Utilization of distillers dried grains with solubles and phytase in sow lactation diets to meet the phosphorus requirement of the sow and reduce fecal phosphorus concentration.

Two experiments were completed to determine the potential for using distillers dried grains with solubles (DDGS) in diets with or without phytase to provide available P, energy, and protein to highly productive lactating sows without increasing their fecal P. In Exp. 1, the dietary treatments were as follows: (1) corn and soybean meal with 5% beet pulp (BP) or (2) corn and soybean meal with 15% DDGS (DDGS). Besides containing similar amounts of fiber, diets were isonitrogenous (21% CP, 1.2% Lys) and isophosphorus (0.8% P). Sixty-one sows were allotted to dietary treatments at approximately 110 d of gestation (when they were placed in farrowing crates) based on genetics, parity, and date of farrowing. Sows were gradually transitioned to their lactation diet. On d 2 of lactation, litters were cross-fostered to achieve 11 pigs/litter. Sows and litters were weighed on d 2 and 18. Fecal grab samples were collected on d 7, 14, and 18 of lactation. Dietary treatment did not affect the number of pigs weaned (10.9 vs. 10.8) or litter weaning weight. On d 14, DDGS sows had less fecal P concentration than BP sows (28.3 vs. 32.8 mg/g; P = 0.04). Fecal Ca of sows fed DDGS decreased for d 7, 14, and 18 (55.6, 51.4, and 47.1 mg/g of DM, respectively; P = 0.05) but not for BP sows. In Exp. 2, the dietary treatments were as follows: (1) corn and soybean meal (CON), (2) CON + 500 phytase units of Natuphos/kg diet, as fed (CON + PHY), (3) corn and soybean meal with 15% DDGS and no phytase (DDGS), or (4) DDGS + 500 FTU of Natuphos/kg of diet, as fed (DDGS + PHY). Sows (n = 87) were managed as described for Exp 1. Litter BW gain (46.0, 46.3, 42.1, and 42.2 kg; P = 0.25) and sow BW loss (8.1, 7.2, 7.4, and 6.3 kg for CON, CON + PHY, DDGS, and DDGS + PHY, respectively; P = 0.97) were not affected by dietary treatment. Fecal P concentration did not differ among dietary treatments but was reduced at d 14 and 18 compared with d 7 (P = 0.001). However, fecal phytate P concentration was decreased by the addition of DDGS when DDGS and DDGS + PHY were compared with the CON sows except on d 7 (P < 0.05). Sows fed CON diet had greater fecal phytate P than sows fed DDGS, and sows fed DDGS + PHY had less fecal phytate P than sows fed DDGS with no phytase (P = 0.001). Although these experiments were only carried out for 1 lactation, these results indicate that highly productive sows can sustain lactation performance with reduced fecal phytate P when fed DDGS and phytase in lactation diets.

[1]  G. Gomori A modification of the colorimetric phosphorus determination for use with the photoelectric colorimeter. , 1942 .

[2]  Board on Agriculture,et al.  Nutrient requirements of swine , 1964 .

[3]  M. Latta,et al.  A simple and rapid colorimetric method for phytate determination , 1980 .

[4]  P. Åman,et al.  The influence of wheat bran and sugar-beet pulp on the digestibility of dietary components in a cereal-based pig diet. , 1986, The Journal of nutrition.

[5]  D. Baker Chapter 20 – Bioavailability of Minerals and Vitamins , 1991 .

[6]  C. Honeycutt,et al.  Enzymatic characterization of organic phosphorus in animal manure. , 2001, Journal of environmental quality.

[7]  G. Hill,et al.  Impact of vitamin and mineral supplement withdrawal and wheat middling inclusion on finishing pig growth performance, fecal mineral concentration, carcass characteristics, and the nutrient content and oxidative stability of pork. , 2002, Journal of animal science.

[8]  T. Matsui Relationship between mineral availabilities and dietary phytate in animals , 2002 .

[9]  B. Joern,et al.  Phytase, high-available-phosphorus corn, and storage effects on phosphorus levels in pig excreta. , 2003, Journal of environmental quality.

[10]  G. Hill,et al.  Effect of dietary trace mineral concentration and source (inorganic vs. chelated) on performance, mineral status, and fecal mineral excretion in pigs from weaning through finishing. , 2004, Journal of animal science.

[11]  G. Shurson,et al.  The use of maize distiller's dried grains with solubles in pig diets , 2004 .

[12]  R. Main,et al.  Comparison of three methods of feeding sows in gestation and the subsequent effects on lactation performance. , 2004, Journal of animal science.

[13]  K. Roberson,et al.  Effect of corn distiller's dried grains with solubles at various levels on performance of laying hens and egg yolk color. , 2005 .

[14]  N. D. Fastinger,et al.  Determination of the ileal amino acid and energy digestibilities of corn distillers dried grains with solubles using grower-finisher pigs. , 2006, Journal of animal science.