Menu
In combination with recent genetic change, some precision-fed broiler breeders with an optimum body weight (BW) above the current recommended standard might not be receiving a sufficient amount of nutrients to support high rates of egg production. Thus, there may be a need to increase nutrient intake for precision-fed broiler breeders. It is known that maternal nutrition, BW, and age can influence offspring growth. Therefore, the main objective of this study was to evaluate offspring growth performance in response to relaxed maternal feed restriction, implemented through various maternal BW trajectories. A second objective was to investigate the effects of maternal age and broiler sex on offspring growth performance.
Ten BW trajectories were applied to precision-fed Ross 708 female broiler breeders (n = 30) from 2 to 42 wk of age. Trajectories varied in prepubertal and pubertal growth phases from 2.5 to 22.5% above the recommended BW target. Additional unrestricted breeders (n = 6) were not limited to a maximum BW (fed ad libitum). Two 35 d experiments were conducted with precision-fed broilers from these breeders at 35 and 42 wk of age. Broiler chicks from 35 wk old (n
= 105) and 42 wk old (n = 112) breeders were feather-sexed and randomly assigned to 1 of 4 environmental chambers that contained 3 PF stations and ad libitum access to water. Two analyses (full and restricted analysis scopes) were performed to evaluate broiler BW, feed conversion ratio (FCR) and carcass traits with maternal BW at photostimulation (22 wk of age) as a continuous effect, and maternal age and sex as discrete effects. The full scope included broilers from all hens (feed restricted and unrestricted). The restricted scope excluded broilers from unrestricted hens.
For every kilogram increase in maternal weight, cumulative FCR increased by 0.235 and 0.471 g:g for broilers from all and feed restricted hens, respectively. Proportional gut weight of broilers from feed restricted hens decreased by 0.8244% per kilogram increase in maternal BW. Males were heavier than females on day 28 and 35, and broilers from 42-wk-old breeders were heavier than broilers from 35-wk-old breeders on day 0 and 35. Males from all hens were more feed efficient (1.318 g:g) than females (1.335 g:g) from day 29 to 35. Females from all and feed restricted hens had a greater proportional fat pad and breast muscle weight than males, and proportional breast muscle yield of broilers from 42-wk-old breeders was on average 1.04 times greater than that of broilers from 35-wk-old breeders. Maternal BW did not affect offspring BW, reduced cumulative FCR, and reduced gut weight in the restricted analysis scope.
Increased maternal BW up to 22.5% above the recommended BW and unrestricted growth had little impact on broiler growth performance. This suggests that increasing female broiler breeder BW targets to lower the severity of feed restriction would reduce gut weight and increase feed efficiency in broiler offspring.