Efficacy of organic acids as an alternative to antibiotic growth promoters in weaned pigs

Minh Tung Che; Thi My Nhan Nguyen; Thanh Hai Nguyen; Tan Tai Le; Alexandre  Peron

doi:10.52997/jad.2.06.2018

Tung M. Che ^* , Nhan T. M. Nguyen , Hai T. Nguyen , Tai T. Le , & Alexandre Peron

* Correspondence: Che Minh Tung (email: tung.cheminh@hcmuaf.edu.vn)

PDF

Received: 09 Oct 2018

Revised: 01 Nov 2018

Accepted: 15 Nov 2018

Published: 31 Dec 2018

DOI: 10.52997/jad.2.06.2018

Views

79

Downloads

16

How to Cite

Che, T. M., Nguyen, N. T. M., Nguyen, H. T., Le, T. T., & Peron, A. (2018). Efficacy of organic acids as an alternative to antibiotic growth promoters in weaned pigs. The Journal of Agriculture and Development 17(6), 8-14.

Issue

Volume 17 - Issue 6 (2018)

Section

Animal Sciences, Veterinary Medicine, Aquaculture and Fisheries

Abstract

The objective of the experiment was to compare effects of dietary supplementation of organic acids (ProHacid Advance, PRO) and antibiotics on growth performance, diarrhea incidence, frequency of antibiotic treatment, and E. coli shedding in weaned pigs. A total of 224 crossbred weaned pigs [(Yorkshire x Landrace) x Duroc; 29 days old)] were allotted to 1 of 4 treatments with 7 replicate pens of 8 pigs each according to sex, litter origin and weight in an RCBD. The 4 dietary treatments included (1) basal diet + 50 mg/kg neomycin and 10 mg/kg enramycin (positive control, PC), (2) basal diet without antibiotics (negative control, NC), (3) As 2 + 0.25% PRO, and (4) As 2 + 0.5% PRO. Over a 4-week study, the results showed that there were no differences in the average daily gain and average daily feed intake of pigs among the 4 treatments (P = 0.328). However, pigs fed the PC diet (1.642) and 0.25% PRO-supplemented diet (1.641) had a lower feed to gain ratio (P < 0.05) than those fed the NC diet (1.808). The diarrhea incidence of pigs fed the 0.25% PRO-supplemented diet (7.36%) was lower (P < 0.01) than that of pigs fed the PC diet (11.61%), NC diet (16.70%), and 0.5% PRO-supplemented diet (10.08%). The frequency of antibiotic treatment of pigs consuming the 0.25% PRO-supplemented diet (4.67%) was lower (P < 0.01) than that of pigs consuming the PC diet (7.33%), NC diet (9.53%) and 0.5% PRO-supplemented diet (7.65%). No differences were found in the number of fecal E. coli among the 4 treatments. In brief, 0.25% PRO added to a nursery pig diet would be considered a potential alternative to the use of antibiotics in feed, but further research on this aspect is needed.

Keywords: Antibiotics, Diarrhea, Growth performance, Nursery pigs, Organic acids

References

Bergstrom, J. R., Nelssen, J. L., Tokach, M. D., Goodband, R. D., Loughmiller, J. A., Musser, R. E., & Nessmith, W. B. Jr. (1996). An evaluation of several diet acidifers com-monly used in pig starter diets to improve growth performance. Kansas Agricultural Experiment Station Progress Report 0(10), 74-77.

Boling, S. D., Webel D. M., Mavromichalis I., Parsons C. M., & Baker, D. H. (2000). The effects of citric acid on phytate-phosphorus utilization in young chicks and pigs. Journal of Animal Science 78(3), 682-689. https://doi.org/10.2527/2000.783682x

Che, T. M., Adeola, O., Azain, M. J., Carter, S. D., Cromwell, G. L., Hill, G. M., Mahan, D. C., Miller, P. S., & Pettigrew, J. E. (2012). Effect of dietary acids on growth performance of nursery pigs: A cooperative study. Journal of Animal Science 90(12), 4408-4413. https://doi.org/10.2527/jas.2012-5110

Che, T. M., & Quach, A. T. (2011). A critical review of acidifiers in pig diets part 1: Proposed mechanisms of action of acids. Journal of Animal Husbandry Sciences and Technics 8(149), 8-17.

Guggenbuhl, P., S´eon A., Quintana A. P., & Nunes, C. S. (2007). Effects of dietary supplementation with benzoic acid (VevoVitall®) on the zootechnical performance, the gastrointestinal microflora and the ileal digestibility of the young pig. Livestock Science 108(1-3), 218-221. https://doi.org/10.1016/j.livsci.2007.01.068

Kil, D. Y., Kwon, W. B., & Kim, B. G. (2011). Dietary acidifiers in weanling pig diets: a review. Revista Colombiana de Ciencias Pecuaris 24(3), 231-247.

Kim, Y. Y., Kil, D. Y., Oh, H. K., & Han., I. K. (2005). Acidifier as an alternative material to antibiotics in animal feed. Asian-Australasian Journal of Animal Sciences 18(7), 1048-1060. https://doi.org/10.5713/ajas.2005.1048

Kluge, H., Broz, J., & Eder, K. (2006). Effect of benzoic acid on growth performance, nutrient digestibility, nitrogen balance, gastrointestinal microflora and parameters of microbial metabolism in piglets. Journal of Animal Physiology and Animal Nutrition 90(7), 316-324. https://doi.org/10.1111/j.1439-0396.2005.00604.x

Lawlor, P. G., Lynch, P. B., & Caffrey, P. J. (2006). Effect of fumaric acid, calcium formate and mineral levels in diets on the intake and growth performance of newly weaned pigs. Irish Journal of Agricultural Food Research 45(1), 61-71.

Makkink, C. (2001). Acid binding capacity in feedstuffs. Feed International 22(10), 24-27.

Manzanilla, E. G., Perez, J. F., Martin, M., Kamel, C., Baucells, F., & Gasa, J. (2004). Effect of plant extracts and formic acid on the intestinal equilibrium of earlyweaned pigs. Journal of Animal Science 82(11), 3210-3218. https://doi.org/10.2527/2004.82113210x

NRC (National Research Council). (1998). Nutrient Requirements of Swine (10^thed.). Washington DC, USA: National Academy Press.

Partanen, K. (2001). Organic acids - their efficacy and modes of action in pigs. In Piva, A., Bach Knudsen, K. E., and Linndberg, J. E. (Eds). Gut Environment of Pigs (201-218). Nottingham, UK: Nottingham University Press.

Partanen, K., & Mroz, Z. (1999). Organic acids for performance enhancement in pig diets. Nutrition Research Reviews 12(1), 117-145. https://doi.org/10.1079/095442299108728884

Phan, Q. N., Dong, D. D., Nguyen, H. N, & Che, T. M. (2014). Effects of benzoic acid and dietary acid binding capacity on growth performance and health of weaned pigs. Nong Lam University Journal of Agricultural Sciences and Technology 1, 41-48.

Radecki, S. V., Juhl, M. R., & Miller, E. R. (1988). Fumaric and citric acids as feed additives in starter pig diets: Effect on performance and nutrient balance. Journal of Animal Science 66(10), 2598-2605. https://doi.org/10.2527/jas1988.66102598x

Ravindran, V., & Kornegay, E. T. (1993). Acidification of weaner pig diets: A review. Journal of the Science of Food and Agriculture 62(4), 313-322. https://doi.org/10.1002/jsfa.2740620402

Risley, C. R., Kornegay, E. T., Lindemann, M. D., Wood, C. M., & Eigel, W. N. (1993). Effect of feeding organic acids on gastrointestinal digesta measurements at various times postweaning in pigs challenged with enterotoxigenic Escherichia coli. Canadian Journal of Animal Science 73(4), 931-940. https://doi.org/10.4141/cjas93-094

Tsiloyiannis, V. K., Kyriakis, S. C., Vlemmas, J., & Sarris, K. (2001). The effect of organic acids on the control of porcine post-weaning diarrhoea. Research in Veterinary Science 70(3), 287-293. https://doi.org/10.1053/rvsc.2001.0476

Walsh, M. C., Sholly, D. M., Hinson, R. B., Saddoris, K. L., Sutton, A. L., Radcliffe, J. S., Odgaard, R., Murphy, J., & Richert, B. T. (2007). Effects of water and diet acidification with and without antibiotics on weanling pig growth ang microbial shedding. Journal of Animal Science 85(7), 1799-1808. https://doi.org/10.2527/jas.2006-049

Article Sidebar

Main Article Content

Abstract

Article Details

References