大黄鱼、鲈鱼主要B族维生素和矿物质—磷的营养生理研究
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摘要
本文以我国重要的海水养殖鱼类大黄鱼(Pseudosciaena crocea R.)和鲈鱼(Lateolabrax japonicus)为研究对象,在室内养殖系统(养殖桶规格:120L或300L)或海水浮式网箱(1.0×1.0×1.5m或1.5×1.5×2.0m )中进行为期8-9周的摄食生长实验。探讨饲料中添加核黄素、泛酸、吡哆醇、叶酸和矿物质磷对大黄鱼、鲈鱼生长和生理状态的影响,同时根据不同指标评价了大黄鱼和鲈鱼对这些营养素的需要量。主要研究结果如下:
1.饲料中核黄素含量显著影响大黄鱼的存活率(P<0.05),其中饲料中未添加核黄素组(0.80mg核黄素/kg饲料,Diet 1)的存活率显著低于添加核黄素组(P<0.05),但存活率在各添加组间没有出现显著差异(P>0.05)。缺乏核黄素组大黄鱼的特定生长率(SGR)显著低于其余各组(P<0.05)。随着饲料中核黄素含量的升高,大黄鱼的SGR显著升高(P<0.05),且在核黄素含量为6.60mg/kg时(Diet 3)达到最大,而随着饲料中核黄素含量继续升高,实验大黄鱼SGR维持在一相对稳定水平(P>0.05)。Diet 1组实验鱼饲料转化率(FCE)和蛋白质效率(PER)均显著低于其余各组,但FCE和PER在各核黄素添加组没有出现显著差异(P>0.05)。大黄鱼核黄素缺乏时表现出一系列缺乏症状,包括晶状体混浊、体色苍白、尾鳍分叉和畏光。而饲料中添加核黄素组则没有发现上述症状。大黄鱼肝脏D-氨基酸氧化酶活力(D-AAO)和肝脏核黄素含量都随着饲料中核黄素含量升高而显著升高,并在饲料核黄素含量为6.60~23.95mg/kg时维持稳定。上述结果表明,核黄素是大黄鱼必需维生素,核黄素缺乏时不仅抑制大黄鱼生长,导致高死亡率,而且会产生一系列缺乏症。而饲料中高含量的核黄素不会对大黄鱼生长和生理代谢产生负面影响。当以SGR为评价指标时,通过折线模型所得到大黄鱼对核黄素的最适需要量为6.23mg/kg;而当以肝脏D-AAO或核黄素含量为评价指标时,得到核黄素的最适需要量分别为6.83和6.92mg/kg。
2.饲料中未添加核黄素组(0.80mg核黄素/kg饲料,Diet 1)鲈鱼的存活率显著低于其它各组(P<0.05),但存活率在各添加组没有出现显著差异(P>0.05)。Diet 1组鲈鱼的特定生长率(SGR)显著低于其余各组(P<0.05)。随着饲料中核黄素含量的升高,SGR显著升高(P<0.05),且饲料核黄素含量为6.1mg/kg时(Diet 3)达到最大,而随着饲料中核黄素含量继续升高,实验
Feeding trials were conducted to investigate the nutritional physiology of B vitamins and mineral-phosphorus for large yellow croaker, Pseudosciaena crocea R. and Japanese seabass, Lateolabrax japonicus. The dietary requirements of riboflavin, pyridoxine, pantothenic acid and folic acid for juvenile large yellow croaker and Japanese seabass were conducted in indoor culture system, and the dietary requirements of phosphorus for juvenile large yellow croaker and Japanese seabass were conducted in seawater floating net cages (1.0╳ 1.0╳ 1.5 m or 1.5╳ 1.5╳ 2.0 m). Results of the present study are presented as follows:
1. Survival of large yellow croaker was significantly lower in fish fed the basal diet (0.80 mg riboflavin/kg dry diet) than those of fish fed diets supplemented with riboflavin, but no significant differences in survival were observed among the riboflavin-supplemented dietary groups. Specific growth rate (SGR) was the lowest in fish fed the basal diet (P<0.05),and increased with increasing riboflavin up to 6.60 mg/kg (Diet 3) (P<0.05), and then leveled off (P>0.05). Feed conversion efficiency (FCE) and protein efficiency ratio (PER) in fish fed the basal diet were significantly lower than those of the other dietary groups (P<0.05), and no significant differences were observed among the other dietary treatments (P>0.05). Fish fed the riboflavin-free diet performed poorly in terms of growth parameters and exhibited signs of riboflavin deficiency such as caudal fin erosion, loss of normal body color, lens opacity and photophobia. No deficiency signs were observed in fish fed the riboflavin-supplemented diets. Hepatic D-amino acid oxidase activity (D-AAO) was low in the riboflavin-deficient fish and increased in a dose-response manner with maximum activity being observed in fish fed the 6.60 mg riboflavin/kg diet. The riboflavin concentrations in the livers
1.饲料中核黄素含量显著影响大黄鱼的存活率(P<0.05),其中饲料中未添加核黄素组(0.80mg核黄素/kg饲料,Diet 1)的存活率显著低于添加核黄素组(P<0.05),但存活率在各添加组间没有出现显著差异(P>0.05)。缺乏核黄素组大黄鱼的特定生长率(SGR)显著低于其余各组(P<0.05)。随着饲料中核黄素含量的升高,大黄鱼的SGR显著升高(P<0.05),且在核黄素含量为6.60mg/kg时(Diet 3)达到最大,而随着饲料中核黄素含量继续升高,实验大黄鱼SGR维持在一相对稳定水平(P>0.05)。Diet 1组实验鱼饲料转化率(FCE)和蛋白质效率(PER)均显著低于其余各组,但FCE和PER在各核黄素添加组没有出现显著差异(P>0.05)。大黄鱼核黄素缺乏时表现出一系列缺乏症状,包括晶状体混浊、体色苍白、尾鳍分叉和畏光。而饲料中添加核黄素组则没有发现上述症状。大黄鱼肝脏D-氨基酸氧化酶活力(D-AAO)和肝脏核黄素含量都随着饲料中核黄素含量升高而显著升高,并在饲料核黄素含量为6.60~23.95mg/kg时维持稳定。上述结果表明,核黄素是大黄鱼必需维生素,核黄素缺乏时不仅抑制大黄鱼生长,导致高死亡率,而且会产生一系列缺乏症。而饲料中高含量的核黄素不会对大黄鱼生长和生理代谢产生负面影响。当以SGR为评价指标时,通过折线模型所得到大黄鱼对核黄素的最适需要量为6.23mg/kg;而当以肝脏D-AAO或核黄素含量为评价指标时,得到核黄素的最适需要量分别为6.83和6.92mg/kg。
2.饲料中未添加核黄素组(0.80mg核黄素/kg饲料,Diet 1)鲈鱼的存活率显著低于其它各组(P<0.05),但存活率在各添加组没有出现显著差异(P>0.05)。Diet 1组鲈鱼的特定生长率(SGR)显著低于其余各组(P<0.05)。随着饲料中核黄素含量的升高,SGR显著升高(P<0.05),且饲料核黄素含量为6.1mg/kg时(Diet 3)达到最大,而随着饲料中核黄素含量继续升高,实验
Feeding trials were conducted to investigate the nutritional physiology of B vitamins and mineral-phosphorus for large yellow croaker, Pseudosciaena crocea R. and Japanese seabass, Lateolabrax japonicus. The dietary requirements of riboflavin, pyridoxine, pantothenic acid and folic acid for juvenile large yellow croaker and Japanese seabass were conducted in indoor culture system, and the dietary requirements of phosphorus for juvenile large yellow croaker and Japanese seabass were conducted in seawater floating net cages (1.0╳ 1.0╳ 1.5 m or 1.5╳ 1.5╳ 2.0 m). Results of the present study are presented as follows:
1. Survival of large yellow croaker was significantly lower in fish fed the basal diet (0.80 mg riboflavin/kg dry diet) than those of fish fed diets supplemented with riboflavin, but no significant differences in survival were observed among the riboflavin-supplemented dietary groups. Specific growth rate (SGR) was the lowest in fish fed the basal diet (P<0.05),and increased with increasing riboflavin up to 6.60 mg/kg (Diet 3) (P<0.05), and then leveled off (P>0.05). Feed conversion efficiency (FCE) and protein efficiency ratio (PER) in fish fed the basal diet were significantly lower than those of the other dietary groups (P<0.05), and no significant differences were observed among the other dietary treatments (P>0.05). Fish fed the riboflavin-free diet performed poorly in terms of growth parameters and exhibited signs of riboflavin deficiency such as caudal fin erosion, loss of normal body color, lens opacity and photophobia. No deficiency signs were observed in fish fed the riboflavin-supplemented diets. Hepatic D-amino acid oxidase activity (D-AAO) was low in the riboflavin-deficient fish and increased in a dose-response manner with maximum activity being observed in fish fed the 6.60 mg riboflavin/kg diet. The riboflavin concentrations in the livers
引文
艾庆辉,2003. 大黄鱼和鲈鱼营养生理及营养免疫学的研究. 中国海洋大学博士后工作报告.
杜震宇,刘永坚,郑文晖,田丽霞,梁桂英. 2002. 三种脂肪源和两种降脂原子对鲈生长、体营养成分组成和血清生化指标的影响. 水产学报,26,542-550.
高淳仁,刘庆慧,梁亚全等. 1998. 鲈鱼幼鱼人工配合饲料中蛋白质脂肪适宜含量的研究. 海洋水产研究,19,81-85.
洪惠馨,林利民,陈学豪等. 1999. 鲈鱼人工配合饲料中脂肪适宜含量的研究. 集美大学学报,4,41-44.
黄耀桐,刘永坚. 1990. 草鱼对营养盐钙磷及饲料钙磷镁铁的利用率. 水生生物学报,14,145-152
李爱杰, 1996. 水产动物营养与饲料学. 北京,中国农业出版社.
李爱杰,张道波,任泽林. 2001. 牙鲆幼鱼对水难溶性维生素 B3需要量的研究. 饲料工业 22,26-27.
李会涛,2004. 饲料中有毒有害物质对鲈鱼和大黄鱼生长的影响及其在鱼体组织残留的研究. 中国海洋大学研究生学位论文.
林利民,胡家财,洪惠馨. 1994. 鲈鱼人工配合饲料中蛋白质最适含量的研究. 厦门水产学院学报,16,6-10.
苗淑彦,2005. 皱纹盘鲍叶酸营养生理的研究. 中国海洋大学研究生学位论文.
潘勇,王福强,刘焕亮. 2000. 花鲈配合饲料中鱼粉与豆粕适宜比例的研究. 大连水产学院学报,15,157-163.
万军利,2005. 鲈鱼和大黄鱼必需氨基酸营养生理研究. 中国海洋大学研究生学位论文.
游文章,黄忠志,廖朝兴等. 1987. 草鱼对饲料中磷需要量的研究. 水产学报 11, 285-292.
张淑华,仲维仁. 2001. 鲈鱼不同生长阶段对维生素需求的研究. 浙江海洋学院学报,20,156-163.
朱伟,2001. 皱纹盘鲍 B 族维生素营养生理及营养需要的研究. 中国海洋大学研究生学位论文.
Abiko, Y., 1975. Metabolism of coenzyme A. In metabolism of sulphur compounds metabolic pathways (D. Greenberg, ed). Academic press, New York, NY, USA. 1-25.
Adron, J.W., Knox, D., Cowey, C.B., 1978. Studies on the nutrition of marine flatfish. The pyridoxine requirements of turbot (Scophthalmus maximus). Br. J. Nutr. 40, 261-268.
Agrawal, N.K., Mahajan C.L., 1983a. Pathology of vitamin B6 deficiency in Channa punctatus Bloch. Joumal of Fish Diseases 6, 439-450.
Agrawal, N.K., Mahajan C.L., 1983b. Haematological and haematopoietic studies in pyridoxine deficient fish, Channa punctatus Bloch. Joumal of Fish Biology 22, 91-103.
Agrawal, N.K., Mahajan, C.L., 1980. Nutritional deficiency disease in an Indian major carp, Cirrhina mriqala Hamilton, due to avitaminosis C during early growth. J. Fish Dis. 3, 231-248.
Agrawal, N.K., Mahajan, C.L., 1983. Pathology of vitamin B6 deficiency in Channa (=Ophiocephalus) punctatus Bloch. J. Fish Dis. 6, 439-450.
Ai, Q., Mai, K., Li, H., Zhang, C., Zhang, L., Duan, Q., Tan, B., Xu, W., Ma, H., Zhang, W., Liufu, Z., 2004a. Effects of dietary protein to energy ratios on growth and body composition of juvenile Japanese seabass, Lateolabrax japonicus. Aquaculture 230, 507-516.
Ai, Q., Mai, K., Zhang, C., Xu, W., Duan, Q., Tan, B., Liufu, Z., 2004b. Effects of dietary vitamin C on growth and immune response of Japanese seabass, Lateolabrax japonicus. Aquaculture 242, 489-500.
Ai, Q.H., Mai, K.S., Zhang, C.X., Xu, W., Duan, Q.Y., Tan, B.P., Liufu, Z.G., 2004. Effects of dietary vitamin C on growth and immune response of Japanese seabass, Lateolabrax japonicus. Aquaculture 242, 489-500.
Albrektsen S, Sandnes K, Glette J, Waagbo, R., 1995. Influence of dietary vitamin B6 on tissue vitamin B6 contents and immunity in Atlantic salmon, Salmo salar L. Aquacult. Res. 26, 331-339.
Albrektsen, S., Waagbo, R., Sandnes, K., 1993. Tissue vitamin B6 concentrations and aspartate aminotransferase (AspT) activity in Atlantic salmon (Salmo salar) fed graded dietary levels of vitamin B6. FiskDir Skr (Ser Ernaring). 6, 21-34
Amezaga, M.R., Knox, D., 1990. Riboflavin requirements in on-growing rainbow trout, Oncorhynchus mykiss. Aquaculture 80, 87-98.
Anderson, J., Jackson, A.J., Matty, A.J., Capper, B.S., 1984. Effects of dietary carbohydrate and fibre on the tilapia Oreochromis niloticus (Linn.). Aquaculture 37, 303-314.
Andrew J. C., Nathan D.B. 1993. A depletion-repletion folate bioassay based on growth and tissue folate concentrations of rats. J. Nutr. 123, 926-932.
Andrews, J.W., Murai, T., 1978. Dietary niacin requirements for channel catfish. J. Nutr. 108, 1508-1511.
Andrews, J.W., Murai, T., 1979. Pyridoxine requirements of channel catfish. J. Nutr. 109, 533-537.
Aoe, H., Masuda, I., Saito, T., Komo, A., 1967a. Water-soluble vitamin requirement of carp-IV. Requirement for thiamine. Bull. Jpn. Soc. Sci. Fish. 33, 970-974.
Aoe, H. Masuda, I, Saito, T., Komo, A., 1967b. Water-soluble vitamin requirements of carp.1. Requirement for vitamin B2. Bull. Jpn. Soc. Sci. Fish. 33, 355-360.
Aoe, H., Masuda, I., Takada, T., 1967c. Water-soluble vitamin requirements of carp-III. Requirement for niacin. Bull. Jpn. Soc. Sci. Fish. 33, 681-685.
Aoe, H. Masuda, I, Saito, T., Komo, A., 1967d. Water-soluble vitamin requirements of carp.5. Requirement for folic acid. Bull. Jpn. Soc. Sci. Fish. 33, 1068-1071.
Aoe, H., Masuda, I., Mimura, T., Saito, T., Komo, A., Kitamura, T., 1969. Water-soluble vitamin requirements of carp-VI. Requirement for thiamine and effects of antithiamines. Bull. Jpn. Soc. Sci. Fish. 35, 459-465.
Arai, S., Nose, T., Hashimoto, Y., 1972. Qualitative requirements for of young eels, Anguilla japonica, for water-soluble vitamins and their symptoms. Bull. Freshwater Res. Lab. Tokyo 22, 69-83.
Asgnrd, T., Shearer, K.D., 1997. Dietary phosphorus requirement of juvenile Atlantic salmon. Salmo salar. L. Aquacult. Nutr. 3, 17-23.
Ashley, L.M., 1972. Nutritional pathology. In, Halver J.E. (Ed.), Fish Nutrition. Academic Press, Inc., New York, pp. 439-537.
Association of Official Analytical Chemists (AOAC), 1995. Official Methods of Analysis of Official Analytical Chemists International, 16th edn. Association of Official Analytical Chemists. Arlington, VA.
Austreng, E., 1978. Digestibility determination in fish using chromic oxide marking and analysis of contents from different segments of the gastrointestinal tract. Aquaculture 13, 265– 272.
Avila, A.M., Basantes, H.T., Ferraris, R.P., 2000. Dietary phosphorus regulates intestinal transport and plasma concentrations of phosphate in rainbow trout. J. Comp. Physiol. 170B, 201–209.
Axelrod, A.E., 1971. Immune processes in vitamin deficiency states. Am. J. Clin. Nutr. 24, 265-271.
Baeverfjord, G., ?sg?rd, T., Shearer, K.D., 1998. Development and detection of phosphorus deficiency in Atlantic salmon, Salmo salar L., parr and post-smolts. Aquacult. Nutr. 4, 1-11.
Bell, M.V., Henderson, R.J., Sargent, J.R., 1985. Effects of dietary polyunsatuated fatty acid deficies on mortality, growth and gill structure in the turbot, Scophthalmus maximus. J. Fish Biol. 26, 181-191.
Bijvoet, O.L.M., 1980. Indices for the measurement of the renal handling of phosphate. In: Massry, S.G., Fleisch, H. Eds., Renal Handling of Phosphate. Plenum Medical Book, New York, NY, pp. 1–37.
Blaxhall, P., Daisley, K.W., 1973. Routine haemotological methods for use with fish blood. J. Fish Biol. 5, 771-781
Blaxter, J.H.S., Roberts, R.J., Balbontin, F., McQueen, A., 1974. B group vitamin deficiency in cultured herring. Aquaculture 3, 387-389.
Blazer, V. S., Wolke, R. E., 1984. Effect of diet on the immune response of rainbow trout (Salmo gairdneri). Can. J. Fish. Aquat. Sci. 41, 1244-1247.
Bowser, P.R., Wooster, G.A., Aluisio, A.L., Blue, J.T., 1989. Plasma chemistries of nitrite stressed Atlantic salmon Salmo salar. J. World Aquacult. Soc. 20, 173-180.
Boyd, C.E., 1971. Phosphorus dynamic in ponds. Proc. Ann. Conf. South Assoc. Game Comm. 25, 418-426.
Boyd, R.D., Hall, D., Wu, J.F., 1983. Plasma alkaline phosphatase as a criterion for determining biological availability of phosorus for swine. J. Anim. Sci. 57, 396-401.
Brass, E.P., Ruff, L.J., 1992. Rat hepatic coenzyme A is redistributed in response to mitochondrial acyl-coenzyme A accumulation. J. Nutr. 122, 1094-2100.
Brown, M.L., Jaramillo, F., Gatlin, D.M., Ⅲ, 1993. Dietary phosphorus requirements of juvenile sunshine bass, Morone chrysops × M. saxatilis. Aquaculture 113, 355-363.
Brown, M.L., Nematipour, G.R., Gatlin, D.M., Ⅲ, 1992. Dietary phosphorus requirements of juvenile sunshine bass at different salinities. Prog. Fish-Cult. 54, 148-156.
Brunson, M. W., Robinette, H. R., Bowser, P. R., Wellborn, T. L., 1983. Nutritional gill disease associated with starter feeds for channel catfish fry. Prog. Fish-Cult. 45, 119-120.
Bureau, D.P. Cho, C.Y., 1999. Phosphorus utilization by rainbow trout (Oncorhynchus mykiss): estimation of dissolved phosphorus waste output. Aquaculture 179, 127-140.
Butthep, C., Sitasit, P., Bonyaratpalin, M., 1985. Watre-soluble vitamins essential for the growth of Clarias. In, Cho, C.Y., Cowey, C.B., Watanabe, T. (Eds.), Finfish nutritoion in Asia, methodological approaches to reach and development. International Develpoment Research Center, Ottawa. pp. 118-129.
Buyukates, Y., Rawles, S.D., Gatlin, D.M., 2000. Phosphorus fractions of various feedstuffs and apparent phosphorus availability to channel catfish. N. Am. J. Aquac. 2000, 184-188.
Cain, K.D. Garling, D.L., 1995. Pretreatment of soybean meal with phytase for salmonoid diets ti reduce phosphorus concentrations in hatchery effluents. Prog. Fish-Cult. 57, 114-119.
Cain, K.D., Garling, D.L., 1995. Pretreatment of soybean meal with phytase for salmonid diets to reduce phosphorus concentrations in hatchery effluents. Prog. Fish Cult. 57, 114–119.
Carragher, J.F., Sumpter, J.P., 1987. The mobilization of calcium from calcified tissues of rainbow trout (Oncorhynchus mykiss) induced to synthesize vitellogenin. Comp. Biochem. Physiol. 99A, 169-172.
Casillas, E., Sundquist, J., Ames, W.E., 1982. Optimization of assay conditions for, and the selected tissue distribution of, alanine aminotransferase and aspartate aminotransferase of English sole, Parophrys vetulus Girard. J. Fish Boil., 21, 197-204.
Castledine, A.J., Cho, C.Y. Silnger, S.J., Hicks, B., Bayley, H.S., 1978. Influence of dietary biotin level on growth, metabolism and pathology of rainbow trout. J. Nutr. 108, 698-711.
Catacutan, M.R., De la Cruz, M., 1989. Growth and mid-gut cells profile of Penaeus monodon juvenile fed water-soluble-vitamin deficient diets. Aquaculture 81, 137-144.
Chavez-Sanchez, C., Martinez-Palacios, C.A., Martinez-Oerez, G., Ross, L.G., 2000. Phosphorus and calcium requirements in the diets of the American cichlid, Cichlasoma urophalmus (Günther). Aquacult. Nutr. 6, 1-9.
Chen, H.Y., Hwang, G., 1992. Estimation of the dietary riboflavin required to maximize tissue riboflavin concentraction in juvenile shrimp (Penaeus monodon). J. Nutr. 122, 2474-2478.
Chen, H.Y., Wu, F.C., Tang, S.Y., 1991. Thiamin requirement of juvenile shrimp (Penaeus monodon). J. Nutr. 121, 1984-1989.
Cho, C.Y., Woodward, B., 1990. Dietary pantothenic acid requirements of young rainbow trout (Oncorhynchus mykiss). FASEB J. 4, 3747.
Chuang, J.L., 1991. Fish and Shrimp. In: Niacin in Animal Nutrition (eds R., Fenster & RA Blum), pp. 34–37.
Clark, J.B., Ferris, G.M., Pinder, S., 1971. Inhibition of nuclear NAD nucleosidase and poly ADP-ribose polymerase activity from rat liver by nicotinamide and 5'-methyl nicotinamide. Biochim Biophys Acta. 238, 82-5.
Coates, J. A., Halver, J. E., 1958. Water-soluble vitamin requirements of silver salmon. Special Scientific Report Fisheries 281. Washington, D.C., Bureau of Sport Fisheries and Wildlife.
Coburn, S.P., Mahuren, J.D., Schaltenbrand, W.E., Wostmann, B.S., Madsen, D., 1981. Effects of vitamin B6 deficiency and 49-deoxypyridoxine on pyridoxal phosphate concentrations, pyridoxine kinase and other aspects of metabolism in the rat. J Nutr. 111, 391–398.
Coburn, S.P., Mahuren, J.D., Schaltenbrand, W.E., Wostmann, B.S., Madsen, D., 1981. Effects of vitamin B-6 deficiency and 4'-deoxypyridoxine on pyridoxal phosphate concentrations, pyridoxine kinase and other aspects of metabolism in the rat. J. Nutr. 111, 391-398.
Coloso, R.M., King, K., Fletcher, J.W., Hendrix, M.A., Subramanyam, M., Weis, P., Ferraris, R.P., 2003. Phosphorus utilization in rainbow trout (Oncorhynchus mykiss) fed practical diets and its consequences on effluent phosphorus levels. Aquaculture 220, 801–820.
Comacho, A. S. 1978. Characterization of thamine deficiency in channel catfish fed heated and nonheated catfish processing waste. Ph.D. dissertation. Auburn University, Auburn, Alabama.
Cowey, C., Knox, D., Adron, J.W., George, S. Pirie, B., 1977. The production of renal calcinosis by magnesium deficiency in rainbow trout (Salmo gairdneri). BR. J. Nutr. 38: 127-135.
Cowey, C.B., 1992. Nutrition: estimating requirements of rainbow trout. Aquaculture, 100, 177-189.
Cowey, C.B., Adron, J.W., Knox, D., 1975. Studies on the nutrition of marine flatfish. The thiamin requirement of turbot (Scopthalmus maximus). Br. J. Nutr. 34, 383-397.
Cowey, C.B., Woodward, B., 1993. The dietary requirement of young rainbow trout (Oncorhynchus mykiss) for folic acid. J. Nutr. 123, 1594-1600.
Cross, H.S., Deviec, H., Peterlic, M., 1990. Mechanism and regulation of intestinal phosphate absorption. Miner. Electrolyte Metab. 16, 115–124.
Dabrowski, K., 1990. Gulonolactone oxidase is missing in teleost fish. Bio. Chem. Hoppe-Seyler 371, 207-214.
Davis, D.A., Robinson, E.H., 1987. Dietary phosphorus requirements of juvenile red drum Sciaenops ocellatus. J. World Aquacult. Soc. 18, 129-136.
Deng, D.F., Wilson, R.P., 2003. Dietary riboflavin requirement of juvenile sunshine bass (Morone Chrysops♀×Morone Saxatilis♂). Aquaculture, 218, 695-701.
Deshimaru, O., Kuroki, K., 1979. Requirement of prawn for dietary thiamine, pyridoxine, and choline chloride. Bull. Jpn. Soc. Sci. Fish. 45, 363-367.
Dougall, D.S., Woods, L.C. Ⅲ, Douglass, L.W., Soares, J.H., 1996. Dietary phosphorus requirements of juvenile striped bass. J. World Aquacult. Soc. 27, 82-91.
Duan, Q., Mai, K., Zhong, H., Si, L., Wang, X., 2001. Studies on the nutrition of the large yellow croaker, Pseudosciaena crocea R. I: growth response to graded levels of dietary protein and lipid. Aquacult. Res. 32 (Suppl, 1), 46-52.
Duncan, P. L., Lovell, R. T., 1991. Effect of folic acid on growth, survival and hematology in channel catfish (Ictalurus punctatus). Twenty-second Annual Conference of the World Aquaculture Society, San Juan, Puerto Rico, June 16-20, 1991.
Duncan, P.L., Lovell, R.T., Butterworth, C.E., Freeberg, L.F., Tamura, T., 1993. Dietary folate requirement determined for channel catfish, Ictalurus punctatus. J. Nutr. 123, 1888-1897.
Dupree, H.K., 1966. Vitamin essential for the growth of channel catfish, Ictalurus punctatus. U.S. Sport fish and wildlife Tech. Papers 7. pp. 7-13.
El-Zibdeh, M., Yoshimatsu, T., Matsui, S., Furuichi, M., Kitajima, C., Azuma, R., 1995. Requirement of redlip mullet for dietary phosphorus. J. Fac. Agric., Kyushu Univ. 40 (12), 135– 145.
Eya, J.C., Lovell, R.T., 1997. Available phosphorus requirements of food-size channel catfish Ictalurus punctatus fed practical diets in ponds. Aquaculture 154, 283-291.
Fepwick, J.C., Smith, K., Smith, J., Flik, G., 1984. Effect of various vitamin Danalogs on plasma calcium and phosphorus and intestinal calcium absorption in red and unfed American eels. Anguilla rostrata. Gen Comp Endocr, 398-404.
Fisher, L.R., 1960. Vitamins. In, Waterman, Y.H. (Ed.), Physiology of Crustacean, Volume I. Academic Press, New York, NY, pp. 259-289.
Furuichi, M., Yone, Y., 1982a. Availability of carbohydrate in nutrition of carp and red sea bream. Bull. Jpn. Soc. Sci. Fish. 48, 945-948.
Furuichi, M., Yone, Y., 1982b. Effect of insulin on blood sugar levels of fishes. Bull. Jpn. Soc. Sci. Fish. 48, 1289-1291.
Gao, C., Liu, Q., Liang, Y., Han, A., 1998. The optimal content of protein and fat in the artificial diet fed to cultured juvenile seabass (Lateolabrax japonicus). Mar. Fish. Res. 19, 81-85 (In Chinese with English abstract).
Garrod, D.J., Newell, B.S., 1958. Ring formation in Tilapia esculenta. Nature, 181, 1411-1412.
Gatlin, D.M., Philips, H.F., 1989. Dietary calcium, phytate and zine interaction in channel catfish. Aquaculture, 79, 259-266.
Gaylord, T.G., Gatlin, D.M. Ⅲ. 1996. Determination of digestibility of various foodstuffs for red drum (Sciaenops oxellatus). Aquaculture, 139, 303-314.
Gubler, C.J., 1991. Thiamin. In: Handbook of vitamins. Machlin IJ ed. Marcel Dekker NY, pp. 233-281.
Hajen. W.E., Beame, R.M., Higgs, D.A., Dosanjh, B.S., 1993. Digestibility of various feedstuffs by post-juvenile chinook salmon (Oncorhynchus tshawytscha) in sea water, 1. Validation of technique. Aquaculture, 112, 321-332.
Halver, J.E., 1957. Nutrition of salmonoid fishes. III Water-soluble vitamin requirements of chinook salmon. J. Nutr. 62, 225-243.
Halver, J.E., 1972. The vitamins. In, Halver, J.E. (Ed.), Fish Nutrition, Academic press, New York and London, pp. 29-103.
Halver, J.E., 1982. The vitamins required for cultivated salmonids. Comp. Biochem. Physiol. 73, 43-50.
Halver, J.E., 2002. The vitamins. In, Halver J.E. (Ed), Fish Nutrition, 3nd edition. Academic Press, New York, pp. 66-98.
Halver, J.E., Tiews, K., eds. Berlin, Heeneman GmbH. Hashimoto, Y., S. Arai, and T. Nose. 1970. Thiamin deficiency symptoms experimentally induced in the eel. Bull. Jpn. Soc. Sci. Fish. 36, 791-797.
Hardy, R.W., Casillas, E., Cotter, R.T., 1987. Measurement of biotin and pantothenic acid status in rainbow trout (Salmon gaitdneri). Abstract. Ⅱ. International Symposium on Feeding and Nutrition in Fish, August, Bergen, Norway. 23-27.
Hardy, R.W., Fairgrieve, W.T., Scott, T.M., 1991. Periodic feeding of low-phosphorus diet and phosphorus retention in rainbow trout Oncorhynchus mykiss. In: Kaushik, S.J., Luquet, P. (Eds.), Fish Nutrition Practice. INRA, Paris, 1993 (Les Colloques, No. 61), 403-412.
Hardy, R.W., Fairgrieve, W.T., Scott, T.M., 1993. Periodic feeding of low-phosphorus diet and phosphorus retention in rainbow trout (Oncorhynchus mykiss). RW Hardy, WT Fairgrieve, TM Scott Colloques. Institut national de la recherche agronomique(France). Paris[COLLOQ. INRA].
Hashimoto, Y., Arai, S., Nose, T., 1970. Thiamin deficiency symptons experimentally induced in the eel. Bull. Jpn. Soc. Sci. Fish. 36, 791-797.
Hegsted, D. M., 1974. Energy needs and energy utilisation. Nutr. Rev. 32, 33-8.
Henry, Y., Gueguen, L., Rérat, A., 1979. Influence of the level of dietary phosphorus on the voluntary intake of energy and metabolic utilization of nutrients in the growing rat. British Journal of Nutrition 42, 127-137.
Hepher, B. 1988. Vitamins. Pp. 224-234 in Nutrition of Pond Fishes. New York, Cambridge University Press.
Herman, R.L., 1985. Histopathology associated with pyridoxine deficiency in Atlantic salmon (Salmo salar). Aquaculture 46, 173-177.
Hille, S., 1982. A literature review of the blood chemistry of rainbow trout Salmo gairdneri Richardson. J. Fish Biol. 20, 535-569.
Hilton, J.W., 1989. The interaction of vitamins, minerals and diet composition in the diet of fish. Aquaculture 79, 223-244.
Hodges, J.E., Bean, W.B., Ohlsojn, M.A., Bleiler, R.E., 1962a. Factors affecting human antibody response. III. Immunologic responses of men deficient in pantothenic acid. Am. J. Clin. Nutr. 11, 85-93.
Hodges, R.E., Bean, W.B., Ohlsojn, M.A., Bleiler, R.E., 1962b. Factors affecting human antibody response. V. Combined deficiencies of pantothenic acid and pyridoxine. Am. J. Clin. Nutr. 11, 187-119.
Hong, H., Lin, L., Chen, X., Hu, J., Zhou, L., 1999. Studies on the optimal content and protein sparing effect of lipid in artificial foodstuff for Lateolabrax japonicus. J. Jimei Univ. 4, 41-44 (In Chinese with English abstract).
Hosokawa, H., 1989. The vitamin requirements of fingerling yellowtail, Seriola quinqueradiata. Ph. D. dissertation. Kochi University, Japan.
Hossain, M.A. and Jauncey, K., 1993. The effects of varying dietary phytic acid, calcium and magnesium levels on the nutrition of common carp, Cyprinus carpio. Pages 705-715 in S.J.Kaushik and P. Luquet, editors. Fish nutrition in practice. Proceedings of the fourth international symposium in fish nutrition and feeding (Les colloques, no. 61), Institute Nationale de la Recherche Agronomique, Paris, France.
Hu, J., Chen, X., Hong, H., 1995. Evaluation of soybean cake as a substitute for partial fish meal in artificial diets for Lateolabrax japonicus. J. Oceanography in Taiwan Strait 14, 418-421 (In Chinese with English abstract).
Hughes, P.K. Jr. Soares, J.H, 1998. Efficacy of phytase on phosphorus utilization in practical diets fed to striped bass (Morone saxatilis). Aquaculture Nutrition 4, 133-140.
Hughes, S. G. 1984. Effect of excess dietary riboflavin on growth of rainbow trout. J. Nutr. 114, 1660-1663.
Hughes, S. G., Rumsey, G. L., Nichum, J. G., 1981a. Riboflavin requirement of fingerling rainbow trout. Prog. Fish-Cult. 43, 167-172.
Hughes, S. G., Riis, R. C., Nichum, J. G., Rumsey, G. L., 198lb. Biomicroscopic and histologic pathology of the eye in riboflavin deficient rainbow trout (Salmo gairdneri). Cornell Vet. 71, 269-279.
Hwang, S.I., 2000. The folic acid requirements of juvenile hybrid tilapia (Oreochromis niloticus × O. aureus) and juvenile grass shrimp (Penaeus monodon). Master thesis, National Taiwan Ocean University, Keelung, Taiwan.
Ikeda, S. 1985. The vitamin. Pp. 43-53 in Fish Feeds, Y. Yone, ed. Tokyo, Koseisha-Koseikaku (in Japanese).
Ikeda, S., Ishibash, Y., Murata. O., Nasu, T., Harada, T., 1988. Qualitative requirements of the Japanese parrot fish for water-soluble vitamins. Bull. Jpn. Soc. Sci. Fish. 54, 2029-2035.
Jackson, L.S., Li, M.H., Robinson, E.H., 1996. Use of microbial phytase in channel catfish Ictalurus punctatus diets to improve utilization of phytate phosphorus. J. World Aquacult. Soc. 27, 309–313.
Jackson, T.M., Rawling, J.M., Roebuck, B.D., Kirkland, J.B., 1995. Large supplements of nicotinic acid and nicotinamide increase tissue NAD+ and poly (ADP-ribose) levels but do not affect diethylnitrosamine-induced altered hepatic foci in Fischer-344 rats. J. Nutr. 125, 1455-1461.
Jobling, M., 1985. Growth. In fish energetics: New Perspective (Tylter, P. & Calow, P. Eds), pp. 213-230. London: Croom Helm.
John, M.J., Mahajan, C.L., 1979. The physiological response of fishes to a deficiency of cyanocobalamin and folic acid. J. Fish Biol. 14, 127-133.
Johnston, C.E., Homey, B.S., Deluca, S., MacKenzie, A., Eales, J.G., Angus, R., 1994. Changes in alkaline phosphatase isozyme activity in tissues and plasma of Atlantic salmon (Salmo salar) before and during smoltification and gonadal maturation. Fish Physiol. Biochem. 12, 485-497.
Jurss, K. 1978. Effect of pyridoxine deficiency and starvation on activities of aminotransferase in liver and muscle of rainbow trout (Salmo gairdneri). Zool. Jahrb. Physiol. 82, 141-149.
Jurss, K., Jonas, L., 1981. Electron microscopic and biochemical investigations on the pyridoxine deficiency of the rainbow trout (Salmo gairdneri Richardson). Zool. Jahrb. Physiol. 85, 181-196. Karges, R. G., and B.
Kaplan, M.M., 1972. Medical intelligence. Current concepts - alkaline phosphatase. New Engl. J. Med. 286, 200-202.
Kashiwada, K., Kanazawa, A., Teshima, S., 1971. Studies on the production of B vitamins by intestinal bacteria. 6. Production of folic acid by intestinal bacteria of carp. Mem. Fac. Fish. Kagoshima Univ. 20, 185-189.
Kashiwada, K., Teshima, S., Kanazawa, A., 1970. Studies on the production of B vitamins by intestinal bacteria of carp, Cyprinus carpio. Bull. Jpn. Soc. Sci. Fish. 36, 421-424.
Kato, K., Ishibashi, Y., Murata, O., Nasu, T., Ikeda, S., Kumai, H., 1994. Qualitative water-soluble vitamin requirements of tiger puffer. Fisheries Sci. 60, 589-596.
Kawatsu, H., 1975. Studies on the anemia of fish-VII. Folic acid anemia in brook trout. Bull. Freshwater Fish. Res. Lab. 25, 21-31.
Ketola, h.g., 1975. Requirement of Atlantic salmon for dietary phosphorus. Transactions of the American Fisheries Society 104, 548-551.
Ketola, H.G., Harland, B.F., 1993. Influence of phosphorus in rainbow trout diets on phosphorus dischargese in effluent water. Transactions of the American Fisheries Society 122, 1120-1126.
Ketola, H.G., Richmond, M.E., 1994. Requirement of rainbow trout for dietary phosphorus and its relationship to the amount discharged in hatchery effluents. Trans. Amer. Fish. Soc. 123, 587-594.
Ketola, H.G., Westers, H., Houghton, W., Pecor, C., 1991. Effect of diet on growth and survival of coho salmon and on phosphorus discharges from a fish hatchery. American Fisheries Society Symposium 10, 402-409.
Kim, J.D., Kim, K.S., Song, J.S. Lee, J.Y., Jeong, K.S., 1998. Optimum level of dietary monocalcium phosphate based on growth and phosphorus excretion of mirror carp, Cyprinus carpio. Aquaculture 161, 337-344.
Kissil, G.W., Cowey, C.B., Adron, J.W., Richerds, R.H., 1981. Pyridoxine of the gilthead bream, Sparus aurata . Aquaculture 23, 243-255.
Kitamura, S., Suwa, T., Ohara, S., Nakagawa, K., 1967. Studies on vitamin requirements of rainbow troutⅡ. The defficiency symptoms fourteen kinds of vitamin. Bull. Jpn. Soc. Sci. Fish. 33, 1120-1125.
Knowles, J.R., 1989. The mechanism of biotin-dependent enzymes. Annu. Rev. Biochem. 58, 195-221.
Lall, S.P., 1991. Digestibility, metabolism and excretion of dietary phosphorus in fish. In: Cowey C.B., Cho C.Y. (Eds), Proc. Ist Int. Symposium on Nutritional Strategies and Management of Aquaculture Waste. Univ. of Guelph, Guelph, Ontario, Canada, 21-36.
Lall, S.P., 2002. The minerals. In: Halver, J.E., Hardy, R.W. (Eds.) Fish Nutrition, 3 ed., Academic Press, New York, 264-274.
Lall, S.P., Vielma, J., 2001. Phosphorus in fish nutrition. In: Merican, Z. (Ed.), Inter. Aqua Feed. Issue I, Andrew West. Turret RAI, Middlesex, England, 26–29.
Lall, S.P., Weerakoon, D.C.M., 1990. Vitamin B6 requirement of Atlantic salmon (Salmo salar ). FASEB J. 4, A912.
Lederer, W.H., Kumar, M., Axelrod, A.E., 1975. Effects of pantothenic acid deficiency on cellular antibody synthesis in rats. J. Nutr. 105, 17-25.
Lehmitz, R., Spannhof, L., 1977. Transketolase activity and thiamin deficiency in the kidney of rainbow trout, Salmo gairdneri, fed raw herring. Arch. Tierenaehr. 27, 287-295.
Lehninger, A.L. 1975. Biochemistry. Worth Publishers, Inc. New York. 1104 pp.
Leith, D., Holmes, J., Kaattari, S., 1990. Effects of vitamin nutrition on the immune response of hatchery-reared salmonids. Final Report, Project 84-45A and 84-45B. Portland, Ore., Bonneville Power Administration.
Lellis, W.A., 1994. Phosphorus requirement of the Chinook salmon (Oncorhynchus tshawytscha) at three temperatures. Abstract. World Aquaculture Society Meeting, New Orleans, LA.
Li, M.H., Robinson, E.H., 1996. Phosphorus availability of common feedstuffs to channel catfish Ictalurus punctatus as measured by weight gain and bone mineralization.Journal of the World Aquaculure Society 27, 297-302.
Lie, O., Waagboe, R., Sandnes, K., 1988. Growth and chemical composition of adult Atlantic salmon (Salmo salar) fed dry and silage-based diets. Aquaculture 69, 343-353.
Lim, C., Klesius, P.H., 1998. Effect of dietary levels of protein and pyridoxine on hematology and immune response of channel catfish,Aquaculture '98 Book of Abstracts. pp. 328-329.
Lim, C., Klesius, P.H., 2001. Influence of dietary folic acid on growth and resistance of Nile tilapia, Oreochromis niloticus to Streptococcus iniae. 6th Asian Fisheries Forum Book of Abstracts. pp. 150.
Lim, C., LeaMaster, B.R. Brock, J.A., 1995. Pyridoxine requirement of fingerling red hybrid tilapia growth in seawater. J. Appl. Aqualt. 5, 49-60.
Lim, C., LeaMaster, B.R., Brock, J.A., 1993. Riboflavin requirement of fingerlings red hybrid tilapia grown in seawater. J. World Aquacult. Soc. 24, 451-458.
Limsuwan, T., Lovell, R., 1981. Intestinal synthesis and absorption of vitamin B12 in channel catfish. J. Nutr. 111, 2125-2132.
Lin, L., Hu, J., Hong, H., 1994. The most suitable content of protein in the artificial feed to culture Lateolabrax japonicus. J. Xiamen Fisheries College 16, 7-10 (In Chinese with English abstract).
Lovell, R. T., Limsuwan,T., 1982. Intestinal synthesis and dietary nonessentiality of vitamin B12 for tilapia nilotica. Trans. Am. Fish. Soc. 111, 485-490.
Lovell, R.T., 1978. Dietary phosphorus requirement of channel catfish (Ictalurus punctatus). Transactions of the American Fisheries Society 107, 617-621.
Lovell, R.T., 1989. Nutrition and Feeding of Fish. Van Nostrand Reinhold, New York, NY, 260 pp. Lovell, R.T., Buston, J.C., 1984. Biotin supplementation of practical diets for channel catfish. J. Nutr. 114, 1092-1096.
Mahajan, C.L., John, M.J., 1981. Haematological and haemopoietic studies in an air-breathing fish on cyanocobalamin and folacin deficient diet. Scand. J. Haematol. 27, 346-354.
Mai, K., Zhang, C., Ai, Q., Duan, Q., Xu, W., Zhang, L., Liufu, Z., Tan, B., 2006. Dietary phosphorus requirement of large yellow croaker, Pseudosciaena crocea R. Aquaculture 251, 346-353.
Mai, K.S., Wan, J.L.Ai, Q.H., Xu, W., Liufu, Z.G., Zhang, L., Zhang, C.X., Li, H.T., 2006. Dietary methionine requirement of large yellow croaker, Pseudosciaena crocea R. Aquaculture 253, 564–572.
Mali, B., Jaruratt, W., Krasindhu, H., 1994. Pantothenic acid requirements of sea bass. Fish nutrition research in Asia. Proceedings of the fifth Asian Fish Nutrition Workshop. no. 9, pp. 23-29.
Margolis, L. 1953. The effect of fasting on the bacterial flora of the intestine of fish. J. Fish. Res. Board Can. 10, 62-63.
Marks, J., 1975. A guide to the vitamins. Their role in health and disease. Medical and Technical Publ., lancaster, England, pp. 73-82.
Martinez, C.D., Escobar, B.L., Olvera-novoa, M.A., 1990. The requirement of Cilasoma urophthalmus (Cunther) fry for pantothenic acid and the pantothenic signs of deficiency. Aquacult. Fish. Manag. 21, 145-156.
Masumoto, T., Hardy, R.W., Stickney, R.R., 1994. Pantothenic acid deficiency detection in rainbow trout (Oncorhynchus mykiss). J. Nutr. 124, 430-435.
Masumoto, T., R. W. Hardy, and E. Casillas. 1987. Comparison of transketolase activity and thiamin pyrophosphate levels in erythrocytes and liver of rainbow trout (Salmo gairdneri) as indicators of thiamin status. J. Nutr. 117, 1422-1426.
Masutomo, T., Hardy, R.W., Stickney, R.R., 1993. Gill lipid metabolism in pantothenic acid-deficient rainbow trout (Oncorhynchus mykiss). In: Fish Nutrition in Practice (Kanshik, S.J., Luquet, P., eds.), pp. 247-256. INRA, (Les Colloques, n.61), Paris, France.
Mattivi, F., Monetti, A., Vrhov?ek, U., Tonon, D., Andrés-Lacueva, C., 2000. High-performance liquid chromatographic determination of the riboflavin concentration in white wines for predicting their resistance to light. Journal of Chromatography A 888, 121–127.
Mavnard, R.A., loosli, J. K., 1969. Animal nutrition, 6thed., McGraw-Hill. New York . Maynard, L.A., Loosli, J.K., Hintz, H.F., Warner, R.G., 1979. Animal Nutrition.McGraw-Hill, New York, NY. pp., 283-355.
McClain, W.R., Gatlin, D.M., 1988. Dietary zinc requirement of Oreochromis aureus and effects of dietary calcium and phytate on zinc bioavailability. Journal of the World Aquaculture Society 19, 103-108.
McDowell, L.R., 1989. Vitamins in animal nutrition. pp.236-255.
McLaren, B.A., Keller, E., O’Donnell, D.J., Elvehjem, C.A., 1947. The nutrition of rainbow trout. I. Studies of vitamin requirements. Arch. Biochem. Biophys. 15, 169-178.
Meisler, N.T., Thanassi, J.W., 1980. Pyridoxine kinase, pyridoxine phosphate phosphatase and pyridoxine phosphate oxidase activities in control and B-6-deficient rat liver and brain. J Nutr. 110, 1965–1975.
Mitchell, H.K., Snell, E.E., Williams, R.J., 1941. The concentration of folic acid. J. Am. Chem. Soc. 63, 2284.
Mohamed, J.S., 2001. Dietary pyridoxine requirement of the Indian catfish, Heteropneustes fossilis. Aquaculture, 194, 327-335.
Morito, C.L.H., Conrad, D.H., Hilton, J.W., 1986. The thiamin deficiency signs and requirement of rainbow trout (Salmo gairdneri, Richardson). Fish Physiol. Biochem. 1, 93-104.
Mugiya, Y., Watabe, N., 1977. Studies on fish scale formation and resorption: Ⅲ. Effect of estradiol on calcium homeostasis and skeletal tissue resorption in the goldfish. Carassius auratus and the killifish Fundulus heteroclitus. Comp. Biochem. Physiol. 57A. 197-202.
Murai, T., Andrews, J.W., 1978a. Thiamin requirement of channel catfifh fingerlings. J. Nutr. 108, 176-180.
Murai, T., Andrews, J.W, 1978b. Riboflavin requirement of channel catfish fingerlings. J. Nutr. 108, 1512-1517.
Murai, T., Andrews, J.W., 1979. Pantothenic acid requirements of channel catfish fingerlings. J. Nutr. 109, 1140-1142.
Nakamura, Y., 1982. Effects of dietary phosphorus and cacium contents on the absorption of phosphorus in the digestive tract of carp. Bull. Jpn. Sci. Fish.,48 (3), 409-414.
National R. C., 1983. Nutrient requirements of warmwater fishes and shellfishes,.Washington, D. C. , National ACADEMY PRESS, 25-27.
National Research Council (NRC), 1977. Nutrition Requirement of Fish. National Academy Press, Washington, DC, pp. 1-78.
National Research Council (NRC), 1981. Nutrition requirements of coldwater fishes. National Academy Press, Washington, USA, pp. 14-17.
National Research Council (NRC), 1983. Nutrition requirements of warmwater fishes and shellfish. National Academy Press, Washington, USA, pp. 1-78.
National Research Council (NRC), 1993. Nutrient requirement of fish. In Nutrient Requirement of Domestic Animals, No. 16. National Academic Press, Washington, DC, pp. 114.
National Research Council, (NRC), 1993. Nutrient Requirements of Fish. National Academy Press, Washington, DC.
Ng, W.K., Serrini, G., Zhang, Z., Wilson, R.P., 1997. Niacin requirement and inability of tryptophan to act as a precursor of NAD+ in channel catfish, Ictalurus punctatus. Aquaculture 152, 273-285.
Nimo, R.D., Peo, E.R., Jr., Moser, B.D., Cunningham, P.G., Olson, D.G., Crenshaw, T.D., 1980. Effect of various levels of calcium and phosphorus on performance, blood and bone parameters in growing boars. J. Anim. Sci. 51, 100-109.
Nordrum, S., Asgard, T., Shearer, KD, Arnessen, P., 1997. Availability of phosphorus in fish bone meal and inorganic salts to Atlantic salmon (Salmo salar) as determined by retention . Aquaculture, 157, 51-61.
Nose, T., Arai, S., 1976. Resent advances in studies on mineral nutrition offish in Japan. In, T.V.R. Pillay and W.A. Dill (Editors), Advances in Aquaculture. Papers Presented at the FAO Technical Conference on Aquaculture, 26 May-2 June 1976, Kyoto, Japan. Fishing News Ltd.
Nose. T., Arai, S., 1976. Recent advances in studies on the mineral nutritoin of fish in Japan. FAOTech. Conf. Aquaculture, 12 pp.
Ogino, C., 1965. B vitamins requirements of carp, Cyprinus carpio-I. Deficiency symptons and requirement of vitamin B6. Bull. Jpn. Soc. Sci. Fish. 31, 546-551.
Ogino, C., 1967. B vitamin requirements of carp-II. Requirements for riboflavin and pantothenic acid. Bull. Jpn. Soc. Sci. Fish. 33, 351-354.
Ogino, C., Takeda, H., 1978. Requirements of rainbow trout for dietary calcium and phosphorus. Bull. Jpn. Soc. Sci. Fish. 44, 1019-1022.
Ogino, C., Takeuchi, L., Takeda, H., Watanabe, T., 1979. Availability of dietary phosphorus in carp and rainbow trout. Bull. Jap. Sci. Fish., 45(12), 1527-1532.
Ogino, C., Watanabe, T., Kakino, J., Iwanaga, N., Mizuno, M., 1970a. B vitamin requirements of carp-Ⅲ. Requirement for biotin. Bull. Jpn. Soc. Sci. Fish. 36, 734-740.
Ogino, C., Uki, N., Watanabe, T., Iida, Z., Ando, K., 1970b. B vitamin requirements of carp-IV. Requirements for choline. Bull. Jpn. Soc. Sci. Fish. 36, 1140-1146.
Oliva-Teles, A., Pereira, J.P., Gouveia, A., Gomes, E., 1998. Utilisation of diets supplemented with microbial phytase by seabass (Dicentrarchus labrax) juveniles. Aquat. Living Resour. 11, 255-259.
Onishi, T., Suzuki, M., Takeuchi, M., 1981. Change in earp hepatopancreatic enzyme activity with dietary phosphorus levels. Bull. Jpn. Soc. Fish. 47, 353-357.
Ouchi, K., Yamada, J., Kosaka, S., 1972. On the resorption of scales and associated cells in precocious male parr of the Masu salmon (Oncorhynchus masou). Bull. Jpn. Soc. Fish. 38, 423-430.
Pan, Y., Wang, F., Liu, H., 2000. Optimal proportion of fish meal and soybean cake in formulated diets of juvenile sea perch Lateolabrax japonicus. J. Dalian Fish. College 15, 157–163. (In Chinese with English abstract).
Panush, R.S., Delafuente, J.C., 1985. Vitamins and immunocompetence. World Rev. Nutr. Diet 45, 97-123.
Papatryphon, E., Howell, R.A., Soares, Jr.J.H., 1999. Growth and mineral absorption by striped bass Morone saxatilis fed a plant feedstuff based diet supplemented with phytase. The Journal of the World Aquaculture Society. 30, 161-173.
Persson, P., Sundell, K., Bjornsson, B.T., 1994. Estradiol-17β-induced calcium uptake and resorption in juvenile rainbow trout Oncorhynchus mykiss. Fish Physiol. Biochem.. 13, 379-386.
Persson, P., Takagi, Y., Bjornsson, B.T., 1995. Tartrate resistant acidphosphatase as a marker for scale resorption in rainbow trout Oncorhynchus mykiss: effect of estradiol-17β treatment and refeeding. Fish Physiol. Biochem. 14, 329-339.
Peterson W.H., Peterson, M.S. 1945. Relationship of bacteria to vitamins and the other growth factor. Bacteriol. Rev. 9, 49-86.
Pfeffer, E., Piper, A., 1979. Application of the factorial approach for deriving nutrient requirement for growing fish. In: Halver, J.E. Tiews,K. (Eds.), Fish Nutrition and Fishfeed Technology, Vol. IL. Heeneman Verlagsgesellschaft mbH Berlin , 545-553.
Phillips, A. M., Brockway, D. R., 1947. The niacin and biotin requirement of trout. Trans. Am. Fish. Soc. 76, 152-159.
Phillips, A. M., Podoliak, Jr., H. A., Poston, H. A., Livingston, D. L., Booke, H. E., Pyle, E. A., Hammer, G. L., 1964. The production of anemia in brown trout. Pp. 66-70 in Fisheries Research Bulletin No. 27. Albany, N.Y., State of New York Conservation Department.
Phillips, A.M. Jr., 1962. Effect of dietary and water temperature on the blood phosphorus of brook trout. Prog. Fish-Cult. 24, 22-25.
Phillips, A.M., 1963. Folic acid as an anti-anemia factor for brook trout. Prog. Fish-Cult. 25, 132-134.
Phillips, A.M., Tunison, A.V., Shaffer, H.B., White, G.K., Sallivan, M.W., Vincent, C., Brockway, D.R., McCay, C.M., 1945. The nutrition of trout. The vitamin requirement of trout. Fish. Res. Bull. 7, 1-31.
Phillips. A.M., Jr., Podoliak. H.A. Brockway, D.R., Vaughn, R.R., 1958. The nutrition of the trout. Fish. Res. Bull., 21, 93.
Pike, R.H., Brown, M.L., 1984. Nutrition: An Integrated Approach, 3rd ed., John Wiley and Sons, New York, NY. pp, 84-136.
Poston, H.A. 1969. The effect of excess levels of niacin on the lipid metabolism of fingerling brook trout. Pp. 9-12 in Fisheries Research Bulletin No. 32. Albany, N.Y., State of New York Conservation Department.
Poston, H.A., DiLorenzo, R.N., 1973. Tryptophan conversion to niacin in the brook trout (Salvelinus fontinalis). Proc. Soc. Exp. Biol. Med. 144, 110-112.
Poston, H.A., 1976a. Relative effect of two dietary water-soluble analogues os menaquinone on coagulation and packed cell volume of blood of lake trout, Salvelinus namaycush. J. Fish. Res. Board Can. 33, 1791-1793.
Poston, H.A., 1976b. Optimum level of dietary biotin for growth, feed utilization, and swimming stamina of fingerling lake trout (Salvelinus namaycush). J. Fish. Res. Board Can. 33, 1803-1806.
Poston, H.A., McCartney, T.H., 1974. Effect of dietary biotin and lipid on growth, stamina, lipid metabolism and biotin-containing enzymes in brook trout (Salvelinus fontinalis). J. Nutr. 104, 315-322.
Poston, H.A., Page, J.W., 1982. Gross and histological signs of dietary deficiencies of biotin and pantothenic acid in lake trout, Salvelinus namaycush. Cornell Vet. 72, 242-261.
Poston, H.A., Wolfe, M.J., 1985. Niacin requirement for optimum growth, feed conversion and protection of rainbow trout, Salmo gairdneri Richardson, from ultraviolet-B-irraduaiton. J. Fish Dis. 8, 451-460.
Rao, S.K., Roland, D. A. Sr., Orban, J.I., Rabon, H.W. Jr., Bryant, M.M., 1995. Age at sexual maturity influences the response of single comb white leghorn pullets to marginal and low levels of dietary phosphorus. J. Nutr. 125, 342-350.
Reibel, D.K., Wyse,B.W., Berkich, D.A., Neely, J.R., 1982. Coenzyme A metabolism in pantothenic acid deficient rats. J. nutr. 112, 1144-1150.
Richardson, N.L., Higgs, D.A., Beames, R.M., McBride, J.R., 1985. Influence of dietary calcium, phosphorus, zinc and sodium phytaye level on cataract incidence, growth and histopathology in juvenile chinook salmon (Oncorhynchus tshawytscha). Journal of Nutrition 115, 553-567.
Riche, M., Brown, P.B., 1999. Incorporation of plant protein feedstuffs into fish meal diets for rainbow trout increases phosphorus availability. Aquacult. Nutr. 5, 101– 105.
Riche. M., Brown, P.B., 1996. Availability of phosphorus from feedstuff fed to rainbow trout , Oncorhynchus mykiss. Aquaculture 142, 269-282.
Robbins, K.R., Norton, H.W., Baker, D.H., 1979. Estimation of nutrient requirements from growth data. J. Nutr. 109, 1710–1714.
Roberts, R.J., Shepherd, C.J., 1986. Handbook of Trout and Salmon Disease. 2nd edition. Great Britain. pp. 160-167.
Robinson, E.H., 1984. Vitamin requirements. In, Robinson, E.H., Lovell, R.T. (Eds.), Nutrition and Feeidng of channel catfish. Southern cooperative series Bulletin, No. 296 pp. 21-25.
Robinson, E.H., Bomascus, D.L. Brown, P.B., Linton, T.L., 1987. Dietary calcium and phosphorus requirements of Oreochromis aureus reared in calcium-free water. Aquaculture 64, 267-276.
Robinson, E.H., Jackson, L.S. Li, M.H., 1996. Supplemental phosphorus in practical channel catfish Ictalurus punctatus diets. Journal of the World Aquaculture Society 27:303-308.
Robinson, E.H., Lovell, R.T., 1978. Essentiality of biotin for channel catfish Ictalurus punctatus fed lipid and lipid-free diets. J. Nutr. 108, 1600-1605.
Robinson, E.H., Wilson, R.P., 1985. Nutrition and Feeding. In, Tucker, C.S. (Ed.), Channel Catfish Culture. Netherlands, pp. 323-404.
Robisshaw, J.D., Neely, J.R., 1985. Coenzyme A metabolism. Am. J. Physiol. 248, 1-9.
Rodehutscord, M., 1996. Response of rainbow trout (Oncorhynchus mykiss ) growing from 50 to 500g to supplements of dibasic sodium phosphate in semipurified diets. J. Nutr. 126, 324-331.
Rodehutscord, M., Becker, A., Pfeffer, E., 1995. Einfluss des zusatzes einer Aspergillus niger-Phytase auf. Die Verwertung pflantlichen Phosphorus durch die Forelle (Oncorhynchus mykiss ). Arch. Anim. Nutr. 48, 211-219.
Rodehutscord, M., Gregus, Z., Pfeffer, E., 2000. Effect phosphorus intake on faecal and non-faecal phosphorus excretion in rainbow trout (Oncorhynchus mykiss) and the consequences for comparative phosphorus availability studies. Aquaculture 188, 383– 398.
Rodehutscord, M., Pfeffer, E., 1995. Effects of supplemental microbial phytase on phosphorus digestibility and utilization in rainbow trout (Oncorhynchus mykiss ). In: Cowey, C. B. (Ed.), Proc. Int. Symp. Nutritional Strategies and Management of Aquaculture Waste,Rebild, Denmark, 24-27 April 1994. Water Sci. Technol. 31, 143-147.
Rodehutscord, M., Pfeffer, E., 1995. Requirement for phosphorus in rainbow trout (Oncorhynchus mykiss) growing from 50 to 200 g. Water Sci. Tech. 31, 137-141.
Roem, A.J., Sticjney, R.P., Kohler, C.C., 1990. Vitamin requirements of blue tilapias in a recirculating water system. Prog. Fish-Cult. 52, 15-18.
Roem, A.J., Sticjney, R.P., Kohler, C.C., 1991. Dietary pantothenic acid requirement of the blue tilapia. Prog. Fish-Cult. 53, 216-219.
Roth-Maier, D.A., Kirchgessner, M., 1977a. Studies on the optimal pantothenic acid requirement of market pigs. Z. Tierphysiol. Tierernahrung. Futtermittelkde. 38, 121-131.
Roth-Maier, D.A., Kirchgessner, M., 1977b. Selected problems of B vitamins in animal nutrition.Livestock production Sci., 4, 177-189
Roy, P.K., Lall, S.P., 2003. Dietary phosphorus requirement of juvenile haddock (Melanogrammus aeglefinus L.). Aquaculture 221, 451-468.
Ryu, K.S., Eitenmiller, R.R., Pesti, G.M., 1994. A comparison of enzyme preparations to liberate folic acid for the microbiological assay of feed ingredients. J. Sci. Food Agic., 64, 389-392.
Sakaguchi, H., Hamaguchi, A., 1979. Physiological studies on cultured red sea bream: I. Seasonal variation of chemical constituents in plasma, hepatopancreas and other viscera. Bull. Jpn. Soc. Sci. Fish. 45, 443-448.
Sakaguchi, H., Takeda, F., Tange, K., 1969. Studies on vitamin requirements by yellowtail I.Vitamin B6 and vitamin C deficiency symptoms. Bull. Jpn. Soc. Sci. Fish. 35, 1201-1206.
Sakamoto, S. and Yone, Y., 1979. Availabilities phosphorus compounds as dietary phosphorus sources for red sea bream.Journal of the Faculty of Agriculture of Kyushu University 23, 177-184.
Sakamoto, S., Yone, Y., 1973. Effects of dietary calcium/phosphorus ratio upon growth ,feed efficiency and blood serum Ca and P level in ed sea bream. Bull. Jpn. Sci. Fish., 39(4), 343-348.
Sakamoto, S., Yone, Y., 1978. Effects of dietary phosphorus level on chemical composition of red sea bream. Bull. Jpn. Soc. Sci. Fish. 44, 227-229.
Sakamoto, S., Yone, Y., 1980. A principal source of deposited lipid in phosphorus deficient red sea bream. Bull. Jpn. Soc. Sci. Fish. 46, 1227– 1230.
Sakti Vel, M., Sampath, K., Pandian, T.J., 1990. Dosage effect of pyridoxin, folacin and ascorbic acid on the blood parameters of Cyprinus carpio. In, Hirano, R., Hanyu, I. (Eds.), The Second Asian Fisheries Forum. Asian Fisheries Society, Manila, Philippines, pp. 263-266.
Sandnes, K., Lie, ?., Waagb?, R., 1988. Normal ranges of some blood chemistry parameters in adult farmed Atlantic salmon, Salmo salar. J. Fish Biol., 32, 129–136.
Satoh, S., Hernández, A., Tokoro, T., Morishita, Y., Kiron, V., Watanabe, T., 2003. Comparison of phosphorus retention efficiency between rainbow trout (Oncorhynchus mykiss) fed a commercial diet and a low fish meal based diet. Aquaculture 224, 271-282.
Satoh, S., Takanezwa, M., Akimoto, A., Kiron, V., Watanabe, T., 2002. Changes of phosphorus absorption from several feed ingredients in rainbow trout during growing stages and effect of extrusion of soybean meal. Fisheries Sci. 68, 325-331.
Sauer, D.M., Haider, G., 1977. Enzyme activities in the serum of rainbow trout, Salma gairdneri Richardson: the effects of water temperature. J. Fish Biol. 11, 605-612.
Sauer, D.M., Haider, G., 1979. Enzyme activities in the plasma of rainbow trout, Salmo gairdneri Richardson, the effects of nutritional status and salinity. J. Fish Biol. 14, 407-412.
Schoefer, A., Koppe, W.M., Meyer-Burgdorff, K.H., Gunther, K.D., 1995a. Effects of P-supply on growth and mineralization in mirror carp (Cyprinus carpio L.). J. Appl. Ichthyol. 11, 397-400.
Schofer, A., Koppe, W.M., Meyer-Burgdorff, K.H., Günter, K.D., 1995b. Effect of a micorbial phytase on the utilization of native phosphorus by carp in a diet based on soybean meal. In: Cowey, C. B. (Ed.), Proc. Int. Swmp. Nutritional Strategies and Management of Aquaculture Waste, Rebild, Denmark, 24-27 April 1994,Water Sci. Technol. 31, 149-155.
Schwarz, F.J., 1995. Determination of mineral requirements of fish. J. Appl. Ich. 11, 164-174. Seiverd, C.E., 1964. Haematology for Medical Technologists. Lea and Febiger, Philadelphia. pp. 946
Serrini, G., Zhang, Z., Wilson, R.P., 1996. Dietary riboflavin requirement of fingerling channel catfish (Ictalurus punctatus). Aquaculture 139, 285-290.
Shearer, K.D., 1984. Changes in elemental composition of hatchery-reared rainbow trout, Salmo gairdneri, associated with growth and reproduction. Can. J. Fish. Aquat. Sci. 41, 1592– 1600.
Shearer, K.D., 1989. Whole body magnesium concentration as an indicater of magnesium status in rainbow trout (Salmo gairdneri). Aqaculture 77, 201-210.
Shearer, K.D., 1995. The use of factorial modeling to determine the dietary requirements for essential elements in fishes. Aquaculture 133, 57– 72.
Shearer, K.D., 2000. Experimental design, statistical analysis and modeling of dietary nutrient requirement studies for fish: a critical review. Aquacult. Nutr. 6, 91–102.
Shearer, K.D., Asgard, T., 1990. Availability of dietary magnesium to rainbow trout as determined by apparent retention Aquacu. lture, 86, 51-61.
Shearer, K.D., Hardy, R.W., 1987. Phosphorus deficiency in rainbow trout fed a diet containing deboned fillet scrap. Prog. Fish-Cult. 49, 192-197.
Shiau S.Y., Wu, M.H., 2003. Dietary vitamin B6 requirement of grass shrimp, Penaeus monodon. Aquaculture, 225, 397-404.
Shiau, S.Y., Chen, M.J., 1993. Carbohydrate utilization by tilapia (Oreochromis niloticus × O. aureus) as influenced by different chromium sources. J. Nutr. 123, 1747-1753.
Shiau, S.Y., Chin, Y.H., 1998. Dietary biotin requirement for maximum growth of juvenile grass shrimp, Penaeus monodon. J. Nutr. 128, 2494-2497.
Shiau, S.Y., Chin, Y.H., 1999. Estimation of the dietary biotin requirement of juvenile hybrid tilapia, Oreochromis niloticus × O. aureus. Aquaculture 170, 71-78.
Shiau, S.Y., Hsieh, H.L., 1997. Vitamin B6 requirements of tilapia Oreochromis niloticus × O. aureus fed two dietary protein concentrations. Fisheries Sci. 6, 1002-1007.
Shiau, S.Y., Hsu, C.W., 1999. Dietary pantothenic acid requirement of juvenile grass shrimp, Penaeus monodon. J. Nutr. 129, 718-721.
Shiau, S.Y., Huang, S.Y., 2001. Dietary folic acid requirement determined for grass shrimp, Penaeus monodon. Aquaculture, 200, 339-347.
Shiau, S.Y., Lin, S.F., 1993. Effect of supplemental dietary chromium and vanadium on the utilization of different carbohydrates in tilapia, Oreochromis niloticus × O. aureus. Aquaculture 110, 321-330.
Shiau, S.Y., Lung, C.Q., 1993a. No dietary vitamin B12 required for juvenile tilapia Oreochromis niloticus × O. aureus. Comp. Biochem. Physiol. 105A, 147-150.
Shiau, S.Y., Lung, C.Q., 1993b. Estimation of the vitamin B12 requirement of the grass shrimp, Penaeus monodon. Aquaculture 117, 157-163.
Shiau, S.Y., Suen, G.S., 1992. Estimation of the niacin requirements for tilapia fed diets containing glucose or dextrin. J. Nutr. 122, 2030-2036.
Shiau, S.Y., Suen, G.S., 1994. The dietary requirement of juvenile grass shrimp (Penaeus monodon) for niacin. Aquaculture 25, 139-145.
Shim, K.F., and Ho, C.S., 1989. Calcium and phosphorus requirements of guppy Poecilia reticulata. Nippon Suisan Gakkaishi 55, 1947-1953.
Shimeno, S., 1991. Yellowtail, Seriola quinqueradiata. In, Handbook of Nutrition Requirement of Finfish, Wilson, R.P. (Ed.), Boca Raton, pp. 181-191.
Skonberg, D.I., Yogev, L., Hardy, R.W., Dong, F.M., 1997. Metabolic response to dietary phosphorus intake in rainbow trout (Oncorhynchus mykiss). Aquaculture 157, 11-24.
Smith, C.E., 1968. Hematological changes in coho salmon fed a folic acid deficient diet. J. Fish. Res. Board Can. 25, 151-156.
Smith, C.E., Brin, M., Halver, J.E., 1974. Biochemical, physiological, and pathological changes in pyridoxine deficient rainbow trout (Salmo gairdneri ). J. Fish. Res. Board Can. 31, 1893-1898.
Smith, C.E., Halver, J.E., 1969. Folic acid anemia in coho salmon. J. Fish. Res. Board Can. 26, 111-114.
Smith, C.M., Song, W.O., 1996. Comparative nutrition of pantothenic acid. J. Nutr. Biochem. 7, 312-321.
Snieszko, S.F., 1972. Nutritional fish disease. In, Halver, J.E. (Ed.), Fish Nutrition. Academic Press. New York, pp. 403-437.
Soliman, A.K., Wilson, R.P., 1992a. Water-soluble vitamin requirements of tilapia. 2. Riboflavin requirement of blue tilapia, Oreochromis aureus. Aquaculture 104, 309-314.
Soliman, A.K., Wilson, R.P., 1992b. Water-soluble vitamin requirements of tilapia. 1. Pantothenic acid requirement of blue tilapia, Oreochromis aureus. Aquaculture 104, 121-126.
Spinelli, J., Houle, C.R. Wekell, J.C., 1983. The effects of phytates on the growth of rainbow (Salmo gairdneri) fed purified diets containing varying quantites of calcium and magnesium. Aquaculture, 30, 71-83.
Steffens, W., 1970. The vitamin requirements of rainbow trout (Salmo gairdneri). Int. Rev. Ges. Hydrobiol. 59,255-282.
Stickney, R.R., McGeachin, R.B., Lewis, D.H., Marks, J., Sis, R.F., Robinson, E.H., Wurts, W., 1984. Respones of Tilapia aurea to dietary vitamin C. J. World Aquacult. Soc. 15, 179-185.
Stokstad, E.L.R., Koch, J.,1967. Folic acid metabolism. Physiol, Rev., 47, 83-116.
Sorebakken, T., Shearer, K.D., Roem, A.J., 1998. Availability of protein, phosphorus and other elements in fish meal, soy-protein concentrate and phytase-treated soy-protein-concentrate-based diets to Atlantic salmon, Salmo salar. Aquaculture 161, 365–379.
Sugita, H., Miyajima, C., Deguchi, Y., 1990. The vitamin B12 producing ability of intestinal bacteria isolated from tilapia and channel catfish. Nippon Suisan Gakkaishi 56, 701.
Sugita, H., Miyajima, C., Deguchi, Y., 1991a. Vitamin B12 pruducing ability of the intestinal microflora of fresh water fish. Aquaculture 92, 267-276.
Sugita, H., Takahashi, J., Deguchi, Y., 1992. Production and consumption of biotin by the intestinal microflora of cultured freshwater fishes. Biosci., Biotechnol., and Biochem. 56, 1678-1679.
Sugita, H., Takahashi, J., Miyajima, C., Deguchi, Y., 1991b. Vitamin B12 pruducing ability of the intestinal microflora of rainbow trout (Oncorhynchus mykiss). Agric. Biol. Chem. 55, 893-894.
Sugiura S.H., Dong F.M., Hardy R.W., 1998. Effects of dietary supplements on the availability of minerals in fish meal; preliminary observations. Aquaculture 160, 283-303.
Sugiura, S.H., Raboy, V., Young, K.A., 1999. Availability of phosphorus trace elements in low-phytate varieties of barley and corn for rainbow trout (Oncorhynchus mykiss). Aquaculture, 70, 285-296.
Sugiura, S.H., Raboy, V., Young, K.A., Dong, F.M., Hardy, R.W., 1999. Availability of phosphorus and trace elements in low-phytate varieties of barley and corn for rainbow trout (Oncorhynchus mykiss). Aquaculture 170, 285–296.
Swarp, K., Das, V.K., Norman, A.W., 1991. Dose-dependent vitamin D and 1.25-hyphosphatemina D induced in male cyprinoid Cyprinus carpio. Comp Biochem Physiol 100A, 445-457.
Swarup, K., Norman, A.W., Srivastav, A.K., Srivastav, S.P., 1984. Dose-dependent vitamin D. and 1.25-dihyxyvitamin in male catfish Clarias Batrachus. Comp Biochem Physiol, 78B, 535-545.
Swiatek, K.R., Simon, L.N., Chao, K.L., 1973. Nicotinamide methyltransferase and s-adenosylmethionine: 5 ′-methylthioadenosine hydrolase control of transfer ribonucleic acid methylation. Biochemistry, 12, 23.
Takeda, T., Yone, Y., 1971. Studies of nutrition red seabream. 2. Comparison of vitamin B6 requirement level between fish fed a synthetic diet and fish fed beef liver during prefeeding period Rep. Fish. Res. Lab., Kyushu Univ., 1, 37-47.
Takeuchi, L., Takeuchi, T., Ogino, C., 1980. Riboflavin requirements in carp and rainbow trout. Bull. Jpn. Soc. Sci. Fish. 46, 733-737.
Takeuchi, M., Nakazoe, J., 1981. Effect of dietary phosphorus on lipid content and its composition in carp. Bull. Jpn. Soc. Sci. Fish. 47, 347-352.
Teskeredzic, Z., Higgs, D.A., Dosanjh, B.S., McBride, J.R., Hardy, R.W., Simell, M., Vaara, T., Bridges, R.B., 1995, Assessment of unphytinized and dephytinized rapeseed protein concentrate as sources of dietary protein for juvenile ralnbow trout (Oncorhynchus mykiss). Aquaculture, 131, 261-277.
Tietz, N.W., 1986. Textbook of Clinical Chemistry. W.B. Saunders, Philadelphia, 1919 pp. Vielma, J., Koskela, J., Ruohonen, K., 2002. Growth, bone mineralization, and heat and low oxygen tolerance in European whitefish (Coregonus lavaretus L.) fed with graded levels of phosphorus. Aquaculture 212, 321-333.
Vielma, J., Lall, S.P., 1998. Control of phosphorus homeostasis of Atlantic salmon (Salmo salar) in fresh water. Fish Physiol. Biochem. 19, 83– 93.
Vielma, J., Lall, S.P., Koskela, J., Scho¨ner, F.-J., Mattila, P., 1998. Effects of dietary phytase and cholecalciferol on phosphorus bioavailability in rainbow trout, Oncorhynchus mykiss, W. Aquaculture 163, 307–321.
Vi?uela, J., Ferrer, M., Recio, F., 1991. Age-related variations in plasma levels of alkaline phosphatase, calcium and inorganic phosphorus in chick of two species of raptors. Comp. Biochem. Physiol. 99A, 49-54.
Walton, M. J., Cowey, C. B., Andron, J. W., 1984. Effects of biotin deficiency in rainbow trout (Salmo gairdneri) fed diets of different lipid and carbohydrate content. Aquaculture 37, 21-38.
Wanakowat, J., Boonyaratpalin M., Pimoljinda, T., and Assavaaree, M., 1990. Vitamin B-6 requirement of juvenile seabass, Lates calcarifer. In Takeda, M., and Watanabe, T., eds. Current Status of Fish Nutrition in Aquaculture, Tokyo University of Fisheries, Tokyo, Japan. pp. 141-147.
Wasserman, R.H., 1960. Calcium and phosphorus interactions in nutrition and physiology. Fed. Am.Soc. Exp. Biol., 19, 636-642.
Watanabe, T., Murakami, A., Takeuchi, L., Nose, T., Ogino, C., 1980. Requirement of chum salmon held in freshwater for dietary phosphorus. Bull. Jpn. Soc. Sci. Fish. 46, 361-367.
Watanabe, T., Satoh, S., Takeuchi, T., 1988. Availability of minerals in fishmeal to fish. Asian Fish. Sci. 1, 175-195.
Were, K.E., 1989. Determination of the tryptophan requirement of the juvenile rainbow trout using the indicator oxidation technique. M.Sc. Thesis, University of Guelph, Guelph, Canada, 199pp.
Wilson, R.P., Bowser, P.R., Poe, W.E., 1983. Dietary pantothenic acid requirement of fingerling catfish. J. Nutr. 113, 2224-2228.
Wilson, R.P., Robinson, F.H., Gatlin, D.M., Ⅲ,Poe, W.E., 1982. Dietary phosphorus requirement of channel catfish. Journal of Nutrition 112, 1197-1202.
Wirtschafter, Z.T., Walsh, J.R., 1962. Hepatocellular Lipoid Changes in Pantothenic Acid Deficiency. Am J Clin Nutr. 10, 525-30
Wise, A., 1983. Dietary factors determining the biology activities of phytate. Nutrition Abstract Reviews. 53, 791-807.
Wittwer, C.T., Beck, S., Peterson, M., Davidson, R., Wilson, D.E., Hansen, R.G., 1990. Mild pantothenate deficiency in rats elevates serum triglyceride and free fatty acid levels. J Nutr. 120, 719-25.
Wolf, L.E., 1951. Diet experiments with trout. 1. A synthetic formula for dietary studies. Prog. Fish-Cult. 13, 17-24.
Wood, E.M., Yasutake, W.T., 1957. Histopathology of fish-V. Gill disease. Prog. Fish-Cult. 19, 7-13.
Woodward, B. 1982. Riboflavin supplementation of diets for rainbow trout. J. Nutr. 112, 908-913.
Woodward, B. 1990. Dietary vitamin B6 requirements of young rainbow trout (Oncorhynchus mykiss). FASEB J. 4, 3748 (abstr.).
Woodward, B., 1985. Riboflavin requirement for growth, tissue saturation and maximal flavin-dependent enzyme activity in young rainbow trout (Salmo gairdneri) at two temperatures. J. Nutr. 115, 78-84.
Woodward, B., 1989. Dietary requirements of some water soluble vitamins for young rainbow trout. In, Proceedings of the 25th Annual Nutrition Conference for Feed Manufacturers, Toronto, Ontario, pp. 25-33.
Woodward, B., 1994. Dietary vitamin requirements of cultured young fish, with emphasis on quantitative estimates for salmonids. Aquaculture, 124, 133-168.
Woodward, B., Frigg, M., 1989. Dietary biotin requirements of young rainbow trout (Salmo gairdneri) determined by weight gain, hepatic biotin concentration and maximal biotin-dependent enzyme activities in liver and white muscle. J. Nutr. 119, 54-60.
Woodward, W.D., 1983. Riboflavin nutrition of therainbow trout. Proceedings of the 17th annual nutrition conference for feed manufacturers. pp. 102-107.
Wu, M.S, 2000. Vitamin B6 requirements of juvenile grass shrimp, Penaeus monodon and juvenile malabar grouper, Epinephelus malabaricus. Master thesis, National Taiwan Ocean University, Keelung, Taiwan.
Yano, T., Nakao, M., Furuichi, M., 1988. Effects of dietary choline, pantothenic acid and vitamin C on the serum complement activity of red sea bream. Nippon Suisan Gakkaishi 205, 141-144.
Yone, Y. Toshima, N., 1979. The utilization of phosphorus in fish meal by carp and black sea bream. Bull. Jap. Soc. Sci. Fish., 45: 753-756.
Yone, Y., Fujii., M., 1974. Studies on nutrition of red sea bream. 10. Qualitative requirements for water-soluble vitamins. Rep. Fish. Res. Lab. Kyushu Univ. (Jpn) 2, 25-32.
Yone, Y., Furuichi, M., Shitanda, K., 1971. Vitamin requirements of the red sea bream. 1. Relationship between inositol requirements and glucose levels in diet. Bull. Jpn. Soc. Sci. Fish. 37, 149-155.
Zar, J.H., 1984. Biostatistical Analysis, 293-305. Prentice-Hall, Englewood Cliffs, NJ, USA. Zeitoun, I.H., Ullrey, D.E., Magee, W.T., 1976. Quantifying nutrient requirements of fish. J. Fish. Res. Board Can. 33, 167–172.
杜震宇,刘永坚,郑文晖,田丽霞,梁桂英. 2002. 三种脂肪源和两种降脂原子对鲈生长、体营养成分组成和血清生化指标的影响. 水产学报,26,542-550.
高淳仁,刘庆慧,梁亚全等. 1998. 鲈鱼幼鱼人工配合饲料中蛋白质脂肪适宜含量的研究. 海洋水产研究,19,81-85.
洪惠馨,林利民,陈学豪等. 1999. 鲈鱼人工配合饲料中脂肪适宜含量的研究. 集美大学学报,4,41-44.
黄耀桐,刘永坚. 1990. 草鱼对营养盐钙磷及饲料钙磷镁铁的利用率. 水生生物学报,14,145-152
李爱杰, 1996. 水产动物营养与饲料学. 北京,中国农业出版社.
李爱杰,张道波,任泽林. 2001. 牙鲆幼鱼对水难溶性维生素 B3需要量的研究. 饲料工业 22,26-27.
李会涛,2004. 饲料中有毒有害物质对鲈鱼和大黄鱼生长的影响及其在鱼体组织残留的研究. 中国海洋大学研究生学位论文.
林利民,胡家财,洪惠馨. 1994. 鲈鱼人工配合饲料中蛋白质最适含量的研究. 厦门水产学院学报,16,6-10.
苗淑彦,2005. 皱纹盘鲍叶酸营养生理的研究. 中国海洋大学研究生学位论文.
潘勇,王福强,刘焕亮. 2000. 花鲈配合饲料中鱼粉与豆粕适宜比例的研究. 大连水产学院学报,15,157-163.
万军利,2005. 鲈鱼和大黄鱼必需氨基酸营养生理研究. 中国海洋大学研究生学位论文.
游文章,黄忠志,廖朝兴等. 1987. 草鱼对饲料中磷需要量的研究. 水产学报 11, 285-292.
张淑华,仲维仁. 2001. 鲈鱼不同生长阶段对维生素需求的研究. 浙江海洋学院学报,20,156-163.
朱伟,2001. 皱纹盘鲍 B 族维生素营养生理及营养需要的研究. 中国海洋大学研究生学位论文.
Abiko, Y., 1975. Metabolism of coenzyme A. In metabolism of sulphur compounds metabolic pathways (D. Greenberg, ed). Academic press, New York, NY, USA. 1-25.
Adron, J.W., Knox, D., Cowey, C.B., 1978. Studies on the nutrition of marine flatfish. The pyridoxine requirements of turbot (Scophthalmus maximus). Br. J. Nutr. 40, 261-268.
Agrawal, N.K., Mahajan C.L., 1983a. Pathology of vitamin B6 deficiency in Channa punctatus Bloch. Joumal of Fish Diseases 6, 439-450.
Agrawal, N.K., Mahajan C.L., 1983b. Haematological and haematopoietic studies in pyridoxine deficient fish, Channa punctatus Bloch. Joumal of Fish Biology 22, 91-103.
Agrawal, N.K., Mahajan, C.L., 1980. Nutritional deficiency disease in an Indian major carp, Cirrhina mriqala Hamilton, due to avitaminosis C during early growth. J. Fish Dis. 3, 231-248.
Agrawal, N.K., Mahajan, C.L., 1983. Pathology of vitamin B6 deficiency in Channa (=Ophiocephalus) punctatus Bloch. J. Fish Dis. 6, 439-450.
Ai, Q., Mai, K., Li, H., Zhang, C., Zhang, L., Duan, Q., Tan, B., Xu, W., Ma, H., Zhang, W., Liufu, Z., 2004a. Effects of dietary protein to energy ratios on growth and body composition of juvenile Japanese seabass, Lateolabrax japonicus. Aquaculture 230, 507-516.
Ai, Q., Mai, K., Zhang, C., Xu, W., Duan, Q., Tan, B., Liufu, Z., 2004b. Effects of dietary vitamin C on growth and immune response of Japanese seabass, Lateolabrax japonicus. Aquaculture 242, 489-500.
Ai, Q.H., Mai, K.S., Zhang, C.X., Xu, W., Duan, Q.Y., Tan, B.P., Liufu, Z.G., 2004. Effects of dietary vitamin C on growth and immune response of Japanese seabass, Lateolabrax japonicus. Aquaculture 242, 489-500.
Albrektsen S, Sandnes K, Glette J, Waagbo, R., 1995. Influence of dietary vitamin B6 on tissue vitamin B6 contents and immunity in Atlantic salmon, Salmo salar L. Aquacult. Res. 26, 331-339.
Albrektsen, S., Waagbo, R., Sandnes, K., 1993. Tissue vitamin B6 concentrations and aspartate aminotransferase (AspT) activity in Atlantic salmon (Salmo salar) fed graded dietary levels of vitamin B6. FiskDir Skr (Ser Ernaring). 6, 21-34
Amezaga, M.R., Knox, D., 1990. Riboflavin requirements in on-growing rainbow trout, Oncorhynchus mykiss. Aquaculture 80, 87-98.
Anderson, J., Jackson, A.J., Matty, A.J., Capper, B.S., 1984. Effects of dietary carbohydrate and fibre on the tilapia Oreochromis niloticus (Linn.). Aquaculture 37, 303-314.
Andrew J. C., Nathan D.B. 1993. A depletion-repletion folate bioassay based on growth and tissue folate concentrations of rats. J. Nutr. 123, 926-932.
Andrews, J.W., Murai, T., 1978. Dietary niacin requirements for channel catfish. J. Nutr. 108, 1508-1511.
Andrews, J.W., Murai, T., 1979. Pyridoxine requirements of channel catfish. J. Nutr. 109, 533-537.
Aoe, H., Masuda, I., Saito, T., Komo, A., 1967a. Water-soluble vitamin requirement of carp-IV. Requirement for thiamine. Bull. Jpn. Soc. Sci. Fish. 33, 970-974.
Aoe, H. Masuda, I, Saito, T., Komo, A., 1967b. Water-soluble vitamin requirements of carp.1. Requirement for vitamin B2. Bull. Jpn. Soc. Sci. Fish. 33, 355-360.
Aoe, H., Masuda, I., Takada, T., 1967c. Water-soluble vitamin requirements of carp-III. Requirement for niacin. Bull. Jpn. Soc. Sci. Fish. 33, 681-685.
Aoe, H. Masuda, I, Saito, T., Komo, A., 1967d. Water-soluble vitamin requirements of carp.5. Requirement for folic acid. Bull. Jpn. Soc. Sci. Fish. 33, 1068-1071.
Aoe, H., Masuda, I., Mimura, T., Saito, T., Komo, A., Kitamura, T., 1969. Water-soluble vitamin requirements of carp-VI. Requirement for thiamine and effects of antithiamines. Bull. Jpn. Soc. Sci. Fish. 35, 459-465.
Arai, S., Nose, T., Hashimoto, Y., 1972. Qualitative requirements for of young eels, Anguilla japonica, for water-soluble vitamins and their symptoms. Bull. Freshwater Res. Lab. Tokyo 22, 69-83.
Asgnrd, T., Shearer, K.D., 1997. Dietary phosphorus requirement of juvenile Atlantic salmon. Salmo salar. L. Aquacult. Nutr. 3, 17-23.
Ashley, L.M., 1972. Nutritional pathology. In, Halver J.E. (Ed.), Fish Nutrition. Academic Press, Inc., New York, pp. 439-537.
Association of Official Analytical Chemists (AOAC), 1995. Official Methods of Analysis of Official Analytical Chemists International, 16th edn. Association of Official Analytical Chemists. Arlington, VA.
Austreng, E., 1978. Digestibility determination in fish using chromic oxide marking and analysis of contents from different segments of the gastrointestinal tract. Aquaculture 13, 265– 272.
Avila, A.M., Basantes, H.T., Ferraris, R.P., 2000. Dietary phosphorus regulates intestinal transport and plasma concentrations of phosphate in rainbow trout. J. Comp. Physiol. 170B, 201–209.
Axelrod, A.E., 1971. Immune processes in vitamin deficiency states. Am. J. Clin. Nutr. 24, 265-271.
Baeverfjord, G., ?sg?rd, T., Shearer, K.D., 1998. Development and detection of phosphorus deficiency in Atlantic salmon, Salmo salar L., parr and post-smolts. Aquacult. Nutr. 4, 1-11.
Bell, M.V., Henderson, R.J., Sargent, J.R., 1985. Effects of dietary polyunsatuated fatty acid deficies on mortality, growth and gill structure in the turbot, Scophthalmus maximus. J. Fish Biol. 26, 181-191.
Bijvoet, O.L.M., 1980. Indices for the measurement of the renal handling of phosphate. In: Massry, S.G., Fleisch, H. Eds., Renal Handling of Phosphate. Plenum Medical Book, New York, NY, pp. 1–37.
Blaxhall, P., Daisley, K.W., 1973. Routine haemotological methods for use with fish blood. J. Fish Biol. 5, 771-781
Blaxter, J.H.S., Roberts, R.J., Balbontin, F., McQueen, A., 1974. B group vitamin deficiency in cultured herring. Aquaculture 3, 387-389.
Blazer, V. S., Wolke, R. E., 1984. Effect of diet on the immune response of rainbow trout (Salmo gairdneri). Can. J. Fish. Aquat. Sci. 41, 1244-1247.
Bowser, P.R., Wooster, G.A., Aluisio, A.L., Blue, J.T., 1989. Plasma chemistries of nitrite stressed Atlantic salmon Salmo salar. J. World Aquacult. Soc. 20, 173-180.
Boyd, C.E., 1971. Phosphorus dynamic in ponds. Proc. Ann. Conf. South Assoc. Game Comm. 25, 418-426.
Boyd, R.D., Hall, D., Wu, J.F., 1983. Plasma alkaline phosphatase as a criterion for determining biological availability of phosorus for swine. J. Anim. Sci. 57, 396-401.
Brass, E.P., Ruff, L.J., 1992. Rat hepatic coenzyme A is redistributed in response to mitochondrial acyl-coenzyme A accumulation. J. Nutr. 122, 1094-2100.
Brown, M.L., Jaramillo, F., Gatlin, D.M., Ⅲ, 1993. Dietary phosphorus requirements of juvenile sunshine bass, Morone chrysops × M. saxatilis. Aquaculture 113, 355-363.
Brown, M.L., Nematipour, G.R., Gatlin, D.M., Ⅲ, 1992. Dietary phosphorus requirements of juvenile sunshine bass at different salinities. Prog. Fish-Cult. 54, 148-156.
Brunson, M. W., Robinette, H. R., Bowser, P. R., Wellborn, T. L., 1983. Nutritional gill disease associated with starter feeds for channel catfish fry. Prog. Fish-Cult. 45, 119-120.
Bureau, D.P. Cho, C.Y., 1999. Phosphorus utilization by rainbow trout (Oncorhynchus mykiss): estimation of dissolved phosphorus waste output. Aquaculture 179, 127-140.
Butthep, C., Sitasit, P., Bonyaratpalin, M., 1985. Watre-soluble vitamins essential for the growth of Clarias. In, Cho, C.Y., Cowey, C.B., Watanabe, T. (Eds.), Finfish nutritoion in Asia, methodological approaches to reach and development. International Develpoment Research Center, Ottawa. pp. 118-129.
Buyukates, Y., Rawles, S.D., Gatlin, D.M., 2000. Phosphorus fractions of various feedstuffs and apparent phosphorus availability to channel catfish. N. Am. J. Aquac. 2000, 184-188.
Cain, K.D. Garling, D.L., 1995. Pretreatment of soybean meal with phytase for salmonoid diets ti reduce phosphorus concentrations in hatchery effluents. Prog. Fish-Cult. 57, 114-119.
Cain, K.D., Garling, D.L., 1995. Pretreatment of soybean meal with phytase for salmonid diets to reduce phosphorus concentrations in hatchery effluents. Prog. Fish Cult. 57, 114–119.
Carragher, J.F., Sumpter, J.P., 1987. The mobilization of calcium from calcified tissues of rainbow trout (Oncorhynchus mykiss) induced to synthesize vitellogenin. Comp. Biochem. Physiol. 99A, 169-172.
Casillas, E., Sundquist, J., Ames, W.E., 1982. Optimization of assay conditions for, and the selected tissue distribution of, alanine aminotransferase and aspartate aminotransferase of English sole, Parophrys vetulus Girard. J. Fish Boil., 21, 197-204.
Castledine, A.J., Cho, C.Y. Silnger, S.J., Hicks, B., Bayley, H.S., 1978. Influence of dietary biotin level on growth, metabolism and pathology of rainbow trout. J. Nutr. 108, 698-711.
Catacutan, M.R., De la Cruz, M., 1989. Growth and mid-gut cells profile of Penaeus monodon juvenile fed water-soluble-vitamin deficient diets. Aquaculture 81, 137-144.
Chavez-Sanchez, C., Martinez-Palacios, C.A., Martinez-Oerez, G., Ross, L.G., 2000. Phosphorus and calcium requirements in the diets of the American cichlid, Cichlasoma urophalmus (Günther). Aquacult. Nutr. 6, 1-9.
Chen, H.Y., Hwang, G., 1992. Estimation of the dietary riboflavin required to maximize tissue riboflavin concentraction in juvenile shrimp (Penaeus monodon). J. Nutr. 122, 2474-2478.
Chen, H.Y., Wu, F.C., Tang, S.Y., 1991. Thiamin requirement of juvenile shrimp (Penaeus monodon). J. Nutr. 121, 1984-1989.
Cho, C.Y., Woodward, B., 1990. Dietary pantothenic acid requirements of young rainbow trout (Oncorhynchus mykiss). FASEB J. 4, 3747.
Chuang, J.L., 1991. Fish and Shrimp. In: Niacin in Animal Nutrition (eds R., Fenster & RA Blum), pp. 34–37.
Clark, J.B., Ferris, G.M., Pinder, S., 1971. Inhibition of nuclear NAD nucleosidase and poly ADP-ribose polymerase activity from rat liver by nicotinamide and 5'-methyl nicotinamide. Biochim Biophys Acta. 238, 82-5.
Coates, J. A., Halver, J. E., 1958. Water-soluble vitamin requirements of silver salmon. Special Scientific Report Fisheries 281. Washington, D.C., Bureau of Sport Fisheries and Wildlife.
Coburn, S.P., Mahuren, J.D., Schaltenbrand, W.E., Wostmann, B.S., Madsen, D., 1981. Effects of vitamin B6 deficiency and 49-deoxypyridoxine on pyridoxal phosphate concentrations, pyridoxine kinase and other aspects of metabolism in the rat. J Nutr. 111, 391–398.
Coburn, S.P., Mahuren, J.D., Schaltenbrand, W.E., Wostmann, B.S., Madsen, D., 1981. Effects of vitamin B-6 deficiency and 4'-deoxypyridoxine on pyridoxal phosphate concentrations, pyridoxine kinase and other aspects of metabolism in the rat. J. Nutr. 111, 391-398.
Coloso, R.M., King, K., Fletcher, J.W., Hendrix, M.A., Subramanyam, M., Weis, P., Ferraris, R.P., 2003. Phosphorus utilization in rainbow trout (Oncorhynchus mykiss) fed practical diets and its consequences on effluent phosphorus levels. Aquaculture 220, 801–820.
Comacho, A. S. 1978. Characterization of thamine deficiency in channel catfish fed heated and nonheated catfish processing waste. Ph.D. dissertation. Auburn University, Auburn, Alabama.
Cowey, C., Knox, D., Adron, J.W., George, S. Pirie, B., 1977. The production of renal calcinosis by magnesium deficiency in rainbow trout (Salmo gairdneri). BR. J. Nutr. 38: 127-135.
Cowey, C.B., 1992. Nutrition: estimating requirements of rainbow trout. Aquaculture, 100, 177-189.
Cowey, C.B., Adron, J.W., Knox, D., 1975. Studies on the nutrition of marine flatfish. The thiamin requirement of turbot (Scopthalmus maximus). Br. J. Nutr. 34, 383-397.
Cowey, C.B., Woodward, B., 1993. The dietary requirement of young rainbow trout (Oncorhynchus mykiss) for folic acid. J. Nutr. 123, 1594-1600.
Cross, H.S., Deviec, H., Peterlic, M., 1990. Mechanism and regulation of intestinal phosphate absorption. Miner. Electrolyte Metab. 16, 115–124.
Dabrowski, K., 1990. Gulonolactone oxidase is missing in teleost fish. Bio. Chem. Hoppe-Seyler 371, 207-214.
Davis, D.A., Robinson, E.H., 1987. Dietary phosphorus requirements of juvenile red drum Sciaenops ocellatus. J. World Aquacult. Soc. 18, 129-136.
Deng, D.F., Wilson, R.P., 2003. Dietary riboflavin requirement of juvenile sunshine bass (Morone Chrysops♀×Morone Saxatilis♂). Aquaculture, 218, 695-701.
Deshimaru, O., Kuroki, K., 1979. Requirement of prawn for dietary thiamine, pyridoxine, and choline chloride. Bull. Jpn. Soc. Sci. Fish. 45, 363-367.
Dougall, D.S., Woods, L.C. Ⅲ, Douglass, L.W., Soares, J.H., 1996. Dietary phosphorus requirements of juvenile striped bass. J. World Aquacult. Soc. 27, 82-91.
Duan, Q., Mai, K., Zhong, H., Si, L., Wang, X., 2001. Studies on the nutrition of the large yellow croaker, Pseudosciaena crocea R. I: growth response to graded levels of dietary protein and lipid. Aquacult. Res. 32 (Suppl, 1), 46-52.
Duncan, P. L., Lovell, R. T., 1991. Effect of folic acid on growth, survival and hematology in channel catfish (Ictalurus punctatus). Twenty-second Annual Conference of the World Aquaculture Society, San Juan, Puerto Rico, June 16-20, 1991.
Duncan, P.L., Lovell, R.T., Butterworth, C.E., Freeberg, L.F., Tamura, T., 1993. Dietary folate requirement determined for channel catfish, Ictalurus punctatus. J. Nutr. 123, 1888-1897.
Dupree, H.K., 1966. Vitamin essential for the growth of channel catfish, Ictalurus punctatus. U.S. Sport fish and wildlife Tech. Papers 7. pp. 7-13.
El-Zibdeh, M., Yoshimatsu, T., Matsui, S., Furuichi, M., Kitajima, C., Azuma, R., 1995. Requirement of redlip mullet for dietary phosphorus. J. Fac. Agric., Kyushu Univ. 40 (12), 135– 145.
Eya, J.C., Lovell, R.T., 1997. Available phosphorus requirements of food-size channel catfish Ictalurus punctatus fed practical diets in ponds. Aquaculture 154, 283-291.
Fepwick, J.C., Smith, K., Smith, J., Flik, G., 1984. Effect of various vitamin Danalogs on plasma calcium and phosphorus and intestinal calcium absorption in red and unfed American eels. Anguilla rostrata. Gen Comp Endocr, 398-404.
Fisher, L.R., 1960. Vitamins. In, Waterman, Y.H. (Ed.), Physiology of Crustacean, Volume I. Academic Press, New York, NY, pp. 259-289.
Furuichi, M., Yone, Y., 1982a. Availability of carbohydrate in nutrition of carp and red sea bream. Bull. Jpn. Soc. Sci. Fish. 48, 945-948.
Furuichi, M., Yone, Y., 1982b. Effect of insulin on blood sugar levels of fishes. Bull. Jpn. Soc. Sci. Fish. 48, 1289-1291.
Gao, C., Liu, Q., Liang, Y., Han, A., 1998. The optimal content of protein and fat in the artificial diet fed to cultured juvenile seabass (Lateolabrax japonicus). Mar. Fish. Res. 19, 81-85 (In Chinese with English abstract).
Garrod, D.J., Newell, B.S., 1958. Ring formation in Tilapia esculenta. Nature, 181, 1411-1412.
Gatlin, D.M., Philips, H.F., 1989. Dietary calcium, phytate and zine interaction in channel catfish. Aquaculture, 79, 259-266.
Gaylord, T.G., Gatlin, D.M. Ⅲ. 1996. Determination of digestibility of various foodstuffs for red drum (Sciaenops oxellatus). Aquaculture, 139, 303-314.
Gubler, C.J., 1991. Thiamin. In: Handbook of vitamins. Machlin IJ ed. Marcel Dekker NY, pp. 233-281.
Hajen. W.E., Beame, R.M., Higgs, D.A., Dosanjh, B.S., 1993. Digestibility of various feedstuffs by post-juvenile chinook salmon (Oncorhynchus tshawytscha) in sea water, 1. Validation of technique. Aquaculture, 112, 321-332.
Halver, J.E., 1957. Nutrition of salmonoid fishes. III Water-soluble vitamin requirements of chinook salmon. J. Nutr. 62, 225-243.
Halver, J.E., 1972. The vitamins. In, Halver, J.E. (Ed.), Fish Nutrition, Academic press, New York and London, pp. 29-103.
Halver, J.E., 1982. The vitamins required for cultivated salmonids. Comp. Biochem. Physiol. 73, 43-50.
Halver, J.E., 2002. The vitamins. In, Halver J.E. (Ed), Fish Nutrition, 3nd edition. Academic Press, New York, pp. 66-98.
Halver, J.E., Tiews, K., eds. Berlin, Heeneman GmbH. Hashimoto, Y., S. Arai, and T. Nose. 1970. Thiamin deficiency symptoms experimentally induced in the eel. Bull. Jpn. Soc. Sci. Fish. 36, 791-797.
Hardy, R.W., Casillas, E., Cotter, R.T., 1987. Measurement of biotin and pantothenic acid status in rainbow trout (Salmon gaitdneri). Abstract. Ⅱ. International Symposium on Feeding and Nutrition in Fish, August, Bergen, Norway. 23-27.
Hardy, R.W., Fairgrieve, W.T., Scott, T.M., 1991. Periodic feeding of low-phosphorus diet and phosphorus retention in rainbow trout Oncorhynchus mykiss. In: Kaushik, S.J., Luquet, P. (Eds.), Fish Nutrition Practice. INRA, Paris, 1993 (Les Colloques, No. 61), 403-412.
Hardy, R.W., Fairgrieve, W.T., Scott, T.M., 1993. Periodic feeding of low-phosphorus diet and phosphorus retention in rainbow trout (Oncorhynchus mykiss). RW Hardy, WT Fairgrieve, TM Scott Colloques. Institut national de la recherche agronomique(France). Paris[COLLOQ. INRA].
Hashimoto, Y., Arai, S., Nose, T., 1970. Thiamin deficiency symptons experimentally induced in the eel. Bull. Jpn. Soc. Sci. Fish. 36, 791-797.
Hegsted, D. M., 1974. Energy needs and energy utilisation. Nutr. Rev. 32, 33-8.
Henry, Y., Gueguen, L., Rérat, A., 1979. Influence of the level of dietary phosphorus on the voluntary intake of energy and metabolic utilization of nutrients in the growing rat. British Journal of Nutrition 42, 127-137.
Hepher, B. 1988. Vitamins. Pp. 224-234 in Nutrition of Pond Fishes. New York, Cambridge University Press.
Herman, R.L., 1985. Histopathology associated with pyridoxine deficiency in Atlantic salmon (Salmo salar). Aquaculture 46, 173-177.
Hille, S., 1982. A literature review of the blood chemistry of rainbow trout Salmo gairdneri Richardson. J. Fish Biol. 20, 535-569.
Hilton, J.W., 1989. The interaction of vitamins, minerals and diet composition in the diet of fish. Aquaculture 79, 223-244.
Hodges, J.E., Bean, W.B., Ohlsojn, M.A., Bleiler, R.E., 1962a. Factors affecting human antibody response. III. Immunologic responses of men deficient in pantothenic acid. Am. J. Clin. Nutr. 11, 85-93.
Hodges, R.E., Bean, W.B., Ohlsojn, M.A., Bleiler, R.E., 1962b. Factors affecting human antibody response. V. Combined deficiencies of pantothenic acid and pyridoxine. Am. J. Clin. Nutr. 11, 187-119.
Hong, H., Lin, L., Chen, X., Hu, J., Zhou, L., 1999. Studies on the optimal content and protein sparing effect of lipid in artificial foodstuff for Lateolabrax japonicus. J. Jimei Univ. 4, 41-44 (In Chinese with English abstract).
Hosokawa, H., 1989. The vitamin requirements of fingerling yellowtail, Seriola quinqueradiata. Ph. D. dissertation. Kochi University, Japan.
Hossain, M.A. and Jauncey, K., 1993. The effects of varying dietary phytic acid, calcium and magnesium levels on the nutrition of common carp, Cyprinus carpio. Pages 705-715 in S.J.Kaushik and P. Luquet, editors. Fish nutrition in practice. Proceedings of the fourth international symposium in fish nutrition and feeding (Les colloques, no. 61), Institute Nationale de la Recherche Agronomique, Paris, France.
Hu, J., Chen, X., Hong, H., 1995. Evaluation of soybean cake as a substitute for partial fish meal in artificial diets for Lateolabrax japonicus. J. Oceanography in Taiwan Strait 14, 418-421 (In Chinese with English abstract).
Hughes, P.K. Jr. Soares, J.H, 1998. Efficacy of phytase on phosphorus utilization in practical diets fed to striped bass (Morone saxatilis). Aquaculture Nutrition 4, 133-140.
Hughes, S. G. 1984. Effect of excess dietary riboflavin on growth of rainbow trout. J. Nutr. 114, 1660-1663.
Hughes, S. G., Rumsey, G. L., Nichum, J. G., 1981a. Riboflavin requirement of fingerling rainbow trout. Prog. Fish-Cult. 43, 167-172.
Hughes, S. G., Riis, R. C., Nichum, J. G., Rumsey, G. L., 198lb. Biomicroscopic and histologic pathology of the eye in riboflavin deficient rainbow trout (Salmo gairdneri). Cornell Vet. 71, 269-279.
Hwang, S.I., 2000. The folic acid requirements of juvenile hybrid tilapia (Oreochromis niloticus × O. aureus) and juvenile grass shrimp (Penaeus monodon). Master thesis, National Taiwan Ocean University, Keelung, Taiwan.
Ikeda, S. 1985. The vitamin. Pp. 43-53 in Fish Feeds, Y. Yone, ed. Tokyo, Koseisha-Koseikaku (in Japanese).
Ikeda, S., Ishibash, Y., Murata. O., Nasu, T., Harada, T., 1988. Qualitative requirements of the Japanese parrot fish for water-soluble vitamins. Bull. Jpn. Soc. Sci. Fish. 54, 2029-2035.
Jackson, L.S., Li, M.H., Robinson, E.H., 1996. Use of microbial phytase in channel catfish Ictalurus punctatus diets to improve utilization of phytate phosphorus. J. World Aquacult. Soc. 27, 309–313.
Jackson, T.M., Rawling, J.M., Roebuck, B.D., Kirkland, J.B., 1995. Large supplements of nicotinic acid and nicotinamide increase tissue NAD+ and poly (ADP-ribose) levels but do not affect diethylnitrosamine-induced altered hepatic foci in Fischer-344 rats. J. Nutr. 125, 1455-1461.
Jobling, M., 1985. Growth. In fish energetics: New Perspective (Tylter, P. & Calow, P. Eds), pp. 213-230. London: Croom Helm.
John, M.J., Mahajan, C.L., 1979. The physiological response of fishes to a deficiency of cyanocobalamin and folic acid. J. Fish Biol. 14, 127-133.
Johnston, C.E., Homey, B.S., Deluca, S., MacKenzie, A., Eales, J.G., Angus, R., 1994. Changes in alkaline phosphatase isozyme activity in tissues and plasma of Atlantic salmon (Salmo salar) before and during smoltification and gonadal maturation. Fish Physiol. Biochem. 12, 485-497.
Jurss, K. 1978. Effect of pyridoxine deficiency and starvation on activities of aminotransferase in liver and muscle of rainbow trout (Salmo gairdneri). Zool. Jahrb. Physiol. 82, 141-149.
Jurss, K., Jonas, L., 1981. Electron microscopic and biochemical investigations on the pyridoxine deficiency of the rainbow trout (Salmo gairdneri Richardson). Zool. Jahrb. Physiol. 85, 181-196. Karges, R. G., and B.
Kaplan, M.M., 1972. Medical intelligence. Current concepts - alkaline phosphatase. New Engl. J. Med. 286, 200-202.
Kashiwada, K., Kanazawa, A., Teshima, S., 1971. Studies on the production of B vitamins by intestinal bacteria. 6. Production of folic acid by intestinal bacteria of carp. Mem. Fac. Fish. Kagoshima Univ. 20, 185-189.
Kashiwada, K., Teshima, S., Kanazawa, A., 1970. Studies on the production of B vitamins by intestinal bacteria of carp, Cyprinus carpio. Bull. Jpn. Soc. Sci. Fish. 36, 421-424.
Kato, K., Ishibashi, Y., Murata, O., Nasu, T., Ikeda, S., Kumai, H., 1994. Qualitative water-soluble vitamin requirements of tiger puffer. Fisheries Sci. 60, 589-596.
Kawatsu, H., 1975. Studies on the anemia of fish-VII. Folic acid anemia in brook trout. Bull. Freshwater Fish. Res. Lab. 25, 21-31.
Ketola, h.g., 1975. Requirement of Atlantic salmon for dietary phosphorus. Transactions of the American Fisheries Society 104, 548-551.
Ketola, H.G., Harland, B.F., 1993. Influence of phosphorus in rainbow trout diets on phosphorus dischargese in effluent water. Transactions of the American Fisheries Society 122, 1120-1126.
Ketola, H.G., Richmond, M.E., 1994. Requirement of rainbow trout for dietary phosphorus and its relationship to the amount discharged in hatchery effluents. Trans. Amer. Fish. Soc. 123, 587-594.
Ketola, H.G., Westers, H., Houghton, W., Pecor, C., 1991. Effect of diet on growth and survival of coho salmon and on phosphorus discharges from a fish hatchery. American Fisheries Society Symposium 10, 402-409.
Kim, J.D., Kim, K.S., Song, J.S. Lee, J.Y., Jeong, K.S., 1998. Optimum level of dietary monocalcium phosphate based on growth and phosphorus excretion of mirror carp, Cyprinus carpio. Aquaculture 161, 337-344.
Kissil, G.W., Cowey, C.B., Adron, J.W., Richerds, R.H., 1981. Pyridoxine of the gilthead bream, Sparus aurata . Aquaculture 23, 243-255.
Kitamura, S., Suwa, T., Ohara, S., Nakagawa, K., 1967. Studies on vitamin requirements of rainbow troutⅡ. The defficiency symptoms fourteen kinds of vitamin. Bull. Jpn. Soc. Sci. Fish. 33, 1120-1125.
Knowles, J.R., 1989. The mechanism of biotin-dependent enzymes. Annu. Rev. Biochem. 58, 195-221.
Lall, S.P., 1991. Digestibility, metabolism and excretion of dietary phosphorus in fish. In: Cowey C.B., Cho C.Y. (Eds), Proc. Ist Int. Symposium on Nutritional Strategies and Management of Aquaculture Waste. Univ. of Guelph, Guelph, Ontario, Canada, 21-36.
Lall, S.P., 2002. The minerals. In: Halver, J.E., Hardy, R.W. (Eds.) Fish Nutrition, 3 ed., Academic Press, New York, 264-274.
Lall, S.P., Vielma, J., 2001. Phosphorus in fish nutrition. In: Merican, Z. (Ed.), Inter. Aqua Feed. Issue I, Andrew West. Turret RAI, Middlesex, England, 26–29.
Lall, S.P., Weerakoon, D.C.M., 1990. Vitamin B6 requirement of Atlantic salmon (Salmo salar ). FASEB J. 4, A912.
Lederer, W.H., Kumar, M., Axelrod, A.E., 1975. Effects of pantothenic acid deficiency on cellular antibody synthesis in rats. J. Nutr. 105, 17-25.
Lehmitz, R., Spannhof, L., 1977. Transketolase activity and thiamin deficiency in the kidney of rainbow trout, Salmo gairdneri, fed raw herring. Arch. Tierenaehr. 27, 287-295.
Lehninger, A.L. 1975. Biochemistry. Worth Publishers, Inc. New York. 1104 pp.
Leith, D., Holmes, J., Kaattari, S., 1990. Effects of vitamin nutrition on the immune response of hatchery-reared salmonids. Final Report, Project 84-45A and 84-45B. Portland, Ore., Bonneville Power Administration.
Lellis, W.A., 1994. Phosphorus requirement of the Chinook salmon (Oncorhynchus tshawytscha) at three temperatures. Abstract. World Aquaculture Society Meeting, New Orleans, LA.
Li, M.H., Robinson, E.H., 1996. Phosphorus availability of common feedstuffs to channel catfish Ictalurus punctatus as measured by weight gain and bone mineralization.Journal of the World Aquaculure Society 27, 297-302.
Lie, O., Waagboe, R., Sandnes, K., 1988. Growth and chemical composition of adult Atlantic salmon (Salmo salar) fed dry and silage-based diets. Aquaculture 69, 343-353.
Lim, C., Klesius, P.H., 1998. Effect of dietary levels of protein and pyridoxine on hematology and immune response of channel catfish,Aquaculture '98 Book of Abstracts. pp. 328-329.
Lim, C., Klesius, P.H., 2001. Influence of dietary folic acid on growth and resistance of Nile tilapia, Oreochromis niloticus to Streptococcus iniae. 6th Asian Fisheries Forum Book of Abstracts. pp. 150.
Lim, C., LeaMaster, B.R. Brock, J.A., 1995. Pyridoxine requirement of fingerling red hybrid tilapia growth in seawater. J. Appl. Aqualt. 5, 49-60.
Lim, C., LeaMaster, B.R., Brock, J.A., 1993. Riboflavin requirement of fingerlings red hybrid tilapia grown in seawater. J. World Aquacult. Soc. 24, 451-458.
Limsuwan, T., Lovell, R., 1981. Intestinal synthesis and absorption of vitamin B12 in channel catfish. J. Nutr. 111, 2125-2132.
Lin, L., Hu, J., Hong, H., 1994. The most suitable content of protein in the artificial feed to culture Lateolabrax japonicus. J. Xiamen Fisheries College 16, 7-10 (In Chinese with English abstract).
Lovell, R. T., Limsuwan,T., 1982. Intestinal synthesis and dietary nonessentiality of vitamin B12 for tilapia nilotica. Trans. Am. Fish. Soc. 111, 485-490.
Lovell, R.T., 1978. Dietary phosphorus requirement of channel catfish (Ictalurus punctatus). Transactions of the American Fisheries Society 107, 617-621.
Lovell, R.T., 1989. Nutrition and Feeding of Fish. Van Nostrand Reinhold, New York, NY, 260 pp. Lovell, R.T., Buston, J.C., 1984. Biotin supplementation of practical diets for channel catfish. J. Nutr. 114, 1092-1096.
Mahajan, C.L., John, M.J., 1981. Haematological and haemopoietic studies in an air-breathing fish on cyanocobalamin and folacin deficient diet. Scand. J. Haematol. 27, 346-354.
Mai, K., Zhang, C., Ai, Q., Duan, Q., Xu, W., Zhang, L., Liufu, Z., Tan, B., 2006. Dietary phosphorus requirement of large yellow croaker, Pseudosciaena crocea R. Aquaculture 251, 346-353.
Mai, K.S., Wan, J.L.Ai, Q.H., Xu, W., Liufu, Z.G., Zhang, L., Zhang, C.X., Li, H.T., 2006. Dietary methionine requirement of large yellow croaker, Pseudosciaena crocea R. Aquaculture 253, 564–572.
Mali, B., Jaruratt, W., Krasindhu, H., 1994. Pantothenic acid requirements of sea bass. Fish nutrition research in Asia. Proceedings of the fifth Asian Fish Nutrition Workshop. no. 9, pp. 23-29.
Margolis, L. 1953. The effect of fasting on the bacterial flora of the intestine of fish. J. Fish. Res. Board Can. 10, 62-63.
Marks, J., 1975. A guide to the vitamins. Their role in health and disease. Medical and Technical Publ., lancaster, England, pp. 73-82.
Martinez, C.D., Escobar, B.L., Olvera-novoa, M.A., 1990. The requirement of Cilasoma urophthalmus (Cunther) fry for pantothenic acid and the pantothenic signs of deficiency. Aquacult. Fish. Manag. 21, 145-156.
Masumoto, T., Hardy, R.W., Stickney, R.R., 1994. Pantothenic acid deficiency detection in rainbow trout (Oncorhynchus mykiss). J. Nutr. 124, 430-435.
Masumoto, T., R. W. Hardy, and E. Casillas. 1987. Comparison of transketolase activity and thiamin pyrophosphate levels in erythrocytes and liver of rainbow trout (Salmo gairdneri) as indicators of thiamin status. J. Nutr. 117, 1422-1426.
Masutomo, T., Hardy, R.W., Stickney, R.R., 1993. Gill lipid metabolism in pantothenic acid-deficient rainbow trout (Oncorhynchus mykiss). In: Fish Nutrition in Practice (Kanshik, S.J., Luquet, P., eds.), pp. 247-256. INRA, (Les Colloques, n.61), Paris, France.
Mattivi, F., Monetti, A., Vrhov?ek, U., Tonon, D., Andrés-Lacueva, C., 2000. High-performance liquid chromatographic determination of the riboflavin concentration in white wines for predicting their resistance to light. Journal of Chromatography A 888, 121–127.
Mavnard, R.A., loosli, J. K., 1969. Animal nutrition, 6thed., McGraw-Hill. New York . Maynard, L.A., Loosli, J.K., Hintz, H.F., Warner, R.G., 1979. Animal Nutrition.McGraw-Hill, New York, NY. pp., 283-355.
McClain, W.R., Gatlin, D.M., 1988. Dietary zinc requirement of Oreochromis aureus and effects of dietary calcium and phytate on zinc bioavailability. Journal of the World Aquaculture Society 19, 103-108.
McDowell, L.R., 1989. Vitamins in animal nutrition. pp.236-255.
McLaren, B.A., Keller, E., O’Donnell, D.J., Elvehjem, C.A., 1947. The nutrition of rainbow trout. I. Studies of vitamin requirements. Arch. Biochem. Biophys. 15, 169-178.
Meisler, N.T., Thanassi, J.W., 1980. Pyridoxine kinase, pyridoxine phosphate phosphatase and pyridoxine phosphate oxidase activities in control and B-6-deficient rat liver and brain. J Nutr. 110, 1965–1975.
Mitchell, H.K., Snell, E.E., Williams, R.J., 1941. The concentration of folic acid. J. Am. Chem. Soc. 63, 2284.
Mohamed, J.S., 2001. Dietary pyridoxine requirement of the Indian catfish, Heteropneustes fossilis. Aquaculture, 194, 327-335.
Morito, C.L.H., Conrad, D.H., Hilton, J.W., 1986. The thiamin deficiency signs and requirement of rainbow trout (Salmo gairdneri, Richardson). Fish Physiol. Biochem. 1, 93-104.
Mugiya, Y., Watabe, N., 1977. Studies on fish scale formation and resorption: Ⅲ. Effect of estradiol on calcium homeostasis and skeletal tissue resorption in the goldfish. Carassius auratus and the killifish Fundulus heteroclitus. Comp. Biochem. Physiol. 57A. 197-202.
Murai, T., Andrews, J.W., 1978a. Thiamin requirement of channel catfifh fingerlings. J. Nutr. 108, 176-180.
Murai, T., Andrews, J.W, 1978b. Riboflavin requirement of channel catfish fingerlings. J. Nutr. 108, 1512-1517.
Murai, T., Andrews, J.W., 1979. Pantothenic acid requirements of channel catfish fingerlings. J. Nutr. 109, 1140-1142.
Nakamura, Y., 1982. Effects of dietary phosphorus and cacium contents on the absorption of phosphorus in the digestive tract of carp. Bull. Jpn. Sci. Fish.,48 (3), 409-414.
National R. C., 1983. Nutrient requirements of warmwater fishes and shellfishes,.Washington, D. C. , National ACADEMY PRESS, 25-27.
National Research Council (NRC), 1977. Nutrition Requirement of Fish. National Academy Press, Washington, DC, pp. 1-78.
National Research Council (NRC), 1981. Nutrition requirements of coldwater fishes. National Academy Press, Washington, USA, pp. 14-17.
National Research Council (NRC), 1983. Nutrition requirements of warmwater fishes and shellfish. National Academy Press, Washington, USA, pp. 1-78.
National Research Council (NRC), 1993. Nutrient requirement of fish. In Nutrient Requirement of Domestic Animals, No. 16. National Academic Press, Washington, DC, pp. 114.
National Research Council, (NRC), 1993. Nutrient Requirements of Fish. National Academy Press, Washington, DC.
Ng, W.K., Serrini, G., Zhang, Z., Wilson, R.P., 1997. Niacin requirement and inability of tryptophan to act as a precursor of NAD+ in channel catfish, Ictalurus punctatus. Aquaculture 152, 273-285.
Nimo, R.D., Peo, E.R., Jr., Moser, B.D., Cunningham, P.G., Olson, D.G., Crenshaw, T.D., 1980. Effect of various levels of calcium and phosphorus on performance, blood and bone parameters in growing boars. J. Anim. Sci. 51, 100-109.
Nordrum, S., Asgard, T., Shearer, KD, Arnessen, P., 1997. Availability of phosphorus in fish bone meal and inorganic salts to Atlantic salmon (Salmo salar) as determined by retention . Aquaculture, 157, 51-61.
Nose, T., Arai, S., 1976. Resent advances in studies on mineral nutrition offish in Japan. In, T.V.R. Pillay and W.A. Dill (Editors), Advances in Aquaculture. Papers Presented at the FAO Technical Conference on Aquaculture, 26 May-2 June 1976, Kyoto, Japan. Fishing News Ltd.
Nose. T., Arai, S., 1976. Recent advances in studies on the mineral nutritoin of fish in Japan. FAOTech. Conf. Aquaculture, 12 pp.
Ogino, C., 1965. B vitamins requirements of carp, Cyprinus carpio-I. Deficiency symptons and requirement of vitamin B6. Bull. Jpn. Soc. Sci. Fish. 31, 546-551.
Ogino, C., 1967. B vitamin requirements of carp-II. Requirements for riboflavin and pantothenic acid. Bull. Jpn. Soc. Sci. Fish. 33, 351-354.
Ogino, C., Takeda, H., 1978. Requirements of rainbow trout for dietary calcium and phosphorus. Bull. Jpn. Soc. Sci. Fish. 44, 1019-1022.
Ogino, C., Takeuchi, L., Takeda, H., Watanabe, T., 1979. Availability of dietary phosphorus in carp and rainbow trout. Bull. Jap. Sci. Fish., 45(12), 1527-1532.
Ogino, C., Watanabe, T., Kakino, J., Iwanaga, N., Mizuno, M., 1970a. B vitamin requirements of carp-Ⅲ. Requirement for biotin. Bull. Jpn. Soc. Sci. Fish. 36, 734-740.
Ogino, C., Uki, N., Watanabe, T., Iida, Z., Ando, K., 1970b. B vitamin requirements of carp-IV. Requirements for choline. Bull. Jpn. Soc. Sci. Fish. 36, 1140-1146.
Oliva-Teles, A., Pereira, J.P., Gouveia, A., Gomes, E., 1998. Utilisation of diets supplemented with microbial phytase by seabass (Dicentrarchus labrax) juveniles. Aquat. Living Resour. 11, 255-259.
Onishi, T., Suzuki, M., Takeuchi, M., 1981. Change in earp hepatopancreatic enzyme activity with dietary phosphorus levels. Bull. Jpn. Soc. Fish. 47, 353-357.
Ouchi, K., Yamada, J., Kosaka, S., 1972. On the resorption of scales and associated cells in precocious male parr of the Masu salmon (Oncorhynchus masou). Bull. Jpn. Soc. Fish. 38, 423-430.
Pan, Y., Wang, F., Liu, H., 2000. Optimal proportion of fish meal and soybean cake in formulated diets of juvenile sea perch Lateolabrax japonicus. J. Dalian Fish. College 15, 157–163. (In Chinese with English abstract).
Panush, R.S., Delafuente, J.C., 1985. Vitamins and immunocompetence. World Rev. Nutr. Diet 45, 97-123.
Papatryphon, E., Howell, R.A., Soares, Jr.J.H., 1999. Growth and mineral absorption by striped bass Morone saxatilis fed a plant feedstuff based diet supplemented with phytase. The Journal of the World Aquaculture Society. 30, 161-173.
Persson, P., Sundell, K., Bjornsson, B.T., 1994. Estradiol-17β-induced calcium uptake and resorption in juvenile rainbow trout Oncorhynchus mykiss. Fish Physiol. Biochem.. 13, 379-386.
Persson, P., Takagi, Y., Bjornsson, B.T., 1995. Tartrate resistant acidphosphatase as a marker for scale resorption in rainbow trout Oncorhynchus mykiss: effect of estradiol-17β treatment and refeeding. Fish Physiol. Biochem. 14, 329-339.
Peterson W.H., Peterson, M.S. 1945. Relationship of bacteria to vitamins and the other growth factor. Bacteriol. Rev. 9, 49-86.
Pfeffer, E., Piper, A., 1979. Application of the factorial approach for deriving nutrient requirement for growing fish. In: Halver, J.E. Tiews,K. (Eds.), Fish Nutrition and Fishfeed Technology, Vol. IL. Heeneman Verlagsgesellschaft mbH Berlin , 545-553.
Phillips, A. M., Brockway, D. R., 1947. The niacin and biotin requirement of trout. Trans. Am. Fish. Soc. 76, 152-159.
Phillips, A. M., Podoliak, Jr., H. A., Poston, H. A., Livingston, D. L., Booke, H. E., Pyle, E. A., Hammer, G. L., 1964. The production of anemia in brown trout. Pp. 66-70 in Fisheries Research Bulletin No. 27. Albany, N.Y., State of New York Conservation Department.
Phillips, A.M. Jr., 1962. Effect of dietary and water temperature on the blood phosphorus of brook trout. Prog. Fish-Cult. 24, 22-25.
Phillips, A.M., 1963. Folic acid as an anti-anemia factor for brook trout. Prog. Fish-Cult. 25, 132-134.
Phillips, A.M., Tunison, A.V., Shaffer, H.B., White, G.K., Sallivan, M.W., Vincent, C., Brockway, D.R., McCay, C.M., 1945. The nutrition of trout. The vitamin requirement of trout. Fish. Res. Bull. 7, 1-31.
Phillips. A.M., Jr., Podoliak. H.A. Brockway, D.R., Vaughn, R.R., 1958. The nutrition of the trout. Fish. Res. Bull., 21, 93.
Pike, R.H., Brown, M.L., 1984. Nutrition: An Integrated Approach, 3rd ed., John Wiley and Sons, New York, NY. pp, 84-136.
Poston, H.A. 1969. The effect of excess levels of niacin on the lipid metabolism of fingerling brook trout. Pp. 9-12 in Fisheries Research Bulletin No. 32. Albany, N.Y., State of New York Conservation Department.
Poston, H.A., DiLorenzo, R.N., 1973. Tryptophan conversion to niacin in the brook trout (Salvelinus fontinalis). Proc. Soc. Exp. Biol. Med. 144, 110-112.
Poston, H.A., 1976a. Relative effect of two dietary water-soluble analogues os menaquinone on coagulation and packed cell volume of blood of lake trout, Salvelinus namaycush. J. Fish. Res. Board Can. 33, 1791-1793.
Poston, H.A., 1976b. Optimum level of dietary biotin for growth, feed utilization, and swimming stamina of fingerling lake trout (Salvelinus namaycush). J. Fish. Res. Board Can. 33, 1803-1806.
Poston, H.A., McCartney, T.H., 1974. Effect of dietary biotin and lipid on growth, stamina, lipid metabolism and biotin-containing enzymes in brook trout (Salvelinus fontinalis). J. Nutr. 104, 315-322.
Poston, H.A., Page, J.W., 1982. Gross and histological signs of dietary deficiencies of biotin and pantothenic acid in lake trout, Salvelinus namaycush. Cornell Vet. 72, 242-261.
Poston, H.A., Wolfe, M.J., 1985. Niacin requirement for optimum growth, feed conversion and protection of rainbow trout, Salmo gairdneri Richardson, from ultraviolet-B-irraduaiton. J. Fish Dis. 8, 451-460.
Rao, S.K., Roland, D. A. Sr., Orban, J.I., Rabon, H.W. Jr., Bryant, M.M., 1995. Age at sexual maturity influences the response of single comb white leghorn pullets to marginal and low levels of dietary phosphorus. J. Nutr. 125, 342-350.
Reibel, D.K., Wyse,B.W., Berkich, D.A., Neely, J.R., 1982. Coenzyme A metabolism in pantothenic acid deficient rats. J. nutr. 112, 1144-1150.
Richardson, N.L., Higgs, D.A., Beames, R.M., McBride, J.R., 1985. Influence of dietary calcium, phosphorus, zinc and sodium phytaye level on cataract incidence, growth and histopathology in juvenile chinook salmon (Oncorhynchus tshawytscha). Journal of Nutrition 115, 553-567.
Riche, M., Brown, P.B., 1999. Incorporation of plant protein feedstuffs into fish meal diets for rainbow trout increases phosphorus availability. Aquacult. Nutr. 5, 101– 105.
Riche. M., Brown, P.B., 1996. Availability of phosphorus from feedstuff fed to rainbow trout , Oncorhynchus mykiss. Aquaculture 142, 269-282.
Robbins, K.R., Norton, H.W., Baker, D.H., 1979. Estimation of nutrient requirements from growth data. J. Nutr. 109, 1710–1714.
Roberts, R.J., Shepherd, C.J., 1986. Handbook of Trout and Salmon Disease. 2nd edition. Great Britain. pp. 160-167.
Robinson, E.H., 1984. Vitamin requirements. In, Robinson, E.H., Lovell, R.T. (Eds.), Nutrition and Feeidng of channel catfish. Southern cooperative series Bulletin, No. 296 pp. 21-25.
Robinson, E.H., Bomascus, D.L. Brown, P.B., Linton, T.L., 1987. Dietary calcium and phosphorus requirements of Oreochromis aureus reared in calcium-free water. Aquaculture 64, 267-276.
Robinson, E.H., Jackson, L.S. Li, M.H., 1996. Supplemental phosphorus in practical channel catfish Ictalurus punctatus diets. Journal of the World Aquaculture Society 27:303-308.
Robinson, E.H., Lovell, R.T., 1978. Essentiality of biotin for channel catfish Ictalurus punctatus fed lipid and lipid-free diets. J. Nutr. 108, 1600-1605.
Robinson, E.H., Wilson, R.P., 1985. Nutrition and Feeding. In, Tucker, C.S. (Ed.), Channel Catfish Culture. Netherlands, pp. 323-404.
Robisshaw, J.D., Neely, J.R., 1985. Coenzyme A metabolism. Am. J. Physiol. 248, 1-9.
Rodehutscord, M., 1996. Response of rainbow trout (Oncorhynchus mykiss ) growing from 50 to 500g to supplements of dibasic sodium phosphate in semipurified diets. J. Nutr. 126, 324-331.
Rodehutscord, M., Becker, A., Pfeffer, E., 1995. Einfluss des zusatzes einer Aspergillus niger-Phytase auf. Die Verwertung pflantlichen Phosphorus durch die Forelle (Oncorhynchus mykiss ). Arch. Anim. Nutr. 48, 211-219.
Rodehutscord, M., Gregus, Z., Pfeffer, E., 2000. Effect phosphorus intake on faecal and non-faecal phosphorus excretion in rainbow trout (Oncorhynchus mykiss) and the consequences for comparative phosphorus availability studies. Aquaculture 188, 383– 398.
Rodehutscord, M., Pfeffer, E., 1995. Effects of supplemental microbial phytase on phosphorus digestibility and utilization in rainbow trout (Oncorhynchus mykiss ). In: Cowey, C. B. (Ed.), Proc. Int. Symp. Nutritional Strategies and Management of Aquaculture Waste,Rebild, Denmark, 24-27 April 1994. Water Sci. Technol. 31, 143-147.
Rodehutscord, M., Pfeffer, E., 1995. Requirement for phosphorus in rainbow trout (Oncorhynchus mykiss) growing from 50 to 200 g. Water Sci. Tech. 31, 137-141.
Roem, A.J., Sticjney, R.P., Kohler, C.C., 1990. Vitamin requirements of blue tilapias in a recirculating water system. Prog. Fish-Cult. 52, 15-18.
Roem, A.J., Sticjney, R.P., Kohler, C.C., 1991. Dietary pantothenic acid requirement of the blue tilapia. Prog. Fish-Cult. 53, 216-219.
Roth-Maier, D.A., Kirchgessner, M., 1977a. Studies on the optimal pantothenic acid requirement of market pigs. Z. Tierphysiol. Tierernahrung. Futtermittelkde. 38, 121-131.
Roth-Maier, D.A., Kirchgessner, M., 1977b. Selected problems of B vitamins in animal nutrition.Livestock production Sci., 4, 177-189
Roy, P.K., Lall, S.P., 2003. Dietary phosphorus requirement of juvenile haddock (Melanogrammus aeglefinus L.). Aquaculture 221, 451-468.
Ryu, K.S., Eitenmiller, R.R., Pesti, G.M., 1994. A comparison of enzyme preparations to liberate folic acid for the microbiological assay of feed ingredients. J. Sci. Food Agic., 64, 389-392.
Sakaguchi, H., Hamaguchi, A., 1979. Physiological studies on cultured red sea bream: I. Seasonal variation of chemical constituents in plasma, hepatopancreas and other viscera. Bull. Jpn. Soc. Sci. Fish. 45, 443-448.
Sakaguchi, H., Takeda, F., Tange, K., 1969. Studies on vitamin requirements by yellowtail I.Vitamin B6 and vitamin C deficiency symptoms. Bull. Jpn. Soc. Sci. Fish. 35, 1201-1206.
Sakamoto, S. and Yone, Y., 1979. Availabilities phosphorus compounds as dietary phosphorus sources for red sea bream.Journal of the Faculty of Agriculture of Kyushu University 23, 177-184.
Sakamoto, S., Yone, Y., 1973. Effects of dietary calcium/phosphorus ratio upon growth ,feed efficiency and blood serum Ca and P level in ed sea bream. Bull. Jpn. Sci. Fish., 39(4), 343-348.
Sakamoto, S., Yone, Y., 1978. Effects of dietary phosphorus level on chemical composition of red sea bream. Bull. Jpn. Soc. Sci. Fish. 44, 227-229.
Sakamoto, S., Yone, Y., 1980. A principal source of deposited lipid in phosphorus deficient red sea bream. Bull. Jpn. Soc. Sci. Fish. 46, 1227– 1230.
Sakti Vel, M., Sampath, K., Pandian, T.J., 1990. Dosage effect of pyridoxin, folacin and ascorbic acid on the blood parameters of Cyprinus carpio. In, Hirano, R., Hanyu, I. (Eds.), The Second Asian Fisheries Forum. Asian Fisheries Society, Manila, Philippines, pp. 263-266.
Sandnes, K., Lie, ?., Waagb?, R., 1988. Normal ranges of some blood chemistry parameters in adult farmed Atlantic salmon, Salmo salar. J. Fish Biol., 32, 129–136.
Satoh, S., Hernández, A., Tokoro, T., Morishita, Y., Kiron, V., Watanabe, T., 2003. Comparison of phosphorus retention efficiency between rainbow trout (Oncorhynchus mykiss) fed a commercial diet and a low fish meal based diet. Aquaculture 224, 271-282.
Satoh, S., Takanezwa, M., Akimoto, A., Kiron, V., Watanabe, T., 2002. Changes of phosphorus absorption from several feed ingredients in rainbow trout during growing stages and effect of extrusion of soybean meal. Fisheries Sci. 68, 325-331.
Sauer, D.M., Haider, G., 1977. Enzyme activities in the serum of rainbow trout, Salma gairdneri Richardson: the effects of water temperature. J. Fish Biol. 11, 605-612.
Sauer, D.M., Haider, G., 1979. Enzyme activities in the plasma of rainbow trout, Salmo gairdneri Richardson, the effects of nutritional status and salinity. J. Fish Biol. 14, 407-412.
Schoefer, A., Koppe, W.M., Meyer-Burgdorff, K.H., Gunther, K.D., 1995a. Effects of P-supply on growth and mineralization in mirror carp (Cyprinus carpio L.). J. Appl. Ichthyol. 11, 397-400.
Schofer, A., Koppe, W.M., Meyer-Burgdorff, K.H., Günter, K.D., 1995b. Effect of a micorbial phytase on the utilization of native phosphorus by carp in a diet based on soybean meal. In: Cowey, C. B. (Ed.), Proc. Int. Swmp. Nutritional Strategies and Management of Aquaculture Waste, Rebild, Denmark, 24-27 April 1994,Water Sci. Technol. 31, 149-155.
Schwarz, F.J., 1995. Determination of mineral requirements of fish. J. Appl. Ich. 11, 164-174. Seiverd, C.E., 1964. Haematology for Medical Technologists. Lea and Febiger, Philadelphia. pp. 946
Serrini, G., Zhang, Z., Wilson, R.P., 1996. Dietary riboflavin requirement of fingerling channel catfish (Ictalurus punctatus). Aquaculture 139, 285-290.
Shearer, K.D., 1984. Changes in elemental composition of hatchery-reared rainbow trout, Salmo gairdneri, associated with growth and reproduction. Can. J. Fish. Aquat. Sci. 41, 1592– 1600.
Shearer, K.D., 1989. Whole body magnesium concentration as an indicater of magnesium status in rainbow trout (Salmo gairdneri). Aqaculture 77, 201-210.
Shearer, K.D., 1995. The use of factorial modeling to determine the dietary requirements for essential elements in fishes. Aquaculture 133, 57– 72.
Shearer, K.D., 2000. Experimental design, statistical analysis and modeling of dietary nutrient requirement studies for fish: a critical review. Aquacult. Nutr. 6, 91–102.
Shearer, K.D., Asgard, T., 1990. Availability of dietary magnesium to rainbow trout as determined by apparent retention Aquacu. lture, 86, 51-61.
Shearer, K.D., Hardy, R.W., 1987. Phosphorus deficiency in rainbow trout fed a diet containing deboned fillet scrap. Prog. Fish-Cult. 49, 192-197.
Shiau S.Y., Wu, M.H., 2003. Dietary vitamin B6 requirement of grass shrimp, Penaeus monodon. Aquaculture, 225, 397-404.
Shiau, S.Y., Chen, M.J., 1993. Carbohydrate utilization by tilapia (Oreochromis niloticus × O. aureus) as influenced by different chromium sources. J. Nutr. 123, 1747-1753.
Shiau, S.Y., Chin, Y.H., 1998. Dietary biotin requirement for maximum growth of juvenile grass shrimp, Penaeus monodon. J. Nutr. 128, 2494-2497.
Shiau, S.Y., Chin, Y.H., 1999. Estimation of the dietary biotin requirement of juvenile hybrid tilapia, Oreochromis niloticus × O. aureus. Aquaculture 170, 71-78.
Shiau, S.Y., Hsieh, H.L., 1997. Vitamin B6 requirements of tilapia Oreochromis niloticus × O. aureus fed two dietary protein concentrations. Fisheries Sci. 6, 1002-1007.
Shiau, S.Y., Hsu, C.W., 1999. Dietary pantothenic acid requirement of juvenile grass shrimp, Penaeus monodon. J. Nutr. 129, 718-721.
Shiau, S.Y., Huang, S.Y., 2001. Dietary folic acid requirement determined for grass shrimp, Penaeus monodon. Aquaculture, 200, 339-347.
Shiau, S.Y., Lin, S.F., 1993. Effect of supplemental dietary chromium and vanadium on the utilization of different carbohydrates in tilapia, Oreochromis niloticus × O. aureus. Aquaculture 110, 321-330.
Shiau, S.Y., Lung, C.Q., 1993a. No dietary vitamin B12 required for juvenile tilapia Oreochromis niloticus × O. aureus. Comp. Biochem. Physiol. 105A, 147-150.
Shiau, S.Y., Lung, C.Q., 1993b. Estimation of the vitamin B12 requirement of the grass shrimp, Penaeus monodon. Aquaculture 117, 157-163.
Shiau, S.Y., Suen, G.S., 1992. Estimation of the niacin requirements for tilapia fed diets containing glucose or dextrin. J. Nutr. 122, 2030-2036.
Shiau, S.Y., Suen, G.S., 1994. The dietary requirement of juvenile grass shrimp (Penaeus monodon) for niacin. Aquaculture 25, 139-145.
Shim, K.F., and Ho, C.S., 1989. Calcium and phosphorus requirements of guppy Poecilia reticulata. Nippon Suisan Gakkaishi 55, 1947-1953.
Shimeno, S., 1991. Yellowtail, Seriola quinqueradiata. In, Handbook of Nutrition Requirement of Finfish, Wilson, R.P. (Ed.), Boca Raton, pp. 181-191.
Skonberg, D.I., Yogev, L., Hardy, R.W., Dong, F.M., 1997. Metabolic response to dietary phosphorus intake in rainbow trout (Oncorhynchus mykiss). Aquaculture 157, 11-24.
Smith, C.E., 1968. Hematological changes in coho salmon fed a folic acid deficient diet. J. Fish. Res. Board Can. 25, 151-156.
Smith, C.E., Brin, M., Halver, J.E., 1974. Biochemical, physiological, and pathological changes in pyridoxine deficient rainbow trout (Salmo gairdneri ). J. Fish. Res. Board Can. 31, 1893-1898.
Smith, C.E., Halver, J.E., 1969. Folic acid anemia in coho salmon. J. Fish. Res. Board Can. 26, 111-114.
Smith, C.M., Song, W.O., 1996. Comparative nutrition of pantothenic acid. J. Nutr. Biochem. 7, 312-321.
Snieszko, S.F., 1972. Nutritional fish disease. In, Halver, J.E. (Ed.), Fish Nutrition. Academic Press. New York, pp. 403-437.
Soliman, A.K., Wilson, R.P., 1992a. Water-soluble vitamin requirements of tilapia. 2. Riboflavin requirement of blue tilapia, Oreochromis aureus. Aquaculture 104, 309-314.
Soliman, A.K., Wilson, R.P., 1992b. Water-soluble vitamin requirements of tilapia. 1. Pantothenic acid requirement of blue tilapia, Oreochromis aureus. Aquaculture 104, 121-126.
Spinelli, J., Houle, C.R. Wekell, J.C., 1983. The effects of phytates on the growth of rainbow (Salmo gairdneri) fed purified diets containing varying quantites of calcium and magnesium. Aquaculture, 30, 71-83.
Steffens, W., 1970. The vitamin requirements of rainbow trout (Salmo gairdneri). Int. Rev. Ges. Hydrobiol. 59,255-282.
Stickney, R.R., McGeachin, R.B., Lewis, D.H., Marks, J., Sis, R.F., Robinson, E.H., Wurts, W., 1984. Respones of Tilapia aurea to dietary vitamin C. J. World Aquacult. Soc. 15, 179-185.
Stokstad, E.L.R., Koch, J.,1967. Folic acid metabolism. Physiol, Rev., 47, 83-116.
Sorebakken, T., Shearer, K.D., Roem, A.J., 1998. Availability of protein, phosphorus and other elements in fish meal, soy-protein concentrate and phytase-treated soy-protein-concentrate-based diets to Atlantic salmon, Salmo salar. Aquaculture 161, 365–379.
Sugita, H., Miyajima, C., Deguchi, Y., 1990. The vitamin B12 producing ability of intestinal bacteria isolated from tilapia and channel catfish. Nippon Suisan Gakkaishi 56, 701.
Sugita, H., Miyajima, C., Deguchi, Y., 1991a. Vitamin B12 pruducing ability of the intestinal microflora of fresh water fish. Aquaculture 92, 267-276.
Sugita, H., Takahashi, J., Deguchi, Y., 1992. Production and consumption of biotin by the intestinal microflora of cultured freshwater fishes. Biosci., Biotechnol., and Biochem. 56, 1678-1679.
Sugita, H., Takahashi, J., Miyajima, C., Deguchi, Y., 1991b. Vitamin B12 pruducing ability of the intestinal microflora of rainbow trout (Oncorhynchus mykiss). Agric. Biol. Chem. 55, 893-894.
Sugiura S.H., Dong F.M., Hardy R.W., 1998. Effects of dietary supplements on the availability of minerals in fish meal; preliminary observations. Aquaculture 160, 283-303.
Sugiura, S.H., Raboy, V., Young, K.A., 1999. Availability of phosphorus trace elements in low-phytate varieties of barley and corn for rainbow trout (Oncorhynchus mykiss). Aquaculture, 70, 285-296.
Sugiura, S.H., Raboy, V., Young, K.A., Dong, F.M., Hardy, R.W., 1999. Availability of phosphorus and trace elements in low-phytate varieties of barley and corn for rainbow trout (Oncorhynchus mykiss). Aquaculture 170, 285–296.
Swarp, K., Das, V.K., Norman, A.W., 1991. Dose-dependent vitamin D and 1.25-hyphosphatemina D induced in male cyprinoid Cyprinus carpio. Comp Biochem Physiol 100A, 445-457.
Swarup, K., Norman, A.W., Srivastav, A.K., Srivastav, S.P., 1984. Dose-dependent vitamin D. and 1.25-dihyxyvitamin in male catfish Clarias Batrachus. Comp Biochem Physiol, 78B, 535-545.
Swiatek, K.R., Simon, L.N., Chao, K.L., 1973. Nicotinamide methyltransferase and s-adenosylmethionine: 5 ′-methylthioadenosine hydrolase control of transfer ribonucleic acid methylation. Biochemistry, 12, 23.
Takeda, T., Yone, Y., 1971. Studies of nutrition red seabream. 2. Comparison of vitamin B6 requirement level between fish fed a synthetic diet and fish fed beef liver during prefeeding period Rep. Fish. Res. Lab., Kyushu Univ., 1, 37-47.
Takeuchi, L., Takeuchi, T., Ogino, C., 1980. Riboflavin requirements in carp and rainbow trout. Bull. Jpn. Soc. Sci. Fish. 46, 733-737.
Takeuchi, M., Nakazoe, J., 1981. Effect of dietary phosphorus on lipid content and its composition in carp. Bull. Jpn. Soc. Sci. Fish. 47, 347-352.
Teskeredzic, Z., Higgs, D.A., Dosanjh, B.S., McBride, J.R., Hardy, R.W., Simell, M., Vaara, T., Bridges, R.B., 1995, Assessment of unphytinized and dephytinized rapeseed protein concentrate as sources of dietary protein for juvenile ralnbow trout (Oncorhynchus mykiss). Aquaculture, 131, 261-277.
Tietz, N.W., 1986. Textbook of Clinical Chemistry. W.B. Saunders, Philadelphia, 1919 pp. Vielma, J., Koskela, J., Ruohonen, K., 2002. Growth, bone mineralization, and heat and low oxygen tolerance in European whitefish (Coregonus lavaretus L.) fed with graded levels of phosphorus. Aquaculture 212, 321-333.
Vielma, J., Lall, S.P., 1998. Control of phosphorus homeostasis of Atlantic salmon (Salmo salar) in fresh water. Fish Physiol. Biochem. 19, 83– 93.
Vielma, J., Lall, S.P., Koskela, J., Scho¨ner, F.-J., Mattila, P., 1998. Effects of dietary phytase and cholecalciferol on phosphorus bioavailability in rainbow trout, Oncorhynchus mykiss, W. Aquaculture 163, 307–321.
Vi?uela, J., Ferrer, M., Recio, F., 1991. Age-related variations in plasma levels of alkaline phosphatase, calcium and inorganic phosphorus in chick of two species of raptors. Comp. Biochem. Physiol. 99A, 49-54.
Walton, M. J., Cowey, C. B., Andron, J. W., 1984. Effects of biotin deficiency in rainbow trout (Salmo gairdneri) fed diets of different lipid and carbohydrate content. Aquaculture 37, 21-38.
Wanakowat, J., Boonyaratpalin M., Pimoljinda, T., and Assavaaree, M., 1990. Vitamin B-6 requirement of juvenile seabass, Lates calcarifer. In Takeda, M., and Watanabe, T., eds. Current Status of Fish Nutrition in Aquaculture, Tokyo University of Fisheries, Tokyo, Japan. pp. 141-147.
Wasserman, R.H., 1960. Calcium and phosphorus interactions in nutrition and physiology. Fed. Am.Soc. Exp. Biol., 19, 636-642.
Watanabe, T., Murakami, A., Takeuchi, L., Nose, T., Ogino, C., 1980. Requirement of chum salmon held in freshwater for dietary phosphorus. Bull. Jpn. Soc. Sci. Fish. 46, 361-367.
Watanabe, T., Satoh, S., Takeuchi, T., 1988. Availability of minerals in fishmeal to fish. Asian Fish. Sci. 1, 175-195.
Were, K.E., 1989. Determination of the tryptophan requirement of the juvenile rainbow trout using the indicator oxidation technique. M.Sc. Thesis, University of Guelph, Guelph, Canada, 199pp.
Wilson, R.P., Bowser, P.R., Poe, W.E., 1983. Dietary pantothenic acid requirement of fingerling catfish. J. Nutr. 113, 2224-2228.
Wilson, R.P., Robinson, F.H., Gatlin, D.M., Ⅲ,Poe, W.E., 1982. Dietary phosphorus requirement of channel catfish. Journal of Nutrition 112, 1197-1202.
Wirtschafter, Z.T., Walsh, J.R., 1962. Hepatocellular Lipoid Changes in Pantothenic Acid Deficiency. Am J Clin Nutr. 10, 525-30
Wise, A., 1983. Dietary factors determining the biology activities of phytate. Nutrition Abstract Reviews. 53, 791-807.
Wittwer, C.T., Beck, S., Peterson, M., Davidson, R., Wilson, D.E., Hansen, R.G., 1990. Mild pantothenate deficiency in rats elevates serum triglyceride and free fatty acid levels. J Nutr. 120, 719-25.
Wolf, L.E., 1951. Diet experiments with trout. 1. A synthetic formula for dietary studies. Prog. Fish-Cult. 13, 17-24.
Wood, E.M., Yasutake, W.T., 1957. Histopathology of fish-V. Gill disease. Prog. Fish-Cult. 19, 7-13.
Woodward, B. 1982. Riboflavin supplementation of diets for rainbow trout. J. Nutr. 112, 908-913.
Woodward, B. 1990. Dietary vitamin B6 requirements of young rainbow trout (Oncorhynchus mykiss). FASEB J. 4, 3748 (abstr.).
Woodward, B., 1985. Riboflavin requirement for growth, tissue saturation and maximal flavin-dependent enzyme activity in young rainbow trout (Salmo gairdneri) at two temperatures. J. Nutr. 115, 78-84.
Woodward, B., 1989. Dietary requirements of some water soluble vitamins for young rainbow trout. In, Proceedings of the 25th Annual Nutrition Conference for Feed Manufacturers, Toronto, Ontario, pp. 25-33.
Woodward, B., 1994. Dietary vitamin requirements of cultured young fish, with emphasis on quantitative estimates for salmonids. Aquaculture, 124, 133-168.
Woodward, B., Frigg, M., 1989. Dietary biotin requirements of young rainbow trout (Salmo gairdneri) determined by weight gain, hepatic biotin concentration and maximal biotin-dependent enzyme activities in liver and white muscle. J. Nutr. 119, 54-60.
Woodward, W.D., 1983. Riboflavin nutrition of therainbow trout. Proceedings of the 17th annual nutrition conference for feed manufacturers. pp. 102-107.
Wu, M.S, 2000. Vitamin B6 requirements of juvenile grass shrimp, Penaeus monodon and juvenile malabar grouper, Epinephelus malabaricus. Master thesis, National Taiwan Ocean University, Keelung, Taiwan.
Yano, T., Nakao, M., Furuichi, M., 1988. Effects of dietary choline, pantothenic acid and vitamin C on the serum complement activity of red sea bream. Nippon Suisan Gakkaishi 205, 141-144.
Yone, Y. Toshima, N., 1979. The utilization of phosphorus in fish meal by carp and black sea bream. Bull. Jap. Soc. Sci. Fish., 45: 753-756.
Yone, Y., Fujii., M., 1974. Studies on nutrition of red sea bream. 10. Qualitative requirements for water-soluble vitamins. Rep. Fish. Res. Lab. Kyushu Univ. (Jpn) 2, 25-32.
Yone, Y., Furuichi, M., Shitanda, K., 1971. Vitamin requirements of the red sea bream. 1. Relationship between inositol requirements and glucose levels in diet. Bull. Jpn. Soc. Sci. Fish. 37, 149-155.
Zar, J.H., 1984. Biostatistical Analysis, 293-305. Prentice-Hall, Englewood Cliffs, NJ, USA. Zeitoun, I.H., Ullrey, D.E., Magee, W.T., 1976. Quantifying nutrient requirements of fish. J. Fish. Res. Board Can. 33, 167–172.