The purpose of the research is to obtain the most desirable zygote age for the triploidization process using heat shock and to determine the growth performance of Seurukan fish breed as triploidized. The method used in this study is experimental method with a completely randomized design model, through 4 treatments, and 3 replications. P0: Normal spawning (control) P1: Temperature 42°C, zygote age 15 minutes old, temperature shock duration 2 minutes. P2: Temperature 42°C, zygote age 20 minutes old, temperature shock duration 2 minutes. P3: Temperature 42°C, zygote age 25 minutes old, temperature shock duration 2 minutes. The preferable hatching was found in P3 treatment with a zygote age of 25 minutes old and immersed duration for 2 minutes which was 91.27%. In addition, the highest survival rate was found in the control treatment which was 89.98% and the percentage of triploids successfulness was found in P2 with a zygote age of 20 minutes old and an immersed duration for 2 minutes which was 60%. The results present that the triploidization of Seurukan fish through a temperature shock of 42^oC for 2 minutes at the zygote age of 20 minutes old after fertilization succeeded in inducing triploid fish. The optimum treatment that able to produce the highest triploid (60%) with a survival rate of 81.1% is a temperature shock of 42^oC for 2 minutes at the zygote age of 20 minutes old after fertilization.

Arfandi, G., Muchlisin, Z.A., Adlim, M., Fadli, N., Sugianto S. (2014). Induced spawning of seurukan fish, Osteochilus vittatus (Pisces Cyprinidae) using ovaprim, oxytocin and chicken pituitary gland extracts. AACL Bioflux, 7(5): 412-418.

Andriyanto, W.B. Selamet dan I.M.D.J Ariawan. (2013). Perkembangan Embrio Dan Rasio Penetasan Telur Ikan Kerapu Raja Sunu (plectropomaleavis) pada Suhu Media Berbeda. Jurnal Ilmu dan Teknologi Kelautan Tropis, Vol. 5, No. 1, Hlm. 192-203.

Beaumont, A.R., Hoare, K. (2003). Biotechnology and Genetics in Fisheries and Aquaculture. Oxford Blackwell Science. hlm 158.

Berrill, I.K., MacIntyre, C.M., Noble, C., Kankainen, M., Turnbull J.F. (2012). Bio-economic Costs and Benefits of Using Triploid Rainbow Trout in Aquaculture: Reduced Mortality. Aquacult Eco Mgmnt. 16:365-383.

Bidwell, C.A., Chrisman, C.L., Libey, G.S. (1985). Polyploidy induced by heat shock in channel catfish. Aquaculture. 51:25-32.

Carman, O., Oshiro, T., Takashima, F. (1991). Estimation of effective condition for induction of triploidy in goldfish Carassius auratus Linnaeus. J Tokyo Univ Fish. 78(2):127-135.

Carman, O., (1992). Chromosome set manipulation in some warmwater fish doctoral thesis. Tokyo JP: Tokyo University of Fisheries. hlm 131.

Gervai, J., Marian T., Krasznai Z., Nagy, A., Csanyi, V. (1980). Occurrence of aneuploidy in radiation gynogenesis of carp Cyprinus carpio L. J Fish Biol. 16(4):435-439.

Haloho, Mei, Dinar, T., Nuraini, Riauwaty, M. (2015). Effectiveness of Triploidization On Ingir-Ingir (Mystus Nigriceps) With Different Fertilization and Heat Shock. Fish Hatchery and Breeding Laboratory Faculty of Fishieries and Marine Sciences University of Riau.

Howell, W.M., & Black, D.A., (1980). Controlled Silver Staining of Nucleolus Organizer Regions with Protective Colloidal Developer: a1-step methods. Experientia. 36(2):1014-1015.

Ibrahim, Y., Saputra, F., Yusnita D., Karim, A. (2018). Evaluasi pertumbuhan dan perkembangan gonad ikan serukan Osteochilus sp yang diberi pakan tepung kunyit. J Akuakultura. 2 (2):7-14.

Ibrahim, Y., Soelistyawati, T.D., Carman, O. (2017). Triploid striped catfihs pangasianodon hypopythalmus: growth performance and gonadal development. Jurnal Akuakultur Indonesia 16. (1), 76-82.

Kayfan., Figen., Esin. (2010) Heat Shock Protein Genes in Fish Turkish Journal of Fishseries and Aquatic SecienseDepartemen of Biology, Goztepe 34722 Istambul, Faculty of Science and Arts, Marmara University Turkey. 10:287-293.

Liu, S. J., Qin QB., Xioa J., Lu WT., Shen JM, Li W, Liu JF., Duan W., Zhang C, Tao M., Zhao RR., Yan JP., Liu Y. (2007). The formation of the polyploid hybrids from different subfamily fish crossings and its evulotionary significance. Genetics. 176(2):1023-1034.

Mukti, A.T. (2016). Triploidi dan dimorfismeseks, performa reproduksi dan produksinya pada ikan nila Oreochromis niloticus disertasi. Bogor. InstitutPertanian Bogor.

Nam, Y.K., Park, I.S, Kim, D.S. (2004). Triploid hybridization of fast-growing transgenic mud loach Misgurnus mizolepis male to cyprinid loach Misgurnus anguillicaudatus female: the first performance study on growth and reproduction of transgenic polyploid hybrid fish. Aquaculture. 231:559-572.

Park, I., Nam, Y.K., Kim, D.S. (2006). Growth performance, morphometric traits and gonad development of induced reciprocal diploid and triploid hybrids between the mud loach (Misgurnus mizolepis Günther) and cyprinid loach (Misgurnus anguillicaudatus Cantor). Aquacult Res. 37:1246-1253.

Pandian, T.J., Varadaraj, K. (1990). Techniques to produce 100% male tilapia. AGA.The Iclarm Quarterly. 13(34):3-5.

Piferre, F., Beaumont, A., Falguière, J.C., Flajšhans, M., Haffray, P., Colombo, L. (2009). Polyploid fish and shellfish: production, biology and applications to aquaculture for performance improvement and genetic containment. Aquaculture. 293:125-156.

Purdom, C.E. (1993). Genetics and Fish Breeding. Chapman dan hall London fish and fisheries series 8.

Nurasni, A. (2012. Pengaruh Suhu Dan Lama Kejutan Suu Panas Terhadap Triploidisasi Ikan Lele Sangkuriang (Clarias gariepinus). JAS.2(1).1-10.

Soviawati, E. (2004). Pengaruh Kejutan Suhu Panas (Heat Shock) Terhadap PenetasanTelur (Heatching Rate) dan Kelulusan Hidupan (Survival Rate) Larva Ikan Mas (Cyprinus carpio) Pada Proses Androgenesis Mitosis, Skripsi Universitas Jember, Program Studi Pendidikan Biologi, Jurusan Matematika Dan Ilmu Pengetahuan Alam.

Sukarti, K.I., Djawad, dan Y. Fujaya. (2006). Pengaruh Lama Kejutan Suhu Panas Terhadap Keberhasilan Triploid Ikan Lele (clarias batrachus). Sains & teknologi. Vol. 6 No.3:135-142.

Suzuki, R., Nakanishi, T., Oshiro, T. (1985). Survival, growth and sterility of induced triploid in the cyprinid loach Misgurnus anguillicaudatus. Bull. Jpn Soc Sci Fish. 51:889-894.

Thorgaard, G.H.S.K., Allen, Jr. (1987). Chromosome manipulation and markers in fisheries menagement. In: Ryman, N., Utter, F. (Eds.), Population Genetics and Fishery Mnagement. University of Washington.

Yusuf, D.H, Sugiharto, G.E. Wijayanti. (2014). Perkembangan post-larva ikan nilem (Osteochilus hasselti C.V) dengan pola pemberian pakan berbeda. Scripta Biologica, 1(3): 7-14.

Yulianti, B.E. (2016). Pengaruh Suhu Terhadap Perkembangan Telur Dan Larva Ikan Tor (Tor tambroides) Skripsi, Fakultas Pertanian Universitas Lampung: Bandar Lampung.