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Water requirements and body water distribution in Awassi sheep and Aardi goats during winter and summer seasons

Published online by Cambridge University Press:  29 November 2010

M. ALAMER*
Affiliation:
Department of Animal and Fish production, College of Agricultural Sciences and Foods, King Faisal University, B. O. Box 420, Hofuf 31982, Saudi Arabia

Summary

Water requirements, total body water (TBW) and water distribution were evaluated in Awassi sheep and Aardi goats of Saudi Arabia. Ten non-pregnant and non-lactating females from each species were individually housed in shaded pens during winter and summer seasons. Each experimental period lasted for 2 weeks; the first week was an adaptation period, followed by an evaluation period of 1 week. Feed and water intake together with body weight were recorded daily. Five animals from each group were used for determination of body water, extracellular fluid (ECF) and plasma volume (PV) using dilution techniques. Urea and sodium thiocyanate were used for the estimation of body water and ECF, respectively, and Evans blue for PV determination. Intracellular fluid (ICF) and blood volume (BV) were calculated. Feed intake was not affected by either season or species. During the winter season, Aardi goats had lower water intake in comparison with Awassi sheep, but water intake increased in all animals during summer. TBW increased during summer in all animals, but with higher values in the Aardi goats. During summer, ECF tended to increase in Aardi goats. PV, expressed as a proportion of body weight, was not affected by season, but it was maintained at higher levels in the Aardi goats irrespective of season. It could be concluded that Aardi goats used water more economically when the ambient temperature was lower but, during the summer when ambient temperatures were higher, they increased their water intake and BW content to a greater extent and stored more water in the ECF compartment compared to Awassi sheep.

Type
Animals
Copyright
Copyright © Cambridge University Press 2010

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References

REFERENCES

Aganga, A. A., Umunna, N. N., Oyedipe, E. O. & Okoh, P. N. (1989). Breed differences in water metabolism and body composition of sheep and goats. Journal of Agricultural Science, Cambridge 113, 255258.CrossRefGoogle Scholar
Ahmed, M. M. & El Kheir, I. M. (2004). Thermoregulation and water balance as affected by water and food restrictions in Sudanese desert goats fed good-quality and poor-quality diets. Tropical Animal Health and Production 36, 191204.CrossRefGoogle ScholarPubMed
Alamer, M. A. (2003). Heat tolerance of local goat breeds in Saudi Arabia. Arab Gulf Journal of Scientific Research 21, 210216.Google Scholar
Alamer, M. A. (2006). Physiological responses of Saudi Arabia indigenous goats to water deprivation. Small Ruminant Research 63, 100109.CrossRefGoogle Scholar
Alamer, M. A. & Al-Hozab, A. (2004). Effect of water deprivation and season on feed intake, body weight and thermoregulation in Awassi and Najdi sheep breeds in Saudi Arabia. Journal of Arid Environments 59, 7184.CrossRefGoogle Scholar
Atti, N., Bocquier, F., Theriez, M., Khaldi, G. & Kayouli, C. (2000). In vivo estimation of body composition from the dilution space of deuterium oxide in fat-tailed Barbary ewes. Livestock Production Science 65, 3945.CrossRefGoogle Scholar
Benjamin, R. W., Koenig, R. & Becker, K. (1993). Body composition of young sheep and goats determined by tritium dilution technique. Journal of Agricultural Science, Cambridge 121, 399408.CrossRefGoogle Scholar
Bhattacharya, A. N. & Hussain, F. (1974). Intake and utilization of nutrients in sheep fed different levels of roughage under heat stress. Journal of Animal Science 38, 877886.CrossRefGoogle ScholarPubMed
Bhattacharya, A. N. & Uwayjan, M. (1975). Effect of high ambient temperature and low humidity on nutrient utilization and on some physiological responses in Awassi sheep fed different levels of roughage. Journal of Animal Science 40, 320328.CrossRefGoogle Scholar
Can, A., Denek, N. & Seker, M. (2008). Effect of harsh environmental conditions on nutrient utilization and blood parameters of Awassi sheep and Kilis goat fed different levels of concentrate feed. Journal of Applied Animal Research 33, 3943.CrossRefGoogle Scholar
Consortium (1988). Guide for the Care and Use of Agricultural Animals in Agricultural Research and Teaching. Champaign, IL: Consortium for Developing a Guide for the Care and Use of Agricultural Animals in Agricultural Research and Teaching.Google Scholar
Dalinghaus, M., Gratama, J. W. C., Koers, J. H., Gerding, A. M., Meuzelaar, K. J., van de Berg, M., Zijlstra, W. G. & Kuipers, J. R. G. (1993). Body fluid compartment volumes in chronically hypoxemic lambs. Pediatric Research 33, 267272.CrossRefGoogle ScholarPubMed
Degen, A. A. (1977). Fat-tailed Awassi and German mutton Merino sheep under semi-arid conditions. 1. Total body water, its distribution and water turnover. Journal of Agricultural Science, Cambridge 88, 693698.CrossRefGoogle Scholar
Degen, A. A. & Young, B. A. (1981). Effect of air temperature and feed intake on live weight and water balance in sheep. Journal of Agricultural Science, Cambridge 96, 493496.CrossRefGoogle Scholar
Denek, N., Can, A., Tufenk, S., Yazgan, K., Ipek, H. & Iriadam, M. (2006). The effect of heat load on nutrient utilization and blood parameters of Awassi ram lambs fed different types and levels of forages. Small Ruminant Research 63, 156161.CrossRefGoogle Scholar
El-Hadi, H. M. (1986). The effect of dehydration on Sudanese desert sheep and goats. Journal of Agricultural Science, Cambridge 106, 1720.CrossRefGoogle Scholar
Elmansoury, Y. H. A., Musa, H. M., Majid, A. A., Barri, M. E. S., Abdalla, A. E. D. & El-Wasela, B. (1998). Estimation of total body water and water turnover by equilibrium and extrapolation method and mixing time in desert Sudanese sheep and goats by the tritiated water technique. Sudan Journal of Veterinary Science and Animal Husbandry 37, 129137.Google Scholar
El-Nouty, F. D., Elbanna, I. M., Davis, T. P. & Johnson, H. D. (1980). Aldosterone and ADH response to heat and dehydration in cattle. Journal of Applied Physiology 48, 249255.CrossRefGoogle ScholarPubMed
El-Nouty, F. D., Hassan, G. A., Taher, T. H., Samak, M. A., Abo-Elezz, Z. & Salem, M. H. (1988). Water requirements and metabolism in Egyptian Barki and Rahmani sheep and Baladi goats during spring, summer and winter season. Journal of Agricultural Science, Cambridge 111, 2734.CrossRefGoogle Scholar
El-Nouty, F. D., Al-Haideray, A. A. & Basmaeil, S. M. (1990). Physiological responses, feed intake, urine volume and serum osmolality of Aardi goats deprived of water during spring and summer. Australian Journal of Animal Sciences 3, 331336.CrossRefGoogle Scholar
El-Sayed, N. A., Azamel, A. A. & El-Ganaieny, M. M. (1993). A comparative study on water economy of desert goats and sheep in Egypt. Egyptian Journal of Animal Production 30, 6370.Google Scholar
Foldager, N. & Blomqvist, C. G. (1991). Repeated plasma volume determination with the Evans blue dye dilution technique: the method and a computer program. Computers in Biology and Medicine 21, 3541.CrossRefGoogle Scholar
Gad, S. M. & Preston, R. L. (1990). In vivo prediction of extracellular and intracellular water in cattle and sheep using thiocyanate and urea. Journal of Animal Science 68, 36493653.CrossRefGoogle ScholarPubMed
Garcia, O. & Gall, C. (1981). Goats in the dry tropics. In Goat Production (Ed. Gall, C.), pp. 515556. London: Academic Press.Google Scholar
Gholap, S. M. & Dixit, N. K. (2004). Body water distribution, plasma proteins and serum electrolytes in goats. Indian Journal of Animal Sciences 74, 5657.Google Scholar
Ghosal, A. K., Appana, T. C. & Dwaraknath, P. K. (1974). Seasonal variations in water compartments of the Indian camel. British Veterinary Journal 130, 4749.CrossRefGoogle ScholarPubMed
Ghosh, T. K., Singh, W. B., Verma, D. N., Saxena, K. K. & Ranjhan, S. K. (1980). Measurement of water turnover and water requirements in different species of animals in two seasons. Indian Journal of Animal Science 50, 615619.Google Scholar
Ghosh, T. K., Verma, D. N., Singh, U. B. & Ranjhan, S. K. (1979). Studies on the body composition of different species of animals measured by isotope dilution technique. Journal of Nuclear Agriculture and Biology 8, 8992.Google Scholar
Giger-Reverdin, S. & Gihad, E. A. (1991). Water metabolism and intake in goats. In Goat Nutrition (Ed. Morand-Fehr, P.), pp. 3745. Wageningen, The Netherlands: Pudoc.Google Scholar
Gihad, E. A., El-Bedawy, T. M. & Mehrez, A. Z. (1980). Fiber digestibility by goats and sheep. Journal of Dairy Science 63, 17011706.CrossRefGoogle Scholar
Gortel, K., Schaefer, A. L., Young, B. A. & Kawamoto, S. C. (1992). Effects of transport stress and electrolyte supplementation on body fluids and weights of bulls. Canadian Journal of Animal Science 72, 547553.CrossRefGoogle Scholar
Kamal, T. H., Shehata, O. & Elbanna, I. M. (1972). Effect of heat and water restriction on water metabolism and body fluid compartments in farm animals. In Isotope Studies on the Physiology of Domestic Animals: Proceedings of a Symposium on the Use of Isotopes in Studies on the Physiology of Domestic Animals. International Atomic Energy Agency and the Food and Agriculture Organization of the United Nations, Athens, 20–24 March, 1972. pp. 95102. Vienna, Austria: Atomic Energy Agency.Google Scholar
King, J. M. (1979). Game domestication for animal production in Kenya: field studies of the body water turnover of game and livestock. Journal of Agricultural Science, Cambridge 93, 7179.CrossRefGoogle Scholar
Kock, S. W. & Preston, R. L. (1979). Estimation of bovine carcass composition by the urea dilution technique. Journal of Animal Science 48, 319327.CrossRefGoogle Scholar
Laden, S., Nehmadi, L. & Yagil, R. (1987). Dehydration tolerance in Awassi fat-tailed sheep. Canadian Journal of Zoology 65, 363367.CrossRefGoogle Scholar
Preston, R. L. & Kock, S. W. (1973). In vivo prediction of body composition in cattle from urea space measurements. Proceedings of the Society for Experimental Biology and Medicine 143, 10571061.CrossRefGoogle ScholarPubMed
Qinisa, M. M. & Boomker, E. A. (1998). Feed selection and water intake of indigenous goat wethers under stall-feeding conditions. South African Journal of Animal Science 28, 173178.Google Scholar
SAS (1996). SAS Users Guide: Statistics. Cary, NC: SAS Institute for Statistical Analysis.Google Scholar
Saxena, S. K. & Joshi, B. C. (1980). Dynamics of body water under environmental heat stress. Indian Journal of Animal Science 50, 383388.Google Scholar
Shafie, M. M., Murad, H. M., El-Bedawy, T. M. & Salem, S. M. (1994). Effect of heat stress on feed intake, rumen fermentation and water turnover in relation to heat tolerance response by sheep. Egyptian Journal of Animal Production 31, 317327.Google Scholar
Shebaita, M. K. & El-Banna, I. M. (1982). Heat load and heat dissipation in sheep and goats under environmental heat stress. In Proceedings of the Sixth International Conference on Animal and Poultry Production, Zagazig, Egypt, 21–23 September 1982, pp. 459469. Zagazig, Egypt: Egyptian Society of Animal Production.Google Scholar
Shkolnik, A. & Choshniak, I. (1985). Physiological responses and productivity of goats. In Stress Physiology in Livestock, vol. II, Ungulates (Ed. Yousef, M. K.), pp. 3957. Boca Raton, FL: CRC Press Incorporation.Google Scholar
Silanikove, N. (1985). Effect of dehydration on feed intake and dry matter digestibility in desert (Black Bedouin) and non-desert (Swiss Saanen) goats fed on Lucerne hay. Comparative Biochemistry and Physiology Part A: Physiology 80, 449452.CrossRefGoogle ScholarPubMed
Silanikove, N. (1989). Inter-relationship between water food and digestible energy intake in desert and temperate goats. Appetite 12, 163170.CrossRefGoogle Scholar
Silanikove, N. (1992). Effects of water scarcity and hot environment on appetite and digestion in ruminants: a review. Livestock Production Science 30, 175194.CrossRefGoogle Scholar
Silanikove, N. (2000). The physiological basis of adaptation in goats to harsh environments. Small Ruminant Research 35, 181193.CrossRefGoogle Scholar
Terril, C. E. (1968). Adaptation of sheep and goats. In Adaptation of Domestic Animals (Ed. Hafez, E. S. E.), pp. 246263. Philadelphia, PA: Lea & Febiger.Google Scholar
Yousef, M. K. & Johnson, H. D. (1985). Body fluids and thermal environment. In Stress Physiology in Livestock, vol. I, Basic Principles (Ed. Yousef, M. K.), pp. 189201. Boca Raton, FL: CRC Press Incorporation.Google Scholar