Swine facilities are under increasi

Swine facilities are under increasing pressure to reduce potential pollution, including nutrient and gaseous (odor) losses. Ammonia losses from swine facilities contribute to odor problems, environmental degradation, and health problems in both animals and humans. ApSimon et al. (1987) suggested that atmospheric NH3 pollution may play a role in acid rain production, and that the dominant source of NH3 in Europe was from animal wastes. Ammonia losses also impact animal health and production. High levels of atmospheric NH3 increase swine susceptibility to respiratory problems from microorganisms such as Pasteurella multocida (Neumann et al., 1987), conchal atrophy (Drummond et al., 1981), and atrophic rhinitis (Robertson et al., 1990), and also reduce feed consumption and ADG by pigs (Strombaugh et al., 1969).

Decreasing NH3 losses through dietary modification or manure amendments could hold many advantages to swine producers. Inclusion of adipic acid (van Kempen, 2001), increasing dietary carbohydrate levels (Cahn et al., 1998), and reducing CP in diets (James et al., 1999) have all been shown to decrease manure pH and NH3 volatilization. Manure pH directly affects NH3 volatilization (O’Hallaron, 1993; Burgess et al., 1998), such that dietary modifications that decrease manure pH will also reduce NH3 losses. Aluminum sulfate (alum) added to poultry litter reduced litter pH and NH3 losses by 99% (Moore et al., 1995), which related to improved weight gains and feed conversions, and reduced costs associated with ventilating NH3 contaminated air (Moore et al., 1999). Alum and AlCl3 were found to reduce swine manure pH significantly (Smith et al., 2001); however, NH3 losses were outside the scope of that study. The objective of this study was to evaluate the ability of dietary modification with phytase and AlCl3 manure amendments on relative NH3 losses from swine manure.