Abstract

Simple SummaryGut microbiota play crucial roles in digestion of feed and absorption of nutrients in fast growing chickens. Gut microbiota affects feed conversion ratio, body weight gain, apparent metabolizable energy, residual feed intake, and time taken to attain the desired weight, which have direct influence on the health and productivity of chickens. A normal gut microbiota is therefore very important for optimum health. Factors like the environment, heat stress, and housing conditions can cause detrimental changes in the gut resulting in poor health of birds and decreased production performance. Polyphenols can be used to improve gut health due to their established health benefits and strong antioxidant potential. The interaction between polyphenols and the gut microbiota further generates active metabolites, which can modulate the composition of the chicken gut microbiota. Because of the specificities of the gut microbiota-polyphenols interactions, current knowledge in this area is presented.The gastrointestinal tract of the chicken harbors very complex and diverse microbial communities including both beneficial and harmful bacteria. However, a dynamic balance is generally maintained in such a way that beneficial bacteria predominate over harmful ones. Environmental factors can negatively affect this balance, resulting in harmful effects on the gut, declining health, and productivity. This means modulating changes in the chicken gut microbiota is an effective strategy to improve gut health and productivity. One strategy is using modified diets to favor the growth of beneficial bacteria and a key candidate are polyphenols, which have strong antioxidant potential and established health benefits. The gut microbiota-polyphenol interactions are of vital importance in their effects on the gut microbiota modulation because it affects not only the composition of gut bacteria but also improves bioavailability of polyphenols through generation of more bioactive metabolites enhancing their health effects on morphology and composition of the gut microbiota. The object of this review is to improve the understanding of polyphenol interactions with the gut microbiota and highlights their potential role in modulation of the gut microbiota of chicken.

Highlights

  • The gastrointestinal tract of chickens is composed of the crop, gizzard, proventriculus, duodenum, jejunum, ileum, caeca, large intestine and cloaca [1] all of which contain complex microbial communities with varying populations

  • Poultry performance may be predicted by recording parameters like feed conversion ratio (FCR), body weight gain (BWG), apparent metabolizable energy (AME), residual feed intake (RFI), and time taken to attain desired weight

  • Prominent variations in microbial communities were observed in the cecum, which harbors the higher diversity of bacterial communities where Lactobacillus salivarius, Lactobacillus crispatus, Lactobacillus aviarius, Clostridium lactatifermentans, some bacteria belonging to Ruminococcaceae family, Akkermansia, Faecalibacterium, and Bacteroides vulgatus were related to improved performance [21], whereas, Escherichia and Shigella strains were correlated with lower fat digestibility and performance in broiler chickens [18]

Read more

Summary

A Review

Simple Summary: Gut microbiota play crucial roles in digestion of feed and absorption of nutrients in fast growing chickens. Gut microbiota affects feed conversion ratio, body weight gain, apparent metabolizable energy, residual feed intake, and time taken to attain the desired weight, which have direct influence on the health and productivity of chickens. A normal gut microbiota is very important for optimum health. Heat stress, and housing conditions can cause detrimental changes in the gut resulting in poor health of birds and decreased production performance. Polyphenols can be used to improve gut health due to their established health benefits and strong antioxidant potential. Because of the specificities of the gut microbiota-polyphenols interactions, current knowledge in this area is presented

Introduction
Chicken Productivity and Its Relationship with the Gut Microbiota
Gut Microbiota-Polyphenols Interaction and Effects on Chicken Gut Microbiota
Flavonoids-Gut Microbiota Interactions and Their Role
Flavonols
Flavanones
Isoflavones
Flavanols
Anthocyanins
Flavones
Non-Flavonoids-Gut Microbiota Interactions and Their Role
Phenolic Acids
Tannins
Lignans
Stilbenes
Findings
Conclusions

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.