Document Type : Original Article
Author
Abstract
The dispersion of ammonia gas NH3 in poultry farming operations is considered a significant challenge that poses a threat to production. Given its direct impact on the general welfare of poultry, this will negatively impact the quality of the final product. The medication underwent a metabolic transformation in the laboratory, which involved a sequence of three successive events. Lactic acid bacteria were isolated and identified from the ileum area of the small intestine of fowl during the early phase. During the following stage, the bacteria that were separated were stimulated on a sterile skim milk medium for three consecutive occasions. The third stage entailed the generation of physiologically metabolized molecules referred to as "postbiotics" or biologically active compounds.During the 35-day raising period, three experimental treatments (T0, T1, and T2)
had this chemical given to the broilers' meals at different levels (0, 1, and 2 grams/kg
feed, respectively. To determine the material's efficacy in lowering NH3 ammonia gas
emissions and their effect on manufacturing .
The experiment involved developing a novel technique to accurately quantify
ammonia gas (NH3) in poultry farms. This approach had not been previously
employed in Iraq, the Arab world, or maybe even globally. The study conducted on
this topic was substantial.
According to the statistical analysis, the postbiotic T1 and T2 treatments
significantly reduced the rates of ammonia gas NH3 compared to the control treatment
T0 (P≤0.05)
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