04643nam 2200661 450 991082162090332120230808191542.01-119-11373-31-119-11372-5(CKB)3710000000585443(EBL)4386032(SSID)ssj0001600656(PQKBManifestationID)16165338(PQKBTitleCode)TC0001600656(PQKBWorkID)14805719(PQKB)10175318(PQKBManifestationID)16308311(PQKB)22384555(MiAaPQ)EBC4386032(DLC) 2015039712(Au-PeEL)EBL4386032(CaPaEBR)ebr11151819(CaONFJC)MIL892904(OCoLC)924683566(EXLCZ)99371000000058544320160215h20162016 uy 0engur|n|---|||||txtccrUnderstanding mammalian locomotion concepts and applications /John E. A. BertramHoboken, New Jersey :Wiley Blackwell,2016.©20161 online resource (550 p.)Description based upon print version of record.0-470-45464-4 1-119-11371-7 Includes bibliographical references at the end of each chapters and index.Machine generated contents note: List of Contributors Preface 1. Concepts through time: Historical perspectives on mammalian locomotion John E. A. Bertram 2. Considering gaits: Descriptive approaches John E. A. Bertram 3. Muscles as actuators Anne K. Gutmann, John E. A. Bertram 4. Concepts in locomotion: Levers, struts, pendula and springs John E. A. Bertram 5. Concepts in locomotion: Wheels, spokes, collisions and insight from the center of mass John E. A. Bertram 6. Reductionist models of walking and running Part 1: Bipedal locomotion and the "Ultimate cost of legged locomotion" Part 2: Quadrupedal locomotion James R. Usherwood 7. Whole body mechanics: how leg compliance shapes the way we move A. Seyfarth, H. Geyer, S. Lipfert, J. Rummel, Y. Blum, M. Maus and D. Maykranz 8. The most important feature of an organism's biology: Dimension, similarity and scale John E. A. Bertram 9. Accounting for the influence of animal size on biomechanical variables: concepts and considerations Sharon Bullimore 10. Locomotion in Small Tetrapods: Size-Based Limitations to "Universal Rules" in Locomotion Audrone Biknevicius, Stephen M. Reilly and Elvidin Klijuno 11. Non-steady locomotion Monica A. Daley 12. The evolution of terrestrial locomotion in bats: the bad, the ugly, and the good Daniel K. Riskin, John E. A. Bertram, John W. Hermanson 13. The Fight or Flight Dichotomy: Functional Tradeoff in Specialization for Aggression Versus Locomotion David R. Carrier 14. Design for prodigious size without extreme body mass: Dwarf elephants, differential scaling and implications for functional adaptation John E. A. Bertram 15. Basic mechanisms of bipedal locomotion: head-supported loads and strategies to reduce the cost of walking James R. Usherwood and John E.A. Bertram 16. Would a horse on the moon gallop? Directions available in locomotion research (and how not to spend too much time exploring blind alleys) John E. A. Bertram Index ."Understanding Mammalian Locomotion will formally introduce the emerging perspective of collision dynamics in mammalian terrestrial locomotion and explain how it influences the interpretation of form and functional capabilities. The objective is to bring the reader interested in the function and mechanics of mammalian terrestrial locomotion to a sophisticated conceptual understanding of the relevant mechanics and the current debate ongoing in the field"--Provided by publisher."This book will formally introduce the immerging perspective of collision dynamics in mammalian terrestrial locomotion and explain how it influences the interpretation of form and functional capabilities"--Provided by publisher.Animal locomotionMammalsPhysiologyLocomotionRegulationPhysiological aspectsAnimal locomotion.MammalsPhysiology.LocomotionRegulationPhysiological aspects.591.5/7SCI008000bisacshBertram John Edward Arthur1954-1593989MiAaPQMiAaPQMiAaPQBOOK9910821620903321Understanding mammalian locomotion3914376UNINA