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Genetic improvement of production while maintaining fitness (1995)

Meuwissen, T. H. E. ; Gibson, J. P. ; Quinton, M.

Springer

Theoretical and applied genetics 90 (1995), S. 627-635

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ISSN: 1432-2242

Keywords: Genetic improvement ; Fitness Finite locus models ; Production

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Selection for production tends to decrease fitness, in particular, major components such as reproductive performance. Under an infinitesimal genetic model restricted index selection can maintain reproductive performance while improving production. However, reproductive traits are thought to be controlled by a finite number of recessive alleles at low frequency. Culling for low reproduction may weed out the negative homozygous genotypes for reproduction in any generation, thus controlling the frequencies of alleles negative for reproduction. Restricted index selection, culling for low reproduction and a new method called empirical restricted index selection were compared for their efficiency in improving production while maintaining reproduction. Empirical restricted index selection selects animals that have on average the highest estimated breeding values for production and on average the same estimated breeding values for reproduction as the base population. An infinitesimal genetic model and models with a finite number of loci for reproduction with rare deleterious recessive alleles, which have additive, dominant or no pleiotropic effects on production, were considered. When reproduction was controlled by a finite number of loci with rare recessive alleles, restricted index selection could not maintain reproduction. The culling of 20% of the animals on reproduction maintained reproduction with all genetic models, except for the model where loci for reproduction had additive effects on production. Empirical restricted selection maintained reproduction with all models and yielded higher production responses than culling on reproduction, except when there were dominant pleiotropic effects on production.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222126

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Effective sizes of livestock populations to prevent a decline in fitness (1994)

Meuwissen, T. H. E. ; Woolliams, J. A.

Springer

Theoretical and applied genetics 89 (1994), S. 1019-1026

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ISSN: 1432-2242

Keywords: Critical effective population size Inbreeding depression ; Natural selection ; Fitness Conservational biology

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In livestock populations, fitness may decrease due to inbreeding depression or as a negatively correlated response to artificial selection. On the other hand, fitness may increase due to natural selection. In the absence of a correlated response due to artificial selection, the critical population size at which the increase due to natural selection and the decrease due to inbreeding depression balance each other is approximately D/2σwa 2, where D=the inbreeding depression of fitness with complete inbreeding, and σwa 2=the additive genetic variance of fitness. This simple expression agrees well with results from transmission probability matrix methods. If fitness declines as a correlated negative response to artificial selection, then a large increase in the critical effective population size is needed. However, if the negative response is larger than the response to natural selection, a reduction in fitness cannot be prevented. From these results it is concluded that a negative correlation between artificial and natural selection should be avoided. Effective sizes to prevent a decline in fitness are usually larger than those which maximize genetic gain of overall efficiency, i.e., the former is a more stringent restriction on effective size. In the examples presented, effective sizes ranged from 31 to 250 animals per generation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00224533

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Gametic imprinting effects on rate and composition of pig growth (1994)

Vries, A. G. ; Kerr, R. ; Tier, B. ; [et al.]

Springer

Theoretical and applied genetics 88 (1994), S. 1037-1042

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ISSN: 1432-2242

Keywords: Variance components ; Gametic imprinting Growth ; Pigs

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Genetic improvement schemes in livestock are based on the assumption that the expression of relevant genes is independent of parent of origin. Until now no evidence has been found to reject this assumption. The present study on three purebred pig populations, however, shows that a significant proportion of the phenotypic variance in backfat thickness (5–7%) can be explained by genes subject to paternal imprinting. The implication is that there are genes affecting backfat that are expressed only when derived from the paternal gamete. Paternal imprinted effects explained 1–4% of the phenotypic variation for growth rate. Maternal imprinted effects were heavily confounded with heritable maternal environmental effects. When modelled separately, these effects explained 2–5% and 3–4% of the phenotypic variance in backfat thickness and growth rate, respectively. Gametic imprinting may have consequences for the optimization of breeding programmes, especially in crossbreeding systems with specialized sire and dam lines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220813

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