Effect of dietary fiber on microbial activity and microbial gas production in various regions of the gastrointestinal tract of pigs.

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Appl Environ Microbiol. 1994 June; 60(6): 1897-1904

Effect of dietary fiber on microbial activity and microbial gas production in various regions of the gastrointestinal tract of pigs.

B B Jensen and H Jørgensen

Department of Animal Physiology and Biochemistry, National Institute of Animal Science, Tjele, Denmark.

ABSTRACT

The microbial activity, composition of the gas phase, and gasproduction rates in the gastrointestinal tract of pigs fed eithera low- or a high-fiber diet were investigated. Dense populationsof culturable anaerobic bacteria, high ATP concentrations, andhigh adenylate energy charges were found for the last thirdof the small intestine, indicating that substantial microbialactivity takes place in that portion of the gut. The highestmicrobial activity (highest bacterium counts, highest ATP concentration,high adenylate energy charge, and low pH) was found in the cecumand proximal colon. Greater microbial activity was found inthe stomach and all segments of the hindgut in the pigs fedthe high-fiber diet than in the pigs fed the low-fiber diet.Considerable amounts of O2 were found in the stomach (around5%), while the content of O2 in gas samples taken from all otherparts of the gastrointestinal tract was < 1%. The highestconcentrations and highest production rates for H2 were foundin the last third of the small intestine. No methane could bedetected in the stomach or the small intestine. The rate ofproduction and concentration of methane in the cecum and theproximal colon were low, followed by a steady increase in thesuccessive segments of the hindgut. A very good correlationbetween in vivo and in vitro measurements of methane productionwas found. The amount of CH4 produced by pigs fed the low-fiberdiet was 1.4 liters/day per animal. Substantially larger amountsof CH4 were produced by pigs fed the high-fiber diet (12.5 liters/day)(ABSTRACTTRUNCATED AT 250 WORDS)

Appl Environ Microbiol. 1994 June; 60(6): 1897-1904

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