Canlı yemlerin radyoaktif lipozom ile markalanması

Bu çalışma, son yıllarda larva besleme çalışmalarında yoğun olarak kullanılmaya başlanan radyoaktif markalama tekniğini tanıtmak amacı ile, su ürünleri larva yetiştiriciliğinde yaygın olarak kullanılan rotifer (Brachionus plicatilis Müler, 1786) ve artemianın (Artemia salma L., 1758J radyoaktif markalanması üzerine yapılmıştır. Çalışmada farklı oranda radyoaktif izotop (14C-Palmitik asit) içeren lipozomlar, rotifer ve artemianın markalanmasında kullanılmış, radyoaktif izotop miktanndaki değişimlerin, canlı - yemlerin spesifik aktivite miktarının üzerine etkileri incelenmiştir.

Anahtar Kelimeler:

radyoaktif işaretleyiciler, balık beslenmesi, biyolojik etiket, Artemia salina, Rotifera, markalama

Marking of live feeds by radioactivite liposomes

This study was done to introduce the radioactive marking technique that had been commonly used in larval feeding studies in the last years, by marking rotifer (Brachionus plicatilis Muler, 1786) and Artemia (Anemia salına L., 1758) with radioactivity which were extensively used for larval feeding in aquaculture. In the study, liposomes having different concentrations of radioactive isotopes (MC-Palmitik asit) were used to mark rotifer and artemia; and the effects of changes in radioactive isotope concentrations on the specific activity values of live feeds were investigated.

Keywords:

radioactive tracers, fish feeding, biological tags, Artemia salina, Rotifera, marking,

PDF

___

Alarcon, F.J., Moyano, F.J., Diaz, M., Fernandez-Diaz, C, Yufera, M. 1999. Optimization of the protein fraction of microcapsules used in feeding of marine fish larvae using in vitro digestibility techniques. Aquaculture Nutrition, Vol:5, pp:107-113.

Baskerville-Bridges, B., Kling, L.J. 2000. Development and evaluation of microparticulate diets for early weaning of atlantic cod Gadus morhua larvae. Aquaculture Nutrition.Vol:6, pp: 171-182.

Dendrinos, P., Dewan, S., Thorpe, J.P. 1984. Improvement in the feeding efficiency of larval, post larval and juvenile Dover sole (Solea solea L.) by the use of staining to improve the visibility of Artemia used as food. Aquaculture 38,137-144.

Fernandez-Diaz, C, Pascual, E., Yufera, M. 1994. Feeding behaviour and prey size selection gilthead seabream, Sparus aurata, larvae fed on inert and live food. Marine Biology, Vol:l 18, pp:323-328.

Gamsız, K., 2002. Investigation on using microencapsulated feeds instead of zooplankton in larval nutrition of gilthead sea bream (Sparus aurata) (in Turkish). PhD thesis, Ege University, 103p.

Gürsoy, A., 1988. Liposomes (in Turkish), p. 173-196. In: A.Gürsoy, E.Pişkin, B. Dortunç, N.A. Peppas [Eds]. Controlled Drug Release Sytems. Faculty of Pharmacy of Marmara University. No: 469/5.

Knauer, J., Southgate, P.C. 1997. Assimilation of gelatine-acacia microencapsulated lipid by Pacific oyster (Crassostrea gigas) spat. Aquaculture, Volume.153, pp:291-300.

Kolkovski, S., Tandler, A., Kissil, G.W.M., Gertler, A. 1993. The Effect Of Dietary Exogenous Digestive Enzymes On Ingestion, Assimilation, Growth And Survival Of Gilthead Seabream {Spams Aurata, Sparidae, L.) Larvae. Fish Phsiology And Biochemistry, 12:203-209.

Kolkovski, S., Arieli, A., Tandler, A.1997. Visual and chemical cues stimulate microdiet ingestion in gilthead seabream, Spams aurata, larvae. Aquaculture Int. Vol:5, p:527-536.

Korkut, A.Y., Hoşsu, B. 1998. Fish Nutrition and Feed Technology II. Ege University, Faculty of Fisheries, Publication No:54, Ders Kitabı Dizini No:23, İzmir.

Koven, W., Barr, Y., Hadas, E., Ben-Atia, I., TChen, Y., Weiss, R., Tandler, A. 1999. The potential of liposomes as a nutrient supplement in first-feeding marine fish larvae. Aquaculture Nutrition, Vo:5, pp:251-256.

Koven, W., Kolkovski, S., Hadas, E., Gamsız, TK., Tandler, A. 2001. Advances in the development of microdiets for gilthead seabream, Spams aurata: a review. Aquaculture 194, pp: 107-121.

Langdon, C.J., 2000. Artificial microparticles Tfor delivery of nutrients to marine suspension-feeders. The Advocate, February 2000, pp:40-41.

Langdon, C.J., 1989. Preparation and evaluation of protein microcapsules for a marine susupension-feeder, the Pacific oyster rassostrea gigas. Marine biology, 102, 217-224.

Leibovitz, H.E., D.A. Bengtson, P.D. Maugle T and K. L. Simpson. 1987. Effects of dietary Artemia lipid fractions on growth and survival of larval inland silversides, Menidia beryllina. pp. 469478 in P. Sorgeloos, D. A. Bengtson, W. Decleir and E. Jaspers, editors, Artemia research and its applications, Volume 3. Universa Press, Wetteren, Belgium.

NCHPS. Nuclide safety data sheet Carbon-14.(http://www.nchs.org).

Önal,U.,Langdon,C2000. Characterization of two microparticulate types for delivery of food to altricial fish larvae. Aquaculture Nutrition, Vol:6, pp: 159-170.

Parra, G., Yufera, M. 2000. Feeding, phsiology and growth responses in first-feeding gilthead seabream (Spams aurata) larvae in relation to prey density. Journal of the Experimental Marine Biology and Ecology, Vol: 243, pp: 1-15.

Planas, M., Cunha, I., 1999. Simple techniques for labeling prey and gut content analysis in short-therm feeding experiments with fish larvae. Aquat. Living Reseour., 12(2), 145-149.

Rice, A.M., Bengston, D.A., Jaworski, C. 1994. Evaluation of artificial diets for cultured fish. NRAC Fact Sheet, No:22.

Ronnestad, I., Conceiço, E.C., Aragao, C, Diniş, M.T., 2000. Free amino acids are absorbed faster and assinilated more efficiently than protein in postlarval Senegal sole (Solea senegalendis). American Society for Nutritional Sciences, 22, 2809-2812.

Ronnestad,I.,Rojeas-Garcia, C.R., Tonheim, S.K., Conceiçao, E.C., 2001. In vivo studies of digestion and nutrient assimilation in marine fish larvae. Aquaculture, 201, pp, 161 -175.

Rust, M.B., Hardy, R.W., Stickney, R.R., 1993. A new method for force-feeding larval fish. Aquaculture 116, 341-352.

Salhi, M., Izquierdo, M.S., Hernandez-Cruz, CM., Socorro, J., Fernandez-Palacios, H. 1997. The improved incorporation of polyunsaturated fatty acids and changes in liver structure in larval gilthead seabream fed on microdiets. Journal of Fish Biology, Vol:51,pp:869-879.

Tandler, A. 1984/1985. Overview: Food For The Larval Stages Of Marine Fish. Live Or Inert? Israel Journal Of Zoology. Vol: 33, Sayfa: 161-166.

Tandler, A., Mason, C, 1984. The use of 14C labeled rotifer (Brachionus plicatilis) in the larvae of gilthead seabream (Spams aurata): Measurements of the effect of rotifer concentration, the lighting regime and seabream larval age on their rate of rotifer ingestion. EAS Special Publication, No:8. pp: 241-259. Belgium.

Walford, J.,Lim, T.M., Lam, T.J. 1991. Replacing live foods with microencapsulated diets in the rearing of seabass (Lates calcarifer) larvae: Do the larvae ingest and digest protein-membran microcapsules.Aquacuiture, Vol:92, pp: 225-235.

Yufera, M., Fernandez-Diaz, C, Pascual,E. 1995. Feeding Rates Of Gilthead Seabream Sparus aurata Larvae On Microcapsules. Aquacuiture 134, pp: 257-268.

Yufera, M., Fernandez-Diaz, C, Pascual, E., Sarasquete, M.C., Moyano, F.J., Diaz, M., Alarcom, F.J., Garcia-Gallego, M., Parra, G. 2000. Towards an inert diet for first-feeding gilthead seabream Sparus aurata L. Larvae. Aquacuiture Nutrition, Vol:6, pp:143-152.

Yufera, M., Pascual, E., Fernandez-Diaz, C. 1999. A higly efficient microencapsulated food for rearing early larvae of marine fish. Aquacuiture, Vol:177, pp: 249-256.