Microbiome modulation by a precision biotic in broilers chickens: a commercial study validation.

Precision biotics (PBs) are chemically synthesized complex glycans that modulate specific microbiome metabolic functions. The objective of the present study was to evaluate the effect of the supplementation of PB on the growth performance, and cecal microbiome modulation of broiler chickens raised under commercial conditions. A total of 190,000-day-old Ross 308 straight-run broilers were randomly assigned to 2 dietary treatments. There were 5 houses per treatment with 19,000 birds per house. In each house, there were 6 rows of battery cages with 3 tiers. The 2 dietary treatments included a control diet (a commercial broiler diet) and a PB supplemented diet at 0.9 kg/MT. On a weekly basis, 380 birds were randomly selected for body weight (BW) determination. At 42 d of age, the BW and feed intake (FI) of each house were recorded, the feed conversion ratio (cFCR) was calculated and corrected with the final BW, and the European production index (EPI) was calculated. Additionally, 8 birds per house (40 birds/experimental group) were randomly selected to collect cecal content for microbiome analysis. The supplementation of PB significantly improved (P < 0.05) the BW of the birds at 7, 14, and 21 d and numerically improved the BW of the birds by 64 and 70 g at 28 and 35 d of age, respectively. At 42 d, the PB numerically improved BW by 52 g, and significantly improved (P < 0.05) the cFCR by 2.2 points and the EPI by 13 points. The functional profile analysis showed a clear and significant difference in the cecal microbiome metabolism between control vs. PB supplemented birds. A higher abundance of pathways was modulated by PB which were associated with amino acid fermentation and putrefaction, particularly from lysine, arginine, proline, histidine, and tryptophane which led to a significant increase (P = 0.0025) in the Microbiome Protein Metabolism Index (MPMI) compared to nonsupplemented birds. In conclusion, the supplementation of PB efficiently modulated pathways related to protein fermentation and putrefaction, resulting in higher MPMI and improved growth performance of broilers.

Effects of the different levels of dietary trace elements from organic or inorganic sources on growth performance, carcass traits, meat quality, and faecal mineral excretion of broilers.

This experiment was conducted to evaluate the effects of different sources and levels of trace elements on growth performance, carcass composition and mineral excretion levels of broilers. In a completely randomised experimental design, 900 one-day-old male Ross-308 broilers were assigned to 5 treatments, with 6 replicates of 30 birds each. The control group (CITE) was fed with a basal diet containing regular inclusion levels of inorganic trace elements. Treatment groups were supplied with reduced levels (30% and 50% of the regular level) of inorganic (ITE) or organic trace elements (OTE), respectively. Groups 50% ITE, 30% OTE and 50% OTE diets had equivalent average daily gain (ADG), average daily feed intake (ADFI), feed to gain ratio (F/G ratio) and mortality rate compared with group CITE in any phase. However, compared with group CITE chicks in group 30% ITE have lower ADG and ADFI and higher F/G ratio. The carcass yields were not affected by dietary treatments. Compared with group CITE, in groups 30% ITE, 50% ITE, 30% OTE and 50% OTE the shear force values of the breast muscle were only 71.8%, 83.4%, 63.5% and 59.4% (p < 0.05), respectively. Birds received diets containing reduced levels of trace elements had diminished excretions of Mn and Zn throughout the entire period (p < 0.01). In conclusion, the reduced supplementation of trace elements had no or slightly negative impact on growth performance, carcass yield and meat quality, but decreased faecal mineral excretion. Moreover, the trace element supply as OTE played a limited role on performance and excretion and was only partly beneficial for animal performance in case the trace element supply was reduced to 30%.