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Abstract
1. A total of 1200 Cobb broiler breeder eggs were incubated under either standard conditions (C group) or high CO2 levels (CO2 group) during the first 10 d of incubation. The CO2 level of the CO2 incubator was attained gradually by a natural build-up of CO2 due to air-tight closure of the incubator. From d 10 of incubation onwards, all eggs were incubated under standard incubation conditions. At d 18 of incubation, the eggs of both incubation groups (CO2 and C group) were either injected with water-soluble dexamethasone (DEXA group) or with saline (0·9% NaCl; saline group) or were not injected (control).
2. Body weights, plasma hormonal concentrations (T3, T4 and corticosteroid) and glucose concentrations were measured regularly during the perinatal (at IP, internal pipping) and post-hatch period (at 1, 2, 4 and 6 weeks post-hatch). Additionally, hatchability and pattern of embryonic mortality were determined after hatch.
3. The results showed that high CO2 levels during the first 10 d of incubation or dexamethasone injection at d 18 of incubation decreased embryo mortality, mainly because of a reduction in embryo malpositioning. However, a combination of a CO2 incubation and a dexamethasone injection led to an increase in embryo mortality and therefore a decrease in hatchability.
4. Although dexamethasone injection at embryonic d 18 decreased body weight in the second week of the rearing period and CO2 incubation increased body weight during the first 2 weeks of the rearing period, no consistent effect of both the incubation and injection treatments on body weight at slaughter age was observed.
Acknowledgements
K. Tona was granted a postdoctoral fellow from KU Leuven during this study. V. Bruggeman has a postdoctoral FWO grant from the Fund for Scientific Research, Flanders, Belgium. This work was supported by the Fund for Scientific Research, Flanders (FWO, Vlaanderen) Belgium (Grant No. G0286.04).