Abstract
This study examined the influence of fermented rapeseed meal (FRSM) on the intestinal morphology and gut microflora of broiler chickens. Limited information is available on the effects of FRSM on the intestinal morphology and the gastrointestinal microbiome population of animals. First, 48 21-day Ross 308 broilers were placed in metabolic cages and randomly assigned to four experimental groups. Group I birds were negative controls and received no additive. Group II birds were positive controls and received a 3% addition of unfermented rapeseed meal. Group III birds received a 3% addition of rapeseed meal fermented with the Bacillus subtilis 67 bacterial strain. Group IV birds received a 3% addition of rapeseed meal fermented with the B. subtilis 87Y strain. After 23 days of experimental feeding, the contents of the birds’ ceca were collected for microorganism determination. The histomorphology of the broilers’ ceca was also determined, and beneficial changes were found in the histology of the broilers’ ceca with the additives. Moreover, these materials inhibited the growth of pathogens and significantly stimulated the growth of probiotic bacteria. These results suggest that the addition of 3% FRSM has a potential probiotic effect and can be used as a material in feed for broilers.
Highlights
The gastrointestinal microbiome of chickens is very diverse and consists of over 900 species of microorganisms [1]
We found no changes in the growth of the broilers during the experiment (Table S1), and we expected that the cecal epithelium in the tested birds would be unchanged
This study aimed to investigate the changes in the microbial composition of the cecum and histomorphometric analysis of its epithelium in broilers fed with feed mixture containing 3% of unfermented rapeseed meal (URSM) or B. subtilis fermented rapeseed meal (FRSM)
Summary
The gastrointestinal microbiome of chickens is very diverse and consists of over 900 species of microorganisms [1]. It affects the production parameters of broilers and plays an essential role in protecting against pathogens, detoxifying and modulating the immune system [2,3]. The cecum is an essential site for the fermentation, transportation, and absorption of nutrients, potentially influencing chicken productivity [4,5]. The composition of the cecal microbiome is increasingly being studied. It is necessary to develop methods that alter the poultry gastrointestinal tract microbiome to improve the economic results of production
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