(co)variance function coefficients; test day model; heritability; correlation
Abstract :
[en] Coefficients for (co)variance functions were obtained via random regression models using the expectation-maximization REML algorithm. Data included milk, fat, and protein yields from 176,495 test days of 22,943 first lactation Holstein cows that calved in Pennsylvania and Wisconsin from 1990 through 1996. Three approximately equal-sized data sets were created: one for Pennsylvania and two for Wisconsin. Random regressions were on third order Legendre polynomials. Genetic and permanent environmental (co)variances each were described by three coefficients. The model contained a fixed effect for age, season, and lactation stage rather than a fixed regression on days in milk. Fixed contemporary groups were based on herd, test day, and milking frequency. The coefficient matrices were dense and included around 70,000 equations. Estimated (co)variance function coefficients, as well as the heritabilities and correlations computed from them, were quite variable across data sets. Heritabilities were at a minimum (0.14 for milk and fat and 0.13 for protein) around peak yield, increased to a maximum (0.24 for milk and protein and 0.21 for fat) around the eighth month in milk, and declined slightly afterwards. Genetic correlations between early and late lactation were low (values of <0.10), especially for protein. Phenotypic correlations among test day yields were between 0.21 and 0.99.
Disciplines :
Animal production & animal husbandry Genetics & genetic processes
Author, co-author :
Gengler, Nicolas ; Université de Liège - ULiège > Gembloux Agro-Bio Tech > Gembloux Agro-Bio Tech
Tijani, A.
Wiggans, G. R.
Misztal, I.
Language :
English
Title :
Estimation of (co)variance function coefficients for test day yield with a expectation-maximization restricted maximum likelihood algorithm
Publication date :
August 1999
Journal title :
Journal of Dairy Science
ISSN :
0022-0302
eISSN :
1525-3198
Publisher :
American Dairy Science Association, Champaign, United States - Illinois
Carvalheira, J.G.V., R. W. Blake, E. J. Pollak, R. L. Quaas, and C. V. Duran-Castro. 1998. Application of an autoregressive process to estimate genetic parameters and breeding values for daily milk yield in a tropical herd of Lucerna Cattle and in United States Holstein herds. J. Dairy Sci. 81:2738-2751.
García-Cortés, L. A., C. Moreno, L. Varona, M. Rico, and J. Altarriba. 1995. (Co)variance component estimation of yield traits between different lactations using an animal model. Livest. Prod. Sci. 43:111-117.
Gengler, N., A. Tijani, G. R. Wiggans, C. P. Van Tassell, and J. C. Philpot. 1999. Estimation of (co)variances of test day yields for first lactation Holsteins in the United States. J. Dairy Sci. 82:(Jan). Online. Accessed Jan. 11, 1999.
Jamrozik, J., and L. R. Schaeffer. 1997. Estimates of genetic parameters for a test day model with random regression for yield traits of first lactation Holsteins. J. Dairy Sci. 80:762-770.
Jamrozik, J., L. R. Schaeffer, and J.C.M. Dekkers. 1996. Random regression models for production traits in Canadian Holsteins. Pages 124-134 in Proc. Open Session INTERBULL Annu. Mtg., Veldhoven, The Netherlands, June 23-24, 1996. Int. Bull Eval. Serv. Bull. No. 14. Dep. Anim. Breed. Genet., Sveriges Lantbruks Universitet, Uppsala, Sweden.
Jamrozik, J., L. R. Schaeffer, and J.C.M. Dekkers. 1997. Genetic evaluation of dairy cattle using test day yields and random regression model. J. Dairy Sci. 80:1217-1226.
Keown, J. F., and L. D. Van Vleck. 1971. Selection on test day fat percentage and milk production. J. Dairy Sci. 54:199-203.
Kettunen, A., E. A. Mäntysaari, and I. Strandén. 1997. Analysis of first lactation test day milk yields by random regression model. Pages 39-42 in Proc. Open Session INTERBULL Annu. Mtg., Vienna, Austria, Aug. 28-29, 1997. Int. Bull Eval. Serv. Bull. No. 16. Dep. Anim. Breed. Genet., Sveriges Lantbruks Universitet, Uppsala, Sweden.
Kirkpatrick, M., W. G. Hill, and R. Thompson. 1994. Estimating the (co)variance structure of traits during growth and ageing, illustrated with lactation in dairy cattle. Genet. Res. Camb. 64:57-66.
Kirkpatrick, M., D. Lofsvold, and M. Bulmer. 1990. Analysis of the inheritance, selection and evolution of growth trajectories. Genetics 124:979-993.
Meyer, K. 1998. Modelling 'repeated' records: covariance functions and random regression models to analyse animal breeding data. Proc. 6th World Congr. Genet. Appl. Livest. Prod. 25:517-520.
Meyer, K., H. -U. Graser, and K. Hammond. 1989. Estimates of genetic parameters for first lactation test day production of Australian Black and White cows. Livest. Prod. Sci. 21:177-199.
Meyer, K., and W. G. Hill. 1997. Estimation of genetic and phenotypic (co)variance functions for longitudinal or "repeated" records by restricted maximum likelihood. Livest. Prod. Sci. 47:185-200.
Misztal, I. 1998. REMLF90 manual. Mimeo, University of Georgia. ftp://num.ads.uga.edu/pub/blupf90/docs/remlf90.pdf. Accessed Nov. 27, 1998.
Misztal, I., and M. Perez-Enciso. 1998. FSPAK90 - a Fortran 90 interface to sparse-matrix package FSPAK with dynamic memory allocation and sparse matrix structure. Proc. 6th World Congr. Genet. Appl. Livest. Prod. 27:467-468.
Pander, B. L., W. G. Hill, and R. Thompson. 1992. Genetic parameters of test day records of British Holstein-Friesian heifers. Anim. Prod. 55:11-21.
Pösö, J., E. A. Mäntysaari, and A. Kettunen. 1996. Estimation of genetic parameters of test day production in Finnish Ayrshire cows. Pages 45-48 in Proc. Open Session INTERBULL Annu. Mtg., Veldhoven, The Netherlands, June 23-24, 1996. Int. Bull Eval. Serv. Bull. No. 14. Dep. Anim. Breed. Genet., Sveriges Lantbruks Universitet, Uppsala, Sweden.
Ptak, E., and L. R. Schaeffer. 1993. Use of test day yields for genetic evaluation of dairy sires and cows. Livest. Prod. Sci. 34: 23-34.
Reents, R., J.C.M. Dekkers, and L. R. Schaeffer. 1995. Genetic evaluation for somatic cell score with a test day model for multiple lactations. J. Dairy Sci. 78:2858-2870.
Reents, R., and L. Dopp. 1996. Genetic evaluation for dairy production traits with a test day model for multiple lactations. Pages 113-117 in Proc. Open Session INTERBULL Annu. Mtg., Veldhoven, The Netherlands, June 23-24, 1996. Int. Bull Eval. Serv. Bull. No. 14. Dep. Anim. Breed. Genet., Sveriges Lantbruks Universitet, Uppsala, Sweden.
Rekaya, R., F. Béjar, M. J. Carabaño, and R. Alenda. 1995. Genetic parameters for test day measurements in Spanish Holstein-Friesian. Proc. Open Session INTERBULL Annu. Mtg., Prague, Czech Republic, Sept. 7-8, 1995. Int. Bull Eval. Serv. Bull. No. 11. Dep. Anim. Breed. Genet., Sveriges Lantbruks Universitet, Uppsala, Sweden.
Schaeffer, L. R. 1997. Subject: random regressions. http://chuck.agsci.colostate.edu/wais/logs/agdg869258263.html. Accessed Nov. 27, 1998.
Schaeffer, L. R., and J.C.M. Dekkers. 1994. Random regression in animal models for testday production in dairy cattle. Proc 5th World Congr. Genet. Appl. Livest. Prod. XVIII:443-446.
Tijani, A., G. R. Wiggans, C. P. Van Tassell, J. C. Philpot, and N. Gengler. 1999. Use of (co)variance functions to describe (co)variances for test day yield. J. Dairy Sci. 82(Jan). Online. Accessed Jan. 11, 1999.
van der Werf, J.H.J., M. E. Goddard, and K. Meyer. 1998. The use of covariance functions and random regressions for genetic evaluation of milk production based on test day records. J. Dairy Sci. 81:3300-3308.
Vargas, B., E. Perez, and J.A.M. van Arendok. 1998. Analysis of test day yield data of Costa Rican dairy cattle. J. Dairy Sci. 81:255-263.
Veerkamp, R. F., and M. E. Goddard. 1998. (Co)variance functions across herd production levels for test day records on milk, fat, and protein yield. J. Dairy Sci. 81:1690-1701.
Wiggans, G. R., and M. E. Goddard. 1997. A computationally feasible test day model for genetic evaluation of yield traits in the United States. J. Dairy Sci. 80:1795-1800.
