Influence of dietary factors on nitrogen partitioning and composition of urine and feces of fattening pigs.

An experiment was conducted to investigate the influence of dietary factors on the partitioning of nitrogen excretion and on the pH and composition of urine and feces of fattening pigs. Sixteen male hybrid pigs of 80 to 90 kg BW were allotted to one of four diets: based on grains, by-products, grains plus tapioca, or grains plus sugar beet pulp. Diets were formulated to have similar contents of NE and CP and a similar lysine:NE ratio. Diets differed in nonstarch polysaccharide content (NSP) and dietary electrolyte balance (dEB). During an 8-d period, urine and feces were quantitatively collected daily in metabolism cages and mixed to a slurry. There was no effect of the diet on total nitrogen excretion (P > .05). However, the nitrogen excretion pattern differed between diets (P < .001). Pigs fed the by-product- and the sugar beet pulp-based diets excreted less nitrogen via urine and more nitrogen via feces than pigs fed the grain- and tapioca-based diets. The type of diet significantly affected the pH of urine, feces, and slurry. The pH of slurry from pigs fed the sugar beet pulp-based diet was .44 to 1.13 units lower than that of slurry from pigs fed the other three diets. An increased dietary NSP content reduced the pH of feces and slurry. A decreased dEB reduced the pH of urine and slurry. We conclude that dietary NSP influences the partitioning of excretory nitrogen between urine and feces. Dietary NSP and dEB can influence the pH of urine, feces, and slurry.

[1]  E. Farnworth,et al.  Adding Jerusalem artichoke (Helianthus tuberosus L.) to weanling pig diets and the effect on manure composition and characteristics , 1995 .

[2]  S. Husted,et al.  The chemical buffer system in raw and digested animal slurry , 1995, The Journal of Agricultural Science.

[3]  M. Kirchgessner,et al.  Evidence for a high efficiency of bacterial protein synthesis in the digestive tract of adult sows fed supplements of fibrous feedstuffs , 1994 .

[4]  M. Verstegen,et al.  Nitrogen flow in pig production and environmental consequences : proceedings of the first international symposium on nitrogen flow in pig production and environmental consequences, Wageningen (Doorwerth), the Netherlands, 8-11 June 1993 , 1993 .

[5]  F. Grosjean,et al.  Effect of protein content of the diet on nitrogen excretion by pigs , 1992 .

[6]  E. Kienzle,et al.  Influence of food composition on the urine pH in cats. , 1991, The Journal of nutrition.

[7]  K. Haydon,et al.  Effect of dietary electrolyte balance on nutrient digestibility determined at the end of the small intestine and over the total digestive tract in growing pigs. , 1990, Journal of animal science.

[8]  J. P. Frost,et al.  Effect of acidification with sulphuric acid on the volatilization of ammonia from cow and pig slurries , 1989, The Journal of Agricultural Science.

[9]  E. Pendall,et al.  A Rapid Method of Soil Carbonate Analysis Using Gas Chromatography , 1988 .

[10]  C. A. Morgan,et al.  Dietary fibre and nitrogen excretion and retention by pigs , 1988 .

[11]  R. E. Austic,et al.  Effect of dietary electrolyte balance on growth and acid-base status in swine. , 1987, Journal of animal science.

[12]  A. Low 4 – ROLE OF DIETARY FIBRE IN PIG DIETS , 1985 .

[13]  J. R. Simpson,et al.  Volatilization of ammonia , 1983 .

[14]  R. E. Muck,et al.  Nitrogen losses in free stall dairy barns , 1981 .

[15]  W. Horwitz Official Methods of Analysis , 1980 .

[16]  S. Spoelstra Volatile fatty acids in anaerobically stored piggery wastes , 1979 .

[17]  R. Moore,et al.  Simultaneous determination of citrulline and urea using diacetylmonoxime. , 1970, Analytical biochemistry.

[18]  M. Allison Biosynthesis of amono acids by ruminal microorganisms. , 1969, Journal of animal science.