Abstract
Eight hundred one-day-old female chickens from two White Plymouth Rock lines (line L and line K) and their reciprocal crosses obtained from 40 male and 480 females were used to form four genetic groups (LxL, KxK, LxK and KxL). Differences among genotypes, the direct and maternal additive effects, and the heterosis were investigated with regard to the following traits: body weight from 2 to 10 weeks of age and at 18, 26 and 30 weeks of age, age at sexual maturity, egg production per hen-day until 46 weeks of age, average egg weight (between 32 and 46 weeks of age), liveability during the production period, egg fertility, hatchability of set and fertile eggs. The results demonstrated a statistically significant effect of the genotype on body weight during the different age periods (p<0.001), age at sexual maturity (p<0.001), egg production (p<0.01) and livability (p<0.05). On the basis of analysis of direct additive effects, it could be concluded that line L was superior for obtaining combinations with more intensive growth rate. Although the lack of direct additive effect with respect to the other traits studied, there was a positive tendency favouring line K. Maternal additive effects had a substantial effect on body weight in most studied periods and livability, favouring line L. The heterosis was important for body weights at different periods of life (3.76-22.33 %), age at sexual maturity (-8.32 %) and egg production (8.25 %) with positive effects on these traits. The results pointed at a mutual complementary effect between both lines as a result of crossbreeding.
Highlights
Crossbreeding results in alteration of genetic variance and allows combining the valuable traits of parent lines in their progeny.An objective evaluation of the value of a given strain and its exact place in combinations is performed on the basis of diallel cross experiments
On the basis of analysis of direct additive effects, it could be concluded that line L was superior for obtaining combinations with more intensive growth rate
Maternal additive effects had a substantial effect on body weight in most studied periods and livability, favouring line L
Summary
Crossbreeding results in alteration of genetic variance and allows combining the valuable traits of parent lines in their progeny.An objective evaluation of the value of a given strain and its exact place in combinations is performed on the basis of diallel cross experiments. Crossbreeding results in alteration of genetic variance and allows combining the valuable traits of parent lines in their progeny. From a theoretical point of view, the hybrid vigor is inversely proportional to the extent of genetic similarities between parental populations (Wilham and Pollak, 1985) and it is expected to be proportional to the extent of heterozygocity of crosses (Sheridan, 1981). Heterosis results from non-additive genetic effects and is usually higher for reproduction rather than growth traits. It is influenced by maternal effects (Lui et al, 1995), which are higher in cases with small heterosis (Fairfull et al, 1983). Iraqi et al (2005) believes that in most cases, hybrid vigor due to the epistatic effect of genes was hard to be predicted, as the number of type of interactions are usually unknown and could be affected by dominance
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
