Nutrition innovation to help poultry producers meet antibiotic reduction goals
28 March 2018
Trouw Nutrition R&D Director Professor Dr. Leo den Hartog presents insights at Asia Pacific Poultry Conference
As global health authorities and policymakers confront the escalating threat of antimicrobial resistance, innovations in sustainable poultry nutrition offer producers tools to improve bird performance and productivity without antibiotics.
During the 11th Asia Pacific Poultry Conference (APPC), Professor and Dr. Leo den Hartog, director of R&D at Trouw Nutrition and a professor in Sustainable Animal Nutrition in Production Chains at Wageningen University, delivered the keynote address. In his remarks, Professor Dr. Den Hartog demonstrated that a dramatic reduction in antibiotic use in food production can be achieved via an integrated, multi-stakeholder approach based on feed, farm and health strategies.
Increased production poses challenges
Poultry meat production is expected to increase 72% between 2017 and 2050. Meeting the world’s growing demand for poultry will require solutions that are environmentally sound, socially responsible and economically viable. The expression of the full genetic potential of farm animals worldwide is negatively affected by suboptimal farm conditions and health status. Animal productivity can be reduced by an average of 30 to 40% due to these reasons. Therefore, a tremendous opportunity exists to improve poultry performance.
Antimicrobial resistance — a global threat
At the same time a global increase in demand for poultry meat is anticipated, an escalating global health threat means producers must look for alternatives to antibiotic growth promoters (AGPs), often used to improve animal production efficiency. Antibiotic use in animal production is expected to rise 67% by 2030, and to nearly double in Brazil, Russia, India, China and South Africa. If no additional restrictions on AGPs are implemented, the potential for antimicrobial resistance (AMR) to proliferate will continue to rise. By 2050, the World Health Organization (WHO) predicts the annual death toll attributable to AMR could reach 10 million.
A toolkit to improve performance and productivity
During his keynote remarks at APPC, Professor Dr. Den Hartog reviewed how the Netherlands implemented a multi-stakeholder programme that reduced antibiotic use in broiler production 72% between 2009 and 2016 without compromising performance. The effort’s success is attributed to the integration of feed, farm and health management. Collectively, these measures supported birds’ intestinal health by preventing the intake of specific pathogens, managing microbiota, improving gut integrity and supporting immunomodulation.
Professor Dr. Den Hartog presented a feed additive “toolkit” combining targeted feed and drinking water additives (DWAs) to achieve desired effects. “The starting point of any antibiotic reduction programme is assurance of feed and drinking water quality,” he noted.
Combining targeted DWAs supports gut health and immune modulation.
For example, Professor Dr. Den Hartog showed how applying formic, propionic, and lactic organic acids and medium chain fatty acids derived from plant oils reduces bacterial activity and helps balance microbiota. Controlled release butyrate in combination with specific phytochemicals increases mucus production and supports epithelial cell proliferation and modulation of the gut-associated immune system.
“Combining feed additives with different functions and mode of action is a promising strategy not only to support animals in an AGP-free feed programme, but is also expected to have prophylactic effects,” said Professor Dr. Den Hartog.
Beyond feed additives and DWAs, Professor Dr. Den Hartog noted opportunities to further support animal health without antibiotics, including strategically managing dietary nutrients and ingredients, such as increasing poultry diet fibre and modifying feed particle size. Combining these types of solutions with ideal farm management will ultimately help poultry producers reduce antibiotics while maintaining animal performance.