TY - JOUR AU - Harrold, Daniel AU - Saunders, Richard AU - Bailey, Jennifer PY - 2020/04/30 Y2 - 2024/03/28 TI - Dietary putrescine supplementation reduces faecal abundance of Clostridium perfringens and markers of inflammation in captive azure-winged magpies JF - Journal of Zoo and Aquarium Research JA - JZAR VL - 8 IS - 2 SE - Articles DO - 10.19227/jzar.v8i2.456 UR - https://jzar.org/jzar/article/view/456 SP - 114-123 AB - <p>Dietary supplementation allows aviculturists to correct for nutritional imbalances helping maintain peak health and welfare of captive populations. Supplementation with the polyamine putrescine (PUT) has been used widely in poultry production and is shown to promote and regulate multiple biological processes essential for growth, digestion, and immunity. This novel investigation quantified the effect of PUT supplementation on gut health and behaviour in a new model passerine: the azure-winged magpie (<em>Cyanopica cyanus</em>). Faecal samples from 15 birds were processed over 10 weeks prior to, during, and following a four week PUT supplementation period. Markers of relative gastrointestinal health were quantified using intestinal microbiota abundance from cultures, immunoassay of pro-inflammatory cytokine interleukin-6, and excreted polyamine concentrations from samples. Instantaneous-focal sampling was used to highlight changes to group behavioural frequencies. PUT significantly reduced faecal interleukin-6 concentration (p&lt;0.0001) and <em>Clostridium perfringens</em> abundance (p&lt;0.0001). Lactic acid bacteria (p=0.0011) and enterobacteria (p=0.0017) abundance increased with PUT, with a subsequent decrease in colony count after supplementation ceased. Flying (p=0.0006) and perching (p=0.0041) frequencies significantly increased and decreased respectively, whilst frequencies of both self-grooming (p=0.03) and drinking (p=0.0013) increased. PUT supplementation here is shown to be beneficial to <em>C. cyanus</em> by reducing gut inflammation and colonization of <em>C. perfringens</em>, subsequently allowing the proliferation of commensal bacterial populations into available niches and improved assimilation of nutrients across the epithelium, reducing nutritional stress. Such reductions in <em>C. perfringens </em>abundance may also indicate the relevance of using polyamines in combinatory treatments for chronic clostridiosis.</p> ER -