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The application of zeolite in poultry production

Published online by Cambridge University Press:  07 May 2008

F. SHARIATMADARI*
Affiliation:
School of Agriculture, Tarbiat Modares University, Tehran, I.R. Iran, 14115-336
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Abstract

Zeolites are crystalline, hydrated aluminosilicates of alkali and alkaline earth cations which have infinite, three dimensional structure. Among many properties attributed to zeolites, two most characteristics that relates to their effectiveness in animal nutrition are their ability to lose and gain water reversibly and being capable of exchanging selectively a variety of cations in their structure without much major changes of structure. However the effect of zeolites on food intake, weight gain, growth rate, egg production, egg weight, shell thickness and internal egg characteristic are in dispute. While some of the experiments report beneficial effect due to inclusion of zeolite in the diet of birds, others show no changes and yet there are results that indicate the negative effects. Reasons such as level of usage, type of zeolite (natural vs. synthetics) and even within natural ones, the levels of impurities, are to be blamed for discrepancies reported from the experiments. On the other hand there has been evidence that zeolites has beneficial effect on feed efficiency ratio, water consumption, nutrient utilization, manure and litter condition and more importantly on aflatoxicosis.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2008

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References

BARTKO, P., SEIDOL, H. and KOVAC, G. (1995) Use of clinoptilolite rich tuffs form Slovakia in animal production: In: Occurrence, properties and use of natural zeolites. W.M. Douglas and F.A. Mumpton (Eds). Brockport, New York. 467.Google Scholar
EDWARDS, H.M. Jr., ELLIOT, M.A. and SOOCHARENYING, S. (1992) Effect of dietary calcium and tibia dyschondroplasia: interaction with light, cholecalciferol, 1,25-dihydroxycholecalciferol, protein and synthetic zeolite. Poultry Science 71(2): 2041-2055.CrossRefGoogle ScholarPubMed
ELLIOT, M.A., EDWARDS, B.S. and BURDETTE, J. (1990) Comparison of the effect of synthetic and natural zeolite on laying and broiler chickens performance. Poultry Science 70(10): 2115-2130.CrossRefGoogle Scholar
ELLIOT, M.A. and EDWARDS, H.M. (1991) Some effects of dietary aluminium and silicon in broiler chickens. Poultry Science 70: 1390-1402.CrossRefGoogle ScholarPubMed
EVANS, M. (1989) Zeolites - Do they have a role in poultry production. Farrell. D.J. (Ed). In: Recent Advances in Animal Nutrition in Australia. pp. 245-268. (Armidale. University of New England).Google Scholar
EVANS, M., ROBERT, J. and FARRELL, D.J. (1991) Effect of sodium zeolite A in the diets of laying hens at 20oC and 35oC Personal Communication.Google Scholar
EVANS, M. and FARRELL, D.J. (1992) No effect of natural or synthetic zeolite on performances and egg shell quality of laying hens. Poultry Science 71: 336.Google Scholar
FETHEIRE, R.R, MILLES, D. and HARMS, R.H. (1988) The influence of dietary phosphorous level in laying hen diets containing ethical feed components. Poultry Science 67(1):86.Google Scholar
GORRAN, G. (2004) The effect of processing, level and type of natural zeolite on layer performances. Msc Thesis. Tarbiat Modares University. Iran.Google Scholar
GOTTARDI, G. and GALLI, E. (1985) Natural Zeolites. Springer-Verlag, Berlin Heidelberg.CrossRefGoogle Scholar
HUFF, W.E., KUBENA, L F., HARVEY, R.B.W.E., ELISSALDE, M.H., YERSIN, A.G., PHILIPS, T.D. and ROTTINGHAUS, G.F. (1988) Toxic synergism between aflatoxin and T-2 toxin in broiler chickens. Poultry Science 67: 1418-1423.CrossRefGoogle ScholarPubMed
INGRAM, D.R., KLING, C.E. and LAURENT, S.M. (1988) Influence of ethical feed component on production parameters with leghorn hens during high ambient temperature. Nutrition-Reports-International 37(4): 811-818.Google Scholar
KHADEMI, S. (2003) The effect of processing, level and type of natural zeolite on broiler performances. Msc Thesis. Tarbiat Modares University. Iran.Google Scholar
KITHOME, M., PAUL, J.W. and BOMKE, A.A. (1999) Reducing nitrogen losses during stimulated composting of poultry manure using absorbents or chemical amendments. Journal of Environmental Quality 28(3): 194-201.CrossRefGoogle Scholar
KUBENA, L.F. and HARVEY, R.B. (1991) Effect of hydrated sodium calcium aluminosilicate on growing turkey poults during aflatoxicosis. Poultry Science 70:1823-1831.CrossRefGoogle ScholarPubMed
KUBENA, L.F., HARVEY, R.B., HUFF, W.E., ELISSALDE, M.H., YERSIN, A.G., PHILIPS, T.D. and ROTTINGHAUS, G.F. (1993a) Efficacy of hydrated sodium calcium aluminosilicate to reduce to the toxicity of aflatoxin and diacetoxyscripenol. Poultry Science 75: 51-62.CrossRefGoogle Scholar
KUBENA, L.F., HARVEY, R.B., PHILIPS, T.D. and CLEMENT, B.A. (1993b) Effect of hydrated sodium calcium aluminosilicate on aflatoxicosis in broiler chickens. Poultry Science 72: 651-660.CrossRefGoogle Scholar
LEACH, R.H., HEINRICHS, B.S. and BURDETTE, J. (1990) Broiler chickens fed low calcium diets. 1)influence of zeolite on growth rate and parameters of bone metabolism. Poultry Science 69(9): 1534-1543.Google Scholar
MILES, R.D., HARMS, R.H. and LOURENT, S.M. (1986) Influence of sodium zeolite on laying hens performance. Nutrition-Reports. International 34(6): 1097-1103.Google Scholar
MUMPTON, F.A. and FISHMAN, P.H. (1977) The application of zeolites in animal science and aquaculture. Journal of Animal Science 45: 1188-1203.CrossRefGoogle Scholar
NAKAUE, H.S. and KOELLIKER, U.K. (1981) Studies with clinoptilolite in poultry. Effect of feeding varying levels of clinoptilolite (zeolite) to dwarf single comb white leghorn pullets and ammonia production. Poultry Science 60(5): 944-949.CrossRefGoogle Scholar
NESTOROV, N. (1984) Possible application of natural zeolite in animal husbandry. In: Zeo Agriculture: Use of Natural Zeolite in Agriculture and aquaculture, eds. Pond, W.G. and Mumpton, F.A., p.197. Westview Press, Boulder, Colorado, U.S.A.Google Scholar
OLIVER, M.D. (1989) Effect of feeding clinoptilolite (zeolite) to three strain of laying hens. British Poultry Science 30: 115-121.CrossRefGoogle Scholar
OLIVER, M.D. (1997) Effect of feeding clinoptilolite (zeolite) on the performances of three strain of laying hens. British Poultry Science 38: 220-223.CrossRefGoogle Scholar
POND, N.G. and LEE, J.T. (1984) Physiological effects of clinoptilolite and synthetic zeolite A in animals. In: Zeo Agriculture: Use of Natural Zeolites in Agriculture and Aquaculture, eds. Pond, W.G. and Mumpton, F.A., p. 129. Westview Press Boulder, Colorado, U.S.A.Google Scholar
POND, W.G., CHURCH, D.C. and POND, K.R. (1995) Basic animal nutrition and feeding. John and Sons, Inc., USA.Google Scholar
POND, W.G. (1995) Zeolites in animal nutrition and health. In: Occurrence, Properties and Use of Natural Zeolite, Eds. Douglas, W.M. and Mumpton, F.A., p.449. Brockport, New York, U.S.A.Google Scholar
PETUNKIN, N. (1991) Influence of zeolites on animal digestion. In: Occurrence, Properties and Utilization of Natural Zeolites, Eds. Fuentes, G.R. and Gonzalez, J.A., p.280. Havana, Cuba.Google Scholar
ROUSSEL, J.D., THIBODEAUX, J.K., ADKINSON, R.W., TOUPS, G.M. and GOODEAUS, L.L. (1992) Effect of feeding various level of sodium zeolite A on milk yield, milk composition and blood profiles in the thermally stressed Holstein cows. International Journal of Veterinary Nutrition Research 62: 91-97.Google ScholarPubMed
RAMOS, A.J., FINK- GREMMELS, J. and HERMANDEZ, E. (1996) Prevention of toxic effects of mycotoxins by means of non-nutritive absorbent compounds. Journal of Food Protection 59: 631-641.CrossRefGoogle Scholar
RAMOUS, A.G and GOUNZALES, E. (1997) Prevention of aflatoxicosis in farm animals by Means of hydrated sodium calcium aluminosilicate addition to feedstuffs: a review. Animal Feed Science and Technology 65(1): 197-206.CrossRefGoogle Scholar
ROLAND, D.A., RABON, S.R. and FROST, T.J. (1990) Response of commercial leghorns to sodium aluminosilicate when feed different levels and source of available phosphorus. Poultry Science 69: 2157-2164.CrossRefGoogle ScholarPubMed
VEST, L. and SHUTZE, J. (1984) Influence of feeding zeolite to poultry under field conditions. In: Zeo Agriculture: Use of Natural Zeolites. In: Agriculture and Aquaculture, eds. Pond, W.G. and Mumpton, F.A., p. 211. Westview Press, Boulder, Colorado, U.S.A.Google Scholar
WILLIS, W.L., QUARLES, C.L., FAGHERBERG, D.D.J. and SHUTRE, J. (1982) Evaluation of zeolite in male broiler chickens. Poultry Science 61: 438-442.CrossRefGoogle Scholar