Segment and joint angles of hind limb during bipedal and quadrupedal walking of the bonobo (Pan paniscus)
about
Locomotion in bonobos (Pan paniscus): differences and similarities between bipedal and quadrupedal terrestrial walking, and a comparison with other locomotor modesLocomotion and posture from the common hominoid ancestor to fully modern hominins, with special reference to the last common panin/hominin ancestorRearfoot posture of Australopithecus sediba and the evolution of the hominin longitudinal archKinematics of primate midfoot flexibilityThree-dimensional moment arms and architecture of chimpanzee (Pan troglodytes) leg musculatureTrabecular evidence for a human-like gait in Australopithecus africanusMuscle dimensions of the foot in the orangutan and the chimpanzeeHuman-like external function of the foot, and fully upright gait, confirmed in the 3.66 million year old Laetoli hominin footprints by topographic statistics, experimental footprint-formation and computer simulation.Morphometrics and inertial properties in the body segments of chimpanzees (Pan troglodytes)Inertial properties of hominoid limb segmentsMorphological analysis of the hindlimb in apes and humans. I. Muscle architectureComplete fourth metatarsal and arches in the foot of Australopithecus afarensis.A new hominin foot from Ethiopia shows multiple Pliocene bipedal adaptations.Bipedal animals, and their differences from humans.Pre-existent vertebral rotation in the human spine is influenced by body positionAnimal models for scoliosis research: state of the art, current concepts and future perspective applicationsThe effect of foot posture on capacity to apply free moments to the ground: implications for fighting performance in great apes.Understanding the evolution of the windlass mechanism of the human foot from comparative anatomy: Insights, obstacles, and future directions.Ischial Form as an Indicator of Bipedal Kinematics in Early Hominins: A Test Using Extant Anthropoids.Planar covariation of limb elevation angles during bipedal walking in the Japanese macaque.Kinematic and EMG determinants in quadrupedal locomotion of a non-human primate (Rhesus).Kinesin family member 6 (kif6) is necessary for spine development in zebrafish.Postural control during quiet bipedal standing in rats.Great ape walking kinematics: Implications for hominoid evolution.Gait characteristics and spatio-temporal variables of climbing in bonobos (Pan paniscus).Brief communication: Cineradiographic analysis of the chimpanzee (Pan troglodytes) talonavicular and calcaneocuboid joints.Quantifying lateral femoral condyle ellipticalness in chimpanzees, gorillas, and humans.Hip extensor mechanics and the evolution of walking and climbing capabilities in humans, apes, and fossil hominins.Trabecular bone patterning in the hominoid distal femur.Kinematics of bipedalism in Propithecus verreauxiThree-dimensional kinematics and the origin of the hominin walking strideUsing primate models to study the evolution of human locomotion: concepts and casesDynamic plantar pressure distribution during terrestrial locomotion of bonobos (Pan paniscus)The strategic role of the tail in maintaining balance while carrying a load bipedally in wild capuchins (Sapajus libidinosus): a pilot study
P2860
Q22065709-5FF91E6A-7C66-4CC5-853C-FF1F6BA8090CQ28274703-5B408C1F-115E-433B-8446-A713582B7CC2Q28606803-EDA2E24D-7EED-4882-AEB4-F3625B0D21ABQ28649535-A783843D-E13B-45DF-A4EB-E67FBC74931EQ28661430-1E3A0374-19EF-4EB6-AD9F-697CE4AB902BQ28661755-73BF0CC3-33DB-420B-AF46-D6A391B1A9B4Q28727472-EEC5B8BB-1E45-4196-ACA4-C85BCD62A40BQ28731870-0C67B0DE-7B67-4D71-835E-575A400D41B9Q28754646-EC01CB0E-9FCA-4F52-8135-88A066AF51DFQ28756540-9DFAC598-593A-417D-95CA-4E909E17B085Q28756570-67CF9687-17E2-4A2F-B61E-20A0109C9EC1Q34163843-B5F666E2-448A-4901-956B-2F7C287B673FQ34213415-6CF9451F-CAD3-4601-8C1E-619FC900C8AEQ34327082-F7805C0E-838F-4B2C-B0E7-3E6BBF9FF5C8Q34337911-9FE646CC-8F17-4EEB-BEBB-6ADCF6E7DE61Q36740111-DA14E550-8105-4A11-BD51-4386AE2E3BB8Q37644542-266E74C3-C8FF-4560-8AB0-20511A3D83B3Q38258915-20407790-5E98-4DAD-9EEC-933EE19FCB98Q38838582-4E757099-662E-4701-9F72-A3A31C0A8698Q41904809-7F1F7655-DBC7-465D-957A-EFE9E92EDAF8Q46761487-A044CE55-4E4F-43A3-8698-B235AEFE0CF0Q47073828-E1F9F29C-10D5-49F6-B524-C07F87F1AC6EQ47135525-99711805-9F2A-456F-B305-23779554A484Q47176616-77844843-34F8-4D54-8FCA-D06AB6A5D43FQ47267619-C4578108-EB8F-4349-91D6-7002E7B5E2C3Q47644001-DF96778A-F810-49D1-8ED4-075423AB7A08Q47825613-EF6A402B-DF49-49F2-AAB1-3211DD28CFA1Q52611923-A4CA4909-AAD7-4102-8258-866E442EF6BFQ55625188-CB093E77-7F2C-43B8-B887-91BA5378CC94Q56287367-F8055695-7FE9-4BC7-A0A0-F764690946CFQ57212181-CD1304FE-80ED-4204-AB8E-36C5C65D8234Q57865926-FCE49ED5-1B90-4605-8E39-DD996496AE1BQ57866409-876738E2-2D1E-46EA-8B2C-17549B5F18EEQ59273538-A1E36DCD-FF36-4306-8CB0-57E760B2369D
P2860
Segment and joint angles of hind limb during bipedal and quadrupedal walking of the bonobo (Pan paniscus)
description
im August 2002 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 2002
@uk
name
Segment and joint angles of hi ...... g of the bonobo (Pan paniscus)
@en
Segment and joint angles of hi ...... drupedal walking of the bonobo
@nl
type
label
Segment and joint angles of hi ...... g of the bonobo (Pan paniscus)
@en
Segment and joint angles of hi ...... drupedal walking of the bonobo
@nl
prefLabel
Segment and joint angles of hi ...... g of the bonobo (Pan paniscus)
@en
Segment and joint angles of hi ...... drupedal walking of the bonobo
@nl
P2093
P2860
P356
P1476
Segment and joint angles of hi ...... g of the bonobo (Pan paniscus)
@en
P2093
Dirk De Clercq
Koen De Meester
Linda Van Elsacker
Peter Aerts
P2860
P356
10.1002/AJPA.10112
P577
2002-08-14T00:00:00Z