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Tytuł artykułu

Estimation of genetic parameters for monthly egg production in laying hens based on random regression models

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Heritability and genetic correlations of monthly egg production under random regression models were estimated. Three layer lines (A22, A88, K66) in six consecutive generations were analysed. A22 (13,770 recorded hens) and A88 (13,950 recorded hens) are maternal lines of Rhode Island White birds selected on egg production and shell colour; K66 (9,351 recorded birds) is a paternal line of Rhode Island Red birds selected on egg weight. Eight models with different orders of Legendre polynomials were applied. Adequacy of the models was checked by the Akaike Information Criterion. According to the most adequate model including second order Legendre polynomials for fixed effects and third order for additive genetic and permanent environmental effects, relatively high heritabilities were estimated in the first (h²=0.3) and final (h² above 0.3) periods of production with a substantial decrease in heritability during the egg production peak. Methodology based on random regression animal models can be recommended for genetic evaluation of laying hens.

Wydawca

-

Rocznik

Tom

50

Numer

1

Opis fizyczny

p.41-46, fig.,ref.

Twórcy

autor
  • Department of Genetics and Animal Breeding, Poznan University of Life Sciences, Wolynska 33, 60-637 Poznan, Poland
  • Department of Genetics and Animal Breeding, Poznan University of Life Sciences, Wolynska 33, 60-637 Poznan, Poland

Bibliografia

  • Akaike H, 1974. A new look at the statistical model identification. IEEE Trans Automat Control 19: 716-723.
  • Anang A, Mielenz N, Schüler L, 2000. Genetic and phenotypic parameters for monthly egg production in White Leghorn hens. J Anim Breed Genet 117: 407—415.
  • Anang A, Mielenz N, Schüler L, 2001. Monthly model for genetic evaluation of laying hens. I. Fixed regression. Br Poult Sci 42: 191-196.
  • Anang A, Mielenz N, Schüler L, 2002. Monthly model for genetic evaluation of laying hens. II Random regression. Br Poult Sci 43: 384-390.
  • Cobuci JA, Euclydes RF, Lopes PS, Costa CN, Torres R, Pereira PS, 2005. Estimation of genetic parameters for test-day milk yield in Holstein cows using a random regression model. Genet Mol Biol 28: 75-83.
  • Forster MR, 2000. Key concepts in model selection: performance and generalizability. J Math Psych 44: 205-231.
  • Huisman AE, Kanis E, Van Arendonk JAM, 2002a. Application of random regression models in pig breeding to select on growth and feed intake patterns. Proc 53 EAAP: 1-8.
  • Huisman AE, Veerkamp RF, and Van Arendonk JAM, 2002b. Genetic parameters for various random regression models to describe the weight data of pigs. J Anim Sci 80: 575-582.
  • Ibáńez MA, Carabańo MJ, Foulley JL, and Alenda R, 1996. Heterogeneity of herd-period phenotypic variances in the Spanish Holstein-Friesian cattle: Sources of heterogeneity and genetic evaluation. Livest Prod Sci 45: 137-147.
  • Jaffrezic F, White IMS, Thompson R, Hill WG, 2000. A link function approach to model heterogeneity of residual variances over time in lactation curve analyses. J Dairy Sci 83: 1089-1093.
  • Jamrozik J, Schaeffer LR, 2002 Bayesian comparison of random regression models for test-day yields in dairy cattle. Proc. 7th World Congr Genet Appl Livest Prod, Montpelier, August 19-23, 2002, Abs 01-03.
  • Johnson DL, Thompson R, 1995. Restricted maximum likelihood estimation of variance components for univariate animal models using sparse matrix techniques and average information. J Dairy Sci 78: 449-456.
  • Karacaören B, Jaffrézic F, Kadarmideen HN, 2006. Genetic Parameters for Functional Traits in Dairy Cattle from Daily Random Regression Models. J Dairy Sci 89: 791-798.
  • Kettunen A, Mäntysaari EA, and Pösö J, 2000. Estimation of genetic parameters for daily milk yield of primiparous Ayrshire cows by random regression test-day models. Livest Prod Sci 66: 251-261.
  • Kranis A, Su G, Sorensen D, Woolliams JA, 2007. The application of random regression models in the genetic analysis of monthly egg production in turkeys and a comparison with alternative longitudinal models. Poult Sci 86: 470-475.
  • Legarra A, Misztal I, Bertrand JK, 2004. Constructing covariance functions for random regression models for growth in Gelbvieh beef cattle. J Anim Sci 82: 1564-1571.
  • Luo PT, Yang RQ, YangN, 2007. Estimation of genetic parameters for cumulative egg numbers in broiler dam line by using a random regression model. Poult Sci 86: 30-36.
  • Meyer K, Hill WG, 1997. Estimation of genetic and phenotypic covariance functions for longitudal or 'repeated' records by restricted maximum likelihood. Livest Prod Sci 47: 185-200.
  • Meyer K, 2001. DFREML ver. 3.1. University of New England. Australia.
  • Norberg E, Rogers GW, Goodling RC, Cooper JB, Madsen P, 2004. Genetic parameters for test-day electrical conductivity of milk for first-lactation cows from random regression models. J Dairy Sci 87: 1917-1924.
  • Pool MH, Janss LLG, Meuwissen THE, 2000. Genetic parameters of Legendre polynomials for first parity lactation curves. J Dairy Sci 83: 2640-2649.
  • Pool MH, Meuwissen THE, 1999. Prediction of daily milk yields from a limited number of test days using test day models. J Dairy Sci 82: 1555-1564.
  • Preisinger R, Savas T, 1997. Vergleich zweier Methoden zur Schätzung der Varianzkomponenten für Leistungmerkmale bei Legehennen. Züchtungskunde 69: 142-152.
  • Robertson A, 1959. Experimental design in the evaluation of genetic parameters. Biometrics 15: 219-226.
  • Savaş T, Preisinger R, Röhe R, Kaim E, 1998. Genetische Parameter und optimale Prüfdauer für Legeleistung anhand von Teillegeleistungen bei Legehennen. Arch Tierzucht 41: 421-432.
  • Schaeffer LR, Jamrozik J, Kistemaker GJ, Van Doormaal BJ, 2000. Experience with a Test-Day Model. J Dairy Sci 83: 1135-1144.
  • Strabel T, 1998. Wykorzystanie próbnych udojów do oceny wartości hodowlanej bydła mlecznego. Ph.D. Thesis, Univ Life Sci Poznan, Poland (in Polish)
  • Strabel T, Szyda J, Ptak E, Jamrozik J, 2005. Comparison of random regression test-day models for Polish Black and White cattle. J Dairy Sci 88: 3688-3699.
  • Szyda J, Ptak E, Komisarek J, Żarnecki A, 2008. Practical application of daughter yield deviations in dairy cattle breeding. J Appl Genet 49: 183-191.
  • Wada Y, Kashiwagi N, 1990. Selecting statistical models with information statistics. J Dairy Sci 73: 3575-3582.
  • Wolc A, Lisowski M, Szwaczkowski T, 2007. Heritability of egg production in laying hens under cumulative, multitrait and repeated measurement animal models. Czech J Anim Sci 52: 254-259.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-dd2cd805-7705-4f95-9b8f-90bc4b7bd24d
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