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. 2008 Mar;178(3):1559-70.
doi: 10.1534/genetics.107.084236. Epub 2008 Feb 1.

The contribution of social effects to heritable variation in finishing traits of domestic pigs (Sus scrofa)

R Bergsma  1 E KanisE F KnolP Bijma
Affiliations

The contribution of social effects to heritable variation in finishing traits of domestic pigs (Sus scrofa)

R Bergsma et al. Genetics. 2008 Mar.

Abstract

Social interactions among individuals are ubiquitous both in animals and in plants, and in natural as well as domestic populations. These interactions affect both the direction and the magnitude of responses to selection and are a key factor in evolutionary success of species and in the design of breeding schemes in agriculture. At present, however, very little is known of the contribution of social effects to heritable variance in trait values. Here we present estimates of the direct and social genetic variance in growth rate, feed intake, back fat thickness, and muscle depth in a population of 14,032 domestic pigs with known pedigree. Results show that social effects contribute the vast majority of heritable variance in growth rate and feed intake in this population. Total heritable variance expressed relative to phenotypic variance was 71% for growth rate and 70% for feed intake. These values clearly exceed the usual range of heritability for those traits. Back fat thickness and muscle depth showed no heritable variance due to social effects. Our results suggest that genetic improvement in agriculture can be substantially advanced by redirecting breeding schemes, so as to capture heritable variance due to social effects.

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References

    1. Arango, J., I. Misztal, S. Tsuruta, M. Cubertson and W. Herring, 2005. Estimation of variance components including competitive effects of Large White growing gilts. J. Anim. Sci. 83 1241–1246. - PubMed
    1. Bijma, P., W. M. Muir and J. A. M. Van Arendonk, 2007. a Multilevel selection 1: quantitative genetics of inheritance and response to selection. Genetics 175 277–288. - PMC - PubMed
    1. Bijma, P., W. M. Muir, E. D. Ellen, B. J. Wolf and J. A. M. Van Arendonk, 2007. b Multilevel selection 2: estimating the genetic parameters determining inheritance and response to selection. Genetics 175 289–299. - PMC - PubMed
    1. Blouin, M. S., 2003. DNA-based methods for pedigree reconstruction and kinship analysis in natural populations. Trends Ecol. Evol. 18 503–511.
    1. Chen, C. Y., R. K. Johnson, S. D. Kachman and L. D. Van Vleck, 2006. Estimation of variance components due to competition effects for selected lines of swine. Proceedings of the 8th World Congress on Genetics Applied to Livestock Production, Belo Horizonte, MG, Brazil, contribution 17–03.

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