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A Review of The Nutrition of Japanese Quail

Published online by Cambridge University Press:  18 September 2007

K. F. Shim
Affiliation:
Department of Avian Sciences, University of California, Davis, Ca 95616, USA
Pran Vohra
Affiliation:
Department of Avian Sciences, University of California, Davis, Ca 95616, USA
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Research Article
Copyright
Copyright © Cambridge University Press 1984

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References

Alford, R. K. (1968). Vitamin requirements of coturnix quail. M.Sc. Thesis, Auburn University, Auburn, Alabama.Google Scholar
Allen, N. K. and Young, R. J. (1980). Studies o n the amino acid rcquiremciirs of laying Japanese quail (Coturnix coturnix japonica). Poultry Science 59: 2029.CrossRefGoogle Scholar
Ai-Hasani, S. M. and Parrish, D. S. (1968). Vitamin A activity of β-apo-carntcnale in Coturnix coturnix japonica. Journal of Nutrition 94: 402.CrossRefGoogle Scholar
Ai-Hasani, S. M. and Parish, A. B. (1972). Forms of vitamin A and of caro-tenoids in tissues. blood serum and yolk of egss from Coturnix coturnix japonica fed β-apo-carotenals. Journal of Nutrition. 102: 1437.CrossRefGoogle Scholar
Arscolt, G. H. (1967). Pyridoxine requirement of Coturnix coturnix japonica. In Oregon Agricultural Experimental Station Annual Progress report, p. 12Google Scholar
Arscott, G. H. and Person-Goeger, M. (1981) Protein needs for laying Japanese quail as influenced by protein level and amino acid supplementation. Nutrition Reports International 24: 1287.Google Scholar
Ashoff, J. and Pohl, H. (1970). Der Rubeunsatz von Vogeln als Funkiton der Tagezeit und der Korpergrosse. J. Ornthol. 111: 38.CrossRefGoogle Scholar
Atkinson, J., and VohraA, P. and Kratzer, F. H. (1972). The effect of available dietary zinc on the utilization of protein by the chick and Japanese quail. British Journal of Nutrition. 27: 461.CrossRefGoogle ScholarPubMed
Beane, W. L. and Howes, J. R. (1966). Review of quail nutrition Part II. The nutrional requirements of coturnix quail. Quail Quarterly 3: 43.Google Scholar
Begin, J. J. (1968). A comparison of the ability of the Japanese quail and light breed chicken to metabolism and utilizc energy. Poultry Science 47: 1278.CrossRefGoogle ScholarPubMed
Begin, J. J. and Insko, W. M. Jr. (1972). The effects of dietary protein levels on the reproductive performance of coturnix breeder hens. Poultry Science 51: 1662.CrossRefGoogle Scholar
Bisoi, P. K., Panda, B., Reddy, V. R. and Singh, R. (1980). Calcium and phosphorus requirements of starter Japanese quail. Indian Journal Animal Science 50: 357.Google Scholar
Blem, C. R. (1978). The energetics of young Japanese quail, Coturnix coturnix japonica. Comp. Biochem. Physiol., A, 59: 219.CrossRefGoogle Scholar
Chan, M. M., Rucker, R. B., Zeeman, F. and Riggins, R. S. (1973). Effect of fluoride on bone formation and strength in Japanese quail. Journal of Nutrition 103: 1431.CrossRefGoogle Scholar
Chang, S. L. and McGinnis, J. (1967). Vitamin D deficiency in adult quail and chickens and effects of estrogen and testosterone treatments. Proc. Soc. Exptil. Biol. Med., 124: 1131.CrossRefGoogle ScholarPubMed
Charles, O. W., Roland, D. A. and Edwards, M. M. Jr. (1972). Thiamine deficiency identification and treatment in commercial tiurkeys and coturnix quail. Poultry Science 46: 1247.Google Scholar
Cunningham, J. J. and Soares, J. H. Jr. (1979). Splenomegaly in Japanese quail fed low vitamin E diets. Nutrition Reports International 19: 471.Google Scholar
Cutler, B. A. and Vohra, P. (1967). Pantothenic acid requirements of Japanese quail for growth and production. Poultry Science 56: 1707.Google Scholar
Day, C. E. and Stafford, W. W. (1975). New animal model of atherosclerosis research. In Lipids, Lipoproteins, and Drugs, Kritshevsky, D., Paoletti, R. and Holmes, W. L. eds. Plenum Press, New York, pp. 339.CrossRefGoogle Scholar
Dabalova, M. and Pajtasova, L. (1983). Effect of biotin and ground maize on performance of Japanese quail. Pol'nohospodarstvo 29: 51.Google Scholar
Espinosa, C. J., Vizquez, B. F. and Gonzalez, A. E. (1980). Study of different levels of protein in diets for breeding female Japanese quail (Coturnix coturnix japonica). Tecnica Pecuaria en Mexico 38: 13.Google Scholar
Farrell, D. J., Atmannihardja, S. I. and Pym, R. A. E. (1982). Calorimetric measurements of the energy and nitrogen metabolism of Japanese quail. British Poultry Science 23: 375.CrossRefGoogle ScholarPubMed
Freeman, B. M. (1967). Oxygen consumption by Japanese quail. Coturnix coturnix japonica. British Poultry 8: 147.CrossRefGoogle Scholar
Gropp, F. and Zucker, H. (1968). Untersuchungern zum Proteinbedarf der japanischen Wachtel wahrend der Aufzucht. Archiv. für Geflügelkunde 32: 337.Google Scholar
Gropp, J., Schultz, V., Sauerwein, G. and Tiews, J. (1972). Untersuchungen über die. Nikotinsaurewoirksamkeit von Nikotinsaurenitril. zugleich ein Beitrag zur Ermittlung des Nikotinsarebedarfs der japonischen Wachtel. Int. J. Vit. Nutr. Res. 42: 205.Google Scholar
Harland, B. F., Fox, M. R. S. and Fry, B. E. Jr. (1974). Changes in plasma zinc related to fasting and dietary protein intake of Japanese quail. Proc. Soc. Exp. Biol. Med. 145: 316.CrossRefGoogle ScholarPubMed
Harland, B., Fox, M. R. S. and Fry, B. E. Jr. (1975). Protection against zinc deficiency by prior excess dietary zinc in young Japanese quail. Journal of Nutrition 105: 1509.CrossRefGoogle ScholarPubMed
Harland, B. F., Fox, M. R. S. and Fry, B. E. Jr. (1976). Magnesium deficiency, requirements and toxicity in the young Japanese quail. Federal Proceedings 32: 930.Google Scholar
Howes, J. R. (1964). Japanese quail as found in Japan. Quail Quarterly, 1: 19.Google Scholar
Howes, J. R. and Ivey, W.D. (1962). Coturnix quail for veterinary research. J. Amer. Vet. Med. Assoc. 140: 162.Google Scholar
Jacobs, R. M., Fox, M. R. S. and Aldridge, M. H. (1969). Changes in plasma proteins associated with the anemia produced by dietary cadmium in Hapanese quail. Journal of Nutrition 99: 119.CrossRefGoogle ScholarPubMed
Jacobs, R. M., Jones, A. O. L., Fox, M. R. S. and Fry, B. E. Jr. (1978a). Retention of dietary cadmium and the ameliorative effect of zinc, copper and maganese in Hapanese quail. Journal of Nutrition 108: 22.CrossRefGoogle Scholar
Jacobs, R. M., Jones, A. O. L., Fry, B. E. Jr. and Fox, M. R. S. (1978b). Decreased long-term retention of 115m Cd in Japanese quail produced by a combined supplement of zinc, copper and manganese. Journal of Nutrition 108: 901.CrossRefGoogle Scholar
Jensen, L. S. (1968). Selenium deficiency and imparied reproduction in Japanese quail. Proc. Soc. Exptl. Biol. Med. 128: 970.CrossRefGoogle Scholar
Johri, T. S. and Vohra, P. (1977). Protein requirements of Coturnix coturnix japanica for reproduction using purified diets. Poultry Science 56: 350.CrossRefGoogle ScholarPubMed
Ketola, H. G. and Young, R. J. (1973). The need for dietary choline by young Japanese quail. Poultry Sceience 52: 2362.CrossRefGoogle ScholarPubMed
Kienholz, E. W., Nockels, C. F. and Jacobs, L. C. (1965). Zinc absirption in adult coturnix quail. Federal Proceedings 24: Abst. 241.Google Scholar
Kleiber, M. (1961). The Fire of Life, John Wiley, New York.Google Scholar
Kling, L. J. and Soares, J. H. Jr. (1980). Vitamin E deficiency in the Japanese quail. Poultry Science 59: 2352.CrossRefGoogle ScholarPubMed
Kumar, V. S. K. B., Panda, B., Reddy, V. R. and Sadagopan, V. R. (1978). Protein and energy requriements for laying Japanese quail (Coturnix coturnix japonica). In Proceedings XVI World's Poultry Congress.Rio de Janeiro,Brazil, pp. 1350.Google Scholar
Kushwaha, R. P. S. and Jensen, L. S. (1974). In vivo and in vitro utilization of laheled precursors for choline syntheses in mature Japanese quail as compared to rats. Journal of Nutrition 104: 901.CrossRefGoogle Scholar
Kushwaha, R. P. S. and Jensen, L. S. (1975). Effect of choline deficiency on utilization of labeled precursors of choline and turnover of choline in the liver of mature Japanese quail. Joural of Nutrition 105: 226.CrossRefGoogle ScholarPubMed
Latshaw, J. D. and Jensen, K. F. (1971). Choline level and its effect on egg weight in the Japanese quail. Poultry Sceience 50: 790.CrossRefGoogle ScholarPubMed
Lee, H. B. and Shim, K. F. (1971). Calcium requirement of Japanese quails. Nanvang University Journal 5: 122.Google Scholar
Lee, T. K., Shim, K. F. and Tan, E. L. (1977a). Protein requriement of growing Japanese quail in the topics. Singapore Journal of Primary Industries 5: 70.Google Scholar
Lee, T. K., Shim, K. F. and Tan, E. L. (1977b). Protein requriement of laying Japanese quail in the tropics. Singpore Journal of Primary Industries 5: 82.Google Scholar
Lepore, P. D. and Marks, H. L. (1968). Protein and energy requirements of growth selected lines of Japanese quail. Poultry Sceience 47: 1688.Google Scholar
Lumiharvi, D. H. and Vohra, P. (1976). Studies on the sodium requirement of growing Japanese quail. Poultry Science 55: 1410.CrossRefGoogle Scholar
Mackova, M., Sommerova, H. and Kazdova, M. (1981). Effect of a supplement of cobalt sulphate on vitamin B12 in liver and caecum of Japanese quail. Praci Vyzkumneho Ustavu Vyzivy Zvirat, Pohorelice 1: 55.Google Scholar
Mak, T. K. and Vohra, P. (1982). Thiamin, riboflavin, pyridoxine and niacin requriements of growing quail fed purified diets. Pertanika 5: 66.Google Scholar
Mason, S. L. and Ward, L. C. (1979). Branched chain amino acid metabolism in the Japanese quail. II. Amino acid oxidation in vivo. Nutrition Reports International 20: 423.Google Scholar
Mason, S. L. and Ward, L. C. (1981a). Branched chain amino acids metabolism in the Japanese quail. II. Amino acid oxidation in vivo. Nutrition Reports International 23: 213.Google Scholar
Mason, S. L. and Ward, L. C. (1981b). Branched chain amino acid metabolism in two avain species: Coturnix coturnix japanica and Gallus doemsticus. Comp. Biochem. Physiol. B. 69: 265.CrossRefGoogle Scholar
Miller, B. F. (1967). Calcium and phosphorus in the diet of coturnix quail. Poultry Science 46: 686.CrossRefGoogle Scholar
Morrissey, R. B. and Donaldson, W. E. (1977). Diet composition and cholesterolemia in Japanese quail. Poultry Science 56: 2108.CrossRefGoogle Scholar
Nas. (1969). Coturnix (Coturnix coturnix japonica). Standards and goidelines for the breeding, care, and management of laboratory animals. National Academy of Science, Washington, D. C.Google Scholar
Nelson, F. E., Lauber, J. K. and Mirosh, L. (1964). Calcium and phosphorus requriements for the breeding cotrunix quail. Poultry Science 43: 1346.Google Scholar
Norman, A. W., Leathers, V. and Bishop, J. E. (1964) Normal egg hatchability required the simultaneous administration to the hen of 1 x, 25-dihydroxychole calciferol and 24R, 25-dihydroxycholecalciferol. Journal of Nutrition 113: 2502.Google Scholar
Nrc, (1977). Nutrient requiremtns of domestic animals. 1. Nutrient requirements of poultry. National Research Council, National Academy of Sciences, Washington, D. C.Google Scholar
Ong, L. L. and Shim, K. F. (1972). The calcium balance in Japanese quails. Nanyang University Journal 6: 95.Google Scholar
Park, I. K. and Marquardt, R. R. (1982b). Effects of sulfaguanidine and amino acid imbalance on the induction of niacin deficiency in mature and immature Japanese quail. Cotrunix coturnix japonica. Poultry Science 61: 1329.CrossRefGoogle Scholar
Parrish, D. B. (1982), Retinoic acid and reproduction of Japanese quail. Nutrition Reports International 26: 857.Google Scholar
Parrish, D. B. and Al-Hasani, S. M. (1983). Requirements and utilization of vitamin A by Japanese quail. Nutrition Reports International 28: 39.Google Scholar
Price, F. C. (1968). The effect of vitamin E deficiency on fertility of Coturnix coturnix. Poultry Science 47: 1037.CrossRefGoogle ScholarPubMed
Radcliffe, J. D., McCormick, D. L. and Moon, R.C. (1982). Serum and tissue lipid status during cholesterol-induced atherosclerosis in Japanese quail. Nutrition Reports International 25: 345.Google Scholar
Ramachandran, V. (1974). Minimum vitamin requriements and vitamin inter-relationships for growth in Japanese quail (Coturnix coturnix japonica). Disserlation Abs. Int. B. 35: 616.Google Scholar
Ramachandran, V. and Arscott, G. H. (1974). Minimum vitamin requirements and apparent interrelationships for growth in Japanese quail (Coturnix coturnix japonica). Poultry Science 53: 1969.Google Scholar
Reddy, V. R.Shrivastav, A. K. and Sadagopan, V. R. (1980). Calcium and phosphorous requirements of growing Japanese quail. British Poultry Science 21: 385.CrossRefGoogle ScholarPubMed
Reyniers, J. A. and Sacksteder, M. R. (1960). Raising Japanese quail under germfree and conventional conditions and their use in cancer research. J. U. S. National Cancer Institute 24: 1405.Google Scholar
Rogei, A. M. and Vohra, P. (1983). Alternation of lipid metabolism in Japanese quail by feeding oat hulls and brans. Poultry Science 62: 1045.Google Scholar
Sakurai, H. (1979). Influence of level of protein and energy of rearing diet on growth, feed efficiency and egg production of apanese quail. Japanese Poultry Science 16: 305.CrossRefGoogle Scholar
Sakurai, H. (1981). Influence of dietary levels of protein and energy on nitrogen and energy halance for egg production of Japanese quail. Jap. Poultry Science 18: 185.CrossRefGoogle Scholar
Shellenberger, T. E. and Lee, J. M. (1966). Effect of vitamin A on growth, egg production and reprodution of Jpanese quail. Poultry Science 45: 708.CrossRefGoogle Scholar
Shim, K. F. and Lee, T. K. (1982a). Least-cost ration formulation for Japanese quail. Coturnix coturnix japonica. 1. Starter dier for growing quails. Singapore Journal of Primary Industries 10: 50.Google Scholar
Shim, K. F. and Lee, T. K. (1982b). Least-cost ration formulation for Japanese quail. Coturnix coturnix japonica. 2. Layer diet for laying quail. singapore Journal of Primary Industries 10: 89.Google Scholar
Shue, G. M. (1967). Vitamin D3 requirement of young Japanese quail. Fed. Proc. 26: 697.Google Scholar
Siregar, A. P. and Farrell, D. J. (1980). A comparison of the energy and nitrogen metabolism of fed ducklings and chicken. British Poultry Science 21: 213.CrossRefGoogle Scholar
Spivey-fox, M. R. and Harrison, B. N. (1964). Use of japanese quail for the study fo zinc deficiency. Proc. soc. Exptl. Biol. Med. 116: 256.Google Scholar
Spivey-Fox, M. R., Hudson, G. A. and Hintz, M. E. (1966). Pantothenic acid requirement of young Japanese qunal. Federnal Proceedings 25: 346.Google Scholar
Spivey-Fox, M. R. and Jacobs, R. M. (1967). Zinc requirement of the young Japanese quail. Federal prodeecings 26: 1492.Google Scholar
Stanford, J. A. (1957). A progress report of coturnix quail investigations in Missouri. Transactions 22nd North American Wildlife Conference, pp. 316.Google Scholar
Sugahara, K., Kikuchi, H., Kakiuchi, Y. and Kubo, T. (1982). Effect of dietary magnesium level on the growth of male Japanese quail fed on a purified diet. Jap. Poultry Science 19: 121.CrossRefGoogle Scholar
Svacha, A., Weber, C. W. and Reid, B. L. (1970). Lysine, methionine and glycine requirements of Japanese quail to five weeks of age. Poultry Science 49: 54.CrossRefGoogle ScholarPubMed
Taka-Tsukasa, N. (1935). Coturnix coturnix Japonica Temminck et Schlegel. The Birds of Nippon, H. F. and G. Witherby Ltd., London, Vol. 1, 204.Google Scholar
Tanaka, T., Yamane, T. and Nishikawa, T. (1966). Indluence of dietary protein and energy on laying japanese quail. Jap. J. Zootech. Sci 37: 231.Google Scholar
Thompson, J. N. and Scott, M. L. (1967). Selenium deficiency in chicks and quail. Proc. Cornell Nutr. Confer. for Feed Mfrs. p. 130.Google Scholar
Toschi, A. (1959). The coturnix quail: Life history, rearing and sport. Lab. Zool. appl. alla Caocia, University di Bologna, Italy. p. 257.Google Scholar
Vogt, H. (1967). Weitere Versuche über den Eiweissbedaerf der Wachtclküken im zweiten abschmitt der Aufzucht. Arch. Für Geflüaelk. 31: 211.Google Scholar
Vogt, V. H. (1970). Versuche uber den Cholinbedarf der Wacgtelkuken im ersten abschnitt der aufzucht. Arch. Fur Geflugelk. 34 41.Google Scholar
Vohra, P. (1971). A review of the nutrition of Japanese quail. World's poultry Science Journal 27: 26.CrossRefGoogle ScholarPubMed
Vohra, P. (1972). Magnesium requirement for survival and growth of Japanese quail (Coturnix coturnix japonica) Poultry Science 51: 2103.CrossRefGoogle ScholarPubMed
Vohra, P. (1973). Fluoride tolerance of Japanese quail. Poultry Science 52: 391.CrossRefGoogle ScholarPubMed
Vohra, P. and Roundybush, T. (1971). The effect of various dietary protein on the growth and eff production of Coturnix coturnis japonica. Poultry Science 50: 1081.CrossRefGoogle Scholar
Vohra, P., Siopes, T. D. and Wilson, W. O. (1979). Egg production and body weight changes of Japanese quail and Leghorn hens following deprivation of either supplementary calcium or vitamin D. Poultry Siience 58: 432.CrossRefGoogle Scholar
Washburn, K. W. and Lowe, R. W. (1974). Haemotological and growth response of Japanese quail fed an iron-copper deficient diet. poultry Science 53: 2101.CrossRefGoogle Scholar
Weber, C. W. and Reid, B. L. (1967). Protein requirements of coturnix quail to five weeks of age. Poultry Science 46: 1190.CrossRefGoogle Scholar
Wetherbee, D. K. (1961). Investigations in the life history of the common coturnix. American Midland Naturlist 65: 168.CrossRefGoogle Scholar
Whitling, M. G. (1966). The composition of eggs in Japanese quail. Quail. Quarterly 3(4): 75.Google Scholar
Wilson, W. O. (1972). A review of the physiology of coturnix (Japanese quail). World's Poultry Science Journal 28: 413.CrossRefGoogle Scholar
Wong, P. C. K., Vihora, P. and Kratzer, F. H. (1977). The folacin requirements of broiler chicks and quail. Poultry Science 56: 1852.CrossRefGoogle ScholarPubMed
Woodard, A. F., Applanalp, H., Wilson, W. O. and Vhora, P. (1973). Japanese quail husbandry in the laboratory (Coturnix coturnix japonica). Department of Avian Sciences, University of California, Davis.Google Scholar
Yamane, T., Ono, K. and Tanaka, T. (1980). Energy requirements of laying Japanese quail. British Poultry Science 21: 451.CrossRefGoogle Scholar
Young, R. J., Ngo, A. X. and Cantor, A. H. (1978). Balancing amino acids for poultry to reduce total dietary protein. Proceedings 1978 Cornell Nutr. Conf., p. 127.Google Scholar