Abstract

Three experiments on Ross broiler chickens were conducted in 3 locations: cages (Experiment 1), floor pens (Experiment 2), and commercial farms (Experiment 3). The effect of low-total P (TP) wheat-soybean based diets plus microbial phytase (Natuphos) was evaluated. Four experimental starter and finisher diets were used in a 2-phase feeding program, as follows: control diet (SC until 21 d, FC from 22 to 42 d); 2 diets (SL400 and SL600 until 21 d, FL400 and FL600 from 22 to 42 d) with low TP (0.61% for starter and 0.54% for finisher), including 400 and 600 U/kg of phytase, respectively; and a very low-TP (0.52% for starter and 0.44% for finisher) diet (SVL600 until 21 d, FVL600 from 22 to 42 d) with 600 U/kg of phytase. In Experiment 1 (broilers in cages had movement limitation and no access to litter), no differences in BW, tibiotarsus mineralization, or mineral metabolism were observed among diets. In Experiment 2 (broilers in floor pens had movement limitation and access to litter), at 21 d of age, the lowest tibiotarsus ash percentage and BW were shown by birds fed the SVL600 diet. At 42 d of age, broilers fed the FC diet were the lightest. For the rest of the parameters of tibiotarsus mineralization and mineral metabolism measured in Experiment 2, no differences were shown. In Experiment 3 (broilers in commercial farms had access to litter without movement limitation), the BW of broilers fed the SC diet was the highest at 21 d of age. At 42 d of age, the broilers fed FL400 and FL600 diets were the heaviest. At the end of Experiment 3, broilers fed the FC diet had the highest dry litter Ca and P, whereas broilers fed the FVL600 diet had the lowest values. In conclusion, the very low-TP wheat-soybean based diet supplemented with 600 U/kg of phytase was sufficient to optimize all the parameters measured in Experiment 1 but not in Experiments 2 and 3. Therefore, when evaluating Ca and P in phytase-supplemented diets for broilers, it is necessary to bear in mind the environmental conditions of experimentation.

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