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2019 | 120 | 2 | 144-153
Article title

Catch of Skipjack Tuna (Euthynnus sp.) in National Fisheries Port Pengambengan, Bali, Indonesia

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EN
Abstracts
EN
The Bali Strait has very high pelagic fish resources, ranging from small pelagic fish to large pelagics, one of which is a type of tuna. Skipjack tuna (Euthynnus sp.) is one of the dominant and high economic value fish resources. The composition of fish catch landed in National Fisheries Port (PPN) Pengambengan in 2014 is dominated by small pelagic fish. The composition of the largest fish catches consists of lemuru, skipjack, mackerel and scad. This study aims to look at the production of skipjack tuna and season distribution for 5 years. This information can be used as an effort to manage fisheries in PPN Pengambengan continuously. This research was carried out in the waters of the Bali Strait with fishing base PPN Pengambengan. The catch of skipjack tuna in Bali is fluctuated every month during 2013 until 2017. The average catch is high in 2014, and the lowest catch was in 2016. This was allegedly due to the catches of previous years namely in 2014 – 2015 skipjack tuna fish resources were overexploited. The catch of skipjack tuna based on the season has the highest value in September - November (transition II (intern-monsoon)) and the lowest is in December-February (northwest season).
Year
Volume
120
Issue
2
Pages
144-153
Physical description
Contributors
  • Department of Fisheries, Faculty of Fisheries and Marine Technology, Universitas Padjadjaran, Jatinangor, Indonesia
author
  • Department of Fisheries, Faculty of Fisheries and Marine Technology, Universitas Padjadjaran, Jatinangor, Indonesia
  • Department of Fisheries, Faculty of Fisheries and Marine Technology, Universitas Padjadjaran, Jatinangor, Indonesia
author
  • Faculty of Fisheries and Marine Technology, Universitas Padjadjaran, Jatinangor, Indonesia
References
  • [1] Grande, M., Murua, H., Zudaire, I., Gõni, N., Bodin, N., 2014. Reproductive timing and reproductive capacity of the skipjack tuna (Katsuwonus pelamis) in the western Indian Ocean. Fish. Res. 156, 14–22
  • [2] Grande, M., Murua, H., Zudaire, I., Arsenault-Pernet, E.J., Pernet, F., Bodin, N., 2016. Energy allocation strategy of skipjack tuna Katsuwonus pelamis during their reproductive cycle. J. Fish Biol. 89, 2434–2448
  • [3] Cheung, W.W.L., Pitcher, T.J., Pauly, D., 2005. A fuzzy logic expert system to estimate intrinsic extinction vulnerabilities of marine fishes to fishing. Biol. Conserv. 124, 97–111
  • [4] Cheung, W.W.L., Lam, V.W.Y., Sarmiento, J.L., Kearney, K., Watson, R., Pauly, D., 2009. Projecting global marine biodiversity impacts under climate change scenarios. Fish and Fisheries 10, 235–251
  • [5] Andrade, H.A., Campos, R.O., 2002. Allometry coefficient variations of the length-weight relationship of skipjack tuna (Katsuwonus pelamis) caught in the southwest South Atlantic. Fish. Res., 55, 307–312
  • [6] Wudji A, Suwarso, & Wudianto. 2012. Some Population Parameters of Bali Sardinella (Sardinella lemuru Bleeker, 1853) in Bali Strait Waters. Bawal, 4 (3), 177-184
  • [7] Cunningham S, Neiland AE, Arbuckle M, & Bostock T. 2009. Wealth-based fisheries management: using fisheries wealth to orchestrate sound fisheries policy in practice. Marine Resource Economic, 24 (3), 271–287
  • [8] Gerasmio IRP, Babaran RP, & Santos MD. 2012. Discrimination of Juvenile Yellowfin (Thunnus albacares) and Bigeye (T. obesus) Tunas using Mitochondrial DNA Control Region and Liver Morphology. Plos One, 7 (4), e35604
  • [9] Mujib, Z., H. Boesono, A. D. P. F. Fitri. 2013. Mapping the Distribution of Fish Tuna (Euthynnus sp.) with Chlorophyll-a Data Modis on Payang Capture Device (Danish-seine) in the waters of the Gulf of Pelabuhanratu, Sukabumi, West Java. Journal of Fisheries Utilization Management and Technology, 2 (2), 150-160
  • [10] Fonteneau A, Suzuki Z, & Payne AIL. 2014. Mid-Term Review of The ICCAT Atlantic-Wide Research Programme on Bluefin Tuna (ICCAT/Gbyp Phase 4–2013). Collective Volume of Scientific Papers, 70 (2), 565-584
  • [11] Robinson OC. 2014. Sampling in Interview-Based Qualitative Research: A Theoretical and Practical Guide. Qualitative Research in Psychology, 11 (1), 25-41
  • [12] Prakarsa G, Boesono H, Ayunita NND. 2014. Schaefer and Copes Bioeconomic Model Analysis of Squid (Loligo sp) Captured by Cantrang at Tanjungsari Rembang Regency. Journal of Fisherises Utilization Management and Technology. 3 (2), 19-28
  • [13] Kusuma DW, Murdimanto A, Aden LY, Sukresno B, Jatisworo D, & Hanintyo R. 2017. Sea Surface Temperature Dynamics in Indonesia. IOP Conference Series Earth and Environmental Science, 98 (1), 012038
  • [14] Ridha U, Muskananfola MR, & Hartoko A. 2013. Catch Analysis of Lemuru (Sardinella lemuru) Based on Satellite Data on Sea Surface Temperature and Chlorophyll-a in Bali Strait Waters. Management of Aquatic Resourses Journal, 2 (4), 53-60
  • [15] Syafik A, Kumarso, & Hariadi. 2013. Distribution and Friction Effect of Wind on Sea Surface Temperature Distribution in the Indian Ocean (Regional Fisheries Management of the Republic of Indonesia 573). Journal of Oceanography, 2 (3), 218-328
  • [16] Nababan B, Rosyadi N, Manurung D, Natih NM, & Hakim R. 2016. The seasonal variability of sea surface temperature and chlorophyll-a concentration in the south of Makassar Strait. Procedia Environmental Sciences, 33 (2016), 583-599
  • [17] Sulistya W, Hartoko A, Prayitno SB. 2007. The Characteristic and Variability of Sea Surface Temperature in Java Sea. International Journal of Remote Sensing and Earth Sciences, 4 (2007), 85-93
  • [18] Hernomo AD, Purwanto, Marwoto J. 2015. Modeling of Salinity Distribution and Sea Surface Temperature of the Southern Bali Strait in the East Season. Journal of Oceanography 4 (1), 64-73
  • [19] Caddy JF & Seijo JC. 2005. This is more difficult than we thought! The responsibility of scientists, managers and stakeholders to mitigate the unsustainability of marine fisheries. Philosophical Transactions of The Royal Society B Biological Sciences 360 (1453), 59-75
  • [20] Rahman MM, Hossain MY, Parvin S, Rahman MS, Ahmed ZF, Ohtomi J, & Allah EFA. 2016. Fecundity of the Threatened Fish, Mystus vittatus (Siluriformes: Bagridae) in the Padma River, Bangladesh. Sains Malaysiana 45 (6), 899-907
  • [21] Apriliani IM, Dwipayana MF, Sunarto, Rostini I. 2019. Catch Comparison and Rate of Floating Liftnet at Different Time of Hauling in Pangandaran, West Java, Indonesia. World News of Natural Sciences, 22 (2019) 168-173
  • [22] Prayoga IMS, Putra IDNN, Dirgayusa IGNP. 2017. The Effect of Chlorophyll-a Concentration Distribution Based on Satellite Images on Skipjack Tuna (Euthynnus sp) Fish Catch in Bali Strait Waters. Journal of Marine Aquatic Science, 3 (1), 30-46
  • [23] Hinton MG, & Maunder MN. 2004. Methods for standardizing CPUE and how to select among them. Col. Vol. Sci. Pap. ICCAT 56 (1), 169-177
  • [24] Tadjuddah M, Anadi L, Mustafa A, Arami H, Abdullah, Kamri S, & Wianti NI. 2017. Growth pattern and size structure of skipjack tuna caught in Banda Sea, Indonesia. AACL Bioflux, 10 (2), 227-233
  • [25] Oliveira MR, Silva NB, Yamamoto ME, & Chellappa S. 2015. Gonad development and reproduction of the ballyhoo half beak, Hemiramphus brasiliensis from the coastal waters of Rio Grande do Norte, Brazil. Braz. J. Biol., 75 (2), 324-330
  • [26] Apriliani IM, Nurrahman YA, Dewanti LP, & Herawati H. 2018. Determination of potential fishing ground for hairtail (Trichiurus sp.) fishing based on chlorophyll-a distribution and sea surface temperature in Pangandaran waters, West Java, Indonesia. AACL Bioflux, 11 (4), 1047-1054
Document Type
article
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.psjd-85c3f5e2-dd9c-4d7f-9357-eb4f5cc624f5
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