Genetic parameters and genetic trends in the Chinese European Tiameslan composite pig line. II. Genetic trends

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Issue		Genet. Sel. Evol. Volume 32, Number 1, January-February 2000


Page(s)		57 - 71
DOI		https://doi.org/10.1051/gse:2000106

References

1: Bidanel J.P., Bases zootechniques et génétiques de l'utilisation en élevage intensif des races prolifiques chinoises - cas du porc Meishan, Doctoral Thesis, Institut national agronomique Paris-Grignon, France, 1988, 194 pp.
2: Bidanel J.P., Estimation of crossbreeding parameters between Large White and Meishan porcine breeds. III. Dominance and epistatic components of heterosis on reproductive traits, Genet. Sel. Evol. 25 (1993) 639-657.
3: Blair H.T., Pollak E.J., Estimation of genetic trend in a selected population with and without the use of a control population, J. Anim. Sci. 58 (1984) 878-886.
4: Blasco A., Bidanel J.P., Sorensen D., A bayesian analysis of genetic parameters and selection response for litter size components in pigs, Genetics 149 (1998) 301-306.
5: Dickerson G.E., Experimental approaches in utilising breed resources, Anim. Breed. Abstr. 37 (1969) 191-202.
6: Dickerson G.E., Inbreeding and heterosis in animals, in: Proceedings of the Animal Breeding and Genetics Symposium in honor of Dr J.L. Lush, American Society of Animal Science and Dairy Science Association, Champaign, Illinois, 1973, pp. 54-77.
7: Ducos A., Bidanel J.P., Utilisation d'un modèle animal multi-caractère pour estimer l'évolution génétique de six caractères de croissance, carcasse et qualité de la viande entre 1977 et 1990, dans les races porcines Large White et Landrace Français, in: 25 $^{\rm es}$ Journées de la Recherche Porcine en France, 2-4 février 1993, Institut technique du porc, Paris, pp. 59-64.
8: Gelfand A.E., Smith A.F.M., Sampling-based approaches to calculating margi- nal densities, J. Am. Stat. Assoc. 85 (1990) 398-409.
9: Gelman A., Carlin J.B., Stern H.S., Rubin D.B., Bayesian data analysis, Chapman & Hall, London, 1997, 526 pp.
10: Geman S., Geman D., Stochastic relaxation, Gibbs distribution and Bayesian restoration of image, IEEE Transactions on Pattern Analysis and Machine Intelligence 6 (1984) 721-741.
11: Gianola D., Foulley J.L., Fernando R.L., Prediction of breeding values when variances are not known, Génét. Sél. Evol. 18 (1986) 475-484.
12: Gianola D., Fernando R.L., Im S., Foulley J.L., Likelihood estimation of quantitative genetic parameters when selection occurs: models and problems, Genome 31 (1989) 768-777.
13: Groeneveld E., Kovac M., Wang T., PEST, a general purpose BLUP package for multivariate prediction and estimation, in: Proceedings of the 4th World Congress on genetics applied to livestock production, 23-27 July, Edinburgh, Scotland, 1990, Vol. XIII, pp. 488-491.
14: Haley C.S., Ashworth C.J., Lee G.J., Wilmut I., Aitken R.P., Ritchie W., British studies of the genetics of prolificacy in the Meishan pig, in: Molénat M., Legault C. (Eds.), Chinese pig symposium, 5-6 July, Toulouse, France, 1990, pp. 83-97.
15: Höfer A., Hagger C., Kunzi N., Genetic evaluation of on-farm tested pigs using an animal model. II. Prediction of breeding values with a multiple trait model, Livest. Prod. Sci. 30 (1992) 83-98.
16: Im S., Fernando R.L., Gianola D., Likelihood inferences in animal breeding under selection: a missing-data theory view point, Genet. Sel. Evol. 21 (1989) 399-414.
17: Kennedy B.W., Genetic evaluation of swine using the animal model, in: Proc. 38th Annual Meeting Eur. Assoc. Anim. Prod., Lisbon, Portugal, 1987, Commission on animal genetics.
18: Legault C., Caritez J.C., L'expérimentation sur le porc chinois en France. I-Performances de reproduction en race pure et en croisement, Génét. Sél. Evol. 15 (1983) 225-240.
19: Le Roy P., Naveau J., Elsen J.M., Sellier P., Evidence for a new major gene influencing meat quality in pigs, Genet. Res. 55 (1990) 33-40.
20: Le Roy P., Elsen J.M., Naveau J., Etude de la variabilité génétique de l'adiposité dans la lignée Laconie, in: 22 $^{\rm es}$ Journées de la Recherche Porcine en France, 30 January-1st February 1990, Institut technique du porc, Paris, pp. 11-16.
21: Lo L.L., Fernando R.L., Grossman M., Covariance between relatives in multibreed populations: additive model, Theor. Appl. Genet. 87 (1993) 1215-1228.
22: Lo L.L., Fernando R.L., Grossman M., Theory of modelling means and covariances in a two-breed population with dominance, Theor. Appl. Genet. 90 (1995) 49-62.
23: Mc Laren D.G., The potential of Chinese swine breeds to improve pork production efficiency in the US, Anim. Breed. Abstr. 58 (1990) 347-369.
24: Marklund S., Kijas J., Rodriguez-Martinez H., Rönnstrand L., Funa K., Moller M., Lande D., Edfors-Lilja I., Andersson L., Molecular basis for the dominant white phenotype in the domestic pig, Genome Res. 8 (1995) 826-833.
25: Neumaier A., Groeneveld E., Restricted maximum likelihood estimation of covariances in sparse linear models, Genet. Sel. Evol. 30 (1998) 3-26.
26: Ollivier L., On the use of animal models in the analysis of selection experiments, Genet. Sel. Evol. 31 (1999) 135-148.
27: Rathje T.A., Rohrer G.A., Johnson R.K., Evidence for quantitative trait loci affecting ovulation rate in pigs, J. Anim. Sci. 75 (1997) 1486-1494.
28: Rohrer G.A., Ford J.J., Wise T.H., Vallet J.L., Christenson R.K. Identification of quantitative trait loci affecting female reproductive traits in a multigeneration Meishan-White composite swine population. J. Anim. Sci. 77 (1999) 1385-1391.
29: Rothschild M.F., Identification of quantitative trait loci and interesting candidate genes in the pig: progress and prospects, in: Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, 11-16 January, University of New England, Armidale, Australia, 1998, Vol. 26, pp. 403-409.
30: Rothschild M.F., Bidanel J.P., Biology and genetics of reproduction, in: Rothschild M.F., Ruvinsky A. (Eds.), The genetics of the pig, CAB International, Wallingford, Oxon, UK, 1998, pp. 313-343.
31: Sorensen D.A., Kennedy B.W., Estimation of response to selection using least squares and mixed model methodology, J. Anim. Sci. 58 (1984) 1097-1106.
32: Sorensen D.A., Kennedy B.W., Analysis of selection experiments using mixed model methodology, J. Anim. Sci. 63 (1986) 245-258.
33: Sorensen D.A., Wang C.S., Jensen J., Gianola D., Bayesian analysis of genetic change due to selection using Gibbs sampling, Genet. Sel. Evol. 26 (1994) 333-360.
34: Thompson R., Estimation of realized heritability in a selected population using mixed model methods, Genet. Sel. Evol. 18 (1986) 475-484.
35: Tixier M., Sellier P., Estimated genetic trends for growth and carcass traits in two French pig breeds, Genet. Sel. Evol. 18 (1986) 185-212.
36: Wilkie P.J., Paszek A.A., Beattie C.W., Alexander L.J., Wheeler M.B., Schook L.B., A genomic scan of porcine reproductive traits reveals possible quantitative trait loci (QTLs) for number of corpora lutea, Mamm. Genome 10 (1999) 573-578.
37: Zhang S., Bidanel J.P., Burlot T., Legault C., Naveau J., Genetic parameters and genetic trends in the Chinese $\times$ European Tiameslan composite pig line. I. Genetic parameters, Genet. Sel. Evol. 32 (2000) 41-56.

Abstract