| scholarly article | Q13442814 |
| P2093 | author name string | Daniel Schmitt | |
| Jandy B Hanna | |||
| P2860 | cites work | Chimpanzee locomotor energetics and the origin of human bipedalism | Q22066355 |
| Efficient bipedal robots based on passive-dynamic walkers | Q28235722 | ||
| Muscular force in running turkeys: the economy of minimizing work | Q28303257 | ||
| New Paleocene skeletons and the relationship of plesiadapiforms to crown-clade primates | Q28763757 | ||
| Energetics of bipedal running. II. Limb design and running mechanics. | Q32024300 | ||
| Energetics of bipedal running. I. Metabolic cost of generating force | Q32024314 | ||
| Mediolateral reaction forces and forelimb anatomy in quadrupedal primates: implications for interpreting locomotor behavior in fossil primates | Q33186169 | ||
| Evolutionary implications of the unusual walking mechanics of the common marmoset (C. jacchus). | Q33188192 | ||
| Substrate alters forelimb to hindlimb peak force ratios in primates. | Q33198642 | ||
| Footfall patterns, stride length and speed of vertical climbing in spider monkeys (Ateles fusciceps robustus) and woolly monkeys (Lagothrix lagotricha). | Q33204542 | ||
| 3D-kinematics of vertical climbing in hominoids. | Q33207092 | ||
| MECHANICAL WORK IN RUNNING. | Q33971520 | ||
| Origin of human bipedalism: The knuckle-walking hypothesis revisited | Q34109080 | ||
| Origin of bipedalism | Q71499350 | ||
| External, internal and total work in human locomotion | Q72116456 | ||
| The relationship between mechanical work and energy expenditure of locomotion in horses | Q78108665 | ||
| Predicting the energy cost of terrestrial locomotion: a test of the LiMb model in humans and quadrupeds | Q79596781 | ||
| Mechanical function of two ankle extensors in wild turkeys: shifts from energy production to energy absorption during incline versus decline running | Q80124086 | ||
| The effect of branch diameter on primate gait sequence pattern | Q81525663 | ||
| ANALYZING TABLES OF STATISTICAL TESTS | Q88207206 | ||
| Mechanical work in terrestrial locomotion: two basic mechanisms for minimizing energy expenditure | Q34202202 | ||
| Energetics of running: a new perspective | Q34762537 | ||
| Functional diversification within and between muscle synergists during locomotion | Q36699572 | ||
| Effects of load carrying on metabolic cost and hindlimb muscle dynamics in guinea fowl (Numida meleagris). | Q36700758 | ||
| Dynamics of goat distal hind limb muscle-tendon function in response to locomotor grade | Q37242746 | ||
| Adaptive origins of primates revisited | Q38383344 | ||
| Grasping primate origins | Q38388044 | ||
| Walking on inclines: energetics of locomotion in the ant Camponotus. | Q38881258 | ||
| Primate origins: evolutionary change in digital ray patterning and segmentation | Q39564449 | ||
| Muscle force-length dynamics during level versus incline locomotion: a comparison of in vivo performance of two guinea fowl ankle extensors | Q39655727 | ||
| Climbing, brachiation, and terrestrial quadrupedalism: historical precursors of hominid bipedalism | Q41172045 | ||
| Energetics of ascent: insects on inclines. | Q41227566 | ||
| The lorisiform wrist joint and the evolution of “brachiating” adaptations in the hominoidea | Q41324987 | ||
| Energetics and mechanics of terrestrial locomotion. IV. Total mechanical energy changes as a function of speed and body size in birds and mammals | Q41460505 | ||
| Measurement of VO2, VCO2, and evaporative water loss with a flow-through mask | Q42596565 | ||
| Biomechanics of mammalian terrestrial locomotion | Q43449178 | ||
| Mechanical work and efficiency in level walking and running | Q43615094 | ||
| Positional behavior ofPan troglodytes in the Mahale Mountains and Gombe Stream National Parks, Tanzania | Q43955911 | ||
| Metabolic cost of generating muscular force in human walking: insights from load-carrying and speed experiments | Q44095699 | ||
| External forces and torques generated by the brachiating white-handed gibbon (Hylobates lar). | Q45225957 | ||
| Biomechanical and energetic determinants of the walk-trot transition in horses | Q46216196 | ||
| A dynamic force and moment analysis system for brachiation | Q46274815 | ||
| Mechanical work for step-to-step transitions is a major determinant of the metabolic cost of human walking | Q46280733 | ||
| In vivo muscle function vs speed. II. Muscle function trotting up an incline | Q46598787 | ||
| Electromyography of 15 limb muscles in Japanese macaques (Macaca fuscata) during vertical climbing | Q47211808 | ||
| Kinematics of vertical climbing in lorises and Cheirogaleus medius | Q47226137 | ||
| Energetics and mechanics of terrestrial locomotion. I. Metabolic energy consumption as a function of speed and body size in birds and mammals | Q47269485 | ||
| Kinesiological characteristics of vertical climbing in Ateles geoffroyi and Macaca fuscata | Q47275289 | ||
| Energetic costs of bipedal and quadrupedal walking in Japanese macaques | Q47334846 | ||
| Using body size to understand the structural design of animals: quadrupedal locomotion | Q47346079 | ||
| Running Up and Down Hills: Some Consequences of Size | Q47371285 | ||
| Biomechanical analysis of vertical climbing in the spider monkey and the Japanese macaque | Q47652212 | ||
| The energetic cost of climbing in primates | Q47686025 | ||
| New primate hind limb elements from the middle Eocene of China | Q47686919 | ||
| Chimpanzee Bipedalism: Cineradiographic Analysis and Implications for the Evolution of Gait | Q47722402 | ||
| Revisiting the adaptive origins of primates (again). | Q47770093 | ||
| The energetic cost of locomotion: humans and primates compared to generalized endotherms | Q48007874 | ||
| Sprint running: a new energetic approach. | Q51411276 | ||
| A point-mass model of gibbon locomotion. | Q52205018 | ||
| One-step N2-dilution technique for calibrating open-circuit VO2 measuring systems. | Q52734410 | ||
| Some fundamental aspects of the biomechanics of overground versus treadmill locomotion. | Q52767481 | ||
| Origin of human bipedalism: The knuckle-walking hypothesis revisited | Q55921908 | ||
| Standardized descriptions of primate locomotor and postural modes | Q56552422 | ||
| A collisional model of the energetic cost of support work qualitatively explains leg sequencing in walking and galloping, pseudo-elastic leg behavior in running and the walk-to-run transition | Q57525665 | ||
| Locomotion and posture of the Malayan siamang and implications for hominoid evolution | Q57568914 | ||
| Habitual energy expenditure of human climbing and clambering | Q58271636 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 43-54 | |
| P577 | publication date | 2011-05-01 | |
| P1433 | published in | American Journal of Biological Anthropology | Q4744260 |
| P1476 | title | Locomotor energetics in primates: gait mechanics and their relationship to the energetics of vertical and horizontal locomotion | |
| P478 | volume | 145 |
| Q28712659 | Comparative analyses of evolutionary rates reveal different pathways to encephalization in bats, carnivorans, and primates |
| Q38718144 | Contextualising primate origins--an ecomorphological framework |
| Q57632313 | Factors Influencing Positional Behavior and Habitat Use of Sympatric Macaques in the Limestone Habitat of Nonggang, China |
| Q41483313 | Ontogeny of positional behavior and support use among Colobus angolensis palliatus of the Diani Forest, Kenya |
| Q38723284 | The evolution of vertical climbing in primates: evidence from reaction forces |
| Q46039432 | The scaling of uphill and downhill locomotion in legged animals. |
| Q34457969 | Vegetable exudates as food for Callithrix spp. (Callitrichidae): exploratory patterns |
Search more.