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Long-term monensin supplementation does not significantly affect the quantity or diversity of methanogens in the rumen of the lactating dairy cow.Benefits and risks of antimicrobial use in food-producing animals.In vitro Evaluation of Different Feeds for Their Potential to Generate Methane and Change Methanogen Diversity.Sodium ion cycle in bacterial pathogens: evidence from cross-genome comparisonsMethanogens: methane producers of the rumen and mitigation strategies.Effect of Soybean Meal and Soluble Starch on Biogenic Amine Production and Microbial Diversity Using In vitro Rumen Fermentation.An rRNA approach for assessing the role of obligate amino acid-fermenting bacteria in ruminal amino acid deamination.Effect of monensin on the specific activity of ammonia production by ruminal bacteria and disappearance of amino nitrogen from the rumen.More monensin-sensitive, ammonia-producing bacteria from the rumenSome growth and metabolic characteristics of monensin-sensitive and monensin-resistant strains of Prevotella (Bacteroides) ruminicolaEnrichment and isolation of a ruminal bacterium with a very high specific activity of ammonia production.Rumen fermentation and performance of Hanwoo steers fed total mixed ration with Korean rice wine residue.Monensin-resistant bacteria in the rumens of calves on monensin-containing and unmedicated diets.Effect of carbon monoxide on fermentation of fiber, starch, and amino acids by mixed rumen microorganisms in vitro.Effect of monensin and lasalocid-sodium on the growth of methanogenic and rumen saccharolytic bacteria.Effect of ionophores on ruminal fermentationThe relationship between odd- and branched-chain fatty acids and microbial nucleic acid bases in rumen.Effect of the novel ionophore tetronasin (ICI 139603) on ruminal microorganisms.Sodium-dependent transport of branched-chain amino acids by a monensin-sensitive ruminal peptostreptococcus.Fermentation of peptides and amino acids by a monensin-sensitive ruminal Peptostreptococcus.Methane production by fermentor cultures acclimated to waste from cattle fed monensin, lasalocid, salinomycin, or avoparcin.Monensin and dichloroacetamide influences on methane and volatile Fatty Acid production by rumen bacteria in vitro.Effect of dietary monensin or chlortetracycline on methane production from cattle waste.Effect of monensin on fermentation characteristics of the artificial rumen.Effects of Dietary Supplementation with Hainanmycin on Protein Degradation and Populations of Ammonia-producing Bacteria In vitro.Dynamic Energy Dependency of Chlamydia trachomatis on Host Cell Metabolism during Different Stages of Intracellular Growth: Possible role of Sodium -based energetics in Chlamydial ATP generation.Hops (Humulus lupulus L.) Bitter Acids: Modulation of Rumen Fermentation and Potential As an Alternative Growth Promoter.
P2860
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P2860
description
1977 nî lūn-bûn
@nan
1977年の論文
@ja
1977年学术文章
@wuu
1977年学术文章
@zh-cn
1977年学术文章
@zh-hans
1977年学术文章
@zh-my
1977年学术文章
@zh-sg
1977年學術文章
@yue
1977年學術文章
@zh
1977年學術文章
@zh-hant
name
Effect of monensin on rumen metabolism in vitro.
@en
type
label
Effect of monensin on rumen metabolism in vitro.
@en
prefLabel
Effect of monensin on rumen metabolism in vitro.
@en
P2860
P1476
Effect of monensin on rumen metabolism in vitro.
@en
P2093
Demeyer DI
Van Nevel CJ
P2860
P304
P407
P577
1977-09-01T00:00:00Z