Use this URL to cite or link to this record in EThOS: https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.823459
Title: The efficacy of xylo-oligosaccharides in supporting the gut health, oxidative status and performance of broilers
Author: Desbruslais, A.
ISNI:       0000 0005 0291 2369
Awarding Body: Nottingham Trent University
Current Institution: Nottingham Trent University
Date of Award: 2020
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Abstract:
Population growth and associated food security has led to pressure on the livestock production industries to increase both production output and production sustainability. The 2006 EU ban on the use of non-therapeutic antibiotics had created a need for alternative measures to support the health and growth of livestock. In recent years there has been increasing evidence that broilers may be experience high levels of oxidative stress. This has been linked with an emerging problem with poultry muscle meat myopathies such as woody breast, white stripe and spaghetti meat. Pre-biotics are one area being explored to fill this void. Xylanase is an exogenous enzyme routinely used in broiler production to reduce the anti-nutritional effects of non-starch polysaccharides present in viscous feed grains. It has been speculated that xylanase may also act as a prebiotic by hydrolysing long-chain polysaccharides in the diet into oligosaccharides that can be utilized for fermentation by microbiota in the hind gut. Subsequently, fermentation products can have antimicrobial and energy sparing effects that may be able to enhance broiler performance and gut health. Oligosaccharides have also been shown to have antioxidant properties. A series of bird trials and in vitro studies were conducted to investigate the effect of xylanase, arabinoxylans and xylo-oligosaccharides on the performance, gut health and oxidative status of broilers. . Initially a bird trial investigated the effect of an arabinoxylan extract, with and without the addition of xylanase. This study showed performance benefits of supplementing broilers with an arabinoxylan extract with birds consistently gaining more weight than the other treatments (significant during days 21-28) and finally weighing on average over 100g more than the other treatments. Pre-treating the AX extract seemed to negate any performance benefits, possibly due to a mixing or distribution effect of the pre-treatment process. A second bird trial investigated the effect of two XOS products derived from different base materials with and without the addition of xylanase in a 3x2 factorial study. This study revealed very few performance effect but did show that xylanase inclusion increased the tibial breaking strength at day 21 and increased calcium digestibility at day 42. An in vitro study investigated novel antioxidant assays as a way to measure the oxidative status of broilers and the antioxidative properties of broiler feed and various commercial oligosaccharides. This study provided initial indications for optimizing the use of this assay in broilers and showed that all of the XOS products investigated had some antioxidative capacity. A final bird trial investigated the dose response of Signis®, a commercial XOS and xylanase supplement. This study compared a commercially recommended dose of 0.1g/kg Signis® with a dose of 0.2g/kg. This study showed significantly improved body weight gain, average bird weight for both doses of Signis® compared to the control and significantly improved feed conversion ratio for the 0.2g/kg dose compared to the control and 0.1g/kg dose. This study did not find any significant difference in digesta viscosity, suggesting that the performance enhancing effects of XOS/xylanase may be due to alternative mechanisms such as the production of xylanase by bacteria in the GIT. This project demonstrated that broilers can gain performance benefits from the supplementation of an AX extract without the addition of xylanase, suggesting that broilers may be able to ferment AX independently and that although broilers may not be able to produce endogenous xylanase, the microbiota within the intestinal tract may be able to and that viscosity and cell wall effects may not be responsible for all beneficial effects of XOS/xylanase supplementation.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.823459  DOI: Not available
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