Magnitude of correlation between direct and maternal genetic effects for growth traits in ruminants

Authors

  • Never Assan Department of Agriculture, Faculty of Science and Technology, Zimbabwe Open University, Bulawayo Region, Box 3550, Bulawayo, Zimbabwe

Keywords:

Covariance; Direct ; Maternal; Growth Traits; Ruminants

Abstract

This is a review paper that looks at the influence of sign and magnitude of the correlation between direct and maternal genetic  effects for growth traits in sheep, goats and cattle. Considerable debate  exists about the validity of results on the factors which influence the sign and magnitude of the correlation between direct and genetic  effects of growth traits in sheep, goats and cattle.  The current reports on sign and magnitude of the correlation between direct and maternal effects for growth traits in sheep, goats and cattle show that both positive and negative values are possible. It emerged that the use of an appropriate covariance of  direct and maternal genetic  effects for growth traits in sheep, goats and cattle has a bearing on the accuracy of selected programs. The importance of the correlation between direct and maternal effects for growth traits in sheep, goats and cattle is based on the notion that ignoring the covariance of  direct and maternal genetic  effects for growth traits in sheep, goats and cattle  may distort the ranking of individual animals in a population.  The review paper, therefore, concludes that the sign and magnitude of covariance of  direct and maternal genetic  effects for growth traits in sheep, goats and cattle, is dependent on various factors which include management, breed and data preparation process.

References

Archer, J.A., Herd, R.M., Arthur, P.F., Parnell, P.F., 1998. Correlated response in rate of maturation and mature size of cows and steers to divergent selection for yearling growth rate in Angus cattle. Liv. Prod. Sci., 54, 183-192.

Assan, N., 2009. Estimation of variance components by sex, theoretical expectation and selection implication for weaning weight in local Tuli cattle of Zimbabwe. J. Anim. Sci. Adv., 2(1), 141- 150.

Beffa, L.M., 2005. Genotype*Environment interaction in Afrikaner cattle. PhD Thesis. University of the Free State, Bloemfotein, South Africa.

Campelo, J.E.G., Lopes, P.S., Torres, R.A., Campos, L., Eucalydes, R.F., Araujo, C.V., Pereira, C.S., 2004. Maternal effects on genetic evaluation of Tabapua beef cattle. Gen. Mol. Bio., 27(4), 517-521.

Choi, S.B., Lee, J.W., Kim, N.S., Na, S.H., Keown, J.F., Van Vleck, L.D., 2000. Estimation for genetic parameters for direct, maternal and grand maternal genetic effects for birth weight, weaning weight and six months weight of Hanwoo(Korean cattle). Asian-Aus. J. Anim. Sci., 2,149-154.

Dodenhoff, J., Van Vleck, L.D., Kachman, S.D., Koch, R.M. 1999. Parameter estimates for direct, maternal and grandmaternal genetic effects for birth weight and weaning weight in Hereford cattle. J. Anim. Sci., 76, 2521-2527.

Foulley, J.L., Lefort, G., 1978. Methodes d’estimation des effects directs et maternels en selection animale. Ann. Genet. Sel. Anim., 10, 475-496.

Guiterrez, J.P., Canon, J., Goyache, F., 1997. Estimation of direct and maternal genetic parameters for preweaning traits in the Austriana de los Valles beef cattle breed through animal and sire models. J. Anim. Breed, Genet., 114, 261- 266.

Kaygisiz, A., Bakir, G., Yilmaz, I., Vanli, Y., 2011. Estimation of variance components and genetic parameters for direct and maternal effects on birth weight in Brown Swiss cattle. Pakistan Vet. J. 31(1), 70-74.

Koch, R.M., 1972. The role of maternal effects in animal breeding. VI. Maternal effects in beef cattle. J. Anim. Sci., 35, 1316-1323.

Maniatis, N, Pollot, G.E., 2003. The impact of data structure on genetic covariance components of early growth in sheep , estimated using an animal model with maternal effects. J. Anim. Sci., 81, 101-108.

Mathur, P.K., Sullivan, B., Chesnais, J., 1998. A new method for assessing connectedness between herds. Proc. National Swine Improvement Fed. Conference and Annual Meeting. Michigan, USA, 4-5 December 1998, Michigan NISFV 23:55-60.

Meyer, K., 1993. Covariance matrices for growth traits of Australian Polled Hereford cattle. Anim. Prod., 57, 37-45.

Meyer, K., 1995. Estimates of genetic parameters for mature weight of Australian beef cows and its relationship to early growth and sekeltal measures. Liv. Prod. Sci., 44, 125-137.

Meyer, K., (2001). Estimates of direct and maternal covariance functions for growth of Australian beef calves from birth to weaning. Gen. Sel. Evo., 33, 487-514.

Meyer, K., Garrick, M.J., Donnely, B.J.P., 1994. Genetic parameters for milk production of Australian beef cows and weaning weight of their calves. J. Anim. Sci., 72, 1155- 1165.

Meyer, K. 1997. Estimates of genetic parameters for weaning weight of beef cattle accounting for direct-maternal environmental covariances. Liv. Prod. Sci. 52, 187-199.

Nasholm, A., Danell, O., 1996. Genetic relationships of lamb weight maternal ability and mature ewe weight in Swedish Fine sheep. J. Anim. Sci. 74, 329-339.

Nesser, F.W.C., Erasmus, G.J., Van Wyk, J.B., 2001. Genetic parameters estimates for preweaning weight trait in Dorper sheep. Small Rumin. Res., 40, 197-202.

Norris, D., Banga, C., Benyl, K., Sithole, B.C., 2004. Estimation of genetic parameters and variance components for growth traits of Nguni cattle in Limpopo Province. South Africa. Trop. Anim. Health Prod., 36, 801-806.

Pribyl, J., Krejcova, H., Pribylova, J., Misztal, I., Tsuruta, S., Mielenz, N., 2008. Models for evaluation of growth of performance tested bulls. Czech. J. Anim. Sci., 53, 45-54.

Robnison, D.L., 1996a Estimation and interpretation of direct and maternal genetic parameters for weights of Australian Angus cattle. Liv. Prod. Sci., 45, 1-11.

Robinson, D.L., 1996b Models which might explain negative correlations between direct and maternal genetic effects. Liv. Prod. Sci., 45, 111- 122.

Robison, O.W. 1981. The influence of maternal effects on efficiency of selection: a review. Liv. Prod. Sci., 8, 121- 137.

Saatci, M., Dewi, I.A., Ulutas, Z., 1999. Direct and maternal effects and estimation of breeding values for 12 week weight of Welsh mountain lambs. Anim. Sci., 69, 345-352.

Shi, M.J., Laloe, D., Menissier, F., Remand, G., 1993. Estimation of genetic parameters for preweaning performance in the French Limousin cattle breed. Genet. Sel. Evo., 25, 177-189.

Splan, R.K., Cundiff, L.V., Dikeman, M.E., Van Vleck, L.D., 2002. Estimates of parameters between direct and maternal genetic effects for weaning weight and direct genetic effects for carcass traits in crossbred cattle. J. Anim. Sci., 80, 3107-3111.

Swalve, H., 1993. Estimation of direct and maternal covariance components for growth traits in Australian Simmental beef cattle J. Anim. Bred. Genet., 110, 241- 252.

Szwaczkowski, T., Wojtowski, J., Stanislawska, E., Gut, A., 2006, Estimates of maternal genetic and permanent environmental effects in sheep. Archiv fur Tierzucht., 49, 186-192.

Tilki, M, Inal, S., Tekin, M.E., Colak, M., 2003. The estimation of phenotypic and genetic and genetic parameters for calf birth weight and gestation length of Brown Swiss cows reared at the Bahri Dagdas International Agricultural Research Institute. Turk J. Vet. Anim. Sci., 27, 1343-1348.

Tosh, J.J., Kemp, R.A., 1994. Estimation of variance components for lamb weights in three sheep populations. J. Anim. Sci., 72, 1184- 1190.

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Published

2013-04-27

How to Cite

Assan, N. . (2013). Magnitude of correlation between direct and maternal genetic effects for growth traits in ruminants. Scientific Journal of Review, 2(4), 106-112. Retrieved from http://sjournals.com/index.php/sjr/article/view/662

Issue

Vol. 2 No. 4 (2013): April

Section

Agriculture

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Copyright (c) 2013 Never Assan

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