The Evolution of Handedness in Primates

  • Peter F. MacNeilage
Part of the Wenner-Gren Center International Symposium Series book series (WGCISS, volume 47)

Abstract

It is almost universally believed that non-human primates do not have population-level hand preference asymmetries. The most influential proponent of this view has been J. M. Warren who has stated it in several recent reviews. (Warren, 1977 a, b; Warren and Nonneman, 1976; Warren, 1980). However this conclusion is probably wrong. There is, in fact, a good deal of evidence for population-level hand preferences in non-human primates. At least a dozen statistically significant asymmetries have been reported, and some of these have been in the literature for many years. When examined closely these results reveal a pattern. The earliest primates, the prosimians, show a left hand preference in reaching for and prehending food. This is also observable in monkeys. But in monkeys there is also evidence for development of a right hand preference for practiced stereotyped acts involving more than simple reaching, in laboratory situations; and there is strong evidence in one study (Beck and Barton, 1972) of a right hand preference for complex manipulative acts. In this study, the left hand reaching preference and the right hand manipulative preference were observed in the same animals. The left hand reaching preference may not be present in apes. There is some evidence for a right hand reaching preference in males. And there is strong evidence in 4 species of apes for a right limb (hand and foot) preference in the initiation of locomotion. In humans of course the left hand preference is absent under ordinary circumstances, but right hand and foot preferences are dominant in the population.

Keywords

Dopamine Cage Lution Bark Kano 

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References

  1. Beck, C.H.M. & Barton, R.L. (1972). Deviation and laterality of hand preference in monkeys. Cortex, 8, 339–363.PubMedGoogle Scholar
  2. Bishop, A. (1964). Use of the hand in lower primates. In Evolu tionary and Genetic Behavior of Primates. Vol. 2, (ed. J. Buettner-Janush). Academic Press, New York.Google Scholar
  3. Bonin, G. von (1962). Anatomical asymmetries of the cerebral hemispheres. In Interhemispheric Relations and Cerebral Dominance. (ed. V. B. Mountcastle, Johns Hopkins University Press, Baltimore.Google Scholar
  4. Box, H.O. (1977). Observations on spontaneous hand use in the common marmoset (Callithrix jacchus). Primates, 18, 395–400.CrossRefGoogle Scholar
  5. Bracha, H.S., Seitz, D.J., Otemaa, J. and Glick, S.D. (1987). Rotational movement (circling) in normal humans: sex difference and relationship to hand, foot and eye preference. Brain Res., (In Press).Google Scholar
  6. Cartmill, M. (1972). Arboreal adaptations and the origin of the order Primates. In The Functional and Evolutionary Biology of Primates. (ed. R.H. Tuttle). Aldine-Atherton, Chicago.Google Scholar
  7. Charles-Dominique, P. and Martin, R.D. (1970). Evolution of lorises and lemures. Nature, 227, 257–260.PubMedCrossRefGoogle Scholar
  8. Dhall, U. and Singh, I. (1977). Anatomical evidence of one-sided forelimb dominance in the rhesus monkey. Anat. Anz., 141, 420–425.PubMedGoogle Scholar
  9. Ettlinger, G. (1961). Lateral preferences in monkeys. Behaviour, 17, 275–287.CrossRefGoogle Scholar
  10. Ettlinger, G. and Moffett, A. (1964). Lateral preferences in the monkey. Nature, 204, 606.PubMedCrossRefGoogle Scholar
  11. Finch, G. (1941). Chimpanzee handedness. Science, 94, 117–118.PubMedCrossRefGoogle Scholar
  12. Gautrin, D. and Ettlinger, G. (1970). Lateral preferences in the monkey. Cortex, 6 ,287–292.PubMedGoogle Scholar
  13. Geschwind, N. (1975). The apraxias. Am. Scient., 63, 188–195.Google Scholar
  14. Glick, S.D., Ross, D.A. and Hough, L.B. (1982). Lateral asymmetry of neurotransmitters in human brain. Brain Res., 234, 53–63.PubMedCrossRefGoogle Scholar
  15. Glick, S.D. and Shapiro, R.M. (1985). Functional and neurochemical mechanisms of cerebral lateralization in rats. In Cerebral Lateralization in Nonhuman Species. (ed. S.D. Glick). Academic Press, Orlando.Google Scholar
  16. Guiard, Y., Diaz, G. and Beaubaton, D. (1983). Left hand advantage in right-handers for spatial constant error: Preliminary evidence in a unimanual ballistic aimed movement. Neuropsych., 21 ,111–115.CrossRefGoogle Scholar
  17. Harris, L.J. (1983). Laterality of function in the infant: historical and contemporary trends in theory and research. In Manual Specialization and The Developing Brain. (eds. G. Young, S.J. Segalowitz, C.M. Corter and S.E. Trehub). Academic Press, Orlando.Google Scholar
  18. Healey, J.M., Liederman, J.L. and Geschwind, N. (1986). Handedness is not a unidimensional trait. Cortex, 22, 33–53.PubMedGoogle Scholar
  19. Heestand, J.E. (1986). Behavioral lateralization in four species of apes? Unpublished Ph.D. Dissertation, University of Washington.Google Scholar
  20. Itani, J. (1957). Personality of Japanese monkeys. Iden., XI, 29–33. (In Japanese).Google Scholar
  21. Itani, J., Tokuda, K., Furuya, Y., Kano, K. and Shin, Y. (1963). The social construction of natural troops of Japanese monkeys in Takasakiyama. Primates, 4, 1–42.CrossRefGoogle Scholar
  22. Kawai, M. (1967). Catching behavior observed in the Koshima troop--a case of newly acquired behavior. Primates, 8, 181–186.CrossRefGoogle Scholar
  23. LeMay, M. (1976). Morphological cerebral asymmetries of modern man, fossil man, and nonhuman primates. In Origins and Evolution of Language and Speech. Ann. N.Y. Acad. Sci. (eds. S.R. Harnad, H.D. Steklis and J. Lancaster). New York Academy of Sciences, New York.Google Scholar
  24. LeMay, M., Billig, M.S. and Geschwind, N. (1982). Asymmetries of the brains and skulls of nonhuman primates. In Primate Brain Evolution: Methods and Concepts. (eds. E. Armstrong and D. Falk). Plenum, New York.Google Scholar
  25. Lindblom, B., MacNeilage, P.F. and Studdert-Kennedy, M.G. (1987). (In preparation) Evolution of Spoken Language. Academic Press, Orlando.Google Scholar
  26. MacNeilage, P.F. (1986). The evolution of hemispheric specialization for manual function and language. In Higher Brain Func tions: Recent Explorations of the Brain’s Emergent Properties. (ed. S. Wise). Wiley, New York. (In Press).Google Scholar
  27. MacNeilage, P.F., Studdert-Kennedy, M.G. and Lindblom, B. (1987). Primate handedness reconsidered. Beh. and Br. Sci. (In Press).Google Scholar
  28. Malina, R.M. and Buschang, P.H. (1984). Anthropometric asymmetry in normal and mentally retarded males. Ann. of Hum. Biol., 11, 515–531.Google Scholar
  29. Michel, G. (1983). Development of hand use preference during infancy. In Manual Specialization and the Developing Brain. (eds. G. Young, S.J. Segalowitz, C.M. Corter and S.E. Trehub). Academic Press, New York.Google Scholar
  30. Milner, A.D. (1969). Distribution of hand preferences in monkeys. Neuropsych., 7, 375–377.CrossRefGoogle Scholar
  31. Napier, J.R. (1962). The evolution of the hand. Scient. Am., 207, 56–62.CrossRefGoogle Scholar
  32. Pande, B.S. and Singh, I. (1971). One sided dominance in the upper limbs of human fetuses as evidenced by asymmetry in muscle and bone weight. J. Anat., 109, 457–459.PubMedGoogle Scholar
  33. Peters, M. and Durding, B.M. (1979). Footedness of left and right handers. Am. J. Psychol., 92, 133–142.CrossRefGoogle Scholar
  34. Preilowski, B. (1979). Performance differences between hands and lack of transfer of finger posture and sensory-motor skill in intact rhesus monkeys: possible model of the origin of cerebral asymmetry.Neuroscience L., Supp., 3, S89.Google Scholar
  35. Proctor, F., Riklan, M., Cooper, I.S. and Teuber, H.L. (1964). Judgment of visual and postural vertical by parkinsonian patients. Neurology, 14, 287–293.PubMedGoogle Scholar
  36. Rothe, H. (1973). Handedness in the common marmoset. (Callithrix jacchus). J. Phys. Anthro., 38, 561–566.CrossRefGoogle Scholar
  37. Sanford, C., Guin, K. and Ward, J.P. (1984). Posture and laterality in the bushbaby (Galago senegalensis). Br. Beh. and Evol., 25, 217–224.CrossRefGoogle Scholar
  38. Schaller, G.B. (1963). The Mountain Gorrila. Chicago University Press, Chicago.Google Scholar
  39. Subramoniam, S. (1957). Some observations on the habits of the slender loris. (Loris tardigradus L) J. Bombay Nat. Hist. Soc., 54, 386–398.Google Scholar
  40. Tan Ü.(1985). Relationships between hand skill and the excitability of motoneurons innervating the postural soleus muscle in human subjects. Int. J. Neurosci., 26, 289–300.PubMedCrossRefGoogle Scholar
  41. Tokuda, K. (1969). On the handedness of Japanese monkeys. Primates, 10, 41–46.CrossRefGoogle Scholar
  42. Warren, J.M. (1977a). Functional lateralization of the brain. In Evolution and Lateralization of the Brain. Ann. N.Y. Acad. Sci. (eds. S.J. Dimond and D.A. Blizard). New York Academy of Sciences, New York.Google Scholar
  43. Warren, J.M. (1977b). Handedness and cerebral dominance in monkeys. In Lateralization in the Nervous System. (eds. S. Hamad, R.W. Doty, J. Jaynes, L. Goldstein and G. Krauthamer). Academic Press, New York.Google Scholar
  44. Warren, J.M. (1980). Handedness and laterality in humans and other animals. Phys. Psychol., 8, 351–359.Google Scholar
  45. Warren, J.M. and Nonneman, A.J. (1976). The search for cerebral dominance in monkeys. In Origins and Evolution of Language and Speech. Ann. N.Y. Acad. Sci. (eds. S.R. Harnad, H.D. Steklis and J. Lancaster). New York Academy of Sciences, New York.Google Scholar
  46. Yeni-Komshian, G. and Benson, D.A. (1976). Anatomical study of cerebral asymmetry in the temporal lobe of humans, chimpanzees, and rhesus monkeys. Science, 192, 387–389.PubMedCrossRefGoogle Scholar
  47. Young, G., Segalowitz, S.J., Misek, P., Ercan Alp, I. and Boulet, R. (1983). Is early reaching left handed? Review of manual specialization research. In Manual Specialization and the De veloping Brain. (eds. G. Young, S.J. Segalowitz, C.M. Corter And S.E. Trehub). Academic Press, New York.Google Scholar

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© The Wenner-Gren Center 1987

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  • Peter F. MacNeilage

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