International Journal of Marine Science 2016, Vol.6, No.35, 1-8
7
Ibrahem MD, Mohamed FM. Marwa A, Ibrahim MA (2013) The role of Spirulina platensis (Arthrospira platensis) in Growth and Immunity of Nile Tilapia
(Oreochromis niloticus) and its resistance to bacterial infection. Journal of Agricultural Science 5(6): 109-117.
Kikuchi K., 1999, Partial replacement of fish meal with corn gluten meal in diets for Japanese flounder, Paralichthys olivaceus. Journal of world Aquaculture
Society 30: 357-363.
Knuckey R.M., Brown M.R., Barrett S.M., and Hallegraeff G.M., 2001, Isolation of new nanoplanktonic diatom strains and their evaluation as diets for the
juvenile Pasific oyster. Aquaculture 175: 121-133.
Lowry O.H., Rosebrough N.J., Farr A.L., and Randall R.F., 1951, Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193:
265-275. PMid: 14907713
Mazurkiewicz J., 2009, Utilization of domestic plant components in diets for common carp Cyprinuscarpio L. Archiv. Polish Fisher. 17: 5-39.
Meng-umphan K., and Saengkrachang J., 2008, Production of Generation-2 Mekong giant catfish (Pangasinodon gigas) cultured with Spirulina sp. Mj. Int.
Journal of Science and Technology 2: 559-567.
Mitsui A., Murray R., Enternmann B., Miyazawa K., and Polk E., 1981, Utilization of marine blue-green algae and macroalgae in warm water mariculture. In:
San Pietro, A., (ed.), Biosaline Research: A Look to the Future. Plenum Press, New York, pp. 215-225.
Mitsui M., Enternmann B., and Gill K., 1983, Indoor and outdoor cultivation of Tilapia in seawater with algae as a sole food source. In: proceedings of the 2nd
North Pacific Aquaculture System. Tokyo University, Japan, pp. 323-340.
Moyan F.J., Gardenete G., and De la Higuer M., 1992, Nutritive value of diets containing high percentage of vegetable proteins for trout Oncorhynchus mykiss.
Aquatic Living Research 5: 23-29.
Palaniselvam V., and Kathiresan K., 1998, Potential of a marine cyanobacterium Phormidium tenue (Menegh.) Gomont as a shrimp feed supplement. Seaweed
Research and Utilization 20: 75-78.
Renaud S.M., Thinh L.V., and Parry D.L., 1999, The gross composition and fatty acid composition of 18 species of tropical Australian microalgae for possible
use in mariculture. Aquaculture 170: 147-159.
Rippka R., Deruelles J., Waterbury J.B., Herdman H., and Stainer S.Y., 1979, Generic assignments, strain histories and properties of pure culture of
cyanobacteria. Journal of Genetic Microbiology 111: 1-61.
Robert R., Parisi G., Rodolfi L., Poli B.M., and Tredici M.R., 2001, Use of fresh and preserved Tetraselmissuecica for feeding Crossostreagigas larvae.
Aquaculture 192: 333-346.
Robin, J., 2012, Algae for aquaculture and animal feeds. Technikfolgenabschatzung – Theorie und Praxis 21: 23-37.
Sakthivel K., and Kathiresan K., 2015, Cholesterol degradation effect analyzed using marine cyanobacterial species Spirulina subsalsa. Journal of Microbial and
Biochemical Technology 7: 120-123.
Sivakumar N., Sundaraman M., and Selvakumar G., 2014, Efficacy of dietary supplementation of cyanobacterial meal on growth performance of black tiger
shrimp Penaeus monodon (Fabricius). Cibtech Journal of Zoology 3: 61-69.
Sivakumar N., Sundararaman M., and Selvakumar G., 2011, Efficacy of micro algae and cyanobacteria as a live feed for juveniles of shrimp Penaeus monodon.
African Journal of Biotechnology 10: 11594-11599.
Stoner A.W., and Zimmerman R.J., 1988, Food pathways associated with penaeid shrimps in a mangrove – fringed estuary. Fish Bulletin 86: 543-551.
Subasinghe R., Bartly S.M., Mcgladdery S., and Barg U., 1998, Sustainable shrimp culture development: biotechnological issues and challenges. In: Flegel,
T.W. (ed.), Advances in shrimp biotechnology: National Centre for Genetic Engineering and Biotechnology, Bangkok, pp. 13-18.
Subramanian G., 1998, Marine cyanobacteria for feed, fine chemicals and pharmaceutical In: Subramanian, G., Kaushik, B.D., and Venkataraman, G.S., (eds.),
Cyanobacterial Biotechnology, Oxford & IBH Publication Co. Pvt. Ltd. New Delhi, pp. 281-285.
Subramanian G., Uma L., Thajuddin N., Prabaharan D., Sekar S., Sundararajan M., Sophia Rajomo V., and Thangeswaran A., 1992, Short Training on
Research in marine cyanobacteria utilization programme, STORM CUP, National Facility for Marine Cyanobacteria sponsored by Dept. of Biotechnology,
Govt. of India, New Delhi, Bharathidasan University, Tiruchirapalli, pp. 100.
Thajuddin N., and Subramanian G., 2005, Cyanobacterial biodiversity and potential application in biotechnology, Current Science 89: 47-57.
Tobias-Quinitio E., and Villegas C.T., 1982, Growth, survival and macronutrient composition of Penaeus monodon (Fabricius) larvae fed with Chaetoceros
calcitrans and Tetraselmis chuii. Aquaculture 29: 253-260.
Tongsiri S., Mang-Amphan K., and Peerapornpisal Y., 2010, Effect of replacing fishmeal with Spirulina on growth, carcass composition and pigment of the
Mekong Giant Catfish. Asian Journal of Agricultural Sciences 2: 106-110.
Tredici M.R., Biondi N., ChiniZittelli G., Ponis E., and Rodolfi L., 2009, Advances in microalgal culture for aquaculture feed and other uses. In: Burnell, G.,
Allan, G., (eds.), New Technologies in Aquaculture: Improving production efficiency, quality and environmental management, Cambridge, pp. 611-676.
Ungsethaphand T., and Hangsapreurke K., 2008, Benefit cost ration and growth performance of Mekong Giant Catfish (Pangasianodon gigas) fed with
commercial feed. Journal of Agriculture Research & Extension 25: 24-31.
