Bipedalism in non-human primates: a comparative review of behavioural and experimental explorations on catarrhines

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• 作者：F. Druelle (1) (2)
  G. Berillon (2)
  
• 关键词：Bipedalism ; Positional repertoire ; Experimental analyses ; Catarrhini ; Evolution ; Bip茅die ; R茅pertoire positionnel ; Analyses exp茅rimentales ; Catarrhini ; 脡volution
• 刊名：Bulletins et m篓娄moires de la Soci篓娄t篓娄 d'anthropologie de Paris
• 出版年：2014
• 出版时间：October 2014
• 年：2014
• 卷：26
• 期：3-4
• 页码：111-120
• 全文大小：153 KB
• 参考文献：1. Crompton RH, Vereecke EE, et al (2008) Locomotion and posture from the common hominoid ancestor to fully modern hominins, with special reference to the last common panin/hominin ancestor. J Anat 212(4):501鈥?3
  2. Rose MD (1976) Bipedal behavior of olive baboons ( / Papio anubis) and its relevance to an understanding of the evolution of human bipedalism. Am J Phys Anthropol 44(2):247鈥?1
  3. Susman RL, Badrian NL, et al (1980) Locomotor behavior of / Pan paniscus in Zaire. Am J Phys Anthropol 53:69鈥?0
  4. Gebo DL (1992) Locomotor and postural behavior in / Alouatta palliata and / Cebus capucinus. Am J Primatol 26(4):277鈥?0
  5. Youlatos D (2002) Positional Behavior of Black Spider Monkeys ( / Ateles paniscus) in French Guiana. Int J Primatol 23(5):1071鈥?3
  6. Aiello LC, Dean C (1990) An introduction to human evolutionary anatomy, London, Academic Press, 596 p
  7. Schmitt DO (2003) Insights into the evolution of human bipedalism from experimental studies of humans and other primates. J Exp Biol 206:1437鈥?8
  8. D鈥橝o没t K, Vereecke EE (2011) Primate Locomotion: Linking Field and Laboratory Research, Springer, New York, 364 p
  9. Hunt KD, Cant J, et al (1996) Standardized descriptions of primate locomotor and postural modes. Primates 37(4):363鈥?7
  10. Cant JGH (1992) Positional behavior and body size of arboreal primates: A theoretical framework for field studies and an illustration of its application. Am J Phys Anthropol 88(3):273鈥?3
  11. Hunt KD (1994) The evolution of human bipedality: ecology and functional morphology. J Hum Evol 26(3):183鈥?02
  12. Hunt KD (2004) The special demands of great ape locomotion and posture. In: Russon AE, Begun DR (eds) The Evolution of Thought. Cambridge University Press, Cambridge, pp 172鈥?9
  13. Gebo DL, Chapman CA (1995) Positional behavior in five sympatric old world monkeys. Am J Phys Anthropol 97(1):49鈥?6
  14. Sarringhaus L, MacLatchy L, et al (2014) Locomotor and postural development of wild chimpanzees. J Hum Evol 66:29鈥?8
  15. Druelle F, Berillon G (2013) Bipedal Behaviour in Olive Baboons: Infants versus Adults in a Captive Environment. Folia Primatol 84(6):347鈥?1
  16. Wells JP, Turnquist JE (2001) Ontogeny of locomotion in rhesus macaques ( / Macaca mulatta): II. Postural and locomotor behavior and habitat use in a free-ranging colony. Am J Phys Anthropol 115(1):80鈥?4
  17. Doran DM (1992) The ontogeny of chimpanzee and pygmy chimpanzee locomotor behavior: a case study of paedomorphism and its behavioral correlates. J Hum Evol 23(2):139鈥?7
  18. Doran DM (1997) Ontogeny of locomotion in mountain gorillas and chimpanzees. J Hum Evol 32(4):323鈥?4
  19. Carvalho S, Biro D, et al (2012) Chimpanzee carrying behaviour and the origins of human bipedality. Curr Biol 22(6):R180鈥揜81
  20. Wrangham RW (1980) Bipedal locomotion as a feeding adaptation in gelada baboons, and its implications for hominid evolution. J Hum Evol 9(4):329鈥?1
  21. Stanford CB (2006) Arboreal bipedalism in wild chimpanzees: Implications for the evolution of hominid posture and locomotion. Am J Phys Anthropol 129(2):225鈥?1
  22. Thorpe SKS, Crompton RH (2006) Orangutan positional behavior and the nature of arboreal locomotion in Hominoidea. Am J Phys Anthropol 131(3):384鈥?01
  23. Thorpe SKS, Holder RL, et al (2007) Origin of Human Bipedalism As an Adaptation for Locomotion on Flexible Branches. Science 316(5829):1328鈥?1
  24. Niemitz C (2010) The evolution of the upright posture and gait 鈥?a review and a new synthesis. Naturwissenschaften 97(3):241鈥?3
  25. Videan EN, McGrew WC (2002) Bipedality in chimpanzee ( / Pan troglodytes) and bonobo ( / Pan paniscus): Testing hypotheses on the evolution of bipedalism. Am J Phys Anthropol 118(2):184鈥?0
  26. Schmitt D (2012) Primate locomotor evolution: Biomechanical studies of primate locomotion and their implications for understanding primate neuroethology. In: Platt ML, Ghazanfar AA (eds), Primate Neuroethology. Oxford University Press, Oxford, pp 31鈥?1
  27. Mori S, Mori F, et al (2006) Higher nervous control of quadrupedal vs bipedal locomotion in non-human primates; Common and specific properties. In: Kimura H, Tsuchiya K, et al (eds) Adaptive Motion of Animals and Machines. Springer Tokyo, Tokyo, pp 53鈥?5
  28. Goetz L, Piallat B, et al (2012) A non-human primate model of bipedal locomotion under restrained condition allowing gait studies and single unit brain recordings. J Neurosci Meth 204(2):306鈥?7
  29. Multon F, Nicolas G, et al (2012) Anthropometry in Bipedal Locomotion: The Link Between Anatomy and Gait. In: Preedy VR (ed) Handbook of Anthropometry. Springer New York, New York, pp 2927鈥?9
  30. Reynolds TR (1987) Stride length and its determinants in humans, early hominids, primates, and mammals. Am J Phys Anthropol 72:101鈥?5
  31. Doran DM (1993) Comparative locomotor behavior of chimpanzees and bonobos: The influence of morphology on locomotion. Am J Phys Anthropol 91(1):83鈥?8
  32. Doran DM (1993) Sex differences in adult chimpanzee positional behavior: The influence of body size on locomotion and posture. Am J Phys Anthropol 91(1):99鈥?15
  33. Elftman H, Manter J (1935) Chimpanzee and human feet in bipedal walking. Am J Phys Anthropol 20:69鈥?9
  34. Hunt KD (1992) Positional behavior of / Pan troglodytes in the Mahale Mountains and Gombe Stream National Parks, Tanzania. Am J Phys Anthropol 87(1):83鈥?05
  35. Hunt KD (1991) Positional behavior in the Hominoidea. Int J Primatol 12(2):95鈥?18
  36. Elftman H (1944) The bipedal walking of the Chimpanzee. J Mammal 25:67鈥?1
  37. Jenkins FAJ (1972) Chimpanzee bipedalism: cineradiographic analysis and implications for the evolution of gait. Science 178:877鈥?9
  38. Tuttle RH, Basmajian JV, et al (1978) Electromyography of pongid gluteal muscles and hominid evolution. In: Chivers DJ, Joysey KA (eds) Recent Advances in Primatology, Volume 3: Evolution. Academic Press, London, pp 463鈥?8
  39. Tuttle RH, Basmajian JV, et al (1979) Activities of pongid thigh muscles during bipedal behavior. Am J Phys Anthropol 50(1):123鈥?5
  40. Ishida H, Kimura T, et al (1975) Patterns of bipedal walking in Anthropoid Primates. In: Kondo S (ed) Proceedings from the Symp of the 5th Cong of the International Primatological Soc. Japan Science Press, Tokyo, pp 287鈥?01
  41. Videan EN, McGrew WC (2002) Body Weight and Bipedality in Captive Chimpanzees ( / Pan troglodytes). Laboratory Primate Newsletter 41(2):1鈥?
  42. Kimura T, Okada M, et al (1977) Dynamics of primate bipedal walking as viewed from the force of foot. Primates 18(1):137鈥?7
  43. Kimura T, Okada M, et al (1983) Speed of the bipedal gaits of man and nonhuman primates. Ann Sci Nat Zool 5:145鈥?8
  44. Kimura T (1985) Bipedal and quadrupedal walking of primates: comparative dynamics. In: Kondo S (ed) Primate morphophysiology, locomotor analyses and human bipedalism. University of Tokyo Press, pp 81鈥?04
  45. Videan EN, McGrew WC (2001) Are bonobos ( / Pan paniscus) really more bipedal than chimpanzees ( / Pan troglodytes)? Am J Primatol 54(4):233鈥?9
  46. Tardieu C (1990) Biomechanical interpretation of 3 bipedal models 鈥?human adult and child, chimpanzee, in light of the results obtained with a new method of 3-dimensional analysis of walking. 1. Evolutionary implications for plio-pleistocene hominid locomotion. CR Acad Sci II 310(7):981鈥?8
  47. Tardieu C (1990) A new method of 3-dimensional analysis of bipedal locomotion, for the study of displacements of the body and body parts centers of gravity in humans and nonhumanprimates 鈥?Evolutionary framework. CR Acad Sci II 310(6):837鈥?2
  48. Tardieu C (1992) Le centre de gravit茅 du corps et sa trajectoire pendant la marche: Evolution de la locomotion des hommes fossiles. Cahiers de Pal茅oanthropologie, Paris, CNRS Editions, 109 p
  49. Tardieu C, Aurengo A, et al (1993) New method of the threedimensional analysis of bipedal locomotion for the study of displacements of the body and body-parts centers of mass in man and non-human primates: Evolutionary framework. Am J Phys Anthropol 90:455鈥?6
  50. Stanford CB (2002) Brief communication: Arboreal bipedalism in Bwindi chimpanzees. Am J Phys Anthropol 119(1):87鈥?1
  51. Stern JT, Susman RL (1981) Electromyography of the gluteal muscles in / Hylobates, / Pongo, and / Pan: Implications for the evolution of hominid bipedality. Am J Phys Anthropol 55(2):153鈥?6
  52. Yamazaki N, Ishida H, et al (1979) Biomechanical analysis of primate bipedal walking by computer simulation. J Hum Evol 8:337鈥?9
  53. Okada M (1985) Primate bipedal walking: comparative kinematics. In: Kondo S, Ishida H, et al (eds) Primate Morphophysiology, Locomotor Analysis and Human Bipedalism. University of Tokyo Press, Tokyo, pp 47鈥?8
  54. Shapiro LJ, Jungers WL (1988) Back muscle function during bipedal walking in chimpanzee and gibbon: implications for the evolution of human locomotion. Am J Phys Anthropol 77(2):201鈥?2
  55. Shapiro LJ, Jungers WL (1994) Electromyography of back muscles during quadrupedal and bipedal walking in primates. Am J Phys Anthropol 93(4):491鈥?04
  56. Kumakura H (1989) Functional analysis of the / biceps femoris muscle during locomotor behavior in some primates. Am J Phys Anthropol 79(3):379鈥?1
  57. Kimura T (1990) Voluntary bipedal walking in infant Chimpanzees. In: Jouffroy FK, Stack MH, et al (eds) Gravity, posture and locomotion in primates. Il Sedicessimo, Firenze, pp 237鈥?1
  58. Kimura T (1996) Centre of gravity of the body during the ontogeny of chimpanzee bipedal walking. Folia Primatol 66(1鈥?):126鈥?6
  59. Kimura T, Yaguramaki N (2009) Development of Bipedal Walking in Humans and Chimpanzees: A Comparative Study. Folia Primatol 80(1):45鈥?2
  60. Thorpe SK, Crompton RH, et al (2004) Stresses exerted in the hindlimb muscles of common chimpanzees ( / Pan troglodytes) during bipedal locomotion. Folia Primatol 75(4):253鈥?5
  61. Sockol MD, Raichlen DA, et al (2007) Chimpanzee locomotor energetics and the origin of human bipedalism. Proc Natl Acad Sci USA 104(30):12265鈥?9
  62. Pontzer H, Raichlen DA, et al (2014) Bipedal and quadrupedal locomotion in chimpanzees. J Hum Evol 66:64鈥?2
  63. Aerts P, Van Damme R, et al (2000) Spatio-temporal gait characteristics of the hind-limb cycles during voluntary bipedal and quadrupedal walking in Bonobos ( / Pan paniscus). Am J Phys Anthropol 111:503鈥?7
  64. D鈥橝o没t K, Aerts P, et al (2001) Studying bonobo ( / Pan paniscus) locomotion using an integrated setup in a zoo environment: preliminary results. Primatologie 4:191鈥?06
  65. D鈥橝o没t K, Vereecke E, et al (2004) Locomotion in bonobos ( / Pan paniscus): differences and similarities between bipedal and quadrupedal terrestrial walking, and a comparison with other locomotor modes. J Anat 204(5):353鈥?1
  66. Kano T, Mulavwa M (1984) Feeding ecology of the pygmy chimpanzees ( / Pan paniscus) of Wamba. In: Susman RL (ed) The pygmy chimpanzee. Plenum Press, New York, pp 233鈥?4
  67. D鈥橝o没t K, Aerts P, et al (2002) Segment and joint angles of hindlimb during bipedal and quadrupedal walking of the Bonobo ( / Pan paniscus). Am J Phys Anthropol 119(1):37鈥?1
  68. Schoonaert K, D鈥橝o没t K, et al (2003) Terrestrial walking versus climbing in bonobos ( / Pan paniscus): Position of the center of mass and consequences for the locomotor behavior. Am J Phys Anthropol S36:186
  69. Susman RL (1984) The locomotor behavior of / Pan paniscus in the Lomako forest. In: Susman RL (ed) The Pygmy Chimpanzee. Plenum Press, New York, pp 369鈥?3
  70. Vereecke E, D鈥橝o没t K, et al (2003) Dynamic plantar pressure distribution during terrestrial locomotion of bonobos ( / Pan paniscus). Am J Phys Anthropol 120(4):373鈥?3
  71. Vereecke E, D鈥橝o没t K, et al (2004) The relationship between speed, contact time and peak plantar pressure in terrestrial walking of bonobos. Folia Primatol 75(4):266鈥?8
  72. Tuttle RH, Watts DP (1985) The positional behavior and adaptive complexes of / Pan gorilla. In: Kondo S. (ed) Primate Morphophysiology, Locomotor Analysis and Human Bipedalism. Tokyo University Press, Tokyo, pp 261鈥?8
  73. Tuttle RH, Basmajian JV, et al (1975) Electromyography of the / gluteus maximus muscle in gorilla and the evolution of bipedalism. In: Tuttle RH (ed) Primate Functional Morphology and Evolution. Mouton, The Hague, pp 253鈥?9
  74. Crompton RH, Thorpe S, et al (2003) The biomechanical evolution of erect bipedality. In: Franzen JL, K枚hler M, et al (eds) Walking upright. E Schweizerbert鈥檚che Verlagsbuchhandlung, Stuttgart, pp 135鈥?6
  75. Doran DM (1996) Comparative positional behavior of the African apes. In: McGrew WC, Marchant LF, Nishida T (eds) Great Ape Societies. Cambridge University Press, Cambridge, pp 213鈥?4
  76. Remis M (1995) Effects of body size and social context on the arboreal activities of lowland gorillas in the Central African Republic. Am J Phys Anthropol 97(4):413鈥?3
  77. Remis M (1998) The gorilla paradox: the effects of body size and habitat on the positional behavior of lowland and mountain gorillas. In: Strasser E, Fleagle J, et al (eds) Primate Locomotion: Recent Advances. Plenum Press, New York, pp 95鈥?06
  78. Sugardjito J (1982) Locomotor behaviour of the Sumatran orang utan ( / Pongo pygmaeus abelii) at Ketambe, Gunung-Leuser National Park. Malay Nat J 35:57鈥?4
  79. Sugardjito J, van Hooff JA (1986) Age-sex class differences in the positional behaviour of the Sumatran orang-utan ( / Pongo pygmaeus abelii) in the Gunung Leuser National Park, Indonesia. Folia Primatol 47(1):14鈥?5
  80. Cant JG (1987) Positional behavior of female Bornean orangutans ( / Pongo pygmaeus). Am J Primatol 12(1):71鈥?0
  81. Cant JG (1987) Effects of sexual dimorphism in body size on feeding postural behavior of Sumatran orangutans ( / Pongo pygmaeus). Am J Phys Anthropol 74(2):143鈥?8
  82. Thorpe SK, Crompton RH (2005) Locomotor ecology of wild orangutans ( / Pongo pygmaeus abelii) in the Gunung Leuser Ecosystem, Sumatra, Indonesia: A multivariate analysis using loglinear modelling. Am J Phys Anthropol 127(1):58鈥?8
  83. Putt SS (2009) Captive orangutan locomotion and its relation to the origin of human bipedalism. Lambda Alpha Journal 39:23鈥?8
  84. Myatt JP, Thorpe SKS (2011) Postural strategies employed by orangutans ( / Pongo abelii) during feeding in the terminal branch niche. Am J Phys Anthropol 146(1):73鈥?2
  85. Manduell KL, Morrogh-Bernard HC, et al (2011) Locomotor behavior of wild orangutans ( / Pongo pygmaeus wurmbii) in disturbed peat swamp forest, Sabangau, Central Kalimantan, Indonesia. Am J Phys Anthropol 145(3):348鈥?9
  86. Fleagle JG (1980) Locomotion and posture. In: Chivers DJ (ed) Malayan forest primates. Plenum Press, New York, pp 191鈥?07
  87. Fleagle JG (1976) Locomotion and Posture of the Malayan Siamang and Implications for Hominoid Evolution. Folia Primatol 26(4):245鈥?9
  88. Prost JH (1967) Bipedalism of man and gibbon compared using estimates of joint motion. Am J Phys Anthropol 26(2):135鈥?8
  89. Ishida H, Okada M, et al (1978) Activities of hindlimb muscles in bipedal gibbons. In: Chivers DJ, Joysey KA (eds) Recent Advances in Primatology, Volume 3: Evolution. Academic Press, London, pp 459鈥?2
  90. Vereecke EE, D鈥橝o没t K, et al (2005) Functional analysis of the gibbon foot during terrestrial bipedal walking: plantar pressure distributions and three-dimensional ground reaction forces. Am J Phys Anthropol 128(3):659鈥?9
  91. Vereecke EE, D鈥橝o没t K, et al (2006) Speed modulation in hylobatid bipedalism: A kinematic analysis. J Hum Evol 51(5):513鈥?6
  92. Vereecke EE, D鈥橝o没t K, et al (2006) Locomotor versatility in the white-handed gibbon ( / Hylobates lar): A spatiotemporal analysis of the bipedal, tripedal, and quadrupedal gaits. J Hum Evol 50(5):552鈥?7
  93. Vereecke EE, D鈥橝o没t K, et al (2006) The dynamics of hylobatid bipedalism: evidence for an energy-saving mechanism? J Exp Biol 209(15):2829鈥?8
  94. Vereecke EE, Aerts P (2008) The mechanics of the gibbon foot and its potential for elastic energy storage during bipedalism. J Exp Biol 211(23):3661鈥?0
  95. Cannon CH, Leighton M (1994) Comparative locomotor ecology of gibbons and macaques: Selection of canopy elements for crossing gaps. Am J Phys Anthropol 93(4):505鈥?4
  96. Gittins SP (1983) Use of the Forest Canopy by the Agile Gibbon. Folia Primatol 40(1鈥?):134鈥?4
  97. Yamazaki N, Ishida H (1984) A biomechanical study of vertical climbing and bipedal walking in gibbons. J Hum Evol 13(7):563鈥?1
  98. Okada M, Kondo S (1982) Gait and EMGs during bipedal walk of a gibbon ( / Hylobates agilis) on flat surface. J Anthropol Soc Nip 90(3):325鈥?0
  99. Okada M, Yamazaki N, et al (1983) Biomechanical characteristics of hylobatid walking on flat surfaces. Ann Sci Nat Zool 5:137鈥?4
  100. Srikosamatara S (1984) Ecology of pileated gibbons in southeast Thailand. In: Preuschoft H, Chivers DJ, et al (eds) The Lesser Apes. Edinburgh University Press, Edinburgh, pp 242鈥?57
  101. Schmid P, Piaget A (1994) Three dimensional kinematics of bipedal locomotion. Z Morphol Anthropol 80(1):79鈥?7
  102. Chatani K (2003) Positional behavior of free-ranging Japanese macaques ( / Macaca fuscata). Primates 44(1):13鈥?3
  103. Ogihara N, Usui H, et al (2005) Kinematic analysis of bipedal locomotion of a Japanese macaque that lost its forearms due to congenital malformation. Primates 46(1):11鈥?9
  104. Ogihara N, Hirasaki E, et al (2007) Ground-reaction-force profiles of bipedal walking in bipedally trained Japanese monkeys. J Hum Evol 53(3):302鈥?8
  105. Ogihara N, Makishima H, et al (2010) Three-dimensional musculoskeletal kinematics during bipedal locomotion in the Japanese macaque, reconstructed based on an anatomical modelmatching method. J Hum Evol 58(3):252鈥?1
  106. Ogihara N, Hirasaki E, et al (2011) Experimental and computational studies of bipedal locomotion in the bipedally trained Japanese macaque. In: D鈥橝o没t K, Vereecke EE (eds) Primate Locomotion: Linking Field and Laboratory Research. Springer, New York, pp 47鈥?9
  107. Ogihara N, Kikuchi T, et al (2012) Planar covariation of limb elevation angles during bipedal walking in the Japanese macaque. J R Soc Interface 9(74):2181鈥?0
  108. Mori F, Nakajima K, et al (2004) Reactive and anticipatory control of posture and bipedal locomotion in a nonhuman primate. Prog Brain Res 143:191鈥?8
  109. Nakajima K, Mori F, et al (2004) Biomechanical constraints in hindlimb joints during the quadrupedal versus bipedal locomotion of / M. fuscata. Prog Brain Res 143:183鈥?0
  110. Nakatsukasa M, Ogihara N, et al (2004) Energetic costs of bipedal and quadrupedal walking in Japanese macaques. Am J Phys Anthropol 124(3):248鈥?6
  111. Nakatsukasa M, Hirasaki E, et al (2006) Energy expenditure of bipedal walking is higher than that of quadrupedal walking in Japanese macaques. Am J Phys Anthropol 131(1):33鈥?7
  112. Hirasaki E, Ogihara N, et al (2004) Do highly trained monkeys walk like humans? A kinematic study of bipedal locomotion in bipedally trained Japanese macaques. J Hum Evol 46(6):739鈥?0
  113. Hirasaki E, Higurashi Y, et al (2010) Brief communication: Dynamic plantar pressure distribution during locomotion in Japanese macaques ( / Macaca fuscata). Am J Phys Anthropol 142(1):149鈥?6
  114. Cant JGH (1988) Positional behavior of long-tailed Macaques ( / Macaca fascicularis) in Northern Sumatra. Am J Phys Anthropol 76(1):29鈥?7
  115. Rose M (1977) Positional behaviour of olive baboons ( / Papio anubis) and its relationship to maintenance and social activities. Primates 18(1):59鈥?16
  116. Berillon G, Daver G, et al (2010) Bipedal versus Quadrupedal Hind Limb and Foot Kinematics in a Captive Sample of / Papio anubis: Setup and Preliminary Results. Int J Primatol 31(2):159鈥?0
  117. Berillon G, D鈥橝o没t K, et al (2011) In what manner do quadrupedal primates walk on two legs? Preliminary results on Olive baboons ( / Papio anubis). In: D鈥橝o没t K, Vereecke EE (eds) Primate Locomotion: Linking Field and Laboratory Research. Springer, New York, pp 61鈥?2
  118. Berillon G, Molina Vila P, et al (2013) Biomechanics and Control of Walking in Olive Baboons ( / Papio anubis): New Perspectives from Trained and Instrumented Animals. Folia Primatol 84(3鈥?):249鈥?9
  119. Vangor AK (1979) Electromyography of gait in non-human primates and its significance for the evolution of bipedality. PhD, State University of New York at Stony Brook: New York. p. 627.
  120. Vangor AK, Wells JP (1983) Muscle recruitment and the evolution of bipedality: evidence from telemetered electromyography of spider, woolly and patas monkeys. Annales des Sciences Naturelles, Zoologie 5(3):125鈥?5
  121. McGraw WS (1996) Cercopithecid locomotion, support use, and support availability in the Tai Forest, Ivory Coast. Am J Phys Anthropol 100(4):507鈥?2
  122. McGraw WS (1998) Locomotion, support use, maintenance activities, and habitat structure: the case of the Tai Forest cercopithecids. In: Strasser E, Fleagle J, et al (eds) Primate locomotion: recent advances. Plenum Press, New York, pp 79鈥?4
  123. Rose MD (1979) Positional behavior of natural populations: Some quantitative results of a field study of / Colobus guereza and / Cercopithecus aethiops. In: Morbeck M, Preuschoft H, Gomberg N (eds) Environment, Behavior, Morphology: Dynamic Interactions in Primates. Gustav Fischer, New York, pp 75鈥?3
  124. Workman C, Schmitt D (2011) Positional Behavior of Delacour鈥檚 Langurs ( / Trachypithecus delacouri) in Northern Vietnam. Int J Primatol 33(1):19鈥?7
  125. Gebo DL, Chapman CA (1995) Habitat, annual, and seasonal effects on positional behavior in red colobus monkeys. Am J Phys Anthropol 96(1):73鈥?2
  126. Mittermeier RA, Fleagle JG (1976) The locomotor and postural repertoires of / Ateles geoffroyi and / Colobus guereza, and a reevaluation of the locomotor category semibrachiation. Am J Phys Anthropol 45(2):235鈥?5
  127. Morbeck ME (1975) Positional behaviour in / Colobus guereza: A preliminary analysis. In: Kondo S (ed) Proceedings from the Symposium of the 5th Congress of the International Primatological Society. Japan Science Press, Tokyo, pp 331鈥?3
  128. Morbeck ME (1979) Forelimb use and positional adaptation in / Colobus guereza: Integration of behavioral, ecological, and anatomical data. In: Morbeck M, Preuschoft H, Gomberg N (eds) Environment, Behavior, Morphology: Dynamic Interactions in Primates. Gustav Fischer, New York, pp 95鈥?17
  129. Morbeck ME (1977) Positional behavior, selective use of habitat substrate and associated non-positional behavior in free-ranging / Colobus guereza (Ruppel, 1835). Primates 18:35鈥?8
  130. Dasilva GL (1993) Postural changes and behavioural thermoregulation in / Colobus polykomos: the effect of climate and diet. Afr J Ecol 31(3):226鈥?1
  131. Schmitt D (2011) Translating primate locomotor biomechanical variables from the laboratory to the field. In: D鈥橝o没t K, Vereecke EE (eds) Primate Locomotion: Linking Field and Laboratory Research. Springer, New York, pp 7鈥?7
  132. Patel BA, Horner AM, et al (2013) Ontogenetic Scaling of Foreand Hind Limb Posture in Wild Chacma Baboons ( / Papio hamadryas ursinus). PLoS One 8(7):e71020
  
• 作者单位：F. Druelle (1) (2)
  G. Berillon (2)
  
  1. Functional Morphology Laboratory, Department of Biology, University of Antwerp, Universiteitsplein 1, B-2610, Antwerpen, Belgium
  2. UPR 2147 CNRS, 44 rue de l鈥橝miral Mouchez, Paris, France
  
• ISSN：1777-5469

文摘

Non-human primates are commonly used as comparative models to investigate the evolutionary origins of habitual bipedal walking. After almost a century of research in the field of behaviour and functional anatomy, the need for integrative analyses is being widely discussed. In that perspective, the purpose of this note is to report on the available literature on quantitative behavioural and experimental studies of bipedalism in catarrhines. Examples are given of their respective contributions to fundamental knowledge on bipedalism in non-human primates. We then introduce various prospects for integrative explorations with a view to developing evolutionary hypotheses and to improve existing fundamental knowledge through experimental studies of the bipedal walking function in its ecological and behavioural contexts.