Abidi, F.S. & Khan, M.A. 2004b. Dietary histidine requirement of fingerling Indian major carp, Labeo rohita (Hamilton). The Israel Journal of Aquaculture-Bamidegh, 55 (3): 200-208.
Abidi, F.S. & Khan, M.A. 2007. Dietary leucine requirement of fingerling Indian major carp, Labeo rohita (Hamilton). Aquaculture Research, 38:478-486.
Abidi, F.S. & Khan, M.A. 2004a. Dietary valine requirement of Indian major carp, Labeo rohita (Hamilton) fry. Journal of Applied Ichthyology, 20(2): 118–122.
Acosta, N.M.V., Morel, J.M. & Crredor, J.R. 1994. The nitrogen budget of a tropical semi-intensive fresh water fish culture pond. Journal of the World Aquaculture Society, 25: 261-270.
Ahmed, I. 2007. Effect of ration size on growth, body composition, and energy and protein maintenance requirement of fingerling Indian major carp, Labeo rohita (Hamilton). Fish Physiology and Biochemistry (in press).
Alikunhi, K.H. 1957. Fish culture in India. Farming Bulletin. Indian Council of Agricultural Research, 20: 144pp.
Anwar, M.F. & Jafri, A.K. 2001. The influence of dietary lipid levels on growth , feed conversion and carcass composition of fingerling Indian major carp Labeo rohita. Aquaculture, Book of abstracts, p.22.
Ayyappan, S. & Jena, J.K. 2006. Inland Fisheries on a fast track of development. The Hindu survey of Indian Agriculture, 2006: 143-146.
Azim, M.E., Beveridge, M.C.M., Khatoon, H., Wahab, M.A., Van Dam, A.A. & Verdegem, M.C.J. 2002b. A comparison of fertilization, feeding and three periphyton substrates for increasing fish production in freshwater pond aquaculture in Bangladesh. Aquaculture, 212: 227-243.
Azim, M.E., Beveridge, M.C.M., Rahman, M.A., Wahab, M.A.,Van Dam, A.A.& Verdegem, M.C.J. 2002a.. Evaluation of polyculture of Indian major carps in periphyton-based ponds. Aquaculture , 213:131-149.
Azim, M.E., Wahab, M.A., Van Dam, A.A., Beveridge, M.M.& Verdegem, M.J.2001a. The potential of periphyton-based culture of two Indian major carps, rohu Labeo rohita (Hamilton) and gonia Labeo gonius (Linnaeus). Aquaculture Research, 32(3): 209-216.
Azim, M.E., Wahab, M.A., Biswas, P.K. Asaeda, T., Fujino, T. & Verdegem, M. C. J. 2004. The effect of periphyton substrate density on production in freshwater polyculture ponds. Aquaculture, 232 :441-453.
Azim, M.E., Wahab, M.A., Van Dam, A.A., Beveridge, M.C.M., Huisman, E.A.& Verdegem, M.C.J. 2001c. Optimization of stocking ratios of two Indian major carps, rohu (Labeo rohita Ham.) and catla (Catla catla Ham.) in a periphyton-based aquaculture system . Aquaculture, 203: 33-49.
Azim, M.E., Wahab, M.A., Van Dam, A.A., Beveridge, M.C.M., Milstein, A. & Verdegem, M.C.J. 2001b. Optimization of fertilization rate for maximizing periphyton production on artificial substrates and the implications for periphyton – based aquaculture. Aquaculture Research, 32. 749-760.
Bairagi, A., Ghosh, K.S., 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 intestinal bacterium. Bioresource Technology, 85: 17-24.
Bairagi, A., Ghosh, K.S., Sen, S.K. & Ray, A.K. 2004. Evaluation of the nutritive value of Leucaena leucocephala leaf meal, inoculated with fish intestinal bacteria Bacillus subtilis and Bacilus circulans in formulated diets for rohu, Labeo rohita (Hamilton) fingerlings. Aquaculture Research, 35: 436-446.
Beveridge, M.C.M., Wahab, M.A. & Baird, D.J. 1994. effects of daily harrowing on pond soil and water nutrients levels and rohu fingerling production. Progressive Fish Culturist, 56: 282-287.
Biswas, G., Jena, J.K., Singh, S.K.& Muduli, H. K. 2006b. Effect of feeding frequency on growth, survival and feed utilization in fingerlings of Catla catla (Hamilton), Labeo rohita (Hamilton) and Cirrhinus mrigala (Hamilton) in outdoor rearing systems. Aquaculture Research ,37: 510-514.
Biswas, G., Jena, J.K., Singh, S.K., Patmajhi, P. & Muduli, H.K. 2006a. Effect of feeding frequency on growth, survival and feed utilization in mrigal, Cirrhinus mrigala, and rohu, Labeo rohita, during nursery rearing . Aquaculture , 254: 211-218.
Chakrabarti, P.C, Sarkar, G.C. & Ghosh, B. 1988. Comparative evaluation of growth performance of carp fingerlings between the normal and over - wintering stocked populations in the composite fish culture system. Abstract.Conference National Symposium on Environmental Impacts on Animals and Aquaculture, Kalyani (India), 14-16 May 1988.
Chakrabarti, R. & Jana, B.B.1998. Effects on growth and water quality on feeding exogenous plankton compared to use of manure in the culture of mrigal, Cirrhinus mrigala, and rohu, Labeo rohita, fry in tanks. Journal of Applied Aquaculture, 8 (2):87-95.
Chattopadhyay , D.N., Marandi,K., Verma, J.P., Sarkar, S.K., Mukhopadhyaya, P.K. & Giri, S.S. 2002. Effect of dietary vitamin supplementation on performance of Indian major carps under semi-intensive polyculture system. Indian Journal of Fisheries, 49 (2):179-186.
Chondar, S.L. 1999. Biology of Finfish and Shell fish. SCSC Publishers (India), Howrah, pp.514.
Dalal, S., Bhattacharya, S. & Ray, A.K. 2001. Effects of dietary protein and carbohydrate levels on growth performance, feed utilization efficiency and nitrogen metabolism in rohu, Labeo rohita (Hamilton), fingerlings. Acta Ichthyologica et Piscatoria, 31(2): 3-17.
Das , S.M. & Moitra S.K 1956. Studies on the food of some common fishes of Utar Pradesh, India. 2. Proceedings of the National Academy of Science (B), 26 (4): 213-23.
Das, K.M., Mohanty, S.N. & Sarkar, S. 1991. optimum dietary protein to energy ratio for Labeo rohita fingerlings.pp.69-73. In: S.S.De Silva (ed.),Fish nutrition research in Asia. Proceedings of the Fourth Asian Fish Nutrition Workshop . Asian Fisheries Society Special Publication, 5: p.205. Asian Fisheries Society, Manila, Philippines.
Das, P.C., Ayyappan, S., Jena, J.K. 2005.Comparative changes in water quality and role of pond soil after application of different levels of organic and inorganic inputs. Aquaculture Research, 36: 785-798.
Das, P.C., Ayyappan, S., Jena, J.K. 2006.Haematological changes in the three Indian major carps, Catla catla (Hamilton), Labeo rohita (Hamilton) and Cirrhinus mrigala (Hamilton) exposed to acidic and alkaline water pH. Aquaculture, 256: 80-87.
Das, S.M. & Srivastava, A.K. 1979. On the relative length of gut (RLG) in some food fishes of Uttar Pradesh with changes from fingerlings to adult stage. Journal of the Inland Fisheries Society of India, 11 (1): 6-11.
De Silva, S.& Gunasekera, R.M.1991. An evaluation of the growth of Indian and Chinese major carps in relation to the dietary protein content. Aquaculture, 92: 237-241.
De Silva, S.S. 1993. Suplementary feeding in semi-intensive aquaculture systems. In: M.B. New, A.G.J. Tacon & I. Csavas (eds.). pp.24-60. Farm-made Aquafeeds. Proceedings of the FAO/AADCP Regional Expert Consultation on farm- made Aquafeeds. 14-18 December 1992,Bangkok, Thailand. FAO-RAPA/AADCP, Bangkok, Thailand, 434p.
Dempster, P.W., Baird, D.J. & Beveridge, M.C.M. 1995. Can fish survive by filter feeding on microparticles: Energy balance in tilapia grazing on algal suspensions. Journal of Fish Biology, 47: 7-17.
Dempster, P.W., Beveridge, M.C.M. & Baird, D.J. 1993. Herbivory in tilapia Oreochromis niloticus: a comparison of feeding rates on phytoplankton and periphyton. Journal of Fish Biology, 43: 385-392.
Deolalikar, A.V. & Mitra, A. 2004. Effect of vermicompost on growth of fish Labeo rohita (Hamilton). Aquaculture in the Tropics. 19(1): 63-79.
Gangadhara, B., Nandeesha, M.C., Keshavanath, P., Varghese, T.J. 2004. Growth Response and Biochemical Composition of Rohu, Labeo rohita, Fed Salt-Incorporated Diets. Journal of Applied Aquaculture,16:169-176.
Gangadhara, B., Nandeesha, M.C.,Varghese, T.J.& Keshavanath, P.1997. Effect of varying protein and lipid levels on the growth of Rohu, Labeo rohita Asian Fisheries Science, 10(2):139-147.
Garcia-Ortega, A., Verreth,J.A.J., Coutteau,P.,segner,H.,Huisman,E.A., Sorgeloos,P. 1998. Biochemical and enzymatic characterization of decapsulated cysts and nauplii of the brine shrimp Artemia at different developmental stages. Aquaculture,161: 501-514.
Ghosh, K., Sen, S. K. & Ray, A.K. 2004a. Growth and survival of rohu , Labeo rohita (Hamilton, 1822) spawn fed diets fermented with intestinal bacterium, Bacillus circulans. Acta Ichthyologica et Piscatoria. 34 (2): 155-165.
Ghosh, K., Sen, S. K. & Ray, A.K. 2004b. Supplementation of Lactobacillus acidophilus in compound diets for Labeo rohita fingerlings. Indian Journal of Fisheries, 51 (4): 512-526.
Ghosh, K., Sen, S. K. & Ray, A.K. 2005. Feed utilization efficiency and growth performance in rohu, Labeo rohita (Hamilton, 1822), fingerlings fed yeast extract powder supplemented diets. Acta Ichthyologica et Piscatoria, 35 (2): 111-117.
Gjerde, B., Reddy, P.V., Mahapatra, K.D., Saha, J.N., Jana, R.K., Meher, P.K., Sahoo, M., Lenka, S., Govindassamy, P.& Rye, M. 2002.
Growth and survival in two complete diallele crosses with five stocks of Rohu carp (Labeo rohita). Aquaculture, 209: 103-115.
Hepher, B. , Milstein, A., Leventer, H. &Teltsch, B. 1989. The effect of fish density and species combination on growth and utilization of natural food in ponds. Aquaculture and Fisheries Management, 20: 59-71.
Hickling, C.F. 1962. Fish Culture. Faber and Faber. London.
Hora, S.L. & Pillay, T.V.R. 1962. Handbook on fish culture in the Indo-Pacific region. FAO Fish. Biol. Tech. Pap., (14): p. 203.
Hossain, M.A. & Shikha, F.H. 1996. Apparent protein digestibility coefficients of some low protein ingredients for rohu (Labeo rohita). Journal of Aquaculture in the Tropics, 11 (3): 161-166.
Hossain, M.A. , Nahar, N., Kamal, M. 1997. Nutrient digestibility coefficients of some plant and animal proteins for rohu (Labeo rohita). Aquaculture, 151 : 37-45.
Hossain, M.A., Little, D.C. & Bhujel, R.C. 2003. Nursing duration and pond fertilization level affect polycultures of Indian major carp (rohu Labeo rohita and mrigal Cirrhina mrigala ) with monosex Nile tilapia Oreochromis niloticus. Aquaculture Research , 34(9): 765-775.
Jana, B.B. & Chakrabarti, R. 1990. Exogenous introduction of live plankton – a better approach to carp growth than the direct manure system. The Progressive Fish Culturist, 52: 252-260.
Jayaram, M.G. 1978. Studies on the formulation of artificial feeds and their effect on the growth of Catla catla (Ham.), Labeo rohita (Ham.) and Cyprinus cario (Linn.). M.F.Sc. thesis, University of Agricultural Sciences, Bangalore, 120pp.
Jena, J.K. & Das, P.C. 2006. Carp culture. In: S.A. Verma, A.T.Kumar & S. Pradhan (ed.). Handbook of Fisheries and Aquaculture, ICAR,New Delhi, pp.265-282.
Jena, J.K., Ayyappan, S. & Aravindakshan, P.K. 2002b. Comparative evaluation of production performance in varied cropping patterns of carp polyculture systems. Aquaculture, 207: 49 – 64.
Jena, J.K., Ayyappan, S., Aravindakshan, P.K. & Muduli, H.K. 2001. Comparative evaluation of growth, survival and production of carp species at different stocking densities under polyculture. Indian Journal of Fisheries, 48(1): 17 -25.
Jena, J.K., Ayyappan, S., Aravindakshan, P.K., Das, B., Singh, S.K. & Muduli, H.K. 2002a. evaluation of production performance in carp polyculture with different stocking densities and species combinations. Journal of Applied Ichthyology., 18:165-171.
Jena, J.K., Mukhopadhyaya, P.K. & Aravindakshan, P.K. 1998. Dietary incorporation of meat meal as a substitute for fish meal in carp fry rearing. Indian Journal of Fisheries, 45 (1): 43-49.
Jena, J.K., Mukhopadhyaya, P.K. , & Aravindakshan, P.K. 1999. Evaluation of a formulated diet for raising of carp fingerlings in field conditions. Journal of Applied Ichthyology, 15: 188-192.
Jhingran, V.G. 1991. Fish and Fisheries of India. Hindustan Publishing Corporation (India), Delhi, India.727 pp.
John , M.J. & Mahajan, C.L.1979. The physiological response of fishes to a deficiency of cyanocobalamin anfd folic acid. Journal of Fish Biology, 14: 127- 133.
Kaur, V. I. & Saxena, P.K. 2004. Incorporation of brewery waste in supplementary feed and its impact on growth in some carps. Bioresource Technology, 91(1): 101-104.
Khan, H.A. & Jhingran, V.G. 1975. Synopsis of biological data on rohu, Labeo rohita (Hamilton, 1822), FAO Fish Synopsis, (111): 100pp.
Khan, M. A., Jafri, A.K. & Chadha, N.K.2005. Effects of varying dietary protein levels on growth, reproductive performance, body and egg composition of rohu, Labeo rohita (Hamilton).Aquaculture Nutrition,11(1):11-17.
Khan, M. A., Jafri, A.K., Chadha, N.K. & Usmani, N. 2003. Growth and body composition of rohu (Labeo rohita ) fed diets containing oil seed meals : partial or total replacement of fish meal with soybean meal. Aquaculture Nutrition, 9 (6): 391-396.
Khan, M.A and Abidi, F.S. (2007b). Dietary isoleucine requirement of fingerling Indian major carp, Labeo rohita (Hamilton) .Aquaculture Nutrition, 13 (6):397-406.
Khan, M.A. & Abidi, S.F. 2007a. Total aromatic amino acid requirement of Indian major carp Labeo rohita (Hamilton) fry. Aquaculture, 267: 111-118.
Kolkovski, S., Arieli, A., Tandler, A.1995. Visual and olfactory stimuli are determining factors in the stimulation of microdiet ingestion in gilthead sea bream Sparus aurata larvae.In: Lavens,P., Jaspers, E., Roelants, I. (eds.) Larvi,95-Fish and shellfish Larviculture Symposium,Europian Aquaculture society.special publication, vol.24, pp.265-266. Gent,Belgium.
Mehmood, E., Ashraf, M.& Qureshi, A.H.1998. Complete or Partial Replacement of Natural Food by Inert Diets for Rearing of First Feeding Rohu (Labeo rohita). Pakistan Journal of Zoology, 30( 4): 277-281.
Miller, M.W.& Falace, A. 2000. Evaluation methods for trophic resource factors – nutrients, primery production and associated assemblages. In: Seaman Jr. W. (Ed.), artificial reef avaluation with application to natural marine habitats. CRC Press, pp.95-126.
Milstein, A., Azim, M.E., Wahab, M.A. & Verdegem, M.C.J. 2003. The effects of periphyton, fish and fertilizer dose on biological processes affecting water quality in earthen fish ponds. Environmental Biology of Fishes, 68 :247-260.
Mishra, K. & Samantaray, K. 2004. Interacting effects of dietary lipid and temperature on growth, body composition and fatty acid profile of rohu, Labeo rohita (Hamilton). Aquaculture Nutrition,10: 359-369.
Misra, C.K., Das, B.K., Mukherjee, S.C.& Pradhan, J. 2007. Effects of dietary vitamin C on immunity, growth and survival of Indian major carp Labeo rohita, fingerlings. Aquaculture Nutrition, 13: 35-44.
Misra, S., Sahu, N. P., Pal, A.K., Xavier, B., Kumar, S. & Mukherjee, S.C. 2006. Pre- and post - challenge immuno-haematological changes in Labeo rohita juveniles fed gelatinized or non-gelatinized carbohydrate with 3-3 PUFA. Fish and Shellfish Immunology, 21 (4): 346-356.
Mitra, G. & Mukhopadhyay, P.K.2003. Dietary essentiality of ascorbic acid in rohu larvae: Quantification with ascorbic acid enriched zooplankton. Aquaculture International, 11: 81-93.
Mitra, G. & Mukhopadhyay, P.K. 2002.Growth, Nutrient Utilization, and Tissue Biochemical Changes in Rohu, Labeo rohita, Fed with Natural and Prepared Diets. Journal of Applied Aquaculture, 12 ( 3): 65-80
Mitra, G., Mukhopadhyay, P.K. & Ayyappan, S. 2007. Biochemical composition of zooplankton community grown in freshwater earthen ponds: Nutritional implication in nursery rearing of fish larvae and early juveniles. Aquaculture (in press).
Mohanta, K.N., Mohanty, S.N., Jena, J.K. & Sahu, N.P. 2006. Apparent protein, lipid and energy digestibility coefficients of some commonly used feed ingredients in formulated pelleted diets for silver barb, Puntius gonionotus. Aquaculture Nutrition, 12: 211-218.
Mohanty S.N., Swain , S.K.& Tripathi, S.D.1993: Growth and survival of rohu spawn fed on a. liver based diet. Journal of the Inland Fisheries Society of India, 25 (2): 41-45.
Mohanty, S.N. & Dash, S.P. 1995. Evaluation of Azolla caroliniana for inclusion in carp diet. Journal of Aquaculture in the Tropics, 10: 343-353.
Mohanty, S.N. & Kaushik, S.J. 1991. Whole body amino acid composition of Indian major carps and its significance. Aquatic Living Resources, 4: 61-64.
Mohanty, S.N. & Samal, J.K.1994. Effect of mixed feeding schedule on growth and nutrient utilisation in Rohu, Labeo rohita (Ham.) fingerlings. Journal of Indian Fisheries Association, 24: 81-89
Mohanty, S.N. 2006. Nutrition of finfishes and shellfishes. In: S.A. Verma, A.T.Kumar & S. Pradhan (ed.). Handbook of Fisheries and Aquaculture, ICAR,New Delhi, pp.488-510.
Mohanty, S.N., Swamy, D.N. & Tripathi, S.D. 1990a. Growth, nutritional indices and carcass composition of the Indian major carp fry, Catla catla, Labeo rohita and Cirhinus mrigala fed four dietary protein levels. Aquacultura Hungarica,6:211-217.
Mohanty, S.N., Swamy, D.N. &Tripathi, S.D. 1990b. Protein utilization in Indian major carp fry, Catla catla, Labeo rohita and Cirhinus mrigala fed four protein diets. Journal of Aquaculture in the Tropics,5:173-179.
Mohapatra, M., Sahu, N.P. & Choudhuri, A. 2003. Utilization of gelatinized carbohydrate in diets of Labeo rohita fry. Aquaculture Nutrition, 9: 189-196.
Mondal, T. K. & Ray, A.K. 1999. The nutritive value of Acacia auriculiformis leaf meal in compounded diets for Labeo rohita fingerlings. The Fourth Indian Fisheries Forum Proceedings, 24-28, November, Kochi.pp.295-298.
Mookerjee, H.K. 1945. Life history of some major carps of Bengal. Sci. Cult., 10 (9):
Mridula, R. M., Manissery, J.K., Keshavanath, P., Shankar, K. M., Nandeesha, M. C., Rajesh, K. M. 2005. Effects of paddy straw and sugarcane bagasse on water quality, bacterial biofilm production and growth and survival of rohu, Labeo rohita (Hamilton).Aquaculture Research . 36 (7): 635-642.
Mukhopadhyay, N & Ray, A.K. 2001. Effects of amino acid supplementation on the nutritive quality of fermented linseed meal protein in the diets for rohu, Labeo rohita, fingerlings. Journal of Applied Ichthyology, 17 ( 5): 220-226.
Mukhopadhyay, N. & Ray, A.K. 1996. The potential of deoiled sal (Shorea robusta) seed meal as a feedstuff in pelleted feed for Indian major carp, rohu, Labeo rohita (Hamilton), fingerlings. Aquaculture Nutrition, 2 (4): 221-227.
Mukhopadhyay, N. & Ray, A.K. 1997. The apparent total and nutrient digestibility of sal seed (Shorea robusta) meal in rohu, Labeo rohita (Hamilton), fingerlings. Aquaculture, 28(9): 683-689.
Mukhopadhyay, N. & Ray, A.K. 1999a. Effect of fermentation on the nutritive value of sesame seed meal in the diets for rohu, Labeo rohita (Hamilton), fingerlings. Aquaculture Nutrition, 5(4) : 229-236.
Mukhopadhyay, N. & Ray, A.K. 1999b. Utilization of copra meal in the formulation of compound diets for rohu, Labeo rohita, fingerlings. Journal of Applied Ichthyology, 15 (3): 127-131.
Mukhopadhyay, N. & Ray, A.K. 1999c. Improvement of quality of sesame Seasamum indicum seed meal protein with supplemental amino acids in feeds for rohu Labeo rohita (Hamilton) fingerlings. Aquaculture Research, 30: 549-557.
Mukhopadhyay, N. & Ray, A.K. 1999d. Improvement of quality of sal (Shorea robusta) seed meal protein with supplemental amino acids in feeds for rohu , Labeo rohita (Hamilton), fingerlings. Acta Ichthyologica et Piscatoria,Vol. XXIX,Fasc. 1: 25-39.
Mukhopadhyay, N. & Ray, A.K. 2005. Effect of fermentation on apparent total and nutrient digestibility of linseed, Linum usitatissimum, meal in rohu, Labeo rohita, fingerlings. Acta Ichthyologica et Piscatoria,35 (2): 73-78.
Mukhopadhyaya, P.K., Chattopadhyaya, D.N. & Mitra, G. 2003. Broodstock nutrition – the key to quality seed production. Infofish International,3:25-31.
Murthy, H.S. & Varghese, T.J. 1995. Arginine and histidine requirements of the Indian major carp, Labeo rohita (Hamilton). Aquaculture Nutrition,1( 4): 235-239.
Murthy, H.S. & Varghese, T.J. 1996a. Quantitative dietary requirement of threonine for the growth of the Indian major carp, Labeo rohita (Hamilton). Journal of Aquaculture in the Tropics,11(1): 1-7.
Murthy, H.S. & Varghese, T.J. 1996b. Dietary requirements of the Indian major carp, Labeo rohita (Hamilton), for total aromatic amino acids. Israeli Journal of Aquaculture/Bamidgeh, 48(2):78-83.
Murthy, H.S. & Varghese, T.J. 1996c.Quantitative dietary isoleucine requirement of r growth and survival of Indian major carp, Labeo rohita (Hamilton) fry. Indian Journal of Experimental Biology, 34 (11): 1141-1143.
Murthy, H.S. & Varghese, T.J. 1997a. Dietary requirements of juveniles of the Indian major carp, Labeo rohita, for the essential amino acid lysine. Israeli Journal of Aquaculture/Bamidgeh , 49(1): 19-24.
Murthy, H.S. & Varghese, T.J. 1997b. Dietary tryptophan requirement for the growth of rohu, Labeo rohita Journal of Applied Aquaculture, 7(2): 71-82.
Murthy, H.S. & Varghese, T.J. 1998. Total sulphur amino acid requirement of the Indian major carp, Labeo rohita (Hamilton) . Aquaculture Nutrition, 4(1): 61-65.
Nandeesha, M.C. 1993. Aquafeeds and feeding strategies in India. In: M.B. New, A.G.J. Tacon & I. Csavas (eds.). pp.213-254. Farm-made AQuafeeds. Proceedings of the FAO/AADCP Regional Expert Consultation on farm- made Aquafeeds. 14-18 December 1992,Bangkok, Thailand. FAO-RAPA/AADCP, Bangkok, Thailand, 434p.
Nandeesha, M.C., Dathathri, K., Krishnamurthy, D., Varghese, T.J., Gangadhara, B. & Umesh, N.R.1994. Effect of varied levels of protein on the growth and tissue biochemistry of stunted yearlings of rohu Labeo rohita in the absence and presence of natural food. Fish nutrition research in Asia. Proceedings of the fifth Asian Fish Nutrition Workshop. no. 9, pp. 93-100.
Nandeesha, M.C., De Silva, S.S.& Krishnamurthy, D.1993. Evaluation of mixed feeding schedules in two Indian major carps, catla (Catla catla) and rohu (Labeo rohita). Colloques. Institut national de la recherche agronomique (France). Paris .
Nandeesha, MC; De Silva, SS; Murthy, DK; Dathatri, K (1994). Use of mixed feeding schedules in fish culture: Field trials on catla, Catla catla (Hamilton-Buchanan), rohu, Labeo rohita (Hamilton), and common carp, Cyprinus carpio L. Aquaculture Research. 25 (6): 659-670.
Olah, J., Szabo, P., esteky, A.A. & Nezami,. S.A. 1994. Nitrogen processing and retention in Hungarian carp farms. Journal of Applied Ichthyology, 10: 335-340.
P.R., Rao, N.G.S., Ghosh, S.R. & Rout, M. 1978. Observations on the protein and carbohydrate requirement of carps. Aquaculture, 13:245-255.
Paul, B.N. & Mukhopadhya, P.K. 2001. Importance of trace minerals in aquaculture nutrition. Fishing Chimes, 21 (8): 34-36.
Paul, B.N., Nandi, S., Sarkar, S. & Mukhopadhyaya, P.K. 1998. Dietary essentiality of phospholipids in Indian major carp larvae. Asian Fisheries Science, 11: 253-259.
Paul, B.N., Nandi, S., Sarkar, S., Mukhopadhyay, P.K. 1997. .Effects of feeding unconventional animal protein sources on the nitrogen metabolism in rohu Labeo rohita (Hamilton). Israeli Journal of Aquaculture/Bamidgeh , 49 (4): 183-192.
Paul, B.N., Sarkar, S. & Mukhopadhya, P.K. 1999. Comparative effect of varied dietary plant protein sources on growth performances of rohu (Labeo rohita). Journal of Aquaculture, 7: 11-15.
Paul, B.N., Sarkar, S., Giri, S.S., Mohanty, S.N. & Mukhopadhyaya. P.K. 2006. Dietary calcium and phosphorus requirements of rohu Labeo rohita fry. Animal Nutrition and Feed Technology, 6:257-263.
Rahman, M.M., Verdegem, M.C.J., Nagelkerke, L.A.J., Wahab, M.A.., Milstein, A. & Verreth, J.A.J. 2006. Growth, production and food preference of rohu Labeo rohita (H.) in monoculture and in polyculture with common carp Cyprinus carpio (L.) under fed and non-fed ponds.Aquaculture, 257 : 359-372.
Ramachandran, S. & Ray, A.K. 2004. Inclusion of extruded grass pea, Lathyrus sativus seed meal in compound diets for rohu, Labeo rohita (Hamilton, 1822) fingerlings. Acta Ichthylogica et Piscatorial. 34 (2): 205-218.
Ramachandran, S. & Ray, A.K. 2007. Nutritional evaluation of fermented black gram (Phaseolus mungo) seed meal in compound diets for rohu , Labeo rohita (Hamilton) , fingerlings. Journal of Applied Ichthyology, 23: 74-79.
Ramachandran, S., Bairagi, A. & Ray, A.K. 2005. Improvement of nutritive value of grass pea (Lathyrus sativus) seed meal in the formulated diets for rohu, Labeo rohita (Hamilton) fingerlings after fermentation with fish gut bacterium. Bioresource Technology, 96: 1465-1472.
Ramesh, M.R., Shankar, K.M., Mohan, C.V.,Varghese, T.J.1999.Comparison of three plant substrates for enhancing carp growth through bacterial biofilm. Aquaculture Engineering,19(2): 119-131.
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(1): 29-32.
Rangacharyulu, P.V., Sarkar, S. & Mukhopadhyay, P.K. 1999. Effect of dietary vitamin A supplementation on growth and survival of rohu (Labeo rohita) fry. Journal of Aquaculture, 7:33-36.
Ray, A..K. & Das ,I. 1994. Apparent digestibility of some aquatic macrophytes in rohu, Labeo rohita (Ham. ), fingerlings. Journal of Aquaculture in the Tropics, 9: 335-342.
Ray, A.K. & Das , I. 1995. Evaluation of dried aquatic weed, Pistia stratiotes, meal as a feedstuff in pelleted feed for rohu, Labeo rohita, fingerlings. Journal of Applied Aquaculture, 5(4): 35- 44.
Reddy, P.V.G.K., Gjerde, B., Tripathi, S.D. Jana, R.K., Mahapatra, K.D., Gupta, S.D., Saha, J.N., Sahoo, M., Lenka, S., Govindassamy, P., Rye, M. & Gjedrem, T. 2002. Growth and survival of six stocks of rohu (Labeo rohita, Hamilton) in mono and polyculture production systems. Aquaculture, 203: 239-250
Saha, A. K. & Ray, A. K. 1998a. Evaluation of Chuni, a commercially available low-cost cattle fodder, in the diet for rohu, (Hamilton), fingerlings. Aquaculture Research, 29(10): 761-768.
Saha, A. K. & Ray, A. K. 1998b. Incorporation of animal by-products in carp diets: Evaluation of poultry litter and goat blood meal as dietary protein sources for Rohu (Labeo rohita), Fingerlings. Journal of Aquaculture in the Tropics, 13 (4): 277-284.
Saha, A. K. & Ray, A. K. 2001. Optimum dietary carbohydrate requirement of rohu, Labeo rohita (Hamilton), fingerlings. Acta Ichthyologica et Piscatoria, 31(1): 81-96.
Saha, A.K. & Ray, A.K. 1993. Nutrient digestibility of three oil cakes by the fingerlings of an Indian major carp Labeo rohita (Ham.). in: M. M. Joseph (ed.), Third Indian Fisheries Forum Proceedings, pp. 1-4. Pathanagar, India.
Satapathy, B.B. & Ray, A.K. 1998. Effects of varying dietary carbohydrate level on growth, protein and energy utilization and body composition in Labeo rohita (Ham.) fry. Pp.120-128. In ; M.S.Hameed & B.M.Kurup 9eds.). technological advancements in Fisheries.
Publication no. 1 – School Indl. Fish., Cochin University of Science and Technology, Cochin, India.
Satapathy, B.B., Mukherjee, D. & Ray, A.K. (2003). Effects of dietary proten and lipid levels on growth , feed conversion and body composition in rohu, Labeo rohita (Hamilton), fingerlings. Aquaculture Nutrition, 9: 17-24.
Sau,S.K., Paul, B.N., Mohanta, K.N. & Mohanty, S.N. 2004. Dietary vitamin E requirement, fish performance and carcass composition of rohu (Labeo rohita) fry. Aquaculture, 240:359-368.
Sengupta, P. Basu, K. Prasad, L. and Mukhopadhyay, P.K. 2004. A simple pendulum feed dispenser for pond aquaculture. Infofish International, 4: 24-25.
Sethuramalingam, T.A. & Haniffa, M.A. 2001b. Optimization of energy to protein ratio in feed for Labeo rohita fingerlings. Fishery Technology, 38 (2): 115-120.
Sethuramalingam, T.A., Haniffa, M.A. 2001a. Utilization of carbohydrate rich ingredients in the feed of Indian major carp, Labeo rohita. Indian Journal of Fisheries, 48 (3): 303-312.
Singh, B.N., Sinha, V.R.P., Kumar, K. & Swamy, D.N.1986.Observations on the the feed formulations and fortification of conventional fish feed for rohu, Labeo rohita and mrigal, Cirrhinus mrigala fry and fingerlings. Int. J. Acad. Ichthyology, Modinagar,7(1): 31-34.
Swamy, D.N. & Mohanty, S.N. 1990. Response of rohu (Labeo rohita Ham ) fingerlings to diets of different protein contents. Journal of Zoological Research, 3 (2):121-125.
Tacon, A.G.J. 1987. Standard methods for the nutrition and feeding of farmed fish and shrimp. Volume 3. feeding methods. Argent laboratories press, Redmond, Washington,USA.pp.129.
Tacon, A.G.J. 1992. Nutritional fish pathology. Morphological signs of nutrient deficiency and toxicity in farmed fish. FAO Fisheries Technical Paper, 330,pp;75.FAO,Rome.
Tripathi, S.D., Aravindakshan, P.K., Ayyappan, S., Jena, J.K., Muduli, H.K., Chandra, S. & Pani, K.C. 2000. New high in carp production in India through intensive polyculture. Joucrnal of Aquaculture in the Tropics,15 (2): 119-128.
Umesh, N.R., Shankar, K.M., Mohan, C.V.1999. Enhancing growth of common carp, rohu and Mozambique tilapia through plant substrate: the role of bacterial biofilm. Aquaculture International, 7(4): 251-260.
Veerina, S.S., Nandeesha, M.C. Rao , K.G. & De Silva, S.S. 1993. status and technology of carp farming in Andhra Pradesh, in India. SpECIAL Publication No. P, Asian Fisheries Society, Indian Branch, Mangalore, India,76p.
Verreth, J., Storch,V., Segner, H. 1987. Acomparative study on the nutritional quality of decapsulated Artemia cysts, micro-encapsulated egg diets and enriched dry feeds for Clarias gariepinus (Burchell) Larvae. Aquaculture, 63: 269-282.
Virk, P.& Saxena, P.K. 2003. Potential of Amaranthus seeds in supplementary feed and its impact on growth in some carps. Bioresource Technology. 86 (1): 25-27.
Wahab, M.A., Mannan, M.A., Huda, M.A., Azim, M.E., Tollervey, A.G. & Beveridge, M.C.M.1999. Effects of periphyton grown on bamboo substrates on growth and production of Indian major carp, rohu (Labeo rohita Ham.). Bangladesh Journal of Fisheries Research, 3(1):1-10.
