Abstract
The effects of vitamin E (dl-α-tocopheryl acetate) and selenium (Se; Na2-SeO3) on egg production, egg quality, and mineral content of egg yolk in Japanese quails reared under a low ambient temperature (6°C) were evaluated. Birds (n=300; 7 wk old) were randomly assigned to 12 treatment groups, 25 birds per group. The birds in a 3×2 factorial design received either three levels of vitamin E (125, 250, and 500 mg/kg diet) or two levels of selenium (0.1 or 0.2 mg/kg diet). After 2 wk on feed, six groups of the birds were maintained at 18°C (thermoneutral temperature [TN]), and the other half were acclimated over 3 d to a decreased environmental temperature of 6°C (cold stress [CS]). The performance, egg quality, and mineral content of egg yolk were not influenced by supplemental vitamin E and selenium in quails not exposed to cold stress (p≥0.09). Two hundred fifty and 500 mg vitamin E/kg diet compared with 125 mg/kg diet and higher dietary selenium inclusions (0.2 vs 0.1 mg/kg) resulted in a better body weight, egg production, and feed efficiency (p=0.01) in quails reared under CS. Similarly, egg weight, egg specific gravity, eggshell thickness, and Haugh unit were positively influenced with vitamin E (p=0.01) and selenium (p≤0.05) supplementation. Egg yolk concentrations of Zn, Fe, and Mn were higher with higher dietary vitamin E (p=0.01) and selenium (p=0.05). There was no interaction detected for parameters measured in the present study (p≥0.3). The results of the present study showed that a combination of 250 or 500 mg vitamin E and 0.2 mg selenium per kilogram of diet provides the greatest effects on performance and egg quality of Japanese quails reared under cold stress and suggest that such a supplementation can be considered as a protective management practice in Japanese quail diets to reduce the detrimental effects of cold stress.
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References
B. M. Sagher, The effect of cold stress on muscle growth in young chicks, Growth 39, 281–285 (1975).
Z. Arad and J. Marder, Comparison of the productive performances of the sinai bedouin fowl, the white leghorn and their crossbreeds: study under natural desert conditions, Br. Poult. Sci. 23, 33–38 (1982).
M. E. Ensminger, J. E. Oldfield, and W. Heinemann, Feeds and Nutrition, W. W. Heinemann, ed., Ensminger Publishing, Clovis, CA, pp. 108–110 (1990).
M. Spinu and A. A. Degen, Effect of cold stress on performance and immune responses of bedouin and white leghorn hens, Br. Poult. Sci. 34, 177–181 (1993).
N. Sahin, M. Onderci, and K. Sahin, Effects of dietary chromium and zinc on egg production, egg quality and some blood metaboites of laying hens reared under low ambient temperature, Biol. Trace Element Res. 85, 47–58 (2002).
K. Sahin, N. Sahin, and O. Kucuk, Effects of dietary chromium and ascorbic acid supplementation on digestion of nutrients, serum antioxidant status and mineral concentrations in laying hens reared at a low ambient temperature, Biol. Trace Element Res. 87, 113–124 (2002).
K. C. Klasing, Comparative Avian Nutrition, Cambridge University Press, Cambridge, pp. 277–299 (1998).
W. R. Beisel, Single nutrients and immunity, Am. J. Clin. Nutr. 35, 442–451 (1982).
G. F. Combs and S. B. Combs, The nutritional biochemistry of selenium, Ann. Rev. Nutr. 4, 257–280 (1984).
B. Halliwell and M. C. Gutteridge, Free Radicals in Biology and Medicine, 2nd ed., Oxford University Press, New York (1989).
K. Sahin, N. Sahin, M. Onderci, et al., Protective role of supplemental vitamin E on lipid peroxidation, vitamins E, A and some mineral concentrations of broilers reared under heat stress, Vet. Med. Czech. 46, 140–144 (2001).
L. R. McDowell, Vitamin E, in Vitamins in Animal Nutrition—Comparative Aspects to Human Nutrition, L. R. McDowell, ed., Academic, New York, pp. 93–131 (1989).
A. Macpherson, Selenium, vitamin E and biological oxidation, in Recent Advances in Animal Nutrition, D. J. Cole and P. J. Garnsworthy, eds., Butterworth and Heinemann, Oxford, pp. 3–30 (1994).
R. Feenster, High temperatures decrease vitamin utilization, Misset Poult. 38, 38–41 (1985).
C. C. Whitehead, S. Bollengier-Lee, M. A. Mitchell, et al., Vitamin E can alleviate the depression in egg production in heat stressed laying hens. Proceedings of Spring Meeting, WPSA—UK Branch, pp. 55–56 (1995).
K. Sahin, N. Sahin, and S. Yaraloglu, Effects of vitamin C and vitamin E on lipid peroxidation, blood serum metabolites and mineral concentrations of laying hens reared at high ambient temperature, Biol. Trace Element Res. 85, 35–45 (2002).
S. Bollengier-Lee, P. E. V. Williams, and C. C. Whitehead, Optimal dietary concentration of vitamin E for alleviating the effect of heat stress on egg production in laying hens, Br. Poult. Sci. 40, 102–107 (1999).
A. Sunder, G. Richter, and G. Flachowsky, Influence of different concentrations of vitamin E in the feed of laying hens on the vitamin E-transfer into the egg, Proc. Soc. Nutr. Physiol. 6, 14–152 (1997).
G. Flachowsk, Vitamin E-transfer from feed into pig tissues, J. Appl. Anim. Res. 17, 69–80 (2000).
K. M. Chan and E. A. Decker, Endogenous skeletal muscle antioxidants, Crit. Rev. Food Sci. Nutr. 34, 403–426 (1994).
E. J. Underwood, Selenium, in Trace Elements in Human and Animal Nutrition, Academic, New York (1977).
G. F. Combs and S. B. Combs, The Role of Selenium in Nutrition, Academic, London, pp. 179–389 (1986).
U. Puthpongsiriporn, S. E. Scheideler, J. L. Sell, et al., Effects of vitamin E and C supplementation on performance, in vitro lymphocyte proliferation, and antioxidant status of laying hens during heat stress, Poult. Sci. 80, 1190–1200 (2001).
National Research Council, Nutrient Requirements of Poultry, 9th rev. ed., National Academy Press, Washington, DC (1994).
J. M. Hempe, R. C. Lauxen, and J. E. Savage, Rapid determination of egg weight and specific gravity using a computerized data collection system, Poult. Sci. 67, 902–907 (1998).
E. J. Eisen, B. B. Bohren, and H. E. McKean, The Haugh unit as a measure of egg albumen quality, Poult. Sci. 41, 1461–1468 (1962).
SAS Institute, SAS User’s Guide: Version 6.12. SAS Institute, Cary, NC (1996).
K. Sahin and O. Kucuk, Effects of vitamin E and selenium on performance, digestibility of nutrients and carcass characteristics of Japanese quails reared under heat stress (34°C), J. Anim. Physiol. Anim. Nutr. 85, 342–348 (2001).
E. L. Smith, R. Hill, I. R. Lehman, et al., Principles of Biochemistry, Mammalian Biochemistry, McGraw-Hill, London (1986).
C. D. Mahan, How organic selenium my help reduce drip loss, World Poult. 12, 19–21 (1996).
D. C. Gallo-Torres, Absorption, blood transport and metabolism of vitamin E, in A Comprehensive Treatise, L. J. Maclin, ed., Marcel Dekker, New York, pp. 170–267 (1980).
M. M. R. Ahmad, R. E. Moreng, and H. D. Mueller, Breed responses in body temperature to elevated environmental temperature and ascorbic acid, Poult. Sci. 46, 6–15 (1967).
M. O. Smith and R. G. Teeter, Potassium balance of the 5 to 8-week old broiler exposed to constant heat or cycling high temperature stress and the effects of supplemental potassium chloride on body weight gain and feed efficiency, Poult. Sci. 66, 487–492 (1987).
O. El-Husseiny and C. R. Creger, Effect of ambient temperature on mineral retention and balance of the broiler chicks, Poult. Sci. 60(Suppl. 1), 1651 (1981) (abstract).
A. Frank, B. Pehrson, and L. R. Peterson, Concentration of some important elements in liver of young cattle supplemented with selenitc enriched feed, J. Vet. Med. A 33, 4212–4225 (1986).
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Sahin, N., Sahin, K. & Onderci, M. Vitamin E and selenium supplementation to alleviate cold-stress-associated deterioration in egg quality and egg Yolk mineral concentrations of Japanese quails. Biol Trace Elem Res 96, 179–189 (2003). https://doi.org/10.1385/BTER:96:1-3:179
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DOI: https://doi.org/10.1385/BTER:96:1-3:179