In collaboration with Payame Noor University and Iranian Society of Physiology and Pharmacology

Document Type : Article

Author

Artemia and Aquaculture Research ‎Institute, Urmia University, Urmia, ‎Iran

10.30473/eab.2023.68141.1912

Abstract

In this study, rainbow trout diploid, triploid, and tetraploid were comparatively investigated regarding the growth ‎performance, survival rate, and erythrocyte characteristics. For the triploid production, the fertilized eggs received 26.5 ℃ ‎thermal shock under three treatments: 1. double 1-min shock after 15 and 30 min of the fertilization, 2. one 15-min shock ‎after 15 min of the fertilization, and 3. one 12-min shock after 20 min of the fertilization. Tetraploidy was induced by ‎application of 28 ℃ thermal shock under three treatments: 1. 10-min shock after 59 degree-hours of the fertilization, 2. 10-‎min shock after 66 degree-hours of the fertilization, and 3. 10-min shock after 72 degree-hours of the fertilization. The best ‎triploidization results, 66.6% survival rate and 87% triploidization rate, achieved by application of 12-min shock after 20 ‎min of the fertilization. The best tetraploidization results, 54.9% survival rate and 7.94% triploidization rate, achieved by ‎application of 10-min shock after 59 degree-hours of the fertilization. There were no significant differences between the ‎triploid and diploid fish, wheras the tetraploids showed significantly lower growth rate than the diploids. In conclusion, in ‎this study, triploid and tetraploid production of rainbow trout were improved, and application of erythrocyte cell size as a ‎reliable and efficient polyploidy detection method was emphasized.‎

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Main Subjects

lcantar-Vazquez, J. P., Dumas, S., Puente-Carreon, E., Pliego-Cortés, H. S., & Peña, R. (2008). Induction of triploidy in spotted sand bass (Paralabrax maculatofasciatus Steindachner, 1868) by cold shock. Aquacaltural Research, 39, 59-63.
Bahrami Babaheydari, S., Keyvanshokooh, S., Dorafshan, S., & Johari, S. (2017). Effects of tetraploidization on hatching, survival, growth performance and proximate composition in rainbow trout (Oncorhynchus mykiss). Veterinary Research & Biological Products, 30(4), 231-240. (in Persian).
Bekcan, S., Atar, H. H., & Yavuzcan, H. (2016). The survival rate of rainbow trout (Oncorhynchus mykiss, walbaum) at the stages of eyed eggs, larvae and fry in tetraploid applications. Journal of Applied Biological Sciences, 10(3), 20-23.
Bencsik, I., Pacala, N., Dumitrescu, G., Dronca, D., Stanculet, J., & Petculescu-Ciochina, L. (2013). Triploidy determination in rainbow trout (Oncorhynchus mykiss) based on erythrocytes dimensions. Animal Science and Biotechnologies, 46(1), 113-117.
Benfey, T. J., & Sutterlin, A. M. (1984a). Triploidy induced by heat shock and hydrostatic pressure in landlocked Atlantic salmon (Salmo salar L.). Aquaculture, 36, 359-367.
Benfey, T. J., & Sutterlin, A. M. (1984b). Growth and gonadal development in triploid landlocked Atlantic salmon Salmo salar. Canadian Journal of Fisheries and Aquatic Sciences, 41, 1387-1392.
Cal, R. M., Vidal, S., Gómez, C., Álvarez-Blázquez, B., Martínez, P., & Piferrer, F. (2006). Growth and gonadal development in diploid and triploid turbot (Scophthalmus maximus). Aquaculture, 251, 99-108.
Chourrout, D., Chevassus, B., Krieg, F., Happe, A., Burger, G., & Renard, P. (1986). Production of second generation triploid and tetraploid rainbow trout by mating tetraploid males and diploid females—potential of tetraploid fish. Theoritcal and Applied Genetic, 72, 193-206.
Diaz, N. F., Iturra, P., Veloso, A., Estay, F., & Colihueque, N. (1993). Physiological factors affecting triploid production in rainbow trout, Oncorhynchus mykiss. Aquaculture, 114, 33-40.
Doğankaya, L., & Bekcan, S. (2014). The effects of pressure and heat shocks induced at different times after fertilization on triploid production in rainbow trout (Oncorhynchus mykiss, W. 1792). Eğirdir Su Ürünleri Fakültesi Dergisi, 10(2), 35-43.
Dorafshan, S., Vafaei Saadi, A., Nekoeifard, A. (2014). Optimal heat shock condition for tetraploidy induction in rainbow trout (Oncorhynchus mykiss). Journal of Veterinary Research, 69(4), 411-421. (in Persian).
Dunhum, R. A. (2004). Aquqculture Fisheries Biotecnology: Genetic Approaches. Cambridge. CABI Publishing.
Espinosa, E., Josa, A., Gil, L., & Marti, J. I. (2005). Triploidy in rainbow trout determined by computer-assisted analysis. Journal of Experimental Zoology, 303A, 1007-1012.
Fauconneau, B., Kaushik, S. J., & Blanc, J. M. (1989). Uptake and metabolization of dissolved compounds in rainbow trout fry. Comparative Biochemistry and Physiology, 93, 839-843.
Felip, A., Piferrer, F., Zanuy, S., & Carrillo, M. (2001). Comparative growth performance of diploid and triploid European sea bass over the first four spawning seasons. Journal of Fish Biology, 58, 76-88.
Gandomkar, H. A., Rastiannasab, A., Nazari, S., Kazemi, E., & Jahanabad, J. M. (2020). Efficiency and optimization of heat shock in production of rainbow trout tetraploid. Scientific Research Journal of Animal Environment, 12(4), 335-343. (in Persian).
Gjedrem, T., Robinson, N., & Rye, M. (2012). The importance of selective breeding in aquaculture to meet future demands for animal protein: a review. Aquaculture, 350-353, 117-129.
Güner, M., Peker, Z., & Altunok, M. (2016). Optimization of thermal shock for poliplody induction in rainbow trout (Oncorhynchus mykiss) under photoperiodic control of spawning. Turkish Journal of Fisheries and Aquatic Sciences, 16, 797-804.
Horstgen-Schwark, G. (1993). Initiation of tetraploid breeding line development in rainbow trout, Oncorhynchus mykiss. Aquaculture and Fisheries Management, 24, 641-652.
Howell, W. M., & Black, D. A. (1980). Controlled silver staining of nucleolus organizer with a protective colloidal developer: a 1-step method. Expereintia, 36(8), 1014-1015.
Hwang, G. D. (2012). Inland fisheries research institute yearly research report. Korea: Chungcheongbuk-do.
Irani, A., & Agh, N. (2020). Rainbow trout larvae production in an airlift-based recirculating system. Aquaculture, 518, 734831.
Kalbasi, M. R., Bagheri, A., Pourkazemi, M., & Abdolhai, H. (2004). Induction of t etraploidy in rainbow trout (Onchorhynchus mykiss) by heat shock. Iranian Scientific Fisheries Journal, 12(4), 143-152. (in Persian).
Kalbassi, M. R., & Johari S. A. (2008). A Study on the Production Possibility of All-Female Triploid Rainbow Trout (Oncorhynchus mykiss). Journal of Crop Production and Processing, 12(44), 269-278. (in Persian).
Kizak, V., Güner, Y., Türel, M., & Kayim, M. (2013). Comparison of growth performance, gonadal structure and erythrocyte size in triploid and diploid brown trout (Salmo trutta fario L., 1758). Turkish Journal of Fisheries and Aquatic Sciences, 13, 571-80.
Kim, H. S., Chung, K., & Son, J. (2017). Comparison of different ploidy detection methods in Oncorhynchus mykiss, the rainbow trout. Fisheries and Aquatic Sciences, 20(1), 1-7.
Johari, S. A., & Kalbassi., M. R. (2007). Investigation of red blood cell alterations in triploid rainbow trout (Oncorhynchus mykiss). Iranian Journal of Biology, 19(4), 492-495. (in Persian).
Johnstone, R. (1985). Induction of triploidy in Atlantic salmon by heat shock. Aquaculture, 49, 133-139.
Lamatsch, D. K., Steinlein, C., Schmid, M., & Schartl, M. (2000). Non-invasive determination of genome size and ploidy level in fishes by flow cytometry detection of triploid Poecilia formosa. Cytometry, 39, 91-95.
Lincoln, R. F., & Scott, A. P. (1983). Production of all-female triploid rainbow trout. Aquaculture, 30, 375-380.
Liu, S., Sezakki, D., Hashimoto, K., Kobayashi, H., & Nakamura, M. (1978). Simplified techniques for determination of polyploidy in ginbuna, Carassius auratus langsdorfi. Bulletin of the Japanese Society for the Science of Fish, 44, 601-606.
Maxime, V. (2008). The physiology of triploid fish: current knowledge and comparisons with diploid fish. Fish and Fisheries, 9(1), 67-78.
Olele, N. F., & Tiguiri, O. H. (2013). Optimization of triploidy induction and growth performance of Claria anguillarias (African catfish) using cold shock. Academic journal of interdisciplinary studies, 2, 189-96.
Pandian, T. J., & Koteeswaran, R. (1998). Ploidy induction and sex control in fish. Hydrobiologia, 384, 167-243.
Piferrer, F., Beaumont, B., Falguiere, J. C., Flajshans, D. M., Haffray, P. E., & Colombo, L. (2009). Polyploy fish and shellfish: production, biology and applications to aquaculture for performance improvement and genetic containment. Aquaculture, 293, 125-56.
Porto-Foresti, F., Oliveira, C., Tabata, Y. A., Rigolino, M. G., & Foresti, F. (2002). NORs inheritance analysis in crossings including individuals from two stocks of rainbow trout (Oncorhynchus mykiss). Hereditas, 136,227-30.
Pradeep, P. J., Srijaya, T. C., Jose, D., Papini, A., Hassan, A., & Chatterji, A. K. (2011). Identification of diploid and triploid red tilapia by using erythrocyte indices. Caryologia, 64, 485-492.
Shimizu, Y., Oshiro, T., & Sakaizumi, M. (1993). Electrophoretic studies on diploid, triploid and tetraploid forms of the Japanese silver crucian carp, Carassius auratus langsdorfi. Japanese Journal of Ichthyology, 40, 65-75.
Small, S. A., & Benfey, T. J. (1987). Cells size in triploid salmon. J Exp Zool, 241, 339-342.
Solar, I. I., Donaldson, E. M., George, A., & Hunter, G. A. (1984). Induction of triploidy in rainbow trout (salmo gairdneri Richardson) by heat shock, and investigation of early growth. Aquaculture, 42, 57-67.
Sourinezhad, I., & Kalbassi, M. R. (2011). Investigation of growth indices of all female and mixed sex diploid and triploid rainbow trout Oncorhynchus mykiss in the second year of culture. Iranian Journal Of Biology, 24(4), 517-527. (in Persian).
Sourinezhad, I., Kalbasi, M. R., Khodabandeh, S., & Rezaei, M. (2009). Comparative study of ovary development of all female diploid and tnploid rainbow trout Oncorhynchus mykiss in the second year of culture. Iranian Journal Of Biology, 22(1), 111-123. (in Persian).
Thorgaard, G. H. (1983). Chromosome sex manipulation and sex control in fish. In: Hoar, W., Randall, D. and Donaldson, E., editors. Fish physiology, 9, New York, NY: Academic Press.
Thorgaard, G. H., & Disney, G. (1990). Chromosome preparation and analysis. In: Schreck, C., Moyle, P., editors. Methods for fish biology. Bethesda, MD: American Fisheries Society.
Tiwary, B. K., Kirubagaran, R., & Ray, A. K. (1997). Induction of triploid by cold shock in catfish, Heteropneustes fossilis (Bloch). Asian Fisheries Science, 10, 123-129.
Tiwary, B. K., Kirubagaran, R., & Ray, A. K. (2004). The biology of triploid fish. Reviews in Fish Biology and Fisheries, 14, 391-402.