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Sex linked versus autosomal inbreeding coefficient in close consanguineous marriages in the Basque country and Castile (Spain): genetic implications

Published online by Cambridge University Press:  31 July 2008

R. Calderón ,
B. Morales ,
J. A. Peña  and
J. Delgado
R. Calderón
Affiliation:
Department of Animal Biology and Genetics, Faculty of Sciences, University of Basque Country, Bilbao, Spain
B. Morales
Affiliation:
Department of Animal Biology and Genetics, Faculty of Sciences, University of Basque Country, Bilbao, Spain
J. A. Peña
Affiliation:
Department of Animal Biology and Genetics, Faculty of Sciences, University of Basque Country, Bilbao, Spain
J. Delgado
Affiliation:
Department of Animal Biology and Genetics, Faculty of Sciences, University of Basque Country, Bilbao, Spain
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Summary

Pedigree structures of 161 uncle/niece-aunt/nephew and 4420 first cousin consanguineous marriages registered during the 19th and 20th centuries in two large and very different Spanish regions have been analysed and their genetic consequences evaluated. The frequencies of the different pedigree subtypes within each degree of relationship were quite similar in both populations despite significant heterogeneity in inbreeding patterns. The mean X-linked inbreeding coefficient (Fx) for each type of cousin mating was calculated and compared to that expected for autosomal genes (F). The effect of genealogical structure on the Fx/F radio was compared to different cultural populations worldwide. Preferentiality and avoidance of close consanguinity along with specific types of pedigrees are discussed on the basis of premarital migration and sociocultural rules still deeply rooted in certain human groups. By admitting that the observed Fx coefficient is usually higher than F in most human populations some remarks have been made in terms of population genetic risk.

Type
Research Article
Information
Journal of Biosocial Science , Volume 27 , Issue 4 , October 1995 , pp. 379 - 391
Copyright
Copyright © Cambridge University Press 1995

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References

Al-Awadi, S. A., Moussa, M. A., Naguib, K. K., Farag, T. I., Teebi, A. S., El-Khalifa, M. & El-Dossarand, L. (1985) Consanguinity among the Kuwaiti population. Clin. Genet. 27, 483.CrossRefGoogle Scholar
Alonso, J. (1981) Contribución al Estudio de la Endogamia y Consanguinidad en el Archipielago Canario. PhD Thesis, Departamento de Antropología, Universidad Complutense de Madrid.Google Scholar
Barrai, I., Cavalli-Sforza, L. L. & Moroni, A. (1962) Frequencies of pedigrees of consanguineous marriages and mating structure of the population. Ann. hum. Genet. 25, 347.Google Scholar
Basaran, N., Sayli, B. S., Basaran, A., Solak, M., Certan, S. & Stevenson, J. D. (1988) Consanguineous marriages in the Turkish population. Clin. Genet. 34, 339.Google Scholar
Bittles, A. H. (1990) Consanguineous Marriage, Current Global Incidence and its Relevance to Demographic Research. Research Reports 90, 186. Population Studies Center, University of Michigan.Google Scholar
Bittles, A. H., Mason, W. M., Greene, J. & Rao, N. A. (1991) Reproductive behavior and health in consanguineous marriages. Science, 252, 789.Google Scholar
Calderón, R. (1989) Consanguinity in the Archbishopric of Toledo, Spain, 1900–79: types of consanguineous mating in relation to premarital migration and its effects on inbreeding level. J. biosoc. Sci. 21, 253.Google Scholar
Calderón, R., Morales, M. B., Lepage, Y., Peña, J. A. & Guevara, J. I. (1993 a) Typologies migratoires et mariages consanguins, signification démographique et génétique. Antropologie et Préhistoire, 104, 8.Google Scholar
Calderón, R., Peña, J. A., Morales, M. B. & Guevara, J. I. (1993 b) Inbreeding patterns in the Basque Country (Alava province, 1831–1980). Hum. Biol. 55, 743.Google Scholar
Cazes, M. H. & Jacquard, A. (1981) Mating structure in the Dogon Population in the Tabi Massif. Social Biol. 28, 281.Google Scholar
Centerwall, W. R., Savarinathan, G., Moran, L. R., Booshanam, V. & Zachariah, M. (1969) Inbreeding patterns in rural South India. Social Biol. 16, 81.Google Scholar
Crow, J. F. & Kimura, M. (1970) An Introduction to Population Genetics Theory. Harper & Row, New York.Google Scholar
Darr, A. & Modell, B. (1988) The frequency of consanguineous marriages among British Pakistanis. J. med. Genet. 25, 186.Google Scholar
Freire-Maia, N. & Freire-Maia, A. (1961) The structure of consanguineous marriages and its genetics implications. Ann. hum. Genet. 25, 29.Google Scholar
Goldschmidt, E., Ronen, A. & Ronen, I. (1960) Changing marriage systems in the Jewish communities of Israel. Ann. hum. Genet. 24, 191.Google Scholar
Hafez, M., El-Tahan, H., Awadalla, M., El-Khaandat, H., Abdel-Gafar, A. & Ghoneim, M. (1983) Consanguineous matings in the Egyptian population. J. med. Genet. 20, 58.Google Scholar
Hajnal, J. (1963) Concepts of random mating and the frequency of consanguineous marriages. Proc. R. Soc. Lond. (B) 159, 125.Google Scholar
Haldane, J. B. & Moshinsky, P. (1939) Inbreeding in Mendelian populations with special reference to human cousin marriage. Ann. Eugen. Lond. 321.Google Scholar
Jorde, L. B. & Pitkanen, K. J. (1991) Inbreeding in Finland. Am. J. Phys. Anthropol. 84, 127.Google Scholar
Khlat, M. (1988) Consanguineous marriages and reproduction in Beirut Lebanon., Am. J. hum. Genet. 43, 188.Google Scholar
Khlat, M. (1989) Les Mariages Consanguins a Beyrouth. Institut National d'études Démographiques, Paris.Google Scholar
Khlat, M. & Khudr, A. (1986) Endogamy and consanguinity in marriage patterns in Beirut, Lebanon. Social Biol. 33, 138.Google Scholar
Khoury, S. A. & Massad, D. (1992) Consanguineous marriages in Jordan. Am. J. med. Genet. 43, 769.Google Scholar
Laberge, C. (1967) La consanguinité des canadiens français. Population, 5, 861.Google Scholar
Leslie, P. W. (1983) Age correlation between mates and average consanguinity in agestructured human populations. Am. J. hum. Genet. 35, 962.Google Scholar
Leslie, P. W. (1985) Potential mates analysis and the study of human population structure. Yrbk Phys. Anthropology. 28, 53.Google Scholar
Leslie, W., MacCluer, J. W. & Dyke, B. (1978) Consanguinity avoidance and genotype frequencies in human populations. Am. J. hum. Genet. 50, 281.Google Scholar
Levitan, M. (1988) Textbook of Human Genetics. Oxford University Press, New York.Google Scholar
Ludwig, W. (1949) Die Häufigkeiten der 4 Typen von Vetternehen. Genus. 6, 259.Google Scholar
Majumder, P. P. (1977) Matrimonial migration, a review, with special reference to India. J. biosoc. Sci. 9, 381.Google Scholar
Malhotra, K. C. (1979) Inbreeding among Dhangar castes of Maharashtra, India. J. biosoc. Sci. 11, 397.Google Scholar
McKusick, V. A. (1988) Mendelian Inheritance in Man, 8th edn. Johns Hopkins University Press, Baltimore.Google Scholar
Modell, B. & Kuliev, A. M. (1992) Social and Genetic Implications of Customary Consanguineous Marriages among British Pakistanis. Occasional papers, Second Series No. 4, p. 52. Galton Institute, London.Google Scholar
Morales, M. B. (1992) Estructura de la Consanguinidad en la Diócesis de Sigüenza-Guadalajara. Variación Histórica, Microgeográfica y Genalógica. PhD thesis, Facultad de Ciencias. Universidad del País Vasco.Google Scholar
Moroni, A. (1962) Frequenza dei matrimoni consanguinei in Italia. Atti Ass. Genet. Ital. 7, 94.Google Scholar
Morton, N. E. (1955) Non randomness in consanguineous marriages. Ann. hum. Genet. 20, 116.Google Scholar
Nixon, W. L. B. & Slater, E. (1957) A second investigation into the children of cousins. Acta Genet. 7, 513.Google Scholar
Orel, H. (1932) Die Verwandtenehen in der Erdiözese Wien. Arch. Rassemb. 26, 249.Google Scholar
Pingle, U. (1983) Comparative analysis of mating systems and marriage distance patterns in five tribal groups of Andhra Pradesh, India. Social. Biol. 30, 67.Google Scholar
Ramesh, A., Srikumari, C. R. & Sukumar, S. (1989) Parallel cousin marriages in Madras, Tamil Nadu, New trends in dravidian kinship. Social Biol. 36, 248.Google Scholar
Rao, P. S. & Inbaraj, S. G. (1977) Inbreeding in Tamil Nadu South India. Social Biol. 24, 281.Google Scholar
Reddy, B. H. & Malhotra, K. C. (1991) Relationship between birth order of spouses with different degrees of consanguineous relationship. Hum. Biol. 63, 489.Google Scholar
Roberts, D. F. (1979) Genetic evolution in an isolated population. J. Anthropol. Res. 35, 1.Google Scholar
Roberts, D. F. (1992) The price of isolation. In: Minority Populations. Genetics, Demography and Health, pp. 2567. Edited by Bittles, A. H. & Roberts, D. F.. Galton Institute, London.Google Scholar
Salih, M. A. M., Roberts, D. F., Omer, M. I. A., Karrar, O. & Bayoumi, R. A. (1983) Reflections on muscular dystrophy in a Sudanese kindred. Clin. Genet. 23, 325.Google Scholar
Sanghvi, L. D. (1982) Inbreeding in India. Social Biol. 29, 106.Google Scholar
Shields, J. & Slater, E. (1956) An investigation into the children of cousins. Acta Genet. 6, 60.Google Scholar
Stevens, A., Morissette, J., Woodburn, J. E. & Bennet, F. J. (1977) The inbreeding coefficient of the Hadza. Ann. hum. Biol. 4, 219.Google Scholar
Sutter, J. & Tabah, L. (1948) Fréquence et répartition des mariages consanguins en France. Population. 3, 607.CrossRefGoogle Scholar
Wright, S. (1922) Coefficients of inbreeding and relationship. Am. Natur. 56, 330.Google Scholar