‘Superdosing’, the practice of using high doses of phytase to target phytate destruction, can serve to recover broiler performance losses associated with reductions in dietary digestible amino acid (dAA) densities. This was the finding of a new research study from Texas A&M University and AB Vista.
The study investigated impact on body weight, breast meat yield and feed conversion ratio (FCR) in male Cobb broilers across 44 days. Our North America Technical Manager Dr Craig Wyatt explains the rationale behind the experiment:
“In an increasingly challenging environment, producers and nutritionists are looking to maximise returns – but any financial gains must naturally be balanced against related performance losses. Reducing dAA density in diets can lower costs – but with this comes losses in yield and body weight.
“We formulated this study in order to help establish whether adding superdoses of phytase could help reduce diet cost – thus enabling producers to reduce digestible amino acid density without impacting key performance markers.”
The experimental design involved three levels of AB Vista’s Quantum Blue phytase (500, 1,500, and 3,000 FTU/kg) and three dietary dAA densities: a control at 100% of breeder-recommended levels, and isocaloric diets at 95% and 90% of control levels respectively.
Results confirmed that lower dAA levels resulted in poorer performance, with the two reduced-density diets yielding a 3.1 point FCR increase, and reductions of 78g and 27g across body and breast weight respectively.
In contrast, increasing phytase was shown to improve performance: the higher levels of phytase increased body weight at day 18; however, 3,000 FTU/kg was needed to deliver a significant increase on day 44.
Similarly, both higher levels of phytase improved FCR in the starter phase; however, 3,000 FTU/kg was needed to decrease FCR in later phases and from day 1 to 44. In the case of breast yield, 1,500 FTU/kg was sufficient to increase yield, compared to the 500 FTU/kg.
Dr Wyatt concludes:
“The demonstrated link between higher inclusions of phytase and performance improvements in reduced dAA density diets is encouraging for anyone concerned about the impact of restricted dAA levels. We plan to conduct additional studies to investigate specific modes of action, as well as to further explore the interaction between phytase and dAAs.”
For full details of the study, download the PDF here.
DISCOVER HOW QUANTUM BLUE PHYTASE UNLOCKS ALL SIX PHOSPHORUS MOLECULES