Mojdeh Mahmoudi Zarandi; Mohammad Rokouei; Mehdi Vafaei Valleh; Ali Maghsoudi
Volume 22, Issue 1 , March 2020, , Pages 9-22
Abstract
This study was done in order to estimate genetic parameters of growth and feed efficiency traits in Japanese quail. The data set consisted of 7762 records for feed efficiency traits and 12113 records for body weight gain traits were collected at Research Center of Special Domestic Animals, University ...
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This study was done in order to estimate genetic parameters of growth and feed efficiency traits in Japanese quail. The data set consisted of 7762 records for feed efficiency traits and 12113 records for body weight gain traits were collected at Research Center of Special Domestic Animals, University of Zabol. The following traits including body weight gain from 20 to 25, 25-30, 30-35, 35-40, 40-45 and from 0 to 45 days of age, feed intake, feed conversion ratio and residual feed intake from 20 to 45 days of age were evaluated. The genetic parameters were estimated through single and bivariate animal models via Gibbs sampling method. Heritability estimates for body weight gain varied from 0.02 to 0.23 and for feed intake, feed conversion ratio, residual feed intake was in ranges of 0.04 to 0.11. Genetic correlations estimates between body weight gain and feed conversion ratio 20-25, body weight gain and feed conversion ratio 25-30, body weight gain and feed conversion ratio 30-35, body weight gain and feed conversion ratio 35-40, body weight gain and feed conversion ratio 40-45 were -0.56, -0.49, -0.57, -0.70 and 0.25 respectively. Considering estimated genetic correlations of this study, we recommend that selection for body weight gain and decrease feed efficiency have potential to improve feed efficiency traits in Japanese quail. It is expected that by selecting for these traits the costs of breeding programs such as feeding and phenotyping would be reduced.
Saman Abbasi; Mokhtar Ali Abbasi; Alireza Noshari
Volume 17, Issue 2 , October 2015, , Pages 391-401
Abstract
A total of 2000 records of egg quality of 746 birds and body weight data from 17th generation of Fars Native Fowl Breeding Station were used to estimate the genetic parameters of egg quality and body weight traits. Six univariate animal models with different random effects were fitted for each trait. ...
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A total of 2000 records of egg quality of 746 birds and body weight data from 17th generation of Fars Native Fowl Breeding Station were used to estimate the genetic parameters of egg quality and body weight traits. Six univariate animal models with different random effects were fitted for each trait. A model with direct additive genetic and maternal permanent environmental effects was the most appropriate model for mature weight. For body weight in 12th week, the model with direct additive genetic, maternal genetic and maternal permanent environmental effects was suitable. The model with direct additive genetic and maternal genetic effects was appropriate for albumen diameter, yolk weight and egg weight. For other traits, the simple animal model with direct animal additive genetic effect was the best model. Estimates of heritability were ranged from 0.02 (yolk weight) to 0.23 (albumen index) for internal egg quality and were ranged from 0.01 (egg weight) to 0.43 (egg shell strength) for external egg quality traits. These parameters were estimated 0.03, 0.07 and 0.18 for mature weight, body weights at 8th and 12th weeks, respectively. Genetic correlations between egg quality and body weight traits ranged from -0.79 to 0.80. In conclusion, selection based on the body weights at 8th and 12th weeks increases the egg weight, egg width and egg shape index. Selection for body weight in 12th week would increase the albumen weight and yolk diameters.