Siddhartha PATİ, Chinnari SUMEDHA, Anil CHATTERJİ, Bisnu Prasad DASH

A Novel Food Formulation for the Juveniles of Penaeus monodon (Fabricius)

The efficiency of carbohydrate rich food was studied and compared with four different feeds on the juveniles of Penaeus monodon (Fabricius). The average food consumption of formulated feed rich in carbohydrates (Feed 2) showed minimum consumption (0.479 g dry weight), faecal production (0.061 g dry weight) and Food Conversion Ratio (0.471) as compared to protein rich Feed-1 where these values were maximum. The assimilation efficiency (86.78%) and average gross efficiency (198.47%) was higher in Feed-2 as compared to these values obtained for other feeds. Mean relative growth (14.29%) and asymptotic weight (300 g) was calculated maximum for Feed -2 whereas, it was minimum for Feed-1. The von Bertalanffy's growth equation fitted well to describe the growth pattern of the juveniles and represented as: Wt=180[1-e -0016(t+3.75)] for Feed-1; Wt=300[1-e -0.0013(t+3.00)] for Feed-2; Wt=220[1-e -0.0015(t+3.33)] for Feed-3; Wt=240[1-e-0.0016(t+3.18)] for Feed-4 and Wt=200[1-e -0.0015(t+3.60)] for Feed-5.

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Akiyama, D. M., Dominy, W.G., Lawrence, A.L., (1992). Penaeid shrimp nutrition. In: Fast AW, Lester LJ (eds) Marine Shrimp Culture: Principles and Practices. Amsterdam, Elsevier, p 535-568.

Alava, V.R., Lim, C., (1983) The quantitative dietary protein requirements of Penaeus monodon juveniles in a controlled environment. Aquaculture, 30, 53-61.

Andrews, J.W., Sick, L.V., Bapist, G.J.,(1972) The influence of dietary protein and energy levels on growth and survival of penaeid shrimp. Aquaculture, 1, 341-347.

Bages, M., Sloane, L.,(1981) Effects of dietary protein and starch levels on growth and survival of Penaeus monodon Fabricius postlarvae. Aquaculture, 25, 117- 128

Bligh, E.G., Dyer, W.J., (1959) A rapid method of total lipid extraction and purification. Can. J. Bioche. Physiol., 37, 911-917.

Chatterji A, Pati S, Dash B.P. (2015) A Study on the Growth of Juveniles of Tiger Prawn, Penaeus monodon (Fabricius) Under Different Photoperiods. J Aquac Res Development 6: 385. doi:10.4172/2155-9546.1000385

Chatterji, A., Ansari, Z.A., Ingole B.S. and Parulekar, A.H., (1984) Growth of green mussel, Perna viridis (L) in a seawater circulating system Aquaculture, 40 (1), 47- 55.

Capuzzo, J., (1981) Crustacean bioenergetics: the role of environmental variables and Dietary levels of macronutrients on energetic efficiencies. In: Pruder, G.D., Langdon, C.J., Conklin, D.E. (eds) Proc of the Second International Conference on Aquaculture Nutrition: Biochemical and Physiological Approaches to shellfish nutrition. Rehoboth Beach, DE, p 71-86.

Chatterji A, Pati S, Dash B.P. (2015) A Study on the Growth of Juveniles of Tiger Prawn, Penaeus monodon (Fabricius) Under Different Photoperiods. J Aquac Res Development 6: 385. doi:10.4172/2155-9546.1000385

Cheftel J.C., Cheftel, H., (1976) In Introduction a la Bioquimicay Tecnologia de los Alimentos, Vol l . Zaragosa, Spain, p 333.

Chen, H.Y., Zein- Eldin, Z.P., Aldrich, D.V., (1985) Combined effects of shrimp size and dietary protein source on the growth of Penaeus setiferus and Penaeus vannamei. J. World Maricult. Soc., 16, 288- 296.

Colvin, P.M., (1976) Nutritional studies of penaeid prawns: protein requirements in compounded diets for juveniles Penaeus indicus (Milne Edwards). Aquaculture, 7, 315-326.

Cruz-Suarez, L.E., Ricque-Marie, D., Pinal-Minsilla, J.D., Wesche-Ebelling, P., (1994) Effect of different carbohydrate sources on the growth of Penaeus vannamei :Economical impact. Aquaculture, 123, 349-360.

Cuzon, G., Guillaume, J, Cahu, C., (1994) Composition, preparation and utilization of feeds for crustacea. Aquaculture, 124, 253-267.

Deshimaru, O., Shigeno, K., (1972) Introduction to the artificial diet for the prawn Penaeus japonicus. Aquaculture, 1, 115-133.

Desviettes, C.H., Bourdier, G., Breton, Ch. J., (1997) On the occurrence of a possible Bioconversion of lonolenic acid into docosahexaenoic acid by the copepod Eucylops serrulatus fed on microalgae. J. Plankton Res., 19, 273-278.

Dhargalkar, V.K., Jagtap, T.G., Untawale, A.G., (1980) Biochemical constituents of seaweeds along the Maharastra Coast. Ind. J. Mar. Sci., 9, 297- 299.

Dubais, M., Gilles, K.A., Hamiliton, J., Rebers, P.A., Smith, F., (1956) Colorimetric method for determination of sugars and related substances. Anal Chem. 28, 350- 356.

Goswami, U., Goswami, S.C., (1979) Formulation of cheaper artificial feeds for shrimps culture: preliminary biochemical, physical and biological evaluation. Aquaculture, 16, 309-317.

Kanazawa, A., (1981) Penaeid Nutrition. In: Pruder, G.D., Landon, C.J, Conklin, D.E. (eds). Proc of the Second International Conference on Aquaculture Nutrition. Louisiana State University, Division of Continuing Education Baton Rouge, LA, p 87-105 Laubier, A,,

Laubier, L. (1993) Marine crustacean farming: present status and Perspectives. Aquat. Living Resour., 6, 319-329.

Laubier, A.,& Laubier, L. (1993). Marine crustacean farming: present status and perspectives. Aquatic Living Resources, 6(04), 319-329.

Lee, D.L., (1971) Studies on the protein utilization related to the growth of P. monodon Fab. Aquaculture, 1, 1-13.

Lim, C., Suraniranat, P., Platon, R.R., (1979) Evaluation of various protein sources for Penaeus monodon postlarvae. Kalikasan Philip. J. Biol., 8, 29-36.

Lowry, O.H., Rosenbrough, N.J., Farr, A.L., Randall, R.J., (1951) Protein measurement with Folin phenol reagent. J. Bio. Chem., 193, 265-275.

Myrna, B.N. (1986). The response of Penaeus monodon juveniles to varying protein/ energy ratios in test diets. Aquaculture, 53, 229 -242.

Page, J.W., Andrews, J.W., (1973) Interactions of dietary levels of protein and energy on channel catfish (Ictalurus punctatus). J. Nutr., 103, 1339-1346.

Rajyalakshmi, T., Pillai S.M., Roy, A.K., Verghese, P.U., 1986. Feeds and nutrition of the prawn Penaeus monodon. Environ. Ecol., 4(3), 415- 422.

Ricker, W.E., (1958) Handbook of computation for biological statistics of fish population. Fish. Res. Bd. Can. Bull. p119.

Sarac, H.Z., Gravel, M., Saunders, J., Tabrett, S., (1993) Evaluation of Australian protein sources for diets of the black tiger prawn (Penaeus monodon) by proximate analysis and essential amino acid index. In: Carillo, M., Dahle, L., Morales, J., Sorgeloos, P., Svennevig, N. (eds). Abstracts of the International Conference World Aquaculture' 93 May 26-28, 1993, Torremolinos, Spain. European Aquaculture Society, Oostende, Belgium.

Sedgwick, R.W., (1979) Influence of dietary protein and energy on growth, food consumption and food conversion efficiency in Penaeus merguiensis (de man). Aquaculture, 16, 7-30.

Shiau, S.Y., Peng, S.Y., (1992) Utilization of different carbohydrates at different protein levels in grass prawn, Penaeus monodon, reared in sea water. Aquaculture, 101, 241-250.

Shiau, S.Y., Chou, B.S., (1991) Effects of dietary protein and energy on growth performance of tiger shrimp Penaeus monodon reared in sea water. Nippon Suian Gakkaishi, 57, 711-716.

Smith, L.L., Lee, P.G., Lawrence, A.L., (1985) Growth and the digestibility by three sizes of Penaeus vannamei Boone: effect of dietary protein level and protein source. Aquaculture, 46, 85-96.

Sudaryano, A., Hoxey, M.J., Kailis, S.G., Evans, L.H. (1995). Investigation of alternative protein sources in practical diets for juveniles shrimp, Penaeus monodon. Aquaculture, 134, 313-323.

Teshima, S.I., Kanazawa, A., Yasmashita, M.,(1986) Dietary value of several proteins and supplemental amino acid for larvae of the prawn Penaeus japonicus. Aquaculture, 51, 225-235.

Trino, A.T, Sarroza, C.J., (1995). Effect of diet lacking in vitamin and mineral supplements on growth and survival of Penaeus monodon juveniles in a modified extensive culture system. Aquaculture, 136, 325-330.