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2007 | 37 | 2 |

Tytuł artykułu

Evaluation of fermented fish offal in formulated diet of the Indian major carp, rohu, Labeo rohita [Hamilton]

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Background. Carp fish offal contains high amount of protein and lipid. The quest for protein sources alternative to fish meal has been a priority in aquaculture research because of growing concerns on the future availability of fish meal for incorporation in fish diets. This study determined the extent to which carp fish offal could be fermented and used to replace fish meal in the formulation of diet for fingerlings of Labeo rohita. Materials and Methods. Fish offal, comprising viscera of carp, was fermented along with mustard oil cake and rice bran anaerobically by a microbial suspension (108 cells · mL-1) under ambient temperature (27-30°C). The fermented mixture was mixed with fish meal, mineral- and vitamin mixture to prepare three experimental diets: 1) a reference diet (T1), without any fermentation mixture, containing 40% fish meal, 2) a diet containing 25% fish offal (fermented) and 25% fish meal (T2), and 3) a diet containing 30% fish offal (fermented) and 20% fishmeal (T3). These diets were tested to evaluate growth and biochemical composition of the body of the fingerlings of Labeo rohita and apparent protein digestibility (APD) and intake rate of the diets by the fish. Proximate analysis of feed ingredients, experimental diets, faecal samples and the carcass were performed following the AOAC procedures. Results. Fingerlings of Labeo rohita, reared for 60 days with the diets containing fermented fish offal mixture (T2 and T3), showed higher growth and higher values of protein and lipid in the carcass than those reared with the reference diet (T1). Apparent protein digestibility of the diets did not vary significantly, but average feed intake rate of the T2 and T3 diets were higher than the T1 diet. Conclusion. Fermented fish offal is a viable alternative of fish meal in the formulation of diet for fingerlings of Labeo rohita. Fifty percent replacement of fish meal is possible by a mixture containing 30%fish offal. Further studies are required to improve quality of the fermentation mixture and increase the rate of replacement of fish meal.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

37

Numer

2

Opis fizyczny

p.99-105,ref.

Twórcy

autor
  • University of Kalyani, Kalyani, West Bengal, India
autor
autor
autor

Bibliografia

  • Ali M. Z., Jauncey K. 2004. Effects of feeding regime and dietary protein on growth and body composition in Clarias gariepinus (Burchell, 1822). Indian Journal of Fisheries 51: 407–416.
  • Ali M.Z., Jauncey K. 2005. Effects of dietary lipid to carbohydrate ratios on body composition, digestive enzyme activities and blood plasma components inAfrican catfish Clarias gariepinus (Burchell, 1822). Journal of Aquaculture in the Tropics 20: 57–70.
  • Alvarez M.J., López-Bote C.J., Diez A., Corraze G., Arzel J.,Dias J., Kaushik S.J., Bautista J.M. 1998. Dietary fish oil and digestible protein modify susceptibility to lipid peroxidation in the muscle of rainbow trout (Oncorhynchus mykiss) and sea bass (Dicentrarchus labrax). British Journal of Nutrition 80: 281–289.
  • Anonymous 1993. Nutrient requirements of fish. Committee on Animal Nutrition, Board on Agriculture, National Research Council; National Academy Press, Washington DC.
  • Anonymous 1995. Standard methods for the examination of water and wastewater. American Public Health Association,American Water Works Association and Water Pollution Control Federation, Washington DC.
  • Arnesen P., Krogdahl A., Kristiansen I.O. 1993. Lipogenic enzyme activities in liver ofAtlantic salmon (Salmo salar L.).Comparative Biochemistry and Physiology B 105: 541–546.
  • Atlas R.M., Parks C.L., Brown A.E. 1995. Laboratory manual of experimental microbiology. Mosby-Year Book Inc., St. Louis.
  • Bairagi A., Sarkar Ghosh K., Sen S.K., Ray A.K. 2002.Duckweed (Lemna polyrhiza) leaf meal as a source of feedstuff in formulated diets for rohu (Labeo rohita Ham.) fingerlings after fermentation with a fish intestine bacterium.Bioresource Technology 85: 17–24.
  • Bertsch A., Coello N. 2005. A biotechnological process for treatment and recycling poultry feathers as a feed ingredient.Bioresource Technology 96: 1703–1708.
  • Bjerkeng B., Refstie S., Fjalestad K.T., Storebakken T.,Rødbotten M., Roem A.J. 1997. Quality parameters of the flesh of Atlantic Salmon (Salmo salar) as affected by dietary fat content and full-fat soybean meal as a partial substitute for fish meal in the diet. Aquaculture 157: 297–309.
  • Bolin D.W., King R.P., Klosterman E.W. 1952. A simplified method for determination of chromic oxide (Cr2O3) when used as an index substance. Science 116: 634–635.
  • Brafield A.E. 1985. Laboratory studies of energy budgets. Pp. 257–282. In: Tytler P., Calow P. (eds.) Fish energetics:New perspectives. Croom Helm, London.
  • Castell J.D., Tiews K. 1980. Report of the EIFAC, IUNS and ICES Working Group on the standardization of methodology in fish nutrition research. Hamburg, Germany, 21–23 March. EIFAC Technical Paper 36,
  • Cho C.Y., Kaushik S.J. 1990. Nutritional energetic in fish:energy and protein utilization in rainbow trout (Salmo gairdneri).World Review of Nutritional Dietetics 61: 132–172.
  • Dias J., Alvarez M.J., Diez A., Arzel J., Corraze G., Bautista J.M., Kaushik S.J. 1998. Regulation of hepatic lipogenesis by dietary protein/energy in juvenile European seabass (Dicentrarchus labrax). Aquaculture 161: 169–186.
  • Du Z.-Y., Liu Y.-J., Tian L.-X., Wang J.-T., Wang Y., Liang G.-Y. 2005. Effect of dietary lipid level on growth, feed utilization and body composition by juvenile grass carp (Ctenopharyngodon idella). Aquaculture Nutrition 11:139–146.
  • El-Sayed A.-F.M. 1994. Evaluation of soybean meal, Spirulina meal and chicken offal meal as protein sources for silver seabream (Rhabdosargus sarba) fingerlings. Aquaculture 127: 169–176.
  • Fontaínhas-Fernandes A., Gomes E., Reis-Henriques M.A., Coimbra J. 1999. Replacement of fish meal by plant proteins in the diet of Nile tilapia: digestibility and growth performance.Aquaculture International 7: 57–67.
  • Garling jr. D.L., Wilson R.P. 1977. Effect of dietary carbohydrate-to-lipid ratio on growth and body composition of fingerling channel catfish. Progressive Fish Culturist 39:43–47.
  • Gilbey J., Ali M., Wootton R.J. 2001. Effect of rations of different lipid levels on the growth, food conversion efficiency and lipid contents of the common carp (Cyprinus carpio L.).Pakistan Journal of Zoology 33: 265–269.
  • Giri S.S., Sahoo S.K., Sahu A.K., Mukhopadhyay P.K. 2000. Nutrient digestibility and intestinal enzyme activity of Clarias batrachus (Linn.) juveniles fed on dried fish and chicken viscera incorporated diets. Bioresource Technology 71: 97–101.
  • Gomes E.F., Rema P., Kaushik S.J. 1995. Replacement of fish meal by plant protein in the diet of rainbow trout (Oncorhynchus mykiss): digestibility and growth performance.Aquaculture 130: 177–186.
  • Gomez K.A., Gomez A.A. 1984. Statistical Procedures for Agricultural Research. 2nd edn., John Wiley and Sons,New York.
  • Guillou A., Soucy P., Khalil M., Adambounou L. 1995. Effect of dietary vegetable and marine lipid on growth, muszle fatty acid composition and organoleptic quality of flesh of brook charr (Salvelinus fontinalis). Aquaculture 136:351–362.
  • Hasan M.R., Macintosh D.J., Jauncey K. 1997. Evaluation of some plant ingredients as dietary protein sources for common carp (Cyprinus carpio L.) fry. Aquaculture 151: 55–70.
  • Helrich W. (ed.) 1990. Official methods of analyses. Vol. I. 15th edn. Association of Official Analytical Chemists,Washington DC.
  • Johnson R.A., Wichern D.W. 2005. Applied multivariate statistical analysis. Pearson education of India, Delhi, India.
  • Kaushik S.J., Cravedi J.P., Lalles J.P., Sumpter J.,Fauconneau B., Laroche M. 1995. Partial or total replacement of fish meal by soybean protein on growth, protein utilization,potential estrogenic or antigenic effects, cholesterolemia and flesh quality in rainbow trout, Oncorhynchus mykiss. Aquaculture 133: 257–274.
  • Kaviraj A., Ghosal T.K. 1998. Effects of compost manure on the body burden of cadmium and growth of common carp Cyprinus carpio (L). Aquaculture Research 29: 555–561.
  • Manjappa K., Keshavanath P., Gangadhara B. 2002. Growth performance of common carp (Cyprinus carpio) fed varying lipid levels through low protein diet, with a note on carcass composition and digestive enzyme activity. Acta Ichthyologica et Piscatoria 32 (2): 145–15
  • Mohanty S.N., Swamy D.N., Tripathi S.D. 1990. Growth nutritional indices and carcass composition of Indian major carp fry Catla catla, Labeo rohita and Cirrhinus mrigala fed four dietary protein levels. Aquaculture Hungarica 6:211–217.
  • Mondal K., Kaviraj A., Mukhopadhyay P.K. 2006. Fish wastes in urban and sub-urban markets of Kolkata: problems and potentials. Aquaculture Asia 11: 22–25.
  • Mukhopadhyay P.K., Mitra G. 2007. Plant derived feedstuff for freshwater aquaculture in India.AquacultureAsia Pacific 3 (6): 15–17.
  • Pongmaneerat J., Watanabe T., Takeuchi T., Satoh S. 1993.Use of different protein meals as partial or total substitution for fish meal in carp diets. Nippon Suisan Gakkaishi 59:1249–1257.
  • Rangacharyulu P.V.,Giri S.S., Paul B.N.,Yashoda K.P.,Rao R.J.,Mahendrakar N.S., Mohanty S.N., Mukhopadhyay P.K.2003. Utilization of fermented silkworm pupae silage In feed for carps. Bioresource Technology 86: 29–32.
  • Ray A.K., Das I. 1992. Utilization of diets containing composting aquatic weed (Salvinia cuculata) by the Indian major carp, rohu (Labeo rohita, Ham) fingerlings. Bioresource Technology 40: 67–72.
  • Regost C., Arzel J., Cardinal M., Robin J., Laroche M.,Kaushik S.J. 2001. Dietary lipid level, hepatic lipogenesis and flesh quality in turbot (Psetta maxima). Aquaculture 193: 291–309.
  • Renukardhya K.M., Varghese T.J. 1986. Protein requirement of the carps Catla catla and Labeo rohita (Hamilton).Proceedings of the Indian Academy of Sciences, Animal Science 95: 103–107.
  • Saha A.K., Ray A.K. 1998. Incorporation of animal by-products in carp diets: Evaluation of poultry litter and goat blond meal as dietary protein sources for rohu (Labeo rohita) fingerlings.Journal of Aquaculture in the Tropics 13: 277–284.
  • Yang Y., Xie S., Cui Y., Lei W., Zhu X., Yang Y., Yu Y. 2004.Effect of replacement of dietary fish meal by meat and bone meal and poultry by-product meal on growth and feed utilization of gibel carp, Carassius auratus gibelio.Aquaculture Nutrition 10: 289–294.

Typ dokumentu

Bibliografia

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