Abstract
This study was conducted to investigate the effect of dietary fatty acids (FA) on the fertility and hatchability of laying hens at the end-of-lay period (69 - 77 weeks of age). Five isoenergetic (12.4 MJ ME/kg DM) and isonitrogenous (170 g CP/kg DM) diets were formulated using different lipid sources (30 g/kg inclusion) to manipulate the dietary FA profile. The control diet was formulated using a 50 : 50 blend of linseed and fish oil, while fish oil was used in the polyunsaturated n-3 treatment. Sunflower oil was used in the polyunsaturated n-6 treatment, while in the mono-unsaturated n-9 diet high oleic acid (HO) sunflower oil was used. Lastly, tallow was used as a lipid source in the saturated FA diet. One hundred and twenty five hens (n = 25/treatment) and 50 cockerels (n = 10/treatment) of the Hy-Line Silver-Brown genotype were randomly allocated to the five dietary treatments at 20 weeks of age. From 69 weeks of age, hens were inseminated with 0.06 mL undiluted semen from cockerels within the same dietary treatment. Between 71 and 78 weeks of age (49 days) a total of 588 eggs-per-treatment were collected, individually marked (date and hen number) and incubated in a single-stage still-air incubator. Eggs were candled on D7 and D14 to determine embryonic mortalities and a 24 h window for hatching was allowed (D21 + 24 h). Although the fish oil treatment resulted in the lowest egg weights (59.3 g) and fertility (84.6%), it recorded the highest hatchability (76%). In contrast, the sunflower oil treatment recorded the lowest hatchability (58.2%) of all treatments, despite its high egg fertility (89.6%). Results of the study suggest that the dietary fatty acid content, in particular the n-3 and n-6 levels, need critical consideration in terms of concentration and ratio in the formulation of breeder diets to limit embryonic mortalities during incubation.Keywords: Chicks, embryo, mortality, mono-, polyunsaturated fatty acids
Highlights
The evaluations of breeding soundness in the poultry industry remains under scrutiny with a continual strive to limit the subjective assessment of the criteria
The results regarding the effect of dietary fatty acid profile on fertility and hatchability are set out in Interestingly, not statistically different (P >0.05), the fish oil treatment resulted in the numerical lowest mortalities (6.8%) during late (D14-21) incubation, as well as “pipping” (2.0%)
As the fish oil (n-3) treatment resulted in the lowest embryonic mortalities in the different embryonic developmental stages, it subsequently resulted in the highest (P
Summary
The evaluations of breeding soundness in the poultry industry remains under scrutiny with a continual strive to limit the subjective assessment of the criteria. Wilson et al (1979) illustrated that the general selection of cockerels based on physical characteristics, such as comb size, body size and shank length, were not accurate enough in predicting cockerel fertility. Since an increase in body size impact negatively on male fertility (Reddy & Sajadi, 1990; Barbato, 1999), numerous studies have been done in an attempt to develop a more scientific, detailed and sustainable method for the evaluation of flock fertility (King et al, 2000; Parker & McDaniel, 2002). The selection of cockerels based on sperm quality traits has translated into improved hatchability in the broiler breeder flock (Eslick & McDaniel 1992; Parker & McDaniel 2002). One of the major factors affecting sperm quality remains the diet composition
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