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http://dx.doi.org/10.5713/ajas.14.0707

Effects of Feeding Barley Naturally Contaminated with Fusarium Mycotoxins on Growth Performance, Nutrient Digestibility, and Blood Chemistry of Gilts and Growth Recoveries by Feeding a Non-contaminated Diet  

Kong, C. (Department of Animal Science and Technology, Konkuk University)
Shin, S.Y. (Department of Animal Science and Technology, Konkuk University)
Park, C.S. (Department of Animal Science and Technology, Konkuk University)
Kim, B.G. (Department of Animal Science and Technology, Konkuk University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.28, no.5, 2015 , pp. 662-670 More about this Journal
Abstract
The objectives of this study were to investigate the effects of feeding barley naturally contaminated with Fusarium mycotoxins on growth performance, vulva swelling, and digestibility of dry matter, organic matter, and crude protein of gilts and the recovery of gilts fed normal diets immediately after the exposure to contaminated diets by measuring growth performance and vulva swelling. In Exp. 1, four diets were prepared to contain 0%, 15%, 30%, or 45% contaminated barley containing 25.7 mg/kg deoxynivalenol and $26.0{\mu}g/kg$ zearalenone. Sixteen gilts with an initial body weight (BW) of 33.3 kg (standard deviation = 3.0) were individually housed in a metabolism crate and assigned to 4 diets with 4 replicates in a randomized complete block design based on BW. During the 14-d feeding trial, individual BW and feed consumption were measured weekly and the vertical and horizontal lengths of vulva were measured every 3 d. From d 10, feces were collected by the maker-to-marker method for 4 d. Blood samples were collected on d 14. During the overall period, the average daily gain, average daily feed intake, and gain:feed of pigs linearly decreased (p<0.01) as the dietary concentration of contaminated barley increased. However, the digestibility of crude protein was linearly increased (p = 0.011) with the increasing amounts of contaminated barley. Increasing dietary Fusarium mycotoxin concentrations did not influence vulva size, blood characteristic as well as immunoglobulin level of pigs. In the Exp. 2, a corn-soybean meal-based diet was formulated as a recovery diet. Pigs were fed the recovery diet immediately after completion of the Exp. 1. During the 14-d of recovery period, the individual BW and feed consumption were measured weekly and the vertical and horizontal length of vulva were measured every 3 d from d 0. On d 7, the feed intake of pigs previously fed contaminated diets already reached that of pigs fed a diet with 0% contaminated barley and no significant difference in growth performance among treatments was observed during d 7 to 14 of the recovery period. In conclusion, increasing levels of mycotoxins in diets linearly decreased the growth performance of pigs, and these damages can be recovered in 7 d after the diet was replaced with a normal diet. The vulva size, blood characteristic, immune responses were not affected by increasing level of contaminated barley in the diets fed to pigs.
Keywords
Deoxynivalenol; Growth; Mycotoxin; Swine; Zearalenone;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Xiao, H., M. M. Wu, B. E. Tan, Y. L. Yin, T. J. Li, D. F. Xiao, and L. Li. 2013. Effects of composite antimicrobial peptides in weanling piglets challenged with deoxynivalenol: I. Growth performance, immune function, and antioxidation capacity. J. Anim. Sci. 91:4772-4780.   DOI   ScienceOn
2 Young, L. G., L. McGirr, V. E. Valli, J. H. Lumsden, and A. Lun. 1983. Vomitoxin in corn fed to young pigs. J. Anim. Sci. 57:655-664.   DOI
3 Accensi, F., P. Pinton, P. Callu, N. Abella-Bourges, J.-F. Guelfi, F. Grosjean, and I. P. Oswald. 2006. Ingestion of low doses of deoxynivalenol does not affect hematological, biochemical, or immune responses of piglets. J. Anim. Sci. 84:1935-1942.   DOI   ScienceOn
4 AOAC. 2005. Official Methods of Analysis, 18th edn. Association of Official Analytical Chemists, Arlington, VA, USA.
5 Bergsjo, B., W. Langseth, I. Nafstad, J. H. Jansen, and H. J. S. Larsen. 1993. The effects of naturally deoxynivalenolcontaminated oats on the clinical condition, blood parameters, performance and carcass composition of growing pigs. Vet. Res. Commun. 17:283-294.   DOI
6 Busher, J. T. 1990. Serum albumin and globulin. In: Clinical Methods: The History, Physical, and Laboratory Examinations. (Eds. H. Walker, W. Hall, and J. Hurst). Butterworths, Boston, MA, USA.
7 Danicke, S., H. Valenta, S. Doll, M. Ganter, and G. Flachowsky. 2004a. On the effectiveness of a detoxifying agent in preventing fusario-toxicosis in fattening pigs. Anim. Feed Sci. Technol. 114:141-157.   DOI   ScienceOn
8 CAST (Council for Agricultural Science and Technology). 2003. Mycotoxins: risks in plant animal and human systems. Council for Agric. Sci. Technol. Task Force Report No 139, Ames, IA, USA. pp. 58-63.
9 CEC (Commission of the European Communities). 2006. Commission recommendation of 17 August 2006 on the presence of deoxynivalenol, zearalenone, ochratoxin A, T-2 and HT-2 and fumonisins in products intended for animal feeding. Off. J. Eur. Union L229, 7-9.
10 Chaytor, A. C., J. A. Hansen, E. van Heugten, M. T. See, and S. W. Kim. 2011. Occurrence and decontamination of mycotoxins in swine feed. Asian Australas. J. Anim. Sci. 24:723-738.   DOI   ScienceOn
11 Danicke, S., H. Valenta, F. Klobasa, S. Doll, M. Ganter, and G. Flachowsky. 2004b. Effects of graded levels of Fusarium toxin contaminated wheat in diets for fattening pigs on growth performance, nutrient digestibility, deoxynivalenol balance and clinical serum characteristics. Arch. Anim. Nutr. 58:1-17.   DOI   ScienceOn
12 Doll, S., S. Danicke, K. H. Ueberschar, H. Valenta, U. Schnurrbusch, M. Ganter, F. Klobasa, and G. Flachowsky. 2003. Effects of graded levels of Fusarium toxin contaminated maize in diets for female weaned piglets. Arch. Anim. Nutr. 57:311-334.   DOI   ScienceOn
13 Drochner, W., M. Schollenberger, H. P. Piepho, S. Gotz, U. Lauber, M. Tafaj, F. Klobasa, U. Weiler, R. Claus, and M. Steffl. 2004. Serum IgA-promoting effects induced by feed loads containing isolated deoxynivalenol (DON) in growing piglets. J. Toxicol. Environ. Health A 67:1051-1067.   DOI   ScienceOn
14 Kanora, A. and D. Maes. 2009. The role of mycotoxins in pig reproduction: A review. Vet. Med. 54:565-576.
15 Goyarts, T., S. Danicke, H. J. Rothkotter, J. Spilke, U. Tiemann, and M. Schollenberger. 2005. On the effects of a chronic deoxynivalenol intoxication on performance, haematological and serum parameters of pigs when diets are offered either for ad libitum consumption or fed restrictively. J. Vet. Med. A Physiol. Pathol. Clin. Med. 52:305-314.   DOI   ScienceOn
16 Haydon, K. D., D. A. Knabe, and T. D. Tanksley, Jr. 1984. Effects of level of feed intake on nitrogen, amino acid and energy digestibilities measured at the end of the small intestine and over the total digestive tract of growing pigs. J. Anim. Sci. 59:717-724.   DOI
17 Jiang, S. Z., Z. B. Yang, W. R. Yang, B. Q. Yao, H. Zhao, F. X. Liu, C. C. Chen, and F. Chi. 2010. Effects of feeding purified zearalenone contaminated diets with or without clay enterosorbent on growth, nutrient availability, and genital organs in post-weaning female pigs. Asian Australas. J. Anim. Sci. 23:74-81.
18 Kim, B. G., D. M. Wulf, R. J. Maddock, D. N. Peters, C. Pedersen, Y. Liu, and H. H. Stein. 2014. Effects of dietary barley on growth performance, carcass traits and pork quality of finishing pigs. Rev. Colomb. Cienc. Pecu. 27:102-113.
19 Kong, C. and O. Adeola. 2014. Invited review: Evaluation of amino acid and energy utilization in feedstuff for swine and poultry diets. Asian Australas. J. Anim. Sci. 27:917-925.   DOI   ScienceOn
20 Kong, C., S. Y. Shin, and B. G. Kim. 2014. Evaluation of mycotoxin sequestering agents for aflatoxin and deoxynivalenol: an in vitro approach. SpringerPlus 3:346.   DOI   ScienceOn
21 Latimer, K. S., E. A. Mahaffey, and K. W. Prasse. 2003. Duncan and Prasse's Veterinary Laboratory Medicine: Clinical Pathology. 4th ed. Iowa State Press, Ames, IA, USA.
22 NRC. 2012. Nutrient Requirements of Swine. 11th rev. ed. Natl. Acad. Press, Washington, DC, USA.
23 Matthaus, K., S. Danicke, W. Vahjen, O. Simon, J. Wang, H. Valenta, K. Meyer, A. Strumpf, H. Ziesenib, and G. Flachowsky. 2004. Progression of mycotoxin and nutrient concentrations in wheat after inoculation with Fusarium culmorum. Arch. Anim. Nutr. 58:19-35.   DOI   ScienceOn
24 Mok, C. H., S. Y. Shin, and B. G. Kim. 2013. Aflatoxin, deoxynivalenol, and zearalenone in swine diets: Predictions on growth performance. Rev. Colomb. Cienc. Pecu. 26:243-254.
25 NRC. 1998. Nutrient Requirements of Swine. 10th rev. ed. Natl. Acad. Press, Washington, DC, USA.
26 Papaioannou, D. S., S. C. Kyriakis, A. Papasteriadis, N. Roumbies, A. Yannakopoulos, and C. Alexopoulos. 2002. A field study on the effect of in-feed inclusion of a natural zeolite (clinoptilolite) on health status and performance of sows/gilts and their litters. Res. Vet. Sci. 72:51-59.
27 Prelusky, D. B., R. G. Gerdes, K. L. Underhill, B. A. Rotter, P. Y. Jui, and H. L. Trenholm. 1994. Effects of low-level dietary deoxynivalenol on haematological and clinical parameters of the pig. Nat. Toxins 2:97-104.   DOI   ScienceOn
28 Rodrigues, I. and K. Naehrer. 2012a. A three-year survey on the worldwide occurrence of mycotoxins in feedstuffs and feed. Toxins 4:663-675.   DOI
29 Rodrigues, I. and K. Naehrer. 2012b. Prevalence of mycotoxins in feedstuffs and feed surveyed worldwide in 2009 and 2010. Phytopathol. Mediterr. 51:175-192.
30 Rotter, B. A., B. K. Thompson, M. Lessard, H. L. Trenholm, and H. Tryphonas. 1994. Influence of low-level exposure to Fusarium mycotoxins on selected immunological and hematological parameters in young swine. Toxicol. Sci. 23:117-124.   DOI
31 Takemura, H., J. Y. Shim, K. Sayama, A. Tsubura, B. T. Zhu, and K. Shimoi. 2007. Characterization of the estrogenic activities of zearalenone and zeranol in vivo and in vitro. J. Steroid Biochem. Mol. Biol. 103:170-177.   DOI   ScienceOn
32 Smith, T. K., E. G. McMillan, and J. B. Castillo. 1997. Effect of feeding blends of Fusarium mycotoxin-contaminated grains containing deoxynivalenol and fusaric acid on growth and feed consumption of immature swine. J. Anim. Sci. 75:2184-2191.   DOI
33 Swamy, H. V. L. N., T. K. Smith, E. J. MacDonald, H. J. Boermans, and E. J. Squires. 2002. Effects of feeding a blend of grains naturally contaminated with Fusarium mycotoxins on swine performance, brain regional neurochemistry, and serum chemistry and the efficacy of a polymeric glucomannan mycotoxin adsorbent. J. Anim. Sci. 80:3257-3267.   DOI
34 Swamy, H. V. L. N., T. K. Smith, E. J. MacDonald, N. A. Karrow, B. Woodward, and H. J. Boermans. 2003. Effects of feeding a blend of grains naturally contaminated with Fusarium mycotoxins on growth and immunological measurements of starter pigs, and the efficacy of a polymeric glucomannan mycotoxin adsorbent. J. Anim. Sci. 81:2792-2803.   DOI
35 USDA. 2014. U.S. Grain: World Markets and Trade. http://usda01.library.cornell.edu/usda/current/grainmarket/grain-market-03-10-2014.pdf, Accessed July 15, 2014. Washington, DC, USA.
36 Weaver, A. C., M. T. See, J. A. Hansen, Y. B. Kim, A. L. P. de Souza, T. F. Middleton, and S. W. Kim. 2013. The use of feed additives to reduce the effects of aflatoxin and deoxynivalenol on pig growth, organ health and immune status during chronic exposure. Toxins 5:1261-1281.   DOI
37 Woyengo, T. A., E. Beltranena, and R. T. Zijlstra. 2014. Controlling feed cost by including alternative ingredients into pig diets: A review. J. Anim. Sci. 92:1293-1305.   DOI   ScienceOn