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Genetic assimilation in ethnic minorities

Published online by Cambridge University Press:  27 September 2011

R. W. Hiorns
R. W. Hiorns
Affiliation:
Department of Biomathematics, University of Oxford
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Extract

Broadly, genetic assimilation may be taken to mean the process by which groups acquire similar genes to one another. In the case of ethnic minorities, this usually involves a minority group and the surrounding majority population. Our knowledge of the genetics of human populations is imperfect and we may declare that only a small fraction of the total set of genes we possess may be identified. These genes may be divided into three subsets:

(1) genes which are known and have known effects upon characteristics of those who possess them;

(2) genes which are known and may be identified but have no known effects;

(3) genes which are unknown, presumed to be awaiting discovery.

Type
IV. Ethnic intermarriage
Information
Journal of Biosocial Science , Volume 15 , supplement S8: Biosocial Aspects of Ethnic Minorities , 1983 , pp. 207 - 218
Copyright
Copyright © Cambridge University Press 1983

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References

Bernstein, F. (1931) Die Geographisch Verteilung der Blutgruppen und ihre Anthropogische Bedeutung. Comitato Italiano per lo Studio dei Problemi della Populazione, Rome.Google Scholar
Compston, D.A.S., Batchelor, J.R., Earl, C.J. & McDonald, W.I. (1978) Factors influencing the risk of multiple sclerosis in patients with optic neuritis. Brain, 101, 495.Google ScholarPubMed
Feinleib, M., Lambert, P.M., Zeiner-Henriksen, T., Rogot, E., Hunt, B.M. & Ingster-Moore, L. (1982) The British-Norwegian Migrant Study—analysis of parameters of mortality differentials associated with angina. In: Current Topics in Biostatistics, pp. 5571. Biometrics, Supplement No. 1.CrossRefGoogle Scholar
Glass, B. & Li, C.C. (1953) The dynamics of racial intermixture—an analysis of the American Negro. Am. J. hum. Genet. 5, 1.Google ScholarPubMed
Harrison, G.A. (1967) The race concept in human biology. J. biosoc. Sci. Suppl. 1, 129.CrossRefGoogle Scholar
Harrison, G.A., Owen, J.J.T., da Rocha, F.J. & Salzano, F.M. (1967) Skin colour in southern Brazilian populations. Hum. Biol. 39, 21.Google ScholarPubMed
Hiorns, R.W. (1973) The dynamics of migration and selection in human populations. In: The Mathematical Theory of the Dynamics of Biological Populations, pp. 203222. Edited by Bartlett, M. S. & Hiorns, R. W.. Academic Press, London.Google Scholar
Hiorns, R.W. (1979) The consequences of intermixture in human populations. Adv. appl. Probability. 11, 5.CrossRefGoogle Scholar
Hiorns, R.W. & Harrison, G.A. (1978) The combined effects of selection and migration in human populations. Man, 12, 438.CrossRefGoogle Scholar
Hiorns, R.W. & Harrison, G.A. (1981) Human migration and population structure. In: The Mathematical Theory of the Dynamics of Biological Populations II, pp. 263279. Edited by Hiorns, R. W. & Cooke, D.. Academic Press, London.Google Scholar
Knip, A. S. (1977) Ethnic studies on sweat gland counts. In: Physiological Variation and its Genetic Basis, pp. 113124. Edited by Weiner, J. S.. Symposium of the Society for the Study of Human Biology 17. Taylor and Francis, London.Google Scholar
Marmot, M.G. (1980) Affluence, urbanization and coronary heart disease. In: Disease and Urbanization, pp. 127144. Edited by Clegg, E. J. & Garlick, J. P.. Symposium of the Society for the Study of Human Biology 20. Taylor and Francis, London.Google Scholar
Ojikutu, R.O. (1965) Die Rolle von Hautpigment und Schweissdrusen in der Klima-anpassung des Menschen. Homo, 16, 77.Google Scholar
Prior, I.A.M., Hooper, A., Huntsman, J.W., Stanhope, J.M. & Salmond, C.E. (1977) The Tokelau Island migrant study. In: Population Structure and Variation, pp. 165186. Edited by Harrison, G. A.. Cambridge University Press, Cambridge.Google Scholar
Schull, W.J. & Rothhammer, F. (1977) A multinational Andean genetic and health programme: a study of adaptation to the hypoxia of altitude. In: Physiological Variation and Its Genetic Basis, pp. 139169. Symposium of the Society for the Study of Human Biology 17. Edited by Weiner, J. S.. Taylor and Francis, London.Google Scholar
Shepherd, D.I. & Downie, A.W. (1980) Ecological factors in multiple sclerosis in north-east Scotland. In: Disease and Urbanization, pp. 93105. Edited by Clegg, E. J. & Garlick, J. P.. Symposium of the Society for the Study of Human Biology 20. Taylor and Francis, London.Google Scholar
Thomson, M.L. (1954) A comparison between the number and distribution of functioning eccrine sweat glands in Europeans and Africans. J. Physiol. 123, 225.CrossRefGoogle ScholarPubMed
Trevor, J.C. (1953) Race Crossing in Man. Eugenics Laboratory Memoirs, XXXVI. University College London. Cambridge University Press, Cambridge.Google Scholar
Weiner, J.S. (1964) In: Human Biology, an Introduction to Human Evolution, Variation and Growth, pp. 401506. Edited by Harrison, G. A., Weiner, J. S., Tanner, J. M. & Barnicot, N. A.. Clarendon Press, Oxford.Google Scholar
Workman, P.L., Blumberg, B.S. & Cooper, A.J. (1963) Selection, gene migration and polymorphic stability in a US white and Negro population. J. hum. Genet. 15, 71.Google Scholar