2019
DOI: 10.3168/jds.2018-15334
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Symposium review: Technologies for improving fiber utilization

Abstract: The forage lignocellulosic complex is one of the greatest limitations to utilization of the nutrients and energy in fiber. Consequently, several technologies have been developed to increase forage fiber utilization by dairy cows. Physical or mechanical processing techniques reduce forage particle size and gut fill and thereby increase intake. Such techniques increase the surface area for microbial colonization and may increase fiber utilization. Genetic technologies such as brown midrib mutants (BMR) with less… Show more

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Cited by 109 publications
(84 citation statements)
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References 282 publications
(340 reference statements)
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“…The NDF and ADF of silages are important quality parameters and are expected to be lower in inoculated alfalfa. Certain inoculants contain bacteria that could secrete specific enzymes, mainly cellulases and xylanases, that may contribute to degrade these structures and increased fibre digestion (Adesogan et al ., 2019). The decreased NDF and ADF concentration could be also related to better WSC preservation following inoculation, which could reduce NDF and ADF contents by a ‘dilution effect’.…”
Section: Discussionmentioning
confidence: 99%
“…The NDF and ADF of silages are important quality parameters and are expected to be lower in inoculated alfalfa. Certain inoculants contain bacteria that could secrete specific enzymes, mainly cellulases and xylanases, that may contribute to degrade these structures and increased fibre digestion (Adesogan et al ., 2019). The decreased NDF and ADF concentration could be also related to better WSC preservation following inoculation, which could reduce NDF and ADF contents by a ‘dilution effect’.…”
Section: Discussionmentioning
confidence: 99%
“…Of the many approaches to the improvement of straw digestibility, biologic fermentation techniques seem to be the best. Compared to physical and/or chemical treatments, biologic treatment has definite advantages in terms of energy consumption and avoidance of toxic chemicals [ 12 ]. The WRF are commonly used for straw pretreatment to increase fiber digestibility, probably due to their secreted oxidative ligninolytic enzymes including laccase, manganese peroxidase and lignin peroxidase to decompose lignin [ 13 ].…”
Section: Introductionmentioning
confidence: 99%
“…Improving dietary fibre degradation is important for improving efficiency as fibre can limit intake and diet digestibility. Mechanical processing including chopping, shredding, and pelleting can increase the surface area for microbial attachment, reduce gut fill, and increase feed intake (Adesogan et al 2019). Alkali treatment is also an effective method for breaking down the fibrous components that restrict microbial degradation.…”
Section: Improving Forage Utilizationmentioning
confidence: 99%