High stocking density alters bone-related calcium and phosphorus metabolism by changing intestinal absorption in broiler chickens.

Abstract

Live performance, bone health and metabolic responses to the interaction among stocking density and dietary concentrations of total calcium (TCa) and non-phytate phosphorus (NPP) were determined on 2,232 Ross 308 female broilers over a 3-wk experimental period. From 22 d of age, birds were randomly divided into 48 groups and provided with different corn-soybean meal-based diets varying in TCa (0.70% or 0.90%) and NPP (0.28% or 0.36%) content at 1 of 2 stocking densities [28.6 (LSD, 13 broilers/m2) and 39.6 (HSD, 18 broilers/m2) kg of predicted final BW/m2 floor space], according to a 2 × 2 × 2 factorial design with 6 replications in each treatment. Regardless of NPP supplementation, a high-TCa (0.90%) diet aggravated the impact of HSD on growth (BW gain and feed efficiency, P <0.001) and motility (gait score, P <0.001). This might be explained by deteriorating tibia quality (relative weight, mineral composition and biomechanical property; P <0.01), due to the involvement of decreasing duodenal absorption (type IIb sodium-phosphate co-transporter mRNA, P <0.001) in reduced phosphorus retention (P <0.001). On the contrary, increasing dietary NPP (0.36%), particularly if high in TCa (0.90%), boosted TCa retention (P <0.05) by improving absorption (calcium-binding protein D28k transcription, P <0.05) for LSD chickens, hence enhancing bone development (relative tibia weight and tibia breaking strength, P <0.05) and leg health (walking ability, P <0.05). Together, HSD and LSD birds show an impaired TCa tolerance and a higher TCa+NPP threshold, respectively, to allow the optimization of bone quality via altered intestinal absorption.