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Gynogenetic northern pike (Esox lucius L.) were produced using UV irradiated sperm and heat shock applied to inseminated eggs shortly after gamete activation. Milt was diluted in immobilizing solution (1:9) and UV irradiated (6.4 W*m-2) for 2-20 min, with dosage in the range of 768-7680 J*m-2. Genetic inactivation of spermatozoa was most efficient when milt was irradiated for 8 min (3072 J*m-2). Insemination of eggs with irradiated milt yielded 100% haploid larvae with hatching rate at 72.1۪.8% (mean±SD), expressed as a percentage of inseminated eggs. Haploid embryo developed and most of them hatched (showing "haploid syndrome") but all haploid larvae died within 48 hours after hatching. After insemination with irradiated sperm the eggs were exposed to a thermal shock of 34°C or 34.5°C, lasting 3 or 5 min, applied 11-16 min after gamete activation. The efficiency of heat shock and survival in experimental groups significantly depended on the source (individual female effect) and quality of eggs. The time of application and duration of the heat shock also affected the survival of embryo and percentage of gynogenetic larvae. Gynogenetic larvae were obtained in all experimental groups with hatching rate as high as 24.2ۭ.6%.
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Tom
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39--43
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Bibliogr. 25 poz., wykr.
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- Department of Aquaculture, Inland Fisheries Institute, Oczapowskiego 10, 10-719 Olsztyn, Poland, marekjl@infish.com.pl
Bibliografia
- Babiak, I., J. Glogowski,M.J. Luczynski, D. Kucharczyk,M. Luczynski. 1995. Cryopreservation of the milt of the northern pike. Journal of Fish Biology 46: 819-828.
- Bardega, R., M. Luczynski. 1990. Experimental hatchery and larvae rearing unit. Acta Academiae Agriculturae ac Technicae Olstenensis, Protectio Aquarum et Piscatoria 18: 87-96.
- Billard, R. 1974. Artificial insemination of the trout, Salmo gairdneri Richardson. IV - Effects of K+ and Na+ ions on gamete fertilizing ability. Bulletin Francais de Pisciculture 256: 88-100.
- Billard, R., M. Debruille, J.-P. Gerard, G. de Montalembert. 1976. L'insemination artificielle du brochet. Bulletin Francais de Pisciculture 262: 30-34.
- Chourrout, D. 1982. Gynogenesis caused by ultraviolet irradiation of salmonid sperm. The Journal of Experimental Zoology 223: 175-181.
- Diaz, N.F., P. Iturra, A. Veloso, F. Estay, N. Colihueque. 1993. Physiological factors affecting triploid production in rainbow trout, Oncorhynchus mykiss. Aquaculture 114: 33-40.
- Donaldson, E.M., G.A. Hunter. 1982. Sex control in fish with particular reference to salmonids. Canadian Journal of Fisheries and Aquatic Sciences 39: 99-110.
- Feist, G., C.-G. Yeoh, M.S. Fitzpatrick, C.B. Schreck. 1995. The production of functional sex-reversed male rainbow trout with 17α-methyltestosterone and 11 β -hydroxyandrostenedione. Aquaculture 131: 145-152.
- Goryczko, K., S. Dobosz, T. Mäkinen, L. Tomasik. 1991. Uvirradiation of rainbow trout sperm as a practical method for induced gynogenesis. Journal of Applied Ichthyology 7: 136-146.
- Ihssen, P. E., L.R. McKay, I. McMillan, R.B. Phillips. 1990. Ploidy manipulation and gynogenesis in fishes: cytogenetic and fisheries applications. Transactions of the American Fisheries Society 119: 698-717.
- Kaastrup, P., V. Horlyck. 1987. Development of a simple method to optimize the conditions for producing gynogenetic offspring, using albino rainbow trout, Salmo gairdneri Richardson, females as an indicator for gynogenesis. Journal of Fish Biology 31 (Suppl. A): 29-33.
- Kucharczyk, D.,M.J. Luczynski,M. Luczynski, I. Babiak, J. Glogowski. 1996. Genetic inactivation of bream (Abramis brama) sperm with UV irradiation. Cytobios 86: 211-219.
- Kucharczyk,D., P.Woznicki,M.J. Luczynski,M. Klinger,M. Luczynski. 1999. Ploidy level determination in genetically manipulated northern pike (Esox lucius L.) based on the number of active nucleoli per cell. North American Journal of Aquaculture 61: 38-42.
- Levanduski,M.J., J.C. Beck, J.E. Seeb. 1990. Optimal thermal shocks for induced diploid gynogenesis in chinook salmon (Oncorhynchus tshawytscha). Aquaculture 90: 239-250.
- Lin, F., K. Dabrowski. 1996. Effects of sperm irradiation and heat shock on induction of gynogenesis in muskellunge (Esox masquinongy). Canadian Journal of Fisheries and Aquatic Sciences 53: 2067-2075.
- Lin, F., K. Dabrowski, M.J. Luczynski, M. Luczynski. 2001. Mosaic individuals found in genetically manipulated northern pike (Esox lucius) using flow cytometry. Journal of Applied Ichthyology 17: 85-88.
- Luczynski, M.J., P. Woznicki. 1995. Preliminary observations on induced triploidy by heat shock in northern pike (Esox lucius L.). Archives of Polish Fisheries 3: 181-186.
- Luczynski, M.J., J. Glogowski, D. Kucharczyk, M. Luczynski, K.Demska-Zakes. 1997.Gynogenesis in northern pike (Esox lucius L.) induced by heat shock - preliminary data. Polish Archives of Hydrobiology 44: 25-32.
- Mirza, J.A., W.L. Shelton. 1988. Induction of gynogenesis and sex reversal in silver carp. Aquaculture 68: 1-14.
- Onozato,H., E.Yamaha. 1983. Induction of gynogenesis with ultraviolet rays in four species of Salmoniformes. Bulletin of the Japanese Society of Scientific Fisheries 49: 693-699.
- Onozato, H. 1984. Diploidization of gynogenetically activated salmonid eggs using hydrostatic pressure. Aquaculture 43: 91-97.
- Purdom, C.E. 1969. Radiation-induced gynogenesis and androgenesis in fish. Heredity 24: 431-444.
- Purdom, C.E. 1983. Genetic engineering by the manipulation of chromosomes. Aquaculture 33: 287-300.
- Scott, W.B., E.J. Crossman. 1973. Freshwater Fishes of Canada. Bulletin of the Fisheries Research Board of Canada 184: 966p.
- Zalachowski, W. 1965. The growth of pike in Leginskie Lakes [Wzrost szczupaka z Jezior Leginskich]. Zeszyty Naukowe Wyzszej Szkoly Rolniczej w Olsztynie 20: 181-193 (in Polish).
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Bibliografia
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bwmeta1.element.baztech-article-BAR0-0062-0101