Add to ORKGCellulose and other plant fibre polymers are fermented in the rumen by a cellulolytic biofilm containing a complex mixture of microbial species. Polymer hydrolysis and fermentation are accompanied by the release of plant secondary “defence ” chemicals such as tannins, saponins and coumarins. The release and microbial transformation of these compounds [4
The rumen microbiota contributes strongly to the degradation of ingested plant materials. There is l...
Ruminant has a unique digestive organ that has big capacity to digest fiber. The digestive process i...
The ability of the multispecies biofilm membrane reactors (MBM reactors) to provide distinguished ni...
As major structural components of plant cell walls, cellulose and hemicellulose are degraded and fer...
An inquiry into the chemical nature of the vegetation that surrounds us readily reveals that cellulo...
The application of different diets have focused on seeking greater production in the ruminant animal...
Ruminants rely on microorganisms inhabiting the rumen to digest plant matter for subsequent fermenta...
The degradation of plant cell walls by ruminants is of major economic importance in the developed as...
Abstract The rumen is one of the most complicated and most fascinating microbial ecosystems in natur...
The rumen is an integrated dynamic microbial ecosystem composed of enormous populations of bacteria,...
The rumen is inhabited with complex anaerobic microbial ecosystem enabling to the host-animal the ef...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
The rumen microbiota contributes strongly to the degradation of ingested plant materials. There is l...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
The rumen microbiota contributes strongly to the degradation of ingested plant materials. There is l...
Ruminant has a unique digestive organ that has big capacity to digest fiber. The digestive process i...
The ability of the multispecies biofilm membrane reactors (MBM reactors) to provide distinguished ni...
As major structural components of plant cell walls, cellulose and hemicellulose are degraded and fer...
An inquiry into the chemical nature of the vegetation that surrounds us readily reveals that cellulo...
The application of different diets have focused on seeking greater production in the ruminant animal...
Ruminants rely on microorganisms inhabiting the rumen to digest plant matter for subsequent fermenta...
The degradation of plant cell walls by ruminants is of major economic importance in the developed as...
Abstract The rumen is one of the most complicated and most fascinating microbial ecosystems in natur...
The rumen is an integrated dynamic microbial ecosystem composed of enormous populations of bacteria,...
The rumen is inhabited with complex anaerobic microbial ecosystem enabling to the host-animal the ef...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
The rumen microbiota contributes strongly to the degradation of ingested plant materials. There is l...
Microbial transformations in the rumen ecosystem have a major impact on our ability to meet the chal...
The rumen microbiota contributes strongly to the degradation of ingested plant materials. There is l...
Ruminant has a unique digestive organ that has big capacity to digest fiber. The digestive process i...
The ability of the multispecies biofilm membrane reactors (MBM reactors) to provide distinguished ni...