Overview of Indonesia fisheries sector: Java and Bali island

https://doi.org/10.31295/ijle.v1n1.12

Authors

  • Sapto Andriyono Interdisciplinary Program of Biomedical, Mechanical and Electrical Engineering Pukyong National University 48513, Republic of Korea

Keywords:

Fisheries, Biodiversity, Marine Resources, Molecular Information

Abstract

As the hot spot of marine biodiversity, Indonesia becomes the world's spotlight in the management of natural resources, especially fish resources. Management of fishery resources in Java and Bali is very important because development in Indonesia is still centered on the island of Java. Capture fisheries in Java Island and some parts of Western Indonesia have been overfishing and need to get serious attention, while in Central and Eastern Indonesia that still has abundant fishery resources it is necessary to manage so as not to experience similar things such as illegal, unreported and unregulated fishing activities. One of the efforts of marine resource management has been done is through the conservation area approach that is now beginning to feel the benefits. Nevertheless, the documentation of Indonesia's marine fishery resources is still very limited, especially at the level of molecular information. Therefore, there is a need for simultaneous research and study supported by all aspects.

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References

Antoro, S., Na-Nakorn, U., & Koedprang, W. (2006). Study of genetic diversity of orange-spotted grouper, Epinephelus coioides, from Thailand and Indonesia using microsatellite markers. Marine Biotechnology, 8(1), 17-26.

Appleyard, S., Grewe, P., Innes, B., & Ward, R. (2001). Population structure of yellowfin tuna (Thunnusalbacares) in the western Pacific Ocean, inferred from microsatellite loci. Marine Biology, 139(2), 383-393.

Appleyard, S. A., Ward, R. D., & Grewe, P. M. (2002). Genetic stock structure of bigeye tuna in the Indian Ocean using mitochondrial DNA and microsatellites. Journal of fish Biology, 60(3), 767-770.

Arnawa, I. K., Sukerta, I. M., Martiningsih, N. G. A. E., & Astuti, P. S. (2017). Minapolitan Area Development Strategy: An Effort to Increase Fisherman Income, Gianyar Regency, Bali Indonesia. International Journal of Life Sciences (IJLS), 1(2), 39-47.

Ariani, R. P., Darmawan, D. P., Atmaja, N. B., & Wijaya, I. A. S. (2018). Balinese traditional culinary promotes food skills and its positive impact on tourism vocational school. International Journal of Life Sciences (IJLS), 2(1), 50-62.

Arnawa, I. K., Sukerta, I. M., Martiningsih, N. G. A. E., & Astuti, P. S. (2017). Minapolitan Area Development Strategy: An Effort to Increase Fisherman Income, Gianyar Regency, Bali Indonesia. International Journal of Life Sciences (IJLS), 1(2), 39-47.

BPS 2017. Statistic of Marine and Coastal Resources 2016. Book, 259.

Carpenter, K. E., & Springer, V. G. (2005). The center of the center of marine shore fish biodiversity: the Philippine Islands. Environmental biology of fishes, 72(4), 467-480.

Crandall, E. D., & Riginos, C. (2014). Magnificent dimensions, varied forms, and brilliant colors: the molecular ecology and evolution of the Indian and Pacific oceans. Bulletin of Marine Science, 90(1), 1-11.

Crandall, E. D., & Riginos, C. (2014). Magnificent dimensions, varied forms, and brilliant colors: the molecular ecology and evolution of the Indian and Pacific oceans. Bulletin of Marine Science, 90(1), 1-11.

Fisheries, F. A. O. (2016). Aquaculture Department (2010) The state of world fisheries and aquaculture. Food and Agriculture Organization of the United Nations, Rome.

Gaines, S. D., White, C., Carr, M. H., & Palumbi, S. R. (2010). Designing marine reserve networks for both conservation and fisheries management. Proceedings of the National Academy of Sciences, 107(43), 18286-18293.

Sholahuddin, A., & Sadhana, K. (2018). Policy implementation of nazhir endowments. International Research Journal of Engineering, IT and Scientific Research (IRJEIS), 4(2), 63-72.

Ginaya, G. (2018). The Balinese calendar system: From its epistemological perspective to axiological practices. International Journal of Linguistics, Literature, and Culture (IJLLC), 4(3), 24-37.

Godfray, H. C. J., Beddington, J. R., Crute, I. R., Haddad, L., Lawrence, D., Muir, J. F., ... & Toulmin, C. (2010). Food security: the challenge of feeding 9 billion people. science, 327(5967), 812-818.

Golden, C. D., Allison, E. H., Cheung, W. W., Dey, M. M., Halpern, B. S., McCauley, D. J., ... & Myers, S. S. (2016). Fall in fish catch threatens human health. Nature, 534(7607), 317-320.

Gulland, J. A. (1983). Fish stock assessment: A basic of basic methods. Fonds des Nations Unis pour l'Alimentation et l'Agriculture (FAO).

Hebert, P. D., & Gregory, T. R. (2005). The promise of DNA barcoding for taxonomy. Systematic Biology, 54(5), 852-859.

Hubalkova, Z., Kralik, P., Tremlova, B., & Rencova, E. (2007). Methods of gadoid fish species identification in food and their economic impact in the Czech Republic: a review. VETERINARY MEDICINA-PRAHA-, 52(7), 273.

Hubert, N., Hadiaty, R. K., Paradis, E., & Pouyaud, L. (2012). Cryptic diversity in indo-Australian rainbowfishes revealed by DNA barcoding: Implications for conservation in a biodiversity hotspot candidate. PLoS One, 7(7), e40627.

Hubert, N., Hanner, R., Holm, E., Mandrak, N. E., Taylor, E., Burridge, M., ... & Zhang, J. (2008). Identifying Canadian freshwater fishes through DNA barcodes. PLoS One, 3(6), e2490.

Hubert, N., Wibowo, A., Busson, F., Caruso, D., Sulandari, S., Nafiqoh, N., ... & Hanner, R. (2015). DNA Barcoding Indonesian freshwater fishes: challenges and prospects. DNA Barcodes, 3(1), 144-169.

Hutama, A. A., Hadiaty, R. K., & Hubert, N. (2017). Biogeography of Indonesian freshwater fishes: current progress. Treubia, 43, 17-30.

Indaryanto, F. R., Imai, H., & Wardiatno, Y. (2015). Genetic variation of short body mackerel, Rastrelliger brachysoma of Jawa Island, Indonesia based on mtDNA control region sequences. Aquaculture, Aquarium, Conservation & Legislation-International Journal of the Bioflux Society (AACL Bioflux), 8(5).

Jackson, A. M., Erdmann, M. V., Toha, A. H. A., Stevens, L. A., & Barber, P. H. (2014). Phylogeography of commercial tuna and mackerel in the Indonesian Archipelago. Bulletin of Marine Science, 90(1), 471-492.

Kent, G. (1997). Fisheries, food security, and the poor. Food policy, 22(5), 393-404.

Keskİn, E., & Atar, H. H. (2013). DNA barcoding commercially important fish species of Turkey. Molecular Ecology Resources, 13(5), 788-797.

Kvasnička, F. (2005). Capillary electrophoresis in food authenticity. Journal of separation science, 28(9‐10), 813-825.

Lakra, W. S., Verma, M. S., Goswami, M., Lal, K. K., Mohindra, V., Punia, P., ... & Hebert, P. (2011). DNA barcoding Indian marine fishes. Molecular Ecology Resources, 11(1), 60-71.

Madduppa, H. H., Timm, J., & Kochzius, M. (2014). Interspecific, the spatial and temporal variability of self-recruitment in anemonefishes. PLoS One, 9(2), e90648.

McClanahan, T. R., Marnane, M. J., Cinner, J. E., & Kiene, W. E. (2006). A comparison of marine protected areas and alternative approaches to coral-reef management. Current Biology, 16(14), 1408-1413.

McManus, J. W. (1989, December). Zonation among demersal fishes of Southeast Asia: the southwest shelf of Indonesia. In Coastal Zone'89: Proceedings of the Sixth Symposium on Coastal and Ocean Management. Publ by ASCE.

Mertha, I. G. S., Nurhuda, M., & Nasrullah, A. (2006). Perkembangan perikanan tuna di Pelabuhanratu. Jurnal Penelitian Perikanan Indonesia. ISSN, 0853-5884.

Mous, P. J., Pet, J. S., Arifin, Z., Djohani, R., Erdmann, M. V., Halim, A., ... & Wiadnya, G. (2005). Policy needs to improve marine capture fisheries management and to define a role for marine protected areas in Indonesia. Fisheries Management and Ecology, 12(4), 259-268.

Nurhayati, A. (2013). Analisis Potensi Lestari Perikanan Tangkap di Kawasan Pangandaran. Jurnal Akuatika, 4(2).

Nuryadin, D., Syaifudin, N., Handika, R., Setyobudi, R. H., & Udjianto, D. W. (2016). The Economic of Marine Sector in Indonesia. Aquatic Procedia, 7, 181-186.

Patterson, K. (1992). Fisheries for small pelagic species: an empirical approach to management targets. Reviews in Fish Biology and Fisheries, 2(4), 321-338.

PREHADI, P., SEMBIRING, A., KURNIASIH, E. M., RAHMAD, R., ARAFAT, D., SUBHAN, B., & MADDUPPA, H. H. (2015). DNA barcoding and phylogenetic reconstruction of shark species landed in Muncar fisheries landing site in comparison with Southern Java fishing port. Biodiversity Journal of Biological Diversity, 16(1).

Rehbein, H., Mackie, I. M., Pryde, S., Gonzales-Sotelo, C., Medina, I., Perez-Martin, R., ... & Rey-Mendez, M. (1999). Fish species identification in canned tuna by PCR-SSCP: validation by a collaborative study and investigation of the intra-species variability of the DNA-patterns. Food Chemistry, 64(2), 263-268.

Roberts, C. M., McClean, C. J., Veron, J. E., Hawkins, J. P., Allen, G. R., McAllister, D. E., ... & Vynne, C. (2002). Marine biodiversity hotspots and conservation priorities for tropical reefs. Science, 295(5558), 1280-1284.

Sambali, H., Yulianda, F., Bengen, D. G., & Kamal, M. M. (2014). Analisis kelembagaan pengelola Taman Nasional Laut Kepulauan Seribu. Jurnal Sosial Ekonomi Kelautan dan Perikanan, 9(1), 105-113.

Sharp, G. D. (1996). Oceanography of the Indonesian Archipelago and adjacent areas. Baseline Studies of Biodiversity: The Fish Resources of Western Indonesia ICLARM Stud Rev, 321.

Strauss, R. E., & Bond, C. E. (1990). Taxonomic methods: morphology. Methods for fish biology. American Fisheries Society, Bethesda, Maryland, 109-140.

Teletchea, F. (2009). Molecular identification methods of fish species: reassessment and possible applications. Reviews in Fish Biology and Fisheries, 19(3), 265.

Teletchea, F., Maudet, C., & Hänni, C. (2005). Food and forensic molecular identification: update and challenges. Trends in biotechnology, 23(7), 359-366.

Thoha, H. (2010). Kelimpahan plankton di ekosistem perairan Teluk Gilimanuk, Taman Nasional, Bali Barat. Makara Journal of Science.

Varkey, D. A., Ainsworth, C. H., Pitcher, T. J., Goram, Y., & Sumaila, R. (2010). Illegal, unreported and unregulated fisheries catch in Raja Ampat Regency, Eastern Indonesia. Marine Policy, 34(2), 228-236.

Wafar, M., Venkataraman, K., Ingole, B., Khan, S. A., & LokaBharathi, P. (2011). State of knowledge of the coastal and marine biodiversity of Indian Ocean countries. PLoS One, 6(1), e14613.

Ward, R. D., Zemlak, T. S., Innes, B. H., Last, P. R., & Hebert, P. D. (2005). DNA barcoding Australia's fish species. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 360(1462), 1847-1857.

Widodo, J. (2003, July). Pengkajian stok sumber daya ikan laut Indonesia tahun 2002. In Prosiding Forum Pengkajian Stok Ikan Laut di Perairan Indonesia. Jakarta (pp. 23-24).

Wiryawan, B., Marsden, B., Susanto, H. A., Mahi, A. K., Ahmad, M., & Poespitasasri, H. (1999). Lampung coastal resources atlas. Government of Lampung Province and Coastal Resources Management Project (Coastal Resources Centre, University of Rhode Island and Centre for Coastal and Marine Resources Studies, Bogor Agricultural University). Bandar Lampung, Indonesia.

Yusuf, M. (2007). Kebijakan pengelolaan sumberdaya pesisir dan laut kawasan taman nasional Karimunjawa secara berkelanjutan.

Published

2018-05-16

How to Cite

Andriyono, S. (2018). Overview of Indonesia fisheries sector: Java and Bali island. International Journal of Life Sciences & Earth Sciences, 1(1), 39-48. https://doi.org/10.31295/ijle.v1n1.12