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RUMEN MICROBES & NUTRIENTS. N compounds  Bacterial proteolysis: peptides, AA, ammonia.  Products used by non-proteolytic bacteria  Major source: ammonia.

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Presentation on theme: "RUMEN MICROBES & NUTRIENTS. N compounds  Bacterial proteolysis: peptides, AA, ammonia.  Products used by non-proteolytic bacteria  Major source: ammonia."— Presentation transcript:

1 RUMEN MICROBES & NUTRIENTS

2 N compounds  Bacterial proteolysis: peptides, AA, ammonia.  Products used by non-proteolytic bacteria  Major source: ammonia  Branched chain AA branched chain VFA (BCVFA)

3 N compounds Val isobutyric Leu isovaleric Ile 2-methylbutyric  BCVFA used for synthesis of BCAA & LCFA by non- proteolytic bacteria

4 Carbohydrates  Polysaccharides short-chain VFA  Energy & C  Attaching to plant carbohydrates & hydrolysis  Major source: FAs produced, cellulose  Methane: H 2 & CO 2  Protozoa use bacterial N & stored carbohydrates

5 Carbohydrates  Volatile fatty acids (VFA)  Direct: Acetate, butyrate, H 2 & CO 2  Indirect: propionate, CH 4 Propionate: decarboxylation of succinate acrylate (up to 30% of total)

6 Carbohydrates Balance producing succinate succinate decarboxylation Prevotella ruminicola Selenomonas ruminantium Ruminococcus flavefaciens Fibrobacter succinogens Propionate + CO 2

7 Carbohydrates Propionate glucose (27 – 54%) Other sources: 15-35% from AA Up to 15% from lactate Methane (CH 4 ): uses H 2 Sources: H 2, CO 2, methanol, VFAs (need time) 4 H 2 + CO 2 CH 4 + 2H 2 O

8 Carbohydrates degradation in the rumen

9 Glycolysis

10 Carbohydrates digestion in the rumen

11 Acetyl Co-A

12 Tricarboxylic acid (TCA) cycle

13 The pentose phosphate pathway

14 Methane  4:1 (H 2 to CH 4 ) Mature cow: 800 L H 2 200 L CH 4 H 2 sink to keep H 2 partial pressure (PP) low  Re-oxidation of reducing agent NADH  Lactate accumulation  More efficient microbial growth  More ATP (1 glucose: 2 mol ATP vs. 1 ATP in absence of methanogenes)

15 Methane  Environmental issue  Energy loss  Means to reduce CH 4 :  Inhibit methanogens (e.g., bromoethanesulphonate)  Inhibit protozoa  Reducing fiber content  Reducing feeding time

16 Methane  ~ 9 to 37% of methanogens associated with ciliate protozoa  Removing ciliate protozoa may CH 4 synthesis

17 Other H 2 sink Plant carbohydrates VFAs H 2 + CO 2 CH 4 + CO 2 Acetate Methanogenic bacteria Acetogenic bacteria

18 Factors affecting CH 4 production  Ration (forage vs. concentrates)  Forage (grass vs. legumes)  Type of grain  Ionophores (promoting specific microbes)  Management systems (confined vs. pasture)

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