Effects of <i>Lactobacillus buchneri</i> isolated from tropical maize silage on fermentation and aerobic stability of maize and sugarcane silages

Silva, Leandro Diego da; Pereira, Odilon Gomes; Silva, Thiago Christiano; Leandro, Eliana dos Santos; Paula, R; Santos, Stefanie Alvarenga; Ribeiro, Karina Guimarães; Filho, S. C. Valadares

doi:10.1111/gfs.12360

Cited by 21 publications

(24 citation statements)

References 44 publications

(73 reference statements)

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“…The genera, Lactobacillus, Streptococcus, and Bifidobacterium that can produce lactic acid [33,34], and the genera, Megasphaera, a commonly known lactic acid utilizing genus [35], all showed higher relative abundance levels in the jejunal microbiome of grain-fed cattle. These genera have long been observed to have a higher abundance in high-grain diet rumen, and in animals with rumen acidosis [36,37]. Our study further showed that from the rumen to the jejunum, these higher abundances in grain-fed cattle remained significant to have more senior activities related to lactate.…”

Section: Discussionsupporting

confidence: 61%

Jejunal Microbiome and Bile Acids Induced by Diets in Angus Beef Cattle

Liu¹,

Liu²,

Cai³

et al. 2020

Preprint

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Background: The small intestine, while serving as the main absorption organ, also possesses a unique microbiome environment and holds the critical function of conversion of primary bile acids. Bile acids are, in turn, able to regulate microbiome structure and promote the growth of bacteria that convert primary bile acids to secondary bile acids. However, in beef cattle, few studies have explored the microbiome compositions of the jejunum and its relationships with bile acids. Therefore, the hypothesis is that microbiome compositions in the intestine are influenced by diet style and also related to bile acids.Results: We demonstrated that the influences of diets on the intestinal microbiome could be observed in young beef cattle after weaning. A significantly higher level of microbial diversity was evidenced in feces of grass-fed animals comparing to grain-fed cattle. Top 20 essential genera were obtained with random forest analysis on the fecal microbiome to identify candidate microbial biomarkers. Moreover, the jejunal microbiome of adult Angus beef cattle exhibited significant differences in microbial composition and metabolic potential under different diets. Global balances and microbiome signatures of bile acids were identified. Conclusions: The findings from this study provided deep insights into microbiome compositions in fecal and jejunal and identified relationships between jejunal microbiome and bile acids with diets in Angus beef cattle. Our results should help us better understand grass-fed beef in production practice and potential health benefits.

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Section: Discussionsupporting

confidence: 61%

Jejunal Microbiome and Bile Acids Induced by Diets in Angus Beef Cattle

Liu¹,

Liu²,

Cai³

et al. 2020

Preprint

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“…Propionic acid (Wang, Yu, Wu, & Hannaway, ) or heterofermentative LAB, such as L . buchneri (Silva et al., ) and L . brevis (Daniel et al., ), are usually used to alleviate this deterioration.…”

Section: Introductionmentioning

confidence: 99%

“…However, when the fermentation completed and the silage exposed to air, undesirable microorganisms will use the lactic acid or residue WSC to lead to the nutrient loss and health risks for animals and humans (Tao et al, 2017). Propionic acid (Wang, Yu, Wu, & Hannaway, 2018) or heterofermentative LAB, such as L. buchneri (Silva et al, 2018) and L. brevis (Daniel et al, 2015), are usually used to alleviate this deterioration. Heterofermentative LAB are characterized by the production of acetic acid, which is considered useful for increasing aerobic stability (Tobacco, Piano, Revello, & Borreani, 2011), and propionic acid is an aerobic microbial inhibitor that can effectively inhibit the activity of moulds and yeasts .…”

Section: Introductionmentioning

confidence: 99%

Fermentation quality and aerobic stability of mulberry silage prepared with lactic acid bacteria and propionic acid

Zhang

Wang

et al. 2019

Animal Science Journal

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The objective of this study was to examine the fermentation quality and aerobic stability of mulberry (Morus alba L.) silage prepared with lactic acid bacteria (LAB) and propionic acid (PA). The selected LAB strains Lactobacillus (L.) plantarum LC365281 (L1) and L. brevis LC365282 (L2), and commercial inoculant strains L. plantarum Gaofuji (GF) and L. buchneri Fresh (FR), and PA were used as additives for silage preparation. Silage treatments were designed as control, L1, L2, GF, FR, PA, PA + L1, PA + L2, PA + GF, or PA + FR. After 30 days of ensiling, the fermentation quality of silages treated with PA + L1 was improved, with a lower (p < 0.05) pH and NH3‐N content than those of other treatments. During the aerobic exposure, the PA + LAB‐treated silages displayed an aerobic stability with stable pH value and lactic acid content. The results confirm that L. plantarum L1 and PA were the best additive combination for ensiling mulberry.

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“…Lactate producers, such as Lactobacillus, Streptococcus, and Bi dobacterium [28,29], and Megasphaera, a commonly known genus harboring many lactic acid utilizers [30], all showed higher abundances in grain-fed cattle. These genera have long been observed to be more abundant in high-grain diet and acidic rumen [29,31]. Solibacillus was reported to decrease when diets were shifted to sub-acute ruminal acidosis induction diets, which potentially related to valerate metabolism [32].…”

Section: Discussionmentioning

confidence: 99%

Diet-induced Changes in Bacterial Communities in the Jejunum and Their Associations with Bile Acids in Angus Beef Cattle

Liu

Cai

et al. 2020

Preprint

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Background: The small intestine, while serving as the main absorption organ, also possesses a unique bacterial environment and holds the critical function of conversion of primary bile acids. Bile acids are, in turn, able to regulate bacterial composition and promote the growth of bacteria that convert primary bile acids to secondary bile acids. However, in beef cattle, few studies have explored the influence of diets on jejunal bacterial communities and examined its relationships with bile acids. Here, we examined the impact of grain- and grass-based diets on jejunal and fecal bacterial communities’ composition and investigated possible association of bacterial features with bile acids.Results: We demonstrated that the influences of diets on intestinal bacteria can be observed in young beef cattle after weaning. A significantly higher level of microbial diversity was documented in feces of grass-fed cattle comparing to grain-fed cattle. Top 20 important genera identified with random forest analysis on fecal bacterial community can be good candidates for microbial biomarkers. Moreover, the jejunal bacteria of adult Angus beef cattle exhibited significant differences in microbial composition and metabolic potential under different diets. Global balances and bacteria signatures predictive of bile acids were identified, indicative of the potential association of bacterial features with bile acids.Conclusions: The findings from this study provided novel insights into the relationships between jejunal bacteria and bile acids under different diets in Angus beef cattle. Our results should help us gain a better understanding of potential health benefits of grass-fed beef.

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Effects of Lactobacillus buchneri isolated from tropical maize silage on fermentation and aerobic stability of maize and sugarcane silages

Cited by 21 publications

References 44 publications

Jejunal Microbiome and Bile Acids Induced by Diets in Angus Beef Cattle

Jejunal Microbiome and Bile Acids Induced by Diets in Angus Beef Cattle

Fermentation quality and aerobic stability of mulberry silage prepared with lactic acid bacteria and propionic acid

Diet-induced Changes in Bacterial Communities in the Jejunum and Their Associations with Bile Acids in Angus Beef Cattle

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