The effect of selection on genetic variability: a simulation study

M. G. Bulmer

doi:10.1017/S0016672300016797

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Computer simulations have been done to study the effects of stabilizing and disruptive selection on a polygenic character. The results are reported in terms of three components of genetic variability which represent changes in gene frequencies, departures from Hardy–Weinberg equilibrium and linkage disequilibrium respectively. Under random mating the first and third components are the most important. The observed changes in gene frequencies are interpreted in the light of previous theoretical work on the stability of equilibria under selection. In addition, large and rapid changes in the genotypic variance result from the generation of linkage disequilibrium under selection; the observed changes are in good agreement with those predicted on theoretical grounds.

References

REFERENCES

Bulmer, M. G. (1971 a). The stability of equilibria under selection. Heredity 27, 157–162.CrossRef Google Scholar PubMed

Bulmer, M. G. (1971 b). The effect of selection on genetic variability. American Naturalist 105, 201–211.CrossRef Google Scholar

Bulmer, M. G. (1974 a). Density-dependent selection and character displacement. American Naturalist 108, 45–58.CrossRef Google Scholar

Bulmer, M. G. (1974 b). Linkage disequilibrium and genetic variability. Genet. Res. 23, 281–289.CrossRef Google Scholar PubMed

Falconer, D. S. (1957). Selection for phenotypic intermediates in Drosophila. J. Genet. 55, 551–561.CrossRef Google Scholar

Falconer, D. S. (1960). Introduction to Quantitative Genetics. Edinburgh: Oliver and Boyd.Google Scholar

Hill, W. G. (1974). Disequilibrium among several linked neutral genes in finite populations. II. Variances and covariances of disequiibria. Theor. Pop. Biol. 6, 184–198.CrossRef Google Scholar

Hill, W. G. & Robertson, A. (1968). Linkage disequilibrium in finite populations. Theor. Appl. Genet. 38, 226–231.CrossRef Google Scholar PubMed

Roughgarden, J. (1972). Evolution of niche width. American Naturalist 106, 683–718.CrossRef Google Scholar

Slatkin, M. (1970). Selection and polygenic characters. Proc. Nat. Acad. Sci. 66, 87–93.CrossRef Google Scholar PubMed

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Avery, P. J. and Hill, W. G. 1977. Variability in genetic parameters among small populations. Genetical Research, Vol. 29, Issue. 3, p. 193.

Robertson, A. 1977. The effect of selection on the estimation of genetic parameters. Zeitschrift für Tierzüchtung und Züchtungsbiologie, Vol. 94, Issue. 1-4, p. 131.

Avery, P. J. 1978. The effect of finite population size on models of linked overdominant loci. Genetical Research, Vol. 31, Issue. 3, p. 239.

Smith, J. Maynard 1979. The effects of normalizing and disruptive selection on genes for recombination. Genetical Research, Vol. 33, Issue. 2, p. 121.

Lichter, Robert 1979. Progress in Botany / Fortschritte der Botanik. p. 221.

Nicholas, F. W. 1980. Size of population required for artificial selection. Genetical Research, Vol. 35, Issue. 1, p. 85.

Frankham, R. and Nurthen, R. K. 1981. Forging links between population and quantitative genetics. Theoretical and Applied Genetics, Vol. 59, Issue. 4, p. 251.

Soliman, M. H. 1982. Directional and stabilizing selection for developmental time and correlated response in reproductive fitness in Tribolium castaneum. Theoretical and Applied Genetics, Vol. 63, Issue. 2, p. 111.

Sorensen, D. A. and Hill, W. G. 1983. Effects of disruptive selection on genetic variance. Theoretical and Applied Genetics, Vol. 65, Issue. 2, p. 173.

Findlay, C. Scott and Cooke, Fred 1983. GENETIC AND ENVIRONMENTAL COMPONENTS OF CLUTCH SIZE VARIANCE IN A WILD POPULATION OF LESSER SNOW GEESE (ANSER CAERULESCENS CAERULESCENS ). Evolution, Vol. 37, Issue. 4, p. 724.

Mueller, J. P. and James, J. W. 1983. Effect on linkage disequilibrium of selection for a quantitative character with epistasis. Theoretical and Applied Genetics, Vol. 65, Issue. 1, p. 25.

Frey, K.J. 1984. Cereal Production. p. 47.

Atkins, K. D. and Thompson, R. 1986. Predicted and realized responses to selection for an index of bone length and body weight in Scottish Blackface sheep 1. Responses in the index and component traits. Animal Science, Vol. 43, Issue. 3, p. 421.

De Roo, G. 1988. Studies on breeding schemes in a closed pig population. I. Population size and selection intensities. Livestock Production Science, Vol. 19, Issue. 3-4, p. 417.

Lynch, Michael 1988. The rate of polygenic mutation. Genetical Research, Vol. 51, Issue. 2, p. 137.

Henderson, Norman D. 1989. Interpreting studies that compare high- and low-selected lines on new characters. Behavior Genetics, Vol. 19, Issue. 4, p. 473.

Bürger, Reinhard Wagner, Günter P. and Stettinger, Franz 1989. HOW MUCH HERITABLE VARIATION CAN BE MAINTAINED IN FINITE POPULATIONS BY MUTATION-SELECTION BALANCE?. Evolution, Vol. 43, Issue. 8, p. 1748.

Keightley, Peter D. and Hill, William G. 1989. Quantitative genetic variability maintained by mutation-stabilizing selection balance: sampling variation and response to subsequent directional selection. Genetical Research, Vol. 54, Issue. 1, p. 45.

Verrier, E. Colleau, J. J. and Foulley, J. L. 1989. Effect of mass selection on the within-family genetic variance in finite populations. Theoretical and Applied Genetics, Vol. 77, Issue. 1, p. 142.

Cornish, M A 1990. Selection during a selfing programme. I. The effects of a single round of selection. Heredity, Vol. 65, Issue. 2, p. 201.

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The effect of selection on genetic variability: a simulation study

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