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    The Eff ect of Total Mix Ration with Xylitol Supplementation on In Vitro Ruminal Total Gas and Methane Production, Digestion Values, Organic Acids, Ammonia-Nitrogen, and the Number of Total Protozoa in Dairy Cattle
    (Kafkas Univ, Veteriner Fakultesi Dergisi, 2022) Soylu, Yildiray; Kara, Kanber; Onel, Suleyman Ercument; Yilmaz, Sena; Oztas, Mehmet Akif; Aslan, Oznur
    The study aimed to determine the effect of xylitol, added to the dry period total mix ration (TMR) of dairy cattle, on in vitro rumen fermentation, total gas production, methane production, estimated digestion values, organic acids and ammonia-nitrogen contents and the number of total protozoa. Xylitol was added to dairy cattle TMR at different rates (0%, 2% 4%, and 8%; dry matter basis). The xylitol supplementations at 2 and 4% did not affect in vitro total gas production, in vitro methane production, metabolizable energy (ME) and organic matter digestibility (OMd) values (P 0.05). The molarities of total volatile fatty acid (TVFA) percentages of acetic acid (AA), propionic acid (PA) and butyric acid (BA) in TVFA, ammonia-nitrogen concentration, and the number of total ciliate protozoa of the in vitro rumen fluid of xylitol supplementations at 2%, 4%, and 8% were similar to those of control TMR (P 0.05). Besides, 2% and 4% xylitol supplementations to dairy cattle TMR numerically increased the concentration of ammonia-nitrogen and the number of total ciliate protozoa in in vitro fermentation fluid (P 0.05). Consequently, the supplementation of 2% and 4% xylitol to dairy cattle ration did not affect the in vitro rumen fermentation (total gas production, methane production, estimated digestion values, organic acids and ammonia-nitrogen parameters). However, 8% supplementation xylitol to dairy cattle ration had the potential to affect the before-mentioned in vitro ruminal fermentation parameters adversely.
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    Öğe
    Effects of plantago species herbage and silage on in vitro ruminal fermentation and microbiome
    (Taylor & Francis Ltd, 2022) Kara, Kanber; Yilmaz, Sena; Onel, Suleyman Ercument; Ozbilgin, Abdullah
    The present study aimed to compare the nutrient composition, in vitro ruminal fermentation values and microbiome in the ruminal fermentation of herbage and silage of the Plantago media, P. major and P. lanceolata species. The lactic acid (LA) content of P. lanceolata silage was higher than those of other plantago silages (p < 0.05). The alpha-linolenic, w-3, polyunsaturated (PUFA), medium chain (MCFA) and long-chain fatty acids (LCFA) of plantago silages were lower than those of plantago herbages (p < 0.05). The neutral detergent fibre (NDF) and acid detergent fibre (ADF) contents, total gas and methane production, metabolic energy (ME) and organic matter digestion (OMD) values and ammonia-nitrogen concentration in the in vitro fermentation fluid of P. major silage were lower than those of other plantago silages (p < 0.05). The in vitro ruminal methane production and community of archaea Methanobrevibacter in the microbiome of P. major herbage were higher than that of P. media and P. lanceolata herbages. The ensiling process significantly increased the in vitro total gas production, acetic acid concentration and Prevotellaceae bacteria of P. media and P. lanceolate compared their herbages. As a result, P. lanceolata and P. media silages provided high-quality silage fermentation; the nutrient composition was not lost to a great extent in the silage environment and the ruminal fibrolytic bacterial composition was positively affected. Plantago major silage could not provide a good silage quality and the in vitro ruminal fermentation and ruminal fibrolytic bacteria community value were negatively affected.