Influence of yeast on rumen fermentation, growth performance and quality of products in ruminants: A review

Amin, A.B.; Mao, Shengyong

doi:10.1016/j.aninu.2020.10.005

Cited by 74 publications

(74 citation statements)

References 111 publications

(197 reference statements)

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“…In addition to its potential function in oxygen scavenging [ 71 ], S. cerevisiae has been proved to promote the growth of cellulolytic microbes (e.g., F. succinogenes , R. albus ), LUB (e.g., S. ruminantium ), and amylolytic bacteria (e.g., Ruminobacter , Bifidobacterium ), potentially leading to higher VFA concentration in the rumen after the supplementation [ 72 , 73 ]. This promotion effect may be explained by the fact that S. cerevisiae may provide growth factors, such as organic acids, vitamins, or amino acids, to stimulate ruminal bacterial populations [ 74 ]. The supplementing S. cerevisiae could also lead to improved microbial nitrogen metabolism thus increasing microbial protein flow to the intestine and reducing N loss [ 75 ].…”

Section: Introductionmentioning

confidence: 99%

“…The supplementing S. cerevisiae could also lead to improved microbial nitrogen metabolism thus increasing microbial protein flow to the intestine and reducing N loss [ 75 ]. Alternatively, the competition with LAB for available sugar can contribute to the potential of SARA alleviation [ 74 ]. However, the persistence and viability of live yeast cells are reported to be low in the rumen since certain strains cannot colonize the rumen for a long period of time [ 76 ].…”

Section: Introductionmentioning

confidence: 99%

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Implication and challenges of direct-fed microbial supplementation to improve ruminant production and health

Ban

Guan

2021

J Animal Sci Biotechnol

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Direct-fed microbials (DFMs) are feed additives containing live naturally existing microbes that can benefit animals’ health and production performance. Due to the banned or strictly limited prophylactic and growth promoting usage of antibiotics, DFMs have been considered as one of antimicrobial alternatives in livestock industry. Microorganisms used as DFMs for ruminants usually consist of bacteria including lactic acid producing bacteria, lactic acid utilizing bacteria and other bacterial groups, and fungi containing Saccharomyces and Aspergillus. To date, the available DFMs for ruminants have been largely based on their effects on improving the feed efficiency and ruminant productivity through enhancing the rumen function such as stabilizing ruminal pH, promoting ruminal fermentation and feed digestion. Recent research has shown emerging evidence that the DFMs may improve performance and health in young ruminants, however, these positive outcomes were not consistent among studies and the modes of action have not been clearly defined. This review summarizes the DFM studies conducted in ruminants in the last decade, aiming to provide the new knowledge on DFM supplementation strategies for various ruminant production stages, and to identify what are the potential barriers and challenges for current ruminant industry to adopt the DFMs. Overall literature research indicates that DFMs have the potential to mitigate ruminal acidosis, improve immune response and gut health, increase productivity (growth and milk production), and reduce methane emissions or fecal shedding of pathogens. More research is needed to explore the mode of action of specific DFMs in the gut of ruminants, and the optimal supplementation strategies to promote the development and efficiency of DFM products for ruminants.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Implication and challenges of direct-fed microbial supplementation to improve ruminant production and health

Ban

Guan

2021

J Animal Sci Biotechnol

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“…To solve the problem, YC is supplemented to the diet of dairy cows because of its role in the stabilisation of rumen pH ( 6 , 7 ). YC may have a similar effect on the rumen pH of sheep when fed high-grain diets ( 14 ).…”

Section: Introductionmentioning

confidence: 99%

Dietary Supplementation of Yeast Culture Into Pelleted Total Mixed Rations Improves the Growth Performance of Fattening Lambs

Song

You³

et al. 2021

Front. Vet. Sci.

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There is a growing interest in the use of yeast (Saccharomyces cerevisiae) culture (YC) for the enhancement of growth performance and general animal health. Grain-based pelleted total mixed rations (TMR) are emerging in intensive sheep farming systems, but it is uncertain if the process of pelleting results in YC becoming ineffective. This study aimed to examine the effects of YC supplemented to pelleted TMR at two proportions of corn in the diet on animal performance, feed digestion, blood parameters, rumen fermentation, and microbial community in fattening lambs. A 2 × 2 factorial design was adopted with two experimental factors and two levels in each factor, resulting in four treatments: (1) low proportion of corn in the diet (LC; 350 g corn/kg diet) without YC, (2) LC with YC (5 g/kg diet), (3) high proportion of corn in the diet (HC; 600 g corn/kg diet) without YC, and (4) HC with YC. Fifty-six 3-month-old male F2 hybrids of thin-tailed sheep and Northeast fine-wool sheep with a liveweight of 19.9 ± 2.7 kg were randomly assigned to the four treatment groups with an equal number of animals in each group. The results showed that live yeast cells could not survive during pelleting, and thus, any biological effects of the YC were the result of feeding dead yeast and the metabolites of yeast fermentation rather than live yeast cells. The supplementation of YC resulted in 31.1 g/day more average daily gain regardless of the proportion of corn in the diet with unchanged feed intake during the 56-day growth measurement period. The digestibility of neutral detergent fibre and acid detergent fibre was increased, but the digestibility of dry matter, organic matter, and crude protein was not affected by YC. The supplementation of YC altered the rumen bacterial population and species, but the most abundant phyla Bacteroidetes, Firmicutes, and Proteobacteria remained unchanged. This study indicates that YC products can be supplemented to pelleted TMR for improved lamb growth performance, although live yeast cells are inactive after pelleting. The improved performance could be attributed to improved fibre digestibility.

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“…These meats are rich in polyunsaturated fatty acids (PUFA), and which present relatively simple production processes. Our previous study indicated that the nature of the diet is an essential factor that influences the composition of intramuscular fatty acids (FA) in lambs, whose family FAs n3 are more representative in those fed on steppe plants (Rabah et al, 2019), other studies also confirm the influence of diet on FA (Díaz et al, 2005;Ružić-Muslić, 2012), however, other intrinsic and extrinsic factors may influence and be responsible for the difference in FA such as sex, age, type of breeding, transport to the slaughterhouse, conservation of meat (De Smet et al, 2003 ;Amin and Mao, 2020). Currently, many ruminant breeders tend to modify their feeding practices by reducing the diet based on concentrate, and are now moving more and more to pasture grass which confers little fat in the ruminant carcass compared to that based on concentrate (Daley et al, 2010).…”

Section: Introductionmentioning

confidence: 96%

Impact of Green Forages in Spring, in the Steppe Regions of Tiaret “Chehaima and Naima”, on the Fatty Acid Composition of the "Biceps Femoris" Muscle of Lambs

Rabah¹,

Niar²,

Benchohra³

et al. 2021

CTNS

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This work aimed to assess the impact of a diet based on green pastures of steppe rangelands and another based on a concentrate diet, on the composition of the intramuscular lipid fraction of different sections of the biceps femoral muscle of lambs, in two regions of the wilaya of Tiaret, in winter and in spring. The biceps femoral muscle sample collection came from 20 different lamb carcasses (10 samples for each of our two study regions, with 05 samples for each season). These samples were taken on different occasions in large butcher shops. Total SFA content in both regions shows dominance in lambs from the regimen concentrate, that C 16: 0 and C 18: 0 are the most dominant. There is no remarkable difference in total MUFA content, and on individual monounsaturated FA, between the two regimens. In both regions, the most dominant FAs in the intramuscular lipid fraction of pasture lambs are C18: 3n3 followed by C18: 2n6 cis-9, C20: 4n6, C20: 5n3, and C22: 6n3, compared to those from concentrate regimen; however, lambs from Chehaima concentrate regimen had the most dominant FA in their intramuscular fat, C18: 3n6 followed by C20: 4n6, compared to those from pastures of Naima. The values of the ratio n-6 / n-3 correspond to the nutritional recommendations. The feed ratio ΣPUFA / ΣSFA of lambs from pastures in the Chehaima region is the only one that corresponds to the desired value. Based on this research, it is concluded that lambs that have grazed grass in steppe rangelands have the richest meat in omega 3, which is more desirable and benefits for human health.

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Influence of yeast on rumen fermentation, growth performance and quality of products in ruminants: A review

Cited by 74 publications

References 111 publications

Implication and challenges of direct-fed microbial supplementation to improve ruminant production and health

Implication and challenges of direct-fed microbial supplementation to improve ruminant production and health

Dietary Supplementation of Yeast Culture Into Pelleted Total Mixed Rations Improves the Growth Performance of Fattening Lambs

Impact of Green Forages in Spring, in the Steppe Regions of Tiaret “Chehaima and Naima”, on the Fatty Acid Composition of the "Biceps Femoris" Muscle of Lambs

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