Response of Broilers Fed Phytase Enzymes of Different Optimal Ph Ranges Alone or in Combination

The objective of this research project was to determine the effects of feeding combinations of phytases with varying optimal pH ranges. The researchers theorized that if combinations of different phytases are more effective than singular use, the nutritive quality of feedstuffs would be enhanced; thereby, improving broiler production, lowering feed costs and reducing environmental excretion of phosphorus. Two experiments were conducted. In experiment 1, broilers were reared in raised wire cages from 0-14 days to investigate the potential synergy of three different phytase enzymes of varying biochemical properties when fed alone or in combination with low phytase activities (120 or 240 FTU/kg). Data obtained demonstrated a potential synergy with the supplementation of two phytases combined at a higher phytase activity level (240 FTU/kg), as identified from ileal IP6 lower ester concentration, increased digestibility (calcium, phosphorus, and select amino acids) and tibia ash (indicating greater phytate degradation). In experiment 2, the two higher performing phytases from experiment 1 were used to address limitations recognized in experiment 1, including: 1) utilizing a broader and more practical range of phytase activity (250 or 1500 FTU/kg); 2) implementing three diets varying in calcium and available phosphorus; and 3) employing an entire grow-out of broilers within experimental floor-pen facilities.

These data demonstrated that feeding diets lowest in calcium and available phosphorus along with 1500 FTU/kg of a single phytase resulted in improved broiler performance, tibia ash (mg/chick and concentration of select minerals) and nutrient digestibility (calcium, phosphorus and select amino acids). This strategy also demonstrated improved thigh weight at processing and indicated greater phytate degradation. Additionally, there was some indication of synergy for the use of combined phytase at 250 FTU/kg within diets of medium calcium and available phosphorus levels (relative to reduced nutrient diets alone); however, performance was not maximized.

Overall, data do not indicate that feeding multiple phytase enzymes will contribute to significant improvements for the commercial broiler industry; however, these data do suggest that more attention towards calcium and available phosphorus ratios can further the efficacy of phytases. Further research on multiple enzyme use in broiler diets is warranted and could provide valuable economic and environmental insight on the strategic use of exogenous enzymes for the commercial poultry industry.