R. M. Alexander Elastic Energy Stores in Running Vertebrates , 1984 .

[19]  E. Schneider,et al.  Biomechanics: Current Interdisciplinary Research , 1985 .

[20]  In Vivo Tendon Load and Tendon Strain in the Horse , 1985 .

[21]  H C Schamhardt,et al.  In vitro mechanical properties of equine tendons in relation to cross-sectional area and collagen content. , 1985, Research in veterinary science.

[22]  C. R. Taylor,et al.  Bone strain: a determinant of gait and speed? , 1986, The Journal of experimental biology.

[23]  R. F. Ker,et al.  Mechanical properties of various mammalian tendons , 1986 .

[24]  R. F. Ker,et al.  The spring in the arch of the human foot , 1987, Nature.

[25]  R. Blickhan,et al.  Kangaroo rat locomotion: design for elastic energy storage or acceleration? , 1988, The Journal of experimental biology.

[26]  Andrew A. Biewener,et al.  Mechanics of locomotion and jumping in the horse (Equus): in vivo stress in the tibia and metatarsus , 1988 .

[27]  R. M. Alexander,et al.  Elastic mechanisms in animal movement , 1988 .

[28]  R. Blickhan,et al.  Preferred speeds in terrestrial vertebrates: are they equivalent? , 1988, The Journal of experimental biology.

[29]  Rodger Kram,et al.  Energetics of running: a new perspective , 1990, Nature.

[30]  R. Shadwick,et al.  Elastic energy storage in tendons: mechanical differences related to function and age. , 1990, Journal of applied physiology.

[31]  C T Farley,et al.  A mechanical trigger for the trot-gallop transition in horses. , 1991, Science.

[32]  R. Baudinette,et al.  Energetic cost of locomotion in the tammar wallaby. , 1992, The American journal of physiology.

[33]  R. Baudinette,et al.  In vivo muscle force and elastic energy storage during steady-speed hopping of tammar wallabies (Macropus eugenii) , 1995, The Journal of experimental biology.

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

[35]  A. Biewener Muscle Function in vivo: A Comparison of Muscles used for Elastic Energy Savings versus Muscles Used to Generate Mechanical Power1 , 1998 .

[36]  A. Biewener,et al.  In vivo muscle force-length behavior during steady-speed hopping in tammar wallabies. , 1998, The Journal of experimental biology.