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* Agriculture and Agri-Food Canada, Lethbridge, AB, Canada T1J 4B1 and
and
INRA, Centre Clermont-Theix, Unité de Recherche sur les Herbivores 63122 Saint-Genès-Champanelle, France
3 Correspondance: Box 3000 (phone: 403-317-2235; fax: 403-317-2182; E-mail: beauchemin{at}agr.gc.ca).
Research has demonstrated that supplementing dairy cow and feedlot cattle diets with fiber-degrading enzymes has significant potential to improve feed utilization and animal performance. Ruminant feed enzyme additives, primarily xylanases and cellulases, are concentrated extracts resulting from bacterial or fungal fermentations that have specific enzymatic activities. Improvements in animal performance due to the use of enzyme additives can be attributed mainly to improvements in ruminal fiber digestion resulting in increased digestible energy intake. Animal responses are greatest when fiber digestion is compromised and when energy is the first-limiting nutrient in the diet. When viewed across a variety of enzyme products and experimental conditions, the response to feed enzymes by ruminants has been variable. This variation can be attributed to experimental conditions in which energy is not the limiting nutrient, as well as to the activities and characteristics of the enzymes supplied, under- or over-supplementation of enzyme activity, and inappropriate method of providing the enzyme product to the animal. A limited number of ruminant enzyme products are now commercially available, and this list of products is expected to grow. However, random addition of enzymes to diets without consideration for specific situations and substrate targets will only discourage or delay on-farm adoption of enzyme technology. Although much progress has been made in advancing enzyme technology for ruminants, considerable research is still required to reduce the variability of response. With increasing consumer concern about the use of growth promoters and antibiotics in livestock production, and the magnitude of increased animal performance obtainable using feed enzymes, there is no doubt that these products will play an increasingly important role in the future. This paper reviews the research on enzyme selection, the animal responses to feed enzymes, and the mechanisms by which these products improve nutrient utilization.
Key Words: Cellulase • Cellulose Digestion • Digestion • Enzymes • Fiber • Ruminants
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