The contribution of intensive pig p

The contribution of intensive pig production to manure malodour and ammonia emissions is caused in part through
oversupply of dietary protein (Hayes et al., 2004). Excessive protein consumption causes both urinary nitrogen (N) excretion
as urea, and the conveying of undigested proteinaceous material to the distal gastrointestinal tract (dGIT) (Carpenter et al.,
2004; Lynch et al., 2007a). The bacterial degradation of such nitrogenous compounds generates ammonia and pungent
volatile fatty acids which contribute to subsequent manure emissions (Mackie et al., 1998; O’Shea et al., 2009a).
Previous research from this laboratory has indicated that such environmental pollutants may be ameliorated by substituting
barley for wheat-based diets (Garry et al., 2007b; Lynch et al., 2007b). The beneficial influence associated with barley
has been attributed to an increased dietary consumption of mixed-linkage  (1,3) (1,4)-D-glucan (-glucans), a fermentable
substrate which may stimulate a more commensal dGIT microbiota, as indicated by marker bacteria such as lactobacilli
and bifidobacteria (O’Connell et al., 2005; Garry et al., 2007a). An increase in the prominence of these bacterial genera may
induce a shift towards greater saccharolytic activity, and thus a corresponding decrease in protein end-products in the dGIT,
with beneficial implications for subsequent manure odour and ammonia emissions (O’Shea et al., 2009b, 2010).
However in monogastrics, dietary barley is associated with an impaired coefficient of total tract apparent digestibility
(CTTAD) (O’Connell et al., 2006; Lynch et al., 2007c). Therefore it is desirable to impart the beneficial properties of -
glucans in barley to dietary wheat without the associated implications of diminished nutrient utilisation. The addition of
a purified source of cereal -glucans to a conventional wheat-based diet may stimulate dGIT and manure fermentation to
reduce concentrations of protein metabolites associated with manure ammonia and odour emissions. To verify this, dietary
supplementation with an appropriate enzyme composite containing -glucanase may elucidate whether induced intestinal
parameters are a response to exogenous -glucan supplementation or an additional fermentable component present in
native barley (O’Connell et al., 2006).
Therefore the hypothesis of the current experiment was that dietary supplementation of a wheat-based diet with an
exogenous, purified -glucan source would decrease manure odour and ammonia emissions from finishing pigs comparable
with a barley-based diet.