From Biped to Strider: The Emergence of Modern Human Walking, Running, and Resource TransportJeff Meldrum, Charles E. Hilton Springer Science & Business Media, 31 мар. 2004 г. - Всего страниц: 213 The inspiration for this volume of contributed papers stemmed from conversations between the editors in front of Chuck Hilton's poster on the determinants of hominid walking speed, presented at thel998 meetings of the American Association of Physical Anthropologists (AAPA). Earlier at those meetings, Jeff Meldrum (with Roshna Wunderlich) had presented an alternate interpretation of the Laetoli footprints based on evidence of midfoot flexibility. As the discussion ensued we found convergence on a number of ideas about the nature of the evolution of modem human walking. From the continuation of that dialogue grew the proposal for a symposium which we called From Biped to Strider: the Emergence of Modem Human Walking. The symposium was held as a session of the 69th annual meeting of the AAPA, held in San Antonio, Texas in 2000. It seemed to us that the study of human bipedalism had become overshadowed by theoften polarized debates over whether australo pithecines were wholly terrestrial in habit, or retained a significant degree of arboreality. |
Содержание
Chapter | 1 |
Chapter | 9 |
Chapter 3 | 35 |
Chapter 4 | 49 |
Chapter 5 | 63 |
Chapter 6 | 85 |
Chapter 7 | 101 |
Chapter 8 | 117 |
The RunningFighting Dichotomy and the Evolution of Aggression | 135 |
Chapter 10 | 163 |
Chapter 11 | 183 |
Chapter 12 | 203 |
Другие издания - Просмотреть все
From Biped to Strider: The Emergence of Modern Human Walking, Running, and ... Jeff Meldrum,Charles E. Hilton Ограниченный просмотр - 2004 |
From Biped to Strider: The Emergence of Modern Human Walking, Running, and ... D. Jeffrey Meldrum,Charles E. Hilton Ограниченный просмотр - 2011 |
Часто встречающиеся слова и выражения
abduction adaptation African apes American Journal analysis anatomy ancestor angle apes and humans arboreal Australopithecus afarensis bending moments biomechanical bipedal locomotion bipeds body mass burden calcaneus carpal chimpanzee Coppens crural index Deloison distal dorsal early hominids edited energetic evolutionary facet females foraging forelimb fossil functional gait Gorilla Hadar hallux heel hindlimbs hominid footprints hominids Homo human bipedalism Human Evolution human foot increased indicate indriids intermediate phalanges Jeffrey Meldrum joint area joint surface Journal of Human Journal of Physical Jungers knee knuckle-walking Kramer Laetoli footprints Laetoli tracks lateral toes Latimer Leakey length limb load locomotor longitudinal arch Lovejoy males McHenry medial cuneiform Meldrum metacarpal metatarsal midcarpal mobility morphology muscles navicular Neandertals pattern phalanges Physical Anthropology plantar Pliocene Pongo positional behavior pressure primates proximal Pumé relatively Resource Transport robust Ruff scaphoid Senut sexual dimorphism skeleton Sterkfontein suggest talus Tanzania tarsal terrestrial tibiae trapezoid Tuttle vertical wrist
Популярные отрывки
Стр. 208 - Coppens. Y. 1982. Hominid tarsal. metatarsal. and phalangeal bones recovered from the Hadar Formation: 1974-1977 collections. Am. J. Phys. Anthropol.