Genetic variability underlying maternal traits of Asturiana de la Montaña beef cattle
- Baró de la Fuente, Jesús Ángel
- Carleos Artime, Carlos Enrique 1
- Menéndez Buxadera, A.
- Rodríguez Castañón, Angel Alfredo
- Cañón, J.
-
1
Universidad de Oviedo
info
ISSN: 1695-971X, 2171-9292
Año de publicación: 2012
Volumen: 10
Número: 1
Páginas: 69-73
Tipo: Artículo
Otras publicaciones en: Spanish journal of agricultural research
Resumen
Genetic variability parameters of traits related to maternal ability (age at first calving�CA1, first calving interval� CI1, and weaning weight�WW) were estimated in an autochthonous beef cattle breed (Asturiana de la Montaña) reared under harsh conditions. The data set comprised 50,749 births on 378 farms from 1994 to 2008. Heritability for CA1 was moderately high (0.22); heritability for CI1 was 0.10. Genetic correlation between these traits was 0.54, and thus favourable to simultaneously selection. Results for WW gave a direct heritability of 0.20 and a maternal heritability of 0.10; the genetic correlation between additive direct effects and additive maternal effects was �0.60 and thus antagonistic, a situation frequently found in similar populations. The change of additive direct values (BVa) for the lapse considered was almost null until 1997, and increased regularly since that year at 0.092 kg yr�1. It should be noted that, at the same time, additive maternal effects (BVm) showed a significant negative tendency of �0.089 kg yr�1. In order to conveniently combine the knowledge on both genetic effects, taking into account the adverse genetic correlation between them, we propose that selection should be based on a global genetic merit index (BVtm) defined as 1/2 BVa + BVm. Correlations between BVa and BVtm, and between BVm and BVtm were 0.22 and 0.56, respectively.
Referencias bibliográficas
- Baro JA, Cañón J, Carleos C, 2007. Consanguinidad y progreso genético en la raza Asturiana de la Montaña. Archiv Zootecnia 56: 593-598. [In Spanish].
- Bijma P, 2006. Estimating maternal genetic effects in livestock. J Anim Sci 84: 800–806. PMid:16543556
- Bourdon RM, Brinks JS, 1982. Genetic, environmental and phenotypic relationships among gestation length, birth weight, growth traits and age at first calving in beef cattle. J Anim Sci 55: 543-553. PMid:7130063
- Cañón J, Gutiérrez JP, Dunner S, Goyache F, Vallejo M, 1994. Herdbook analyses of the Asturiana beef cattle breeds. Genet Sel Evol 26: 65-75. http://dx.doi.org/10.1186/1297-9686-26-1-65 PMCid:2709143
- Clément V., Bibé B., Verrier E., Elsen J.M., Manfredi E., Bouix J., Hanocq E, 2003. Simulation analysis to test the influence of model adequacy and data structure on the estimation of genetic parameters for traits with direct and maternal effects. Genet Sel Evol 33: 369-395.
- Cundiff LV, 1972. The role of maternal effects in animal breeding: VIII. Comparative aspects of maternal effects. J Anim Sci 35: 1335-1337. PMid:4567220
- Dodenhoff LD, Van Vleck LD, Wilson DE, 1999. Comparison of models to estimate genetic effects for weaning weight of Angus cattle. J Anim Sci 77: 3176-3184. PMid:10641861
- Dunner S, Cañon, J, Gutierrez JP, Vallejo M, Alonso L, Goyache F, 1993. La race bovine de viande Asturienne de la Montagne. Animal Genetic Resources Information 11: 85-91.
- Gilmour AR, Cullis BR, Welham SJ, Thompson R, 2000. ASREML Reference Manual. NSW Agric Biom Bull NSW Agriculture, Locked Bag, Orange, Australia.
- Gutiérrez JP, Cañón J, Goyache F, 1997. Estimation of direct and maternal genetic parameters for preweaning traits in the Asturiana de los Valles beef cattle breed through animal and sire models. J Anim Breed Genet 114: 261-266. http://dx.doi.org/10.1111/j.1439-0388.1997.tb00511.x PMid:21395821
- Heydarpour M, Schaeffer LR, Yazdi MH, 2008. Influence of population structure on estimates of direct and maternal parameters. J Anim Breed Genet 125: 89–99. http://dx.doi.org/10.1111/j.1439-0388.2007.00703.x PMid:18363974
- Mattos D, Bertrand JK, Misztal I, 2000. Investigation of genotype × environment interactions for weaning weight for Herefords. J Anim Sci 78: 2121-2126. PMid:10947098
- Menéndez-Buxadera A, Carleos C, Baro JA, Villa A, Cañón J, 2008. Multi-trait and random regression approaches for addressing the wide range of weaning ages in Asturiana de los Valles beef cattle for genetic parameter estimation. J Anim Sci 86: 278-286. http://dx.doi.org/10.2527/jas.2007-0252 PMid:17998432
- Meyer K, 1997. Estimates of genetic parameters for weaning weight of beef cattle accounting for direct-maternal environmental covariances. Livest Prod Sci 52: 187-201 http://dx.doi.org/10.1016/S0301-6226(97)00144-9
- Núñez-Domínguez R, Cundiff LV, Dickerson GE, Gregory KE, Koch RM, 1991. Lifetime production of beef heifers calving first at two vs three years of age. J Anim Sci 69: 3467-3479. PMid:1938633
- Phocas F, Laloe D, 2004. Genetic parameters for birth and weaning traits in French specialized beef cattle breeds. Livest Prod Sci 89: 121-128. http://dx.doi.org/10.1016/j.livprodsci.2004.02.007
- Quintanilla R, 1998. Efectos maternos en el peso al destete del ganado vacuno de carne: implicaciones en la estimación de parámetros y la evaluación genetica. PhD thesis, Universidad de Barcelona, 144 pp. [In Spanish].
- Robinson DL, 1996. Model which might explain negative correlations between direct and maternal genetic effects. Livest Prod Sci 42: 111-122. http://dx.doi.org/10.1016/0301-6226(96)00002-4
- Willham RL, 1972. The role of maternal effects in animal breeding. III. Biometrical aspects of maternal effects in animals. J Anim Sci 35: 1288–1293. PMid:4567216
- Wilson AJ, Reale D, 2006. Ontogeny of additive and maternal genetic effects: lessons from domestic mammals. Am Nat 167: E23–E38. http://dx.doi.org/10.1086/498138 PMid:16475094
- Wilson DE, 1984. Mixed model procedure for the unification of within herd evaluation through national beef sire evaluation. PhD Thesis, Iowa State University 1084, 146 pp.