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The effect of saline drinking water on broilers and laying hens performance

Published online by Cambridge University Press:  17 August 2009

T.E.E. ABBAS*
Affiliation:
Department of Poultry Production and Technology, Faculty of Agricultural Technology and Fish Science, University of Elneelein, PO Box 12702, Khartoum, Sudan
E.A. EL-ZUBEIR
Affiliation:
Department of Poultry Science, Faculty of Animal Production, University of Khartoum, PO Box 32, Khartoum North, Sudan
O.H. ARABBI
Affiliation:
Department of Animal Health, Faculty Animal Production, University of Gezira, Medani, Sudan
*
Corresponding author: [email protected]
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Abstract

Most nutritional studies with minerals have been carried out using dietary supplements, with little attention given to the role of those commonly found in drinking water. This is important since underground water supplies, which may contain high concentrations of dissolved salts, is a common source of drinking water for poultry in many countries. Recent evidence suggests that some minerals may exert adverse effects on the performance of growing broilers and laying hens when present in drinking water at concentrations similar to those found in other sources. Commercially farmed birds already receive a balanced diet and if they are also receiving high levels of nutrient as salt in the water in the form of sodium and chloride ions, then the performance of the birds may be negatively affected.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2009

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References

ABBAS, T.E., ELZUBEIR, E.A. and ARABBI, O.H. (2008a) Drinking water quality and its effects on productive performance and immune response of layers. International Journal of Poultry Science 7: 441-444.CrossRefGoogle Scholar
AUSTIC, R.E. and KESHAVARZ, K. (1988) Interaction of dietary calcium and chloride and the influence of monovalent minerals on eggshell quality. Poultry Science 67: 750-759.CrossRefGoogle ScholarPubMed
BALNAVE, D. and YOSELEWITZ, I. (1987) The relation between sodium chloride concentration in drinking water and egg – shell damage. British Journal of Nutrition 58: 503-509.CrossRefGoogle ScholarPubMed
BALNAVE, D., YOSELEWITZ, I. and DIXON, R.J. (1989) Physiological changes associated with the production of defective egg – shells by hens receiving sodium chloride in the drinking water. British Journal of Nutrition 61: 35-43.CrossRefGoogle ScholarPubMed
BALNAVE, D., ZHANG, D. and MORENG, R.E. (1991) Use of ascorbic acid to prevent the decline in eggshell quality observed with saline drinking water. Poultry Science 70: 848-852.CrossRefGoogle ScholarPubMed
BALNAVE, D. and ZHANG, D. (1993) Research note: responses of laying hens on saline drinking water to dietary supplementation with various zinc compounds. Poultry Science 72: 603-606.CrossRefGoogle ScholarPubMed
CHEEKE, P.R. (2005) Nutrients and toxic elements in water, in: Applied Animal Nutrition Feeds and Feeding, 3rd edition, pp. 290-292 (Pearson Prentice Hall, Upper Saddle River, New Jersey).Google Scholar
CHEN, J. and BALNAVE, D. (2001) The influence of drinking water containing sodium chloride on performance and eggshell quality of a modern, colored layer strain. Poultry Science 80: 91-94.CrossRefGoogle ScholarPubMed
DAMRON, B. L. (1998) Sodium chloride concentration in drinking water and eggshell quality. Poultry Science 77: 1488-1491.CrossRefGoogle ScholarPubMed
DAMRON, B.L. and FLUNKER, L.K. (1993) Broiler chick and laying hen tolerance to sodium hypochlorite in drinking water. Poultry Science 72: 1650-1655 (Abstract).CrossRefGoogle ScholarPubMed
DEYHIM, F. and TEETER, R.G. (1991) Research note: Sodium and potassium chloride drinking water supplementation effects on acid – base balance and plasma corticosterone in broilers reared in thermoneutral and heat – distressed environments. Poultry Science 70: 2551-2553.CrossRefGoogle ScholarPubMed
DEYHIM, F. and TEETER, R.G. (1995) Effect of heat stress and drinking water salt supplements on plasma electrolytes and aldosterone concentrations in broiler chickens. International Journal of Biometeorology 38: 216-217.CrossRefGoogle ScholarPubMed
DUPRIEZ, H. and DE LEENER, P. (1992) Salinity and salination of irrigated land, in: Ways of Water: Run-off, Irrigation and Drainage (Tropical handbook), 1st edition, pp. 250 (Macmillan Press LTD, London and Basingstoke).Google Scholar
KELLEMS, R.O. and CHURCH, D.C. (2002) Nutrients: Their metabolism and feeding standards, in: Livestock Feeds and Feeding, 5th edition, pp. 16-19 (Prentice Hall, Upper Saddle River, New Jersey).Google Scholar
KOELKEBECK, K.W., MCKEE, J.S., HARRISON, P.C., PARSONS, C.M. and ZIMMERMAN, R.A. (1999) Performance of laying hens provided water from two sources. Journal of Applied Poultry Research 8: 374-379.CrossRefGoogle Scholar
MAURICE, D.V. (1989) Salinity of drinking water and performance of chickens. Proceedings of the Georgia Nutrition Conference, University of Georgia, Athens, GA, pp 140-144.Google Scholar
MORENG, R.E., BALNAVE, D. and ZHANG, D. (1992) Dietary zinc methionine effect on eggshell quality of hens drinking saline water. Poultry Science 71: 1163 -1167.CrossRefGoogle ScholarPubMed
MUSHTAG, T., SARWAR, M., NAWAZ, H., MIRZA, M.A. and AHMAD, T. (2005) Effect and interactions of dietary sodium and chloride on broiler starter performance (hatching to twenty – eight days of age) under subtropical summer conditions. Poultry Science 84: 1716-1722.CrossRefGoogle Scholar
POURREZA, J., NILI, N. and EDRISS, M.A. (1994) Relationship of plasma calcium and phosphorous to the shell quality of laying hens receiving saline drinking water. British Poultry Science 35: 755-762CrossRefGoogle Scholar
SHLOSBERG, A., BELLAICHE, M., BERMAN, E., BEN DAVID, A. and DEEB, N. (1998) Comparative effects of added sodium chloride, ammonium chloride or potassium bicarbonate in the drinking water of broilers, and feed restriction on the development of the ascites syndrome. Poultry Science 77: 1287-1296.CrossRefGoogle ScholarPubMed
WATKINS, S.E., FRITTS, C.A., YAN, F., WILSON, M.L. and WALDROUP, P.W. (2005) The interaction of sodium chloride levels in poultry drinking water and the diet of broiler chickens. Journal of Applied Poultry Research 14: 55-59.CrossRefGoogle Scholar
XIANG, R.P., SUN, W.D., ZHANG, K.C., LI, J.C., WANG, J.Y. and WANG, X.L. (2004) Sodium chloride induced acute and chronic pulmonary hypertension syndrome in broiler chickens. Poultry Science 83: 732-736.CrossRefGoogle ScholarPubMed
YOSELEWITZ, I. and BALNAVE, D. (1989a) Responses in eggshell quality to sodium chloride supplementation of the diet and/or drinking water. British Poultry Science 30: 273-281.CrossRefGoogle ScholarPubMed
YOSELEWITZ, I. and BALNAVE, D. (1989b) Eggshell quality responses of pullets given saline drinking water at different ages. British Poultry Science 30: 715-718.CrossRefGoogle ScholarPubMed
YOSELEWITZ, I., ZHANG, D. and BALNAVE, D. (1991) The effect on egg shell quality of supplementing saline drinking water with sodium or ammonium bicarbonate. Australian Journal of Agricultural Research 41: 1187-1192.CrossRefGoogle Scholar
ZHANG, D., MORENG, R.E. and BALNAVE, D. (1991) Reproductive performance of artificially inseminated hens receiving saline drinking water. Poultry Science 70: 776-779.CrossRefGoogle ScholarPubMed