Previously, consumption of barley-b

Previously, consumption of barley-based diets has consistently reduced manure ammonia emissions when compared
with a conventional wheat-based diet (Lynch et al., 2007b). Furthermore, this effect is simultaneously negated by the provision of an enzyme composite containing a β-glucanase agent (O’Connell et al., 2005; Leek et al., 2007), thus suggesting a role for β-glucans in ameliorating this environmental pollutant. Despite the supplementation of purified β-glucans to a wheat-based diet in the current study, manure ammonia emissions were not diminished to levels comparable with consumption of the barley-based diet. Furthermore, the integration of a β-glucanase composite into the experimental design negated the beneficial influence of the barley-based diet on manure ammonia emissions, but not the β-glucan supplemented wheat-based diet (Table 4). The role of dietary fermentable carbohydrate in influencing manure ammonia may be attributed to a range of polysaccharides, and not specifically β-glucans (Kerr et al., 2006). Furthermore, previous authors have described interactions between β-glucans with various other components such as arabinoxylans (Izydorczyk and MacGregor, 2000). It is conceivable that in a purified form, without the protection typically afforded through complex-forming with other cell components, that exogenous β-glucans are degraded to a greater extent (Bach Knudsen et al., 1993; Johansen et al., 1993). Consequently, consumption of β-glucan in a purified form may not exert the same influence in influencing Nitrogen excretionpatterns as is typically seen with dietary formulations containing native fermentable carbohydrates (Canh et al., 1998). The increase in urinary N from pigs offered the wheat-based diet containing purified β-glucans supports this proposition.