2022
DOI: 10.1007/s11250-022-03249-w
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Assessment of organic acid salts on fermentation quality, aerobic stability, and in vitro rumen digestibility of total mixed ration silage

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Cited by 6 publications
(6 citation statements)
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“…The increase in propionic acid content was likely a result of lactic acid being consumed by L. buchneri . With the prolongation of the ensiling period, the content of propionic acid in the CAP treatment increased (p < 0.05), which could be attributed to the dissociation of corresponding organic acid salts (Dai et al, 2022), as was reported by Wen et al (2017). Kung et al (2018) reported that butyric acid below 5 g/kg DM was optimal for high quality fermentation, and the butyric acid content of all treatments in the present study met this criterium.…”
Section: Fermentation Quality Of Hybrid Pennisetum Silagesupporting
confidence: 85%
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“…The increase in propionic acid content was likely a result of lactic acid being consumed by L. buchneri . With the prolongation of the ensiling period, the content of propionic acid in the CAP treatment increased (p < 0.05), which could be attributed to the dissociation of corresponding organic acid salts (Dai et al, 2022), as was reported by Wen et al (2017). Kung et al (2018) reported that butyric acid below 5 g/kg DM was optimal for high quality fermentation, and the butyric acid content of all treatments in the present study met this criterium.…”
Section: Fermentation Quality Of Hybrid Pennisetum Silagesupporting
confidence: 85%
“…After an increase in the ensiling period, the content of butyric acid was lesser (p < 0.05) in the LP, PA, LP + PA and CAP treatments than in CK. The production of silage undergoes dynamic enzymatic and microbial processes of which the degradation of proteins is one of the most crucial stages (Wang S. et al, 2022). In the present study, the NH 3 -N:TN ratios in the PA and LP + PA treatments were lesser (p < 0.05) than in the other treatments, probably because the lower pH inhibited the activity of the protease (Tian H. et al, 2022).…”
Section: Fermentation Quality Of Hybrid Pennisetum Silagementioning
confidence: 53%
“…In addition, the highest abundances of each treatment at the genus level were as follows: Lactococcus in CK, Lactobacillus in LP, and Weissella and Pediococcus in LP + CAP. Previous studies reported that Pediococcus was generally highly abundant in silage with high pH (Zhao et al, 2022;Zong et al, 2022), and the treatment with LP + CAP in this study had the highest pH at 60 days of ensiling (Table 2). Figures 6A,B present the second-level classification of microbial community metabolic functions.…”
Section: Microbial Diversitysupporting
confidence: 59%
“…In the current study, the pH and temperature increased rapidly in the Olotillo, Tampiqueño and Tuxpeño silage, which caused them to present less stability and a higher degree of deterioration and loss of DM and OM than the Amarillo and hybrid silage. Considering that the genotypes with less stability and greater spoilage presented high WSC and/or LA content, it is possible to suppose that they had a high yeast activity, since these microorganisms are the initiators of aerobic spoilage because they can oxidize WSCs and LA to carbon dioxide and water [53], which raises the pH and temperature [54]. Moreover, the oxidation of these carbohydrates and LA generates adequate conditions for the growth of aerobic bacteria and molds [55], and although AA has antifungal properties and is negatively correlated with yeasts [56], in the current study it possibly had little influence on stability, since it varied little between genotypes, and, since it is a weak gas, it is not ruled out that a part volatilized during aerobic exposure [57].…”
Section: Stability and Aerobic Deterioration Of The Ensiled Foragementioning
confidence: 99%