International Phytate Summit comes to a close
The third International Phytate Summit (IPS3) concluded with industry leaders discussing the anti-nutritional impact that phytate can have on protein digestibility, and the positive influence of phytase on amino acids.
The event, themed “The Value Chain of Phytate Destruction,” has seen feed and nutrition experts from around the world share the latest research into how combating phytate can improve feed efficiency, nutrient utilization, sustainability and ultimately profitability.
On the final day, Professor Hank Classen, University of Saskatchewan, highlighted the impact of phytate and phytate esters on protein digestibility and the influence of superdoses of phytase on amino acid digestibility, specifically non-essential amino acids.
“The use of high levels of phytase is promising in young birds because we did see a more consistent response in phytate hydrolysis and so the availability of amino acids and energy is also more predictable.”
Professor Layi Adeola of Purdue University discussed the fate of amino acids in the gastrointestinal tract, a very complex system of endogenous enzymes and transporters.
This research was followed by that of Dr. Sami Dridi, University of Arkansas, and Dr. Gabriel Morales, University of Buenos Aires, who highlighted the need to better understand the nutrient requirements of the animals, particularly environmentally interesting nutrients such as amino acids and phosphorus in monogastrics and aquaculture.
Dr. Morales stated: “Phytase use can play a significant role in sustainable aquaculture production. Research has demonstrated that superdoses of phytase supplied in a plant-based diet for rainbow trout increased dietary phosphorus retention from 36 to 67 percent and reduced the excretion of nitrogen into the environment by 7 percent.”
The summit concluded with a presentation from Dr. Mike Kidd from the University of Arkansas highlighting the historical understanding of phytate and amino acids, current understanding and future trends in amino acid formulations and implications for phytate and phytase.
“Additional research is warranted to assess amino acid digestibility as improved by dietary phytase,” Dr. Kidd stated. “Variation exists in amino acid digestibility studies in the literature and it is difficult to realize an amino acid response near the asymptote of the biological response, particularly less limiting amino acids and in environmental conditions producing different gut health challenges.”