FIRST GENERATION REPRODUCTIVE PERFORMANCE AND SECOND GENERATION LARVAL PRODUCTION ON THE DOMESTICATED TINFOIL BARB, Barbonymus schwanenfeldii (BLEEKER, 1854)

Irin Iriana Kusmini, Wahyulia Cahyanti, Rudhy Gustiano, Sri Sundari, Andri Iskandar, Deni Radona, Kurniawan Kurniawan, Vitas Atmadi Prakoso, Fera Permata Putri, Otong Zenal Arifin, Jojo Subagja, Anang Hari Kristanto, Tri Heru Prihadi, Mulyasari Mulyasari, Yosmaniar Yosmaniar, Subaryono Subaryono

Abstract


Tinfoil barb, Barbonymus schwanenfeldii (Bleeker, 1854), is a potential freshwater fish for Indonesian aquaculture. Before widely used, the candidate needs to be evaluated. This research aimed to evaluate the reproductive performance of the first generation (G1) and larval performance of the second generation (G2) of domesticated tinfoil barb. A total of 68 female and 24 male broodstocks were selected for the artificial breeding program. The gonadal maturity test was carried out by canulating the eggs every month. Before spawning, GnRHa hormone was injected into the dorsal area (0.5 mL/kg for female and 0.2 mL/kg for male). Fecundity, fertility rate, hatching rate, embryogenesis, and larvae ontogeny were recorded. The results showed that the first matured G1 males of tinfoil barb were at the standard length of 16.01 ± 1.18 cm, while females at 15.79 ± 1.23 cm. The mature broodstock indicated by the gonad maturity stage III and IV confirming higher estradiol concentration (above 400 pg mL-1). The fecundity of two mature broodstock-sized of 217.2 g and 197.3 g were 12,495 and 15,782 eggs, respectively. The spawning season of G1 tinfoil barb was in October and November (rainy seasons). The fertilized eggs latency time was 10 hours 44 minutes at 25°C and hatched after 23 hours 7 minutes. The fertility rate was 96.96 % and the hatching rate was 95.16 %. The survival rate of G2 normal larvae was 100 % at three days of the rearing period. The G2 larvae production in this experiment provides an excellent opportunity for fish diversification both for aquaculture and restocking.

Keywords


Reproduction, breeding, domestication, tinfoil barb, aquaculture

Full Text:

PDF

References


Barrero, M., Small, B. C., D’Abramo, L. R., Hanson, L. A., & Kelly, A. M. (2007). Comparison of estra-diol, testosterone, vitellogenin and cathep-sin profile among young adult channel cat-fish (Ictalurus punctatus) females from four selectively bred strains. Aquaculture, 264: 390-397.

Bailey, R.., & Cole, B. (1999). Spawning the tinfoil barb, Barbodes schwanenfeldii in Hawaii. CTSA. 36: 1-8.

Balon, E. K. (2004). About the oldest domesticates among fishes. Journal of Fish Biology, 65: 1-27.

Boyd, C. E., & Tucker, C. S. (2012). Pond aquaculture water quality management. Springer Science & Business Media. NY, USA.

Campos-Mendoza, A., McAndrew, B. J., Coward, K., & Bromage, N. (2004). Reproductive response of Nila tilapia (Oreochromis niloticus) to photoperiodic manipulation: effects on spawning periodicity, fecundity and egg size. Aquaculture, 231: 299-314.

Dewantoro, E., Rachimi, R., & Purnamawati, P. (2011). Reproduction aspects of lampam fish in open waters of West Kalimantan. Jurnal Agria, 7 (1): 113–127.

Dewantoro, E., Dhahiyat, Y., & Rostika, R. (2018). Growth performance of tinfoil barb (Barbonymus schwanenfeldii) fed with different protein levels and energy/protein ratios on diet. Aquaculture, Aquarium, Conservation & Legislation, 11 (4): 1300-1310.

Epasinghe, E. D. M., Adikari, A. M. A. N., Kithsiri, H. M. P., Pahalawattarachchi, V., & Karunaratne, T. A. D. W. (2016). Induced breeding of tinfoil barb (Barbonymus schwanenfeldii) (Bleeker,1854) using ovaprime. In: Proc of the National Aquatic Resources Research and Development Agency (NARA), Scientific Sessions, Sri Lanka, SL.

Efizon, I. D., Batubara, A. S., Muchlisin, Z. A., Elvyra, R., Rizal, S., & Siti-azizah, M. D. (2021). Reproductive aspects of naleh fish (Barbonymus sp.): A native species from Nagan river, Aceh Province, Indonesia. Biodiversitas, 22: 2682-2690.

Gustiano, R., Kurniawan, K., & Haryono, H. (2021). Optimizing the Utilization of Genetic Resources of Indonesian Native Freshwater Fish. Asian Journal of Conservation Biology, 10 (2): 189-196.

Gustiano, R., Kontara, E. K., Wahyuningsih, H., Subagja, J., Asih, S., & Saputra, A. (2013). Domestication of mahseer (Tor soro) in Indonesia. Communications in agricultural and applied biological sciences, 78 (4): 165-168.

Isa, M. M., Shah, A. S. M. D., Sah, S. A. M., Baharudin, N., & Halim, M. A. A. (2012). Population dynamics of Tinfoil barb, Barbonymus schwanenfeldii (Bleeker, 1853) in Pedu Reservoir, Kedah. Journal of Biology, Agriculture and Healthcare, 2 (5): 55– 70.

Kottelat, M., Whitten, A. J., Kartikasari, S. N., & Wirjoatmodjo, S. (1993). Freshwater fishes of Western Indonesia and Sulawesi. Periplus Editions, Hong Kong. 221 p.

Kurniawan, K., Gustiano, R., Kusmini, I. I., & Prakoso, V. A. (2021). Genetic resources preservation and utilization of Indonesian native freshwater fish consumption. Ecology, Environment and Conservation, 27 (1): 227-233.

Kusmini, I. I., Gustiano, R., Radona, D., & Kurniawan, K. (2021). Domestication strategies of tinfoil barb Barbonymus schwanenfeldii (Bleeker, 1854): potential candidate for freshwater aquaculture development. IOP Conference Series: Earth and Environmental Science 934: 012003

Kusmini, I. I., Radona, D., Prakoso, V. A., Gustiano, R., Soelistyowati, D., Carman, O., & Hidayat, K. W. (2020). Outbreeding performance of tinfoil barb Barbonymus schwanenfeldii from Java and Kalimantan for aquaculture development. E3S Web of Conference 147: 01009.

Kusmini, I. I., Subagja, J., & Putri, F. P. (2018). The length and weight relationship, factor conditions, fecundity and egg development of tinfoil barb (Barbonymus schwanenfeldii) from Sarolangun, Jambi and Anjongan, West Kalimantan, Indonesia. Berita Biologi, 17 (2), 195-203.

Kusmini, I. I., Gustiano, R., Mulyasari, I., & Huwoyon, G. H. (2015). The local tengadak fish (Barbonymus schwanenfeldii) from Kalimantan is a mainstay for farmed fish. In Prosiding Seminar Nasional Ikan ke-8. Jakarta, Indonesia. Masyarakat Ikhtiologi Indonesia (pp. 177-187).

Lestari T. P., Sudrajat, A. O., & Budiardi, T. (2016). Combination of additional Spirulina Platemsis and Curcuma Longa supplements in diet and hormonal induction to improve reprodution performance of tinfoil barb Barbonymus schwanenfeldii (Bleeker, 1854). Jurnal Ikhtiologi Indonesia, 16 (3), 229-308.

Lismawati, N., Hendri, A., & Mahendra, M. (2016). Fertilization and hatching rate of tawes fish eggs (Puntius javanicus) after cryopreservation in temperature 4℃. Jurnal Perikanan Tropis, 3 (1), 77-84.

Lorenzen, K., Beveridge, M. C. M., & Mangel, M. (2012). Cultured fish: integrative biology and management of domestication and interactions with wild fish. Biological Reviews, 87 (3), 639-660.

Lubzens, E., Young, G., Bobe, J., & Cerdá, J. (2010). Oogenesis in teleosts: How fish eggs are formed. General and Comparative Endocrinology, 165, 367-389.

Pratiwi, N. T. M., Winarlin, W., Frandy, Y. H. E., & Iswantari, A. (2011). The potency of plankton as natural food for hard-lipped barb larvae (Osteochilus hasselti C.V). Jurnal Akuakultur Indonesia, 10 (1), 81–88 .

Radona, D., Kusmini, I. I., Prihadi, T. H., Khasani, I., & Astuti, D. N. (2020). Hormonal induction for maturation, ovulation and successful level of spawning on striped snakehead (Channa striata). AACL Bioflux, 13 (1), 118-124.

Radona, D., Kusmini, I. I., Ath-thar, M. H. F., Sundari, S., & Gustiano, R. (2018). Genetic diversity of three generation finfoil barb Barbonymus schwanenfeldii (Bleeker 1854) from West Kalimantan, Indonesia. International Journal of Fisheries and Aquatic Studies, 6, 111-114.

Radona, D., Soelistyowati, D. T., Gustiano, R., Carman, O., Kusmini, I. I., & Sundari, S. (2016). Genetic diversity of outbreed tinfoil barb Barbonymus schwanenfeldi (Bleeker 1854) from Java dan Kalimantan based on RAPD. Jurnal Riset Akuakultur, 11 (2), 99-105.

Radona, D., Soelistyowati, D. T., Carman, O., & Gustiano, R. (2016). Genotype diversity and morphometric of tinfoil barb Barbonymus schwanenfeldii (Bleeker 1854) from Sumatera, Java, and Kalimantan. Jurnal Iktiologi Indonesia, 16, 259-268.

Schulz, R. W., de França, L. R., Jean-Jacques, L., Florence, L., Chiarini-Garcia, H., Noberga, R.H., & Miura, T. (2010). Spermatogenesis in fish. General and Comparative Endocrinology, 165, 390-411.

Teletchea, F., & Fontaine, P. (2014). Levels of domestication in fish: implications for the sustainable future of aquaculture. Fish and Fisheries, 15 (2), 181-195.




DOI: http://dx.doi.org/10.15578/iaj.18.2.2023.97-104

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Creative Commons License
Indonesian Aquaculture Journal is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

View My Stats
p-ISSN: 0215-0883
e-ISSN: 2502-6577

 

Hasil gambar untuk isjd