Sumber Daya Ikan Terbang (Exocoetidae) di Kepulauan Maluku: Eksplorasi, Pemanfaatan, dan Arah Pengelolaannya
Keywords:
Ikan terbang, pemanfaatan berkelanjutan, sumberdaya perikanan, kepulauan malukuSynopsis
Buku Pemanfaatan Berkelanjutan Sumber Daya Ikan Terbang Kepulauan Maluku membahas pentingnya pemanfaatan sumber daya perikanan laut untuk kesejahteraan generasi saat ini dan masa depan. Buku ini menekankan bahwa populasi ikan terbang di laut Maluku harus dilindungi dari penurunan populasi akibat praktik penangkapan yang tidak bertanggung jawab. Potensi perikanan perairan Maluku sangat besar dan dapat menjadi sumber utama pangan nasional, pendapatan devisa dari ekspor, penyedia lapangan kerja, serta sumber pendapatan domestik yang signifikan. Dengan pengelolaan yang optimal, perikanan ikan terbang dapat mendukung pencapaian tujuan pembangunan nasional. Buku ini juga menyoroti pentingnya aspek keberlanjutan, menjadikannya referensi yang layak dibaca. Dengan bahasa yang mudah dipahami, buku ini cocok untuk berbagai kalangan, termasuk mahasiswa, akademisi, pegiat lingkungan dan pengambil kebijakan.
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Abd Rasyid, J., Nurjannah, N., Burhanuddin, A. I., & Hatta, M. (2014). Karakter oseanografi perairan Makassar terkait zona potensial penangkapan ikan pelagis kecil pad musim timur. Jurnal IPTEKS Pemanfaatan Sumberdaya Perikanan, 1(1).
Abdelrehim, R., Ahmed, M., Everett, M. E., Murgulet, D., Prothro, L., Abdrabou, M., & Elshalkany, M. (2025). Geological and anthropogenic controls on freshwater lens variability in barrier islands: insights from integrated geophysical and hydrogeological surveys. Journal of Hydrology, 133627.
Abrahamsz, J., Alansar, T., Abdillah, T. makailipessy, M. M., & Thenu, I. M. (2017). Integration model of conservation area effectiveness and fisheries management status: Case of small island Parks Kei Kecil. Coastal and Ocean Journal (COJ), 1(2), 179–188.
Abrahamsz, J. makailipessy, M. M., Ayal, F. W., & Tuapetel, F. (2022). Peningkatan kapasitas pengelola perikanan WPPNRI-718 terkait EAFM: Pembelajaran di Kabupaten Kepulauan Aru. Balobe: Jurnal Pengabdian Masyarakat, 1(2), 38–46.
Agarwal, D., Shanmugam, S. A., Kathirvelpandian, A., Eswaran, S., Rather, M. A., & Rakkannan, G. (2024). Unraveling the impact of climate change on fish physiology: A focus on temperature and salinity dynamics. Journal of Applied Ichthyology, 2024(1), 5782274.
Ali, S. A. (2019, April). Maturity and spawning of flying fish (Hirundichthys oxycephalus Bleeker, 1852) in Makassar Strait, South Sulawesi. In IOP Conference Series: Earth and Environmental Science (Vol. 253, No. 1, p. 012012). IOP Publishing.
Ali, S. A., Nessa, M. N., Djawad, I., Omar, S. B. A., & Djamali, A. (2005). Hubungan antara kematangan gonad ikan terbang (Hirundichthys oxycephalus Bleeker, 1852) dengan beberapa parameter lingkungan di Laut Flores, Sulawesi Selatan. Jurnal Ilmu Kelautan dan Perikanan Torani, 6(15), 403–410.
Ambarwati, L., & Syah, S. P. (2022, June). Effect of dietary supplementation with flying fish (Exocoetidae) silage on the egg quality and duck performance. In IOP Conference Series: Earth and Environmental Science (Vol. 1041, No. 1, p. 012078). IOP Publishing.
Amin, E. M., & Nugroho, D. (1990). Acoustic surveys of pelagic fish resources in the Banda Sea during August 1984 and February–March 1985. Netherlands Journal of Sea Research, 25(4), 621–626.
Andréfouët, S., Paul, M., & Farhan, A. R. (2022). Indonesia’s 13558 islands: A new census from space and a first step towards a One Map for Small Islands Policy. Marine Policy, 135, 104848.
Anggreini, A. P., Astuti, S. S., Miftahudin, I., Novita, P. I., & Wiadnya, D. G. R. (2017). Uji selektivitas alat tangkap gillnet millenium terhadap hasil tangkapan ikan kembung (Rastrelinger brachysoma). Journal of fisheries and marine science, 1(1), 24–30.
Anwar, Y. (2023). Aspek biologi dan teknis penangkapan telur ikan terbang yang didaratkan pada pelabuhan perikanan nusantara tual. Jurnal Riset Perikanan dan Kelautan, 5(2), 62–72.
Apituley, Y. M. T. N., Savitri, I. K. E., Bawole, D., & Tuapetel, F. (2019, October). A Broker: role and function in small pelagic fish marketing in traditional market in Ambon. In IOP Conference Series: Earth and Environmental Science (Vol. 339, No. 1, p. 012012). IOP Publishing.
Armanto, D. (2012). Analisis aspek biologi ikan terbang (cheilopogon katoptron) bleeker, 1865, di perairan pemuteran Bali Barat. Universitas Indonesia. https://lib. ui. ac. id/detail.
Asch, R. G., & Checkley Jr, D. M. (2013). Dynamic height: A key variable for identifying the spawning habitat of small pelagic fishes. Deep Sea Research Part I: Oceanographic Research Papers, 71, 79–91.
Asiedu, B., Failler, P., Amponsah, S. K., Okpei, P., Setufe, S. B., & Annan, A. (2022). Fishers’ migration in the small pelagic fishery of Ghana: a case of small-scale fisheries management. Ocean & Coastal Management, 229, 106305.
Asis, A., Sampurno, S., Ilyas, A., Indrawati, D., & Muin, A. M. (2018). Persoalan hukum nelayan dan kelompok nelayan di kabupaten takalar. Jurnal Ilmu Hukum The Juris, 2(2), 175–186.
Atmaja, S. B., & Nugroho, D. (2017). Impact of the increasing catchability coefficient of the large purse seiner to the depletion of the small pelagic fish biomass in the Java Sea. Indonesian Fisheries Research Journal, 17(1), 13–20.
Babin, M., Morel, A., & Gentili, B. (1996). Remote sensing of sea surface sun-induced chlorophyll fluorescence: consequences of natural variations in the optical characteristics of phytoplankton and the quantum yield of chlorophyll a fluorescence. International Journal of Remote Sensing, 17(12), 2417–2448.
Baker, S., Constant, N., & Nicol, P. (2023). Oceans justice: Trade-offs between sustainable development goals in the Seychelles. Marine Policy, 147, 105357.
Balbada, N., Picoy-Gonzales, R. M., Merro, S., & Silvano, B. B. (2024). The fishery and utilization of flying fish (Exocoetidae) in Guiuan, Eastern Samar, Philippines. Marine Science and Technology Bulletin, 13(1), 11–23.
Bandyopadhyay, P. R. (2023). Acoustic predation in a sailfish-flying fish cloak. Scientific Reports, 13(1), 13820.
Belmonte, G. (2025). Pelagic Lifestyles in the Open Sea. In Elements of Pelagos Biology: With Focus on the Mediterranean Sea (pp. 217–281). Springer Nature Switzerland.
Bennett, A., Basurto, X., Virdin, J., Lin, X., Betances, S. J., Smith, M. D., & Zoubek, S. (2021). Recognize fish as food in policy discourse and development funding. Ambio, 50, 981–989.
Berkes, F., & Shaw, A. B. (1986). Ecologically sustainable development: a Caribbean fisheries case study. Canadian Journal of Development Studies/Revue canadienne d’études du développement, 7(2), 175–196.
Betaubun, A. D. S., Laiyanan, S. E. B., Renyaan, D., & Pentury, F. (2019). Persepsi penerapan sasi laut di wilayah perairan kepulauan kei: upaya mendukung keberlanjutan sumber daya laut. Agrikan: Jurnal Agribisnis Perikanan, 12(1), 136–144.
Bi, H., Song, J., Zhao, J., Liu, H., Cheng, X., Wang, L., & Conversi, A. (2022). Temporal characteristics of plankton indicators in coastal waters: High-frequency data from PlanktonScope. Journal of Sea Research, 189, 102283.
Boli, P., Luhulima, I., Simatauw, F., Leatemia, S., Tabay, S., Parenden, D., & Ananta, A. S. (2019, November). Habitat characteristics and distribution of flyingfish in Fakfak and surrounding waters. In IOP Conference Series: Earth and Environmental Science (Vol. 370, No. 1, p. 012031). IOP Publishing.
Boone, M. E., & McTavish, L. (Eds.). (2024). Exhibiting animals in Europe and America. Taylor & Francis.
Brehmer, P., Sarré, A., Gonzalez, L., Cotel, P., Hermand, J. P., & François, G. (2013, July). Aggregative and schooling behaviour of small pelagic fish schools through echo type characteristics. In 2013 IEEE/OES Acoustics in Underwater Geosciences Symposium (pp. 1–6). IEEE.
Brodeur, R. D., Hunsicker, M. E., Hann, A., & Miller, T. W. (2019). Effects of warming ocean conditions on feeding ecology of small pelagic fishes in a coastal upwelling ecosystem: a shift to gelatinous food sources. Marine Ecology Progress Series, 617, 149–163.
Brun, A., Maenza, R., Elisio, M., Ruarte, C., & Alemany, D. (2024). Fish assemblages in an environmentally complex narrow coastal region in the Southwestern Atlantic Ocean: an alternative nursery habitat for fishery species. Regional Studies in Marine Science, 76, 103589.
Budiman, A. A., Christijanto, H., Kamarijah, S., Budoyo, G. H., Mushofa, I., Habibi, A., & Ali, A. (2012). Penilaian performa pengelolaan perikanan menggunakan indikator EAFM (kajian pilot test pada beberapa jenis perikanan di Indonesia). Direktorat Sumberdaya Ikan, Direktorat Jenderal Perikanan Tangkap, Kementerian Kelautan dan Perikanan, WWF-Indonesia dan Pusat Kajian Sumberdaya Pesisir dan Lautan, Institut Pertanian Bogor.
Burch, P., Curin-Osorio, S., Bessell-Browne, P., Tuck, G. N., Haddon, M., Krueck, N. C., & Punt, A. E. (2023). Implications of the maximum modelled age on the estimation of natural mortality when using a meta-analytic prior: The example of eastern Australian Orange Roughy (Hoplostethus atlanticus). Fisheries Research, 258, 106534.
Cabral, A., & Fonseca, A. (2019). Coupled effects of anthropogenic nutrient sources and meteo-oceanographic events in the trophic state of a subtropical estuarine system. Estuarine, Coastal and Shelf Science, 225, 106228.
Cadinu, L. A., Barra, P., Torre, F., Delogu, F., & Madau, F. A. (2020). Insect rearing: Potential, challenges, and circularity. Sustainability, 12(11), 4567.
Canales, C. M., & Cubillos, L. A. (2021). Empirical survey-based harvest control rules in a transboundary small pelagic fishery under recruitment regime shifts: The case of the northern Chilean-southern Peruvian anchovy. Marine Policy, 134, 104784.
Carreiro, A. R., Ramos, J. A., Mata, V. A., Almeida, N. M., Rodrigues, I., Dos Santos, I., Matos, D. M., Araujo, P. M., Milit, T., Gonz, J., Paiva, V. H., & Lopes, R. J. (2023). DNA metabarcoding to assess prey overlap between tuna and seabirds in the Eastern tropical Atlantic: Implications for an ecosystem-based management. Marine Environmental Research, 187, 105955.
Chagnon, C., Thiel, M., Antunes, J., Ferreira, J. L., Sobral, P., & Ory, N. C. (2018). Plastic ingestion and trophic transfer between Easter Island flying fish (Cheilopogon rapanouiensis) and yellowfin tuna (Thunnus albacares) from Rapa Nui (Easter Island). Environmental Pollution, 243, 127–133.
Chang, S. K., Chang, C. W., & Ame, E. (2012). Species composition and distribution of the dominant flyingfishes (Exocoetidae) associated with the Kuroshio Current, South China Sea. Raffles Bull Zool, 60(2), 539–550.
Chang, S. K., Yuan, T. L., Hoyle, S. D., Farley, J. H., & Shiao, J. C. (2022). Growth parameters and spawning season estimation of four important flyingfishes in the Kuroshio Current off Taiwan and implications from comparisons with global studies. Frontiers in Marine Science, 8, 747382.
Cahyarini, S. Y., Pfeiffer, M., Nurhati, I. S., Aldrian, E., Dullo, W. C., & Hetzinger, S. (2014). Twentieth century sea surface temperature and salinity variations at Timor inferred from paired coral 18O and Sr/Ca measurements. Journal of Geophysical Research: Oceans, 119(7), 4593–4604.
Chen, D., Wu, Z., Dong, H., Meng, Y., & Yu, J. (2023). Platform development and gliding optimization of a robotic flying fish with morphing pectoral fins. Bioinspiration & Biomimetics, 18(3), 036010.
Churnside, J. H., Wells, R. J., Boswell, K. M., Quinlan, J. A., Marchbanks, R. D., McCarty, B. J., & Sutton, T. T. (2017). Surveying the distribution and abundance of flying fishes and other epipelagics in the northern Gulf of Mexico using airborne lidar. Bulletin of Marine Science, 93(2), 591–609.
Condie, C. M., Vince, J., & Alexander, K. A. (2022). The long-term evolution of news media in defining socio-ecological conflict: A case study of expanding aquaculture. Marine Policy, 138, 104988.
Cury, P. M., Shannon, L. J., Roux, J. P., Daskalov, G. M., Jarre, A., Moloney, C. L., & Pauly, D. (2005). Trophodynamic indicators for an ecosystem approach to fisheries. ICES Journal of Marine Science, 62(3), 430–442.
Cumberbatch, J. A., & Hinds, C. J. (2013). Barbadian bio-cultural heritage: an analysis of the flying fish. International Journal of Intangible Heritage, 8, 117–134.
da Silva, B. D., & Conte-Junior, C. A. (2024). Perspectives on cultured meat in countries with economies dependent on animal production: a review of potential challenges and opportunities. Trends in Food Science & Technology, 104551.
Daane, J. M., Blum, N., Lanni, J., Boldt, H., Iovine, M. K., Higdon, C. W., & Harris, M. P. (2021). Modulation of bioelectric cues in the evolution of flying fishes. Current Biology, 31(22), 5052–5061.
Dalaut, L., Barrier, N., Lengaigne, M., Rault, J., Ariza, A., Belharet, M., & Maury, O. (2025). Which processes structure global pelagic ecosystems and control their trophic functioning? Insights from the mechanistic model APECOSM. Progress in Oceanography, 103480.
Davenport, J. (1994). How and why do flying fish fly?. Reviews in Fish Biology and Fisheries, 4, 184–214.
Davidson, L. N., Krawchuk, M. A., & Dulvy, N. K. (2016). Why have global shark and ray landings declined: improved management or overfishing?. Fish and Fisheries, 17(2), 438-458.
Dawood, M. A. (2021). Nutritional immunity of fish intestines: Important insights for sustainable aquaculture. Reviews in Aquaculture, 13(1), 642–663.
Del Solar, A., Romagnoni, G., & Wolff, M. (2024). The masked influence of remote ENSO-related drivers on the trophic dynamics of Independencia Bay, Peru: Insights for management from time-series analysis and food-web modelling. Ocean & Coastal Management, 251, 107047.
Demmallino, E. B., & Ali, M. S. S. (2018). Patorani: Occultness, Religiosity, and Environmentally Friendly Technology of The Flying Fish Hunters. Journal of Asian Rural Studies, 2(1), 73–84.
Deng, J., Wang, S., Zhang, L., & Mao, X. (2019). Why does a flying fish taxi on sea surface before take-off? A hydrodynamic interpretation. bioRxiv, 765560.
Dermawati, D., Palo, M., & Najamuddin, N. (2019). Analysis on construction and fish catch of surface gill nets in Maros regency waters, South Sulawesi Province. Journal of IPTEKS: Capture Fisheries Resources Utilization IPTEKS, 6(11), 44–69.
Di Franco, A., Thiriet, P., Di Carlo, G., Dimitriadis, C., Francour, P., Gutiérrez, N. L., & Guidetti, P. (2016). Five key attributes can increase marine protected areas performance for small-scale fisheries management. Scientific reports, 6(1), 38135.
Dirhamsyah. (2008). Traditional fisheries management of flyingfish on the west coast of Sulawesi, Indonesia. Maritime Studies, 2008(161), 2–12.
Do Souto, M., Brown, D. R., Leonarduzzi, E., Silva, R. I., Martínez, A., Cepeda, G., & Diaz, M. V. (2025). Comfort in stratification and trophic flexibility: argentine anchovy, Engraulis anchoita, larvae life traits in relation to their food sources. Fisheries Research, 281, 107215.
Edward, G. D., & Junianto, J. (2024). Pengaplikasian yukom vma sebagai bantuan penangkapan kapal gillnet di Madasari, Kabupaten Pangandaran. Amanisal: Jurnal Teknologi dan Manajemen Perikanan Tangkap, 13(1), 1–9.
Edwards, T., & Yukio, M. (2020). The Indonesian throughflow and its impact on biogeochemistry in the Indonesian Seas. ASEAN Journal on Science and Technology for Development, 37(1), 2.
Ehrlich, H. (2010). Biological materials of marine origin (pp. 1–436). Springer.
Fabinyi, M., Foale, S., & Macintyre, M. (2015). Managing inequality or managing stocks? An ethnographic perspective on the governance of small-scale fisheries. Fish and Fisheries, 16(3), 471–485.
Facts and Details. (t.t.). Flying fish glide across the sea surface. Diakses pada 20 Agustus 2025, dari https://ioa.factsanddetails.com/article/entry-116.html
Fanning, L., Mahon, R., & McConney, P. (2011). Towards marine ecosystem-based management in the wider Caribbean (p. 428). Amsterdam University Press.
Farag, M. A., Abib, B., Tawfik, S., Shafik, N., & Khattab, A. R. (2021). Caviar and fish roe substitutes: Current status of their nutritive value, bio-chemical diversity, authenticity and quality control methods with future perspectives. Trends in Food Science & Technology, 110, 405–417.
Febyanty, F., & Syahailatua, A. (2017). Kebiasaan makan ikan terbang, Hirundicthys oxycephalus dan Cheilopogon cyanopterus, di perairan Selat Makassar. Jurnal Penelitian Perikanan Indonesia, 14(1), 123–131.
Ferdiansyah, F., & Syahailatua, A. (2017). Fekunditas dan diameter telur ikan terbang di perairan selat Makassar dan utara Bali. BAWAL Widya Riset Perikanan Tangkap, 3(3), 191–197.
Fitrianti, R. S., Kamal, M. M., & Kurnia, R. (2014). Analisis keberlanjutan perikanan ikan terbang di Kabupaten Takalar, Sulawesi Selatan. Depik, 3(2): 118–127.
Froese, R., & Pauly, D. (2023). Comment on “Metabolic scaling is the product of life-history optimization”. Science, 380(6643), eade6084.
Frölicher, T. L., Sarmiento, J. L., Paynter, D. J., Dunne, J. P., Krasting, J. P., & Winton, M. (2015). Dominance of the Southern Ocean in anthropogenic carbon and heat uptake in CMIP5 models. Journal of Climate, 28(2), 862–886.
Genske, D. D., & Pradipta, G. M. (2022). Establishing Plus-Minus-Energy-Regions: The Maluku Archipelago in Indonesia. Springer Nature.
Gomes, C., Dales, R. B., & Oxenford, H. A. (1998). The application of RAPD markers in stock discrimination of the four-wing flyingfish, Hirundichthys affinis in the central western Atlantic. Molecular ecology, 7(8), 1029–1039.
Gordeeva, N. V., & Shakhovskoi, I. B. (2017). Efficiency of DNA barcoding for phylogenetic analysis and species identification in flying fish (Exocoetidae). Journal of Ichthyology, 57, 287–296.
Gulland, J. A. (1983). Fish stock assessment: a manual of basic methods (Vol. 1).
Gushchin, A. V., & Corten, A. (2016). Feeding of pelagic fish in waters of Mauritania: 2. Representatives of Families Carangidae, Scombridae, Pomatomidae, and Trichiuridae. Journal of ichthyology, 56, 98–106.
Häder, D. P., & Gao, K. (2015). Interactions of anthropogenic stress factors on marine phytoplankton. Frontiers in Environmental Science, 3, 14.
Häfker, N. S., Meyer, B., Last, K. S., Pond, D. W., Hüppe, L., & Teschke, M. (2017). Circadian clock involvement in zooplankton diel vertical migration. Current Biology, 27(14), 2194–2201.
Halsey, K. H., & Jones, B. M. (2015). Phytoplankton strategies for photosynthetic energy allocation. Annual review of marine science, 7(1), 265–297.
Hamilton, R., de Mitcheson, Y. S., & Aguilar-Perera, A. (2011). The role of local ecological knowledge in the conservation and management of reef fish spawning aggregations. In Reef fish spawning aggregations: biology, research and management (pp. 331–369). Dordrecht: Springer Netherlands.
Hanstén, M., Haapasaari, P., & Kuikka, S. (2021). A realist evaluation of the individual transferable quota system used in Finnish herring fisheries. ICES Journal of Marine Science, 78(10), 3603–3614.
Haryanto. (2017). Adaptation and Continuities in Clientelism in a Fishing Community in Takalar, South Sulawesi. Contemporary Southeast Asia, 511–531.
Hasaruddin, H., Ibrahim, S., Hussin, W. M. R. W., Ahmad, W. M. A. W., & Muchlisin, Z. A. (2015). Artificial aggregating device for fish and squid eggs. Aquaculture, Aquarium, Conservation & Leg., 8(5), 832–837.
Hautala, S. L., Reid, J. L., & Bray, N. (1996). The distribution and mixing of Pacific water masses in the Indonesian Seas. Journal of Geophysical Research: Oceans, 101(C5), 12375–12389.
Hesty, R. K., Dwi, R., Purnama, R. R., Aulia, S. A., Abdul, R., & Roni, H. (2023). Mapping of Sea Surface Temperature Distribution, Chlorophyl-A Concentration and Potential Zone of Large Pelagic Fishing in The East Monsoon in The Banda Sea, 2019. Russian Journal of Agricultural and Socio-Economic Sciences, 141(9), 24–33.
Hilborn, R., & Walters, C. J. (Eds.). (2013). Quantitative fisheries stock assessment: choice, dynamics and uncertainty. Springer Science & Business Media.
Hinds, C. (2013). Barbadian bio-cultural heritage: an analysis of the flying fish. International Journal of Intangible Heritage, 8,117–134.
Howell, S. N. (2014). The Amazing World of Flyingfish.
Huang, W., Song, B., Liang, J., Niu, Q., Zeng, G., Shen, M., & Zhang, Y. (2021). Microplastics and associated contaminants in the aquatic environment: A review on their ecotoxicological effects, trophic transfer, and potential impacts to human health. Journal of Hazardous Materials, 405, 124187.
Hukubun, R. D., Berlianti, L. S., Alfikar, M. F., & Tuapetel, F. (2023). Sosialisasi teknik penangkapan ikan dan alternatif pemanfaatan telur ikan terbang pada musim timur. SAFARI: Jurnal Pengabdian Masyarakat Indonesia, 3(3), 10–17.
Hunte, W., Oxenford, H. A., & Mahon, R. (1995). Distribution and relative abundance of flyingfish (Exocoetidae) in the eastern Caribbean. II. Spawning substrata, eggs and larvae. Marine Ecology Progress Series, 117, 25–37.
Hutomo, M. (1985). Burhanuddin, Distribution and potential of flying fish in Indonesia. Buletin Perikanan, 2(1), 25–31.
Hutubessy, B. G., & Syahailatua, A. (2010). Performance of gillnet-mesh size selectivity for three flyingfish species in Ambon Waters, Moluccas Province. Marine Research in Indonesia, 35(2), 39–46.
Ichii, T., Mahapatra, K., Okamura, H., & Okada, Y. (2006). Stock assessment of the autumn cohort of neon flying squid (Ommastrephes bartramii) in the North Pacific based on past large-scale high seas driftnet fishery data. Fisheries Research, 78(2–3), 286–297.
Indrayani, I., Ambardini, S., Pariakan, A., & Nur, I. (2024). Genetic Diversity of Flying Fish (Exocoetidae) in Southeast Sulawesi, Indonesia. HAYATI Journal of Biosciences, 31(4), 744–749.
Jacoby, J., Roy, A., Lanco, S., Barbraud, C., Delord, K., Bugoni, L., & Nunes, G. T. (2025). Flexible foraging strategies of a tropical seabird in the western Atlantic Ocean. Journal of Experimental Marine Biology and Ecology, 586, 152099.
Jacques, P. J. (2015). Are world fisheries a global panarchy?. Marine Policy, 53, 165–170.
Jayakumar, T. T., Shakhovskoy, I. B., Prasoon, N. P., Kathirvelpandian, A., Ajith Kumar, T. T., & Lal, K. K. (2019). The first record of the Rearfin Flying Fish, Cypselurus opisthopus (Exocoetidae), from the waters of South India, with the assessment of flying fish species occurring in the Indian Exclusive Economic Zone. J. of ichthyology, 59, 697–706.
Jentoft, S. (2004). Institutions in fisheries: what they are, what they do, and how they change. Marine policy, 28(2), 137–149.
Johan, S., & Lizalidiawati, L. (2025). Pengaruh ENSO terhadap kejadian upwelling di perairan Kota Bengkulu (Studi Kasus: El Nino 2023). Jurnal Ilmiah Sains, 37–47.
Justino, A. K., Ferreira, G. V., Fauvelle, V., Schmidt, N., Lenoble, V., Pelage, L., Martins, K., Travassos, P., & Lucena-Frédou, F. (2023). From prey to predators: Evidence of microplastic trophic transfer in tuna and large pelagic species in the southwestern Tropical Atlantic. Environmental Pollution, 327, 121532.
Kappes, M. A., Weimerskirch, H., Pinaud, D., & Le Corre, M. (2011). Variability of resource partitioning in sympatric tropical boobies. Marine Ecology Progress Series, 441, 281–294.
Kasri K., Baso A., & Tahang, H. (2019). Bioeconomic Analysis of Resource Utilization of Flying Fish (Hyrundicthys oxycephalus) in the Makassar Strait, South Sulawesi, Indonesia. International Journal of Environment Agriculture and Biotechnology, 4, 1046–1053.
Kautsari, N., Latuconsina, H., & Zulfahmi, I. (2023). Preliminary study of eels (anguilla) in Sumbawa Island according to the knowledge of local communities: Distributions, pattern of fishing, and utilizations. Scientific Journal of Fisheries & Marine/Jurnal Ilmiah Perikanan dan Kelautan, 15(1).
Kementerian Kelautan dan Perikanan. (2014). Peraturan Menteri Kelautan dan Perikanan Nomor 18/PERMEN-KP/2014 Tahun 2014 tentang Wilayah Pengelolaan Perikanan Negara Republik Indonesia. Diakses pada 12 Juli 2025 dari https://peraturan.bpk.go.id/Details/158314/permen-kkp-no-18permen-kp2014- tahun-2014.
Kennedy, P. S. J., Tobing, S. J. L., Heatubun, A., & Lumbantoruan, R. (2018). The Normative Study on The Area/Space Structure Policy of State Border in Maluku Province. Fundamental Management Journal, 3(1p), 27–39.
Khalfallah, M., Mahmoud, H. H., Fahim, R. M., & Pauly, D. (2023). Once upon a century, the Egyptian Mediterranean fisheries (1920–2019), as affected by ‘fishing down’and climate change. Ocean & Coastal Management, 245, 106831.
Kharin, V. E., & Saveliev, P. A. (2011). First occurrence of the bony flying fish Hirundichthys oxycephalus (Exocoetidae) in waters of Russia. Journal of Ichthyology, 51, 551–555.
Khider, D., Stott, L. D., Emile-Geay, J., Thunell, R., & Hammond, D. E. (2011). Assessing El Niño Southern Oscillation variability during the past millennium. Paleoceanography, 26 (3).
Khokiattiwong, S., Mahon, R., & Hunte, W. (2000). Seasonal abundance and reproduction of the fourwing flyingfish, Hirundichthys affinis, off Barbados. Environmental biology of fishes, 59, 43–60.
Konik, M., Peña, M. A., Hirawake, T., Hunt, B. P., Vishnu, P. S., Eisner, L. B., & Costa, M. (2024). Bioregionalization of the subarctic Pacific based on phytoplankton phenology and composition. Progress in Oceanography, 228, 103315.
Koterayama, W., Yamaguchi, S., Yokobiki, T., Yoon, J. H., & Hase, H. (2000). Space-continuous measurements on ocean current and chemical properties with the intelligent towed vehicle” Flying Fish”. IEEE journal of oceanic engineering, 25(1), 130–138.
Kourantidou, M., & Kaiser, B. A. (2021). Allocation of research resources for commercially valuable invasions: Norway’s red king crab fishery. Fisheries Research, 237, 105871.
Krishnan, S., Pillai, T. A., Rayappan, J. C. A., Yagappan, T., & Rajapandian, J. (2024). Diet composition and feeding habits of yellowfin tuna Thunnus albacares (Bonnaterre, 1788) from the Bay of Bengal. Aquatic Living Resources, 37, 10.
Kritsky, D. C., Bullard, S. A., & Bakenhaster, M. D. (2011). First report of gastrocotylinean post-oncomiracidia (Platyhelminthes: Monogenoidea: Heteronchoinea) on gills of flyingfish (Exocoetidae), snapper (Lutjanidae), dolphinfish (Coryphaenidae), and amberjack (Carangidae) from the Gulf of Mexico: Decoy hosts and the dilution effect. Parasitology International, 60(3), 274–282.
Kunz-Ramsay, Y. (2013). Developmental biology of teleost fishes (Vol. 28). Springer Science & Business Media.
Kuroda, H. (2023). History, current status, and future vision of particle-tracking simulation applied to marine biology, fisheries science, and ecological engineering around Japan. Fisheries Science, 89(2), 129–146.
Lam, K., Tsui, T., Nakano, K., & Randall, D. J. (2005). Physiological adaptations of fishes to tropical intertidal environments. Fish Physiology, 21, 501–581.
Latuconsina, H. (2019). Ekologi perairan tropis: Prinsip dasar pengelolaan sumber daya hayati perairan (Edisi kedua). Gadjah Mada University Press.
Latuconsina, H. (2020). Ekologi ikan perairan tropis: Biodiversitas, adaptasi, ancaman, dan pengelolaannya. Gadjah Mada University Press.
Leisubun, M. A., Tuapetel, F., & Behuku, G. (2025). Mekanisme Navigasi Laut Mekanisme Navigasi Laut dengan Pemakaian Peta dan Kompas Kr. Bawal Putih III. Amanisal: Jurnal Teknologi dan Manajemen Perikanan Tangkap, 14(1), 49–58.
Lewallen, E. A., Bohonak, A. J., Bonin, C. A., Van Wijnen, A. J., Pitman, R. L., & Lovejoy, N. R. (2016). Population genetic structure of the tropical two-wing flyingfish (Exocoetus volitans). PLoS One, 11(10), e0163198.
Lewallen, E. A., Pitman, R. L., Kjartanson, S. L., & Lovejoy, N. R. (2011). Molecular systematics of flyingfishes (Teleostei: Exocoetidae): evolution in the epipelagic zone. Biological journal of the Linnean Society, 102(1), 161–174.
Lewallen, E. A., van Wijnen, A. J., Bonin, C. A., & Lovejoy, N. R. (2018). Flyingfish (Exocoetidae) species diversity and habitats in the eastern tropical Pacific Ocean. Marine Biodiversity, 48, 1755–1765.
Liang, C., Xian, W., & Pauly, D. (2018). Impacts of ocean warming on China’s fisheries catches: an application of “mean temperature of the catch” concept. Frontiers in Marine Science, 5, 26.
Liang, L., Xue, H., & Shu, Y. (2019). The Indonesian throughflow and the circulation in the Banda Sea: A modeling study. Journal of Geophysical Research: Oceans, 124(5), 3089–3106.
Lomartire, S., Marques, J. C., & Gonçalves, A. M. (2021). The key role of zooplankton in ecosystem services: A perspective of interaction between zooplankton and fish recruitment. Ecological Indicators, 129, 107867.
Luckhurst, B. E. (2017). Aspects of the migration, seasonality and habitat use of two mid-trophic level predators, dolphinfish (Coryphaena hippurus) and wahoo (Acanthocybium solandri), in the pelagic ecosystem of the western Atlantic including the Sargasso Sea. Collect. Vol. Sci. Pap. ICCAT, 73(9), 3163–3174.
Mace. (2001). A new role for MSY in single-species and ecosystem approaches to fisheries stock assessment and management. Fish and fisheries, 2(1), 2-32.
Mahon, R., Khokiattiwong, S., & Oxenford, H. A. (2000). Selectivity of experimental gillnets for fourwing flyingfish, Hirundichthys affinis, off Barbados. Environmental Biology of Fishes, 59, 459–463.
Makiguchi, Y., Kuramochi, K., Iwane, S., Kojima, T., & Naito, Y. (2013). Take-off performance of flying fish Cypselurus heterurus doederleini measured with miniature acceleration data loggers. Aquatic Biology, 18(2), 105–111.
Mallegowda, J. T., Behera, A., & Jaiswar, A. K. (2025). Differential pigmentation pattern in paired fins of manyspotted flying fish, Cheilopogon spilopterus (Valenciennes, 1847), an epipelagic species of exocoetid from East and West coasts of India. Marine Biodiversity, 55(2), 28.
Mao, Z., Gu, X., Cao, Y., Luo, J., Zeng, Q., Chen, H., & Jeppesen, E. (2021). Pelagic energy flow supports the food web of a shallow lake following a dramatic regime shift driven by water level changes. Science of the Total Environment, 756, 143642.
March, A. L. A., Failler, P., & Bennett, M. (2023). Caribbean fishery and aquaculture financing needs in the blue economy: identifying opportunities and constraints in Barbados, Grenada, and St. Vincent and the Grenadines. Journal of Sustainability Research, 5(1), 1–37.
Marshall, N. B. (1971). Explorations in the life of fishes. Harvard University Press.
Masiá, P., Sozio, J., Da Ros, Z., & Fanelli, E. (2024). At the base of deep-sea food webs: Assemblage and trophic structure of suprabenthos and zooplankton in submarine canyons. Progress in Oceanography, 228, 103318.
McClanahan, T., Allison, E. H., & Cinner, J. E. (2015). Managing fisheries for human and food security. Fish and Fisheries, 16(1), 78–103.
Medeiros-Leal, W., Santos, R., Sigler, M. F., & Mildenberger, T. K. (2025). Dwindling deep-water fish stocks in the Azores: The first quantitative assessment. Fisheries Research, 285, 107371.
Michael, P. E., Haney, J. C., Gleason, J. S., Hixson, K. M., Satgé, Y. G., & Jodice, P. G. (2025). Flying Fish Habitat and Co-Occurrence With Seabirds in the Northern Gulf of Mexico. Fisheries Oceanography, e12712.
Miya, M., Sato, Y., Fukunaga, T., Sado, T., Poulsen, J. Y., Sato, K., & Iwasaki, W. (2015). MiFish, a set of universal PCR primers for metabarcoding environmental DNA from fishes: detection of more than 230 subtropical marine species. Royal Society open science, 2(7), 150088.
Miyamoto, H., Okazaki, Y., Itoh, H., Hidaka, K., & Saito, H. (2024). Community structure of whole pelagic copepods along the Kuroshio: Increase in the abundance and size in the north frontal area of the Kuroshio axis near the Japanese archipelago. Deep Sea Research Part I: Oceanographic Research Papers, 211, 104346.
Moniharapon, T., Pattipeilohy, F., Moniharapon, D. L., & Sormin, R. B. D. (2019, October). The effect of gradual salt soaking and atung (Parinarium glaberimum, Hassk) on the yield and quality of dry salted bony flying fish (Cypselurus oxycephalus). In IOP Conference Series: Earth and Environmental Science (Vol. 339, No. 1, p. 012051). IOP Publishing.
Monteiro, A., Vaske JR, T., Lessa, R. P., & El-Deir, A. C. A. (1998). Exocoetidae (Beloniformes) off north-eastern Brazil. Cybium, 22(4), 395–403.
Motta, L. C., Blum, J. D., Popp, B. N., Drazen, J. C., & Close, H. G. (2020). Mercury stable isotopes in flying fish as a monitor of photochemical degradation of methylmercury in the Atlantic and Pacific Oceans. Marine Chemistry, 223, 103790.
Muripto, I. (2016). Analysis of water dynamics in Banda Sea and its influences on continental shelf fishing area. Int J Adv Sci Eng Inf Technol, 6(5), 574.
Murwani, R., Kumoro, A. C., Ambariyanto, A., & Naumova, E. N. (2020). Nutrient composition of underutilized skeins of flying fish (Hirundichthys oxycephalus): The new and better egg whites. Journal of Food Composition and Analysis, 88, 103461.
Myers, R. A., Hutchings, J. A., & Barrowman, N. J. (1996). Hypotheses for the decline of cod in the North Atlantic. Marine ecology progress series, 138, 293–308.
Najamuddin, N., Assir, A., Palo, M., & Najamuddin, A. A. (2018). Penerapan perubahan ukuran mata jaring dalam penangkapan ikan terbang secara berkelanjutan di Kecamatan Sendana Kabupaten Majene. Journal of Indonesian Tropical Fisheries (Joint-Fish): Jurnal Akuakultur, Teknologi dan Manajemen Perikanan Tangkap dan Ilmu Kelautan, 1(1), 17–27.
Nelson, J. S., Grande, T. C., & Wilson, M. V. (2016). Fishes of the World. John Wiley & Sons.
Nunoo, F. K. E., Boateng, J. O., Ahulu, A. M., Agyekum, K. A., & Sumaila, U. R. (2009). When trash fish is treasure: the case of Ghana in West Africa. Fisheries Research, 96(2-3), 167–172.
Nur, M. (2023). Pemanfaatan dan tantangan pengelolaan sumber daya ikan terbang berkelanjutan (exocoetidae) di perairan Selat Makassar. Dalam K. Amri, H. Latuconsina, & R. Triyanti (Ed.), Pengelolaan sumber daya perikanan laut berkelanjutan (387–422). Penerbit BRIN. DOI: 10.55981/brin.908.c762
Nur, M., Ihsan, M. N., Fitriah, R., Wahana, S., & Nasyrah, A. F. A. (2022, August). Keragaman jenis dan struktur ukuran ikan terbang (Famili Exocoetidae) di perairan Majene, Sulawesi Barat. In Prosiding Seminar Nasional Ikan (Vol. 1, No. 1, pp. 160–168).
Nur, R. H., Najamuddin, N., & Ridha, M. R. (2020). Perubahan pola kehidupan masyarakat nelayan Desa Galesong Baru pasca modernisasi, 1980–2015. Jurnal Pattingalloang, 7(2), 133–145.
Nurdin, E., & Yusfiandayani, R. (2016). Optimasi jumlah rumpon, unit armada dan musim penangkapan perikanan tuna di Perairan Prigi, Jawa Timur. Jurnal Penelitian Perikanan Indonesia, 18(1), 53–60.
Nurfiarini, A., Wijaya, D., Mujiyanto, M., Satria, F., & Kartamiharja, E. S. (2016). Pendekatan sosial-ekologi untuk penilaian kesesuaian lokasi restocking lobster pasir Panulirus homarus (Linnaeus, 1758) pada beberapa perairan di Indonesia. Jurnal Penelitian Perikanan Indonesia, 22(2), 123–138.
Ohno, Y., Umezawa, Y., Okunishi, T., Yukami, R., Kamimura, Y., Yoshimizu, C., & Tayasu, I. (2023). Investigation of inter-annual variation in the feeding habits of Japanese sardine (Sardinops melanostictus) and mackerels (Scomber spp.) in the Western North Pacific based on bulk and amino acid stable isotopes. Frontiers in Marine Science, 10, 1225923.
Olivar, M. P., & Beckley, L. E. (2022). Latitudinal variation in diversity and abundance of mesopelagic fishes associated with change in oceanographic variables along 110° E, south-east Indian Ocean. Deep Sea Research Part II: Topical Studies in Oceanography, 198, 105053.
Oliveira, M. R., Carvalho, M. M., Silva, N. B., Yamamoto, M. E., & Chellappa, S. (2015). Reproductive aspects of the flyingfish, Hirundichthys affinis from the Northeastern coastal waters of Brazil. Brazilian journal of biology, 75, 198–207.
Oxenford, H. A. (1999). Biology of the dolphinfish (Coryphaena hippurus) in the western central Atlantic: a review. Scientia Marina, 63(3–4), 277–301.
Oxenford, H. A., Mahon, R., & Hunte, W. (1995). Distribution and relative abundance of flyingfish (Exocoetidae) in the eastern Caribbean. III. Juveniles. Marine Ecology Progress Series, 39–47.
Oxenford, H. A., Mahon, R., & Hunte, W. (1995). Distribution and relative abundance of flyingfish (Exocoetidae) in the eastern Caribbean. I. Adults. Marine Ecology Progress Series, 117, 11–23.
Palo, M., Zainuddin, M., & Farhum, S. A. (2019). Selectivity of drifting gillnet to Hirundichthys oxycephalus (bony flyingfish) in the Southern part of Makassar Strait. Aquaculture, Aquarium, Conservation & Legislation, 12(4), 1404–1412.
Palo, M., Najamuddin, M. Z., & Farhum, S. A. (2019). Hotspots of bony flying fish (H Oxycephalus) distribution constrained by physical oceanographic condition in the central of Makassar strait during boreal winter. International Journal of Environment, Agriculture and Biotechnology, 4(4), 989–994.
Pangauan, D., Manoppo, L., Kayadoe, M. E., & Manu, L. (2020). Pengaruh umur bulan terhadap hasil tangkapan dengan jaring insang hanyut (Soma Landra)(Effect of moon phase on catches of drift gill net (Soma Landra)). Jurnal Ilmu dan Teknologi Perikanan Tangkap, 5(1).
Parin, N. V., & Bogorodskiy, S. V. (2011). Distribution and morphology of flying fish Cypselurus hexazona placed into a separate subgenus Zonocypselurus subgen. nov. Journal of Ichthyology, 51(8), 658–661.
Pascoe, S. (2012). The Sunken Billions: The Economic Justification for Fisheries Reform. Marine Resource Economics, 27(2), 193–194.
Patimah, S., Arundhana, A. I., Mursaha, A., & Syam, A. (2019). Development of foxtail millet and flying fish flour-based cookies as functional food. Current Research in Nutrition and Food Science Journal, 7(2), 504–516.
Pauly, D., Christensen, V., Dalsgaard, J., Froese, R., & Torres Jr, F. (1998). Fishing down marine food webs. Science, 279(5352), 860–863.
Pauly, D., Christensen, V., Guénette, S., Pitcher, T. J., Sumaila, U. R., Walters, C. J., & Zeller, D. (2002). Towards sustainability in world fisheries. Nature, 418(6898), 689–695.
Pauly, D., & Palomares, M. L. (2005). Fishing down marine food web: it is far more pervasive than we thought. Bulletin of marine science, 76(2), 197–212.
Penca, J., Said, A., Cavallé, M., Pita, C., & Libralato, S. (2021). Sustainable small-scale fisheries markets in the Mediterranean: weaknesses and opportunities. Maritime Studies, 20(2), 141–155.
Peranginangin, R. (2008). Teknologi pengolahan telur ikan. Squalen Bulletin of Marine and Fisheries Postharvest and Biotechnology, 3(1), 24–33.
Peraturan Menteri Kelautan dan Perikanan Nomor 19 Tahun 2022 tentang Statuta Politeknik Kelautan dan Perikanan Jembrana. (2022). https://peraturan.bpk.go.id/Details/230460/permen-kkp-no-19-tahun-2022
Pierce, G. J., & Portela, J. (2014). Fisheries production and market demand. Cephalopod culture, 41–58.
Pierucci, A., & Suaria, G. (2023). Abundance and distribution of flying fishes (Exocoetidae) and flying squids (Ommastrephidae) in the Eastern Atlantic Ocean based on a large-scale visual survey. Marine Ecology Progress Series, 725, 45–56.
Purba, N. P., Kelvin, J., Sandro, R., Gibran, S., Permata, R. A., Maulida, F., & Martasuganda, M. K. (2015). Suitable locations of ocean renewable energy (ORE) in Indonesia region–GIS approached. Energy Procedia, 65, 230–238.
Purwandana, A., Ismail, M. F. A., Nugroho, D., Atmadipoera, A. S., & Kampono, I. (2023, October). Hydrography and turbulent mixing in the Banda Sea inferred from Argo profiles. In IOP Conference Series: Earth and Environmental Science (Vol. 1251, No. 1, p. 012007). IOP Publishing.
Putri, R. S., Jaya, I., Pujiyati, S., Agus, S. B., & Palo, M. (2023). Literature Review of Flying Fish: Biology, Distribution, Production, and Current Research. Marine Fisheries: Jurnal Teknologi & Manajemen Perikanan Laut, 14(2).
Rahman, A., & Rasulong, I. (2015). Empowerment of Creative Economy to Improve Community Incomes in Takalar Regency. IOSR Journal of Business and ManagementVer, 17(4), 2319–7668.
Rachman, F., Adharini, R. I., Setiawan, R. Y., Puspita, I. D., & Triyannanto, E. (2018). Wind-driven coastal upwelling in the southern coast of Yogyakarta. Jurnal Perikanan Universitas Gadjah Mada, 20(1), 13–17.
Ramenzoni, V. C. (2023). Taboos, food avoidances, and diseases: Local epistemologies of health among Coastal Endenese in Eastern Indonesia. Frontiers in Sustainable Food Systems, 7, 977694.
Randall, L. L., Smith, B. L., Cowan, J. H., & Rooker, J. R. (2015). Habitat characteristics of bluntnose flyingfish Prognichthys occidentalis (Actinopterygii, Exocoetidae), across mesoscale features in the Gulf of Mexico. Hydrobiologia, 749, 97–111.
Randall, L., & Rooker, J. 2013. Habitat Characteristics of Flyingfish (Family Exocoetidae) Larvae in the Northern Gulf of Mexico Características del Hábitat de Peces Voladores (Familia Exocoetidae) Larvas en del Norte Golfo de México Caractéristiques de L’habitat des Larves dde Poissons Volants (Famille Exocoetidae).
Radjak, S. A., Tupamahu, A., Tuapetel, F., & Tawari, R. H. (2021). Utilization and surveillance of Fisheries Tuna Resources as a Basis for Prevention of IUU Fishing in Seram Sea. Agrikan: Jurnal Agribisnis Perikanan, 14(1), 135–140.
Rehatta, B. M., Kamal, M. M., Boer, M., Fahrudin, A., & Ninef, J. S. R. (2021, April). Growth, mortality, recruitment pattern, and exploitation rate of shared stock flying fish (Exocoetidae) at border area of Indonesia and Timor Leste in Ombai Strait. In IOP Conference Series: Earth and Environmental Science (Vol. 744, No. 1, p. 012062). IOP Publishing.
Retraubun, A. S. W., Tuapetel, F., & Natasian, N. T. (2024, April). Single bale-bale technology: Sustainable utilization of flying fish eggs in the waters of the Aru Islands, Indonesia. In IOP Conference Series: Earth and Environmental Science (Vol. 1329, No. 1, p. 012008). IOP Publishing.
Retraubun, A. S., Tubalawony, S., Masrikat, J. A., & Hukubun, R. D. (2023). Analysis of sea surface temperature and chlorophyll-a and its relationship with catch results flying fish eggs in the waters of the Kei Islands. Jurnal Penelitian Pendidikan IPA, 9(12), 11311–11324.
Risa, N. E. W., Susilowati, I., & Wijayanto, D. (2016). Adaptasi nelayan patorani terhadap degradasi stok ikan terbang (Hirundichthys oxycephalus) di Kabupaten Takalar. Prosiding SENIATI, 2(2), 96–A.
Roeger, J., Foale, S., & Sheaves, M. (2016). When ‘fishing down the food chain’results in improved food security: evidence from a small pelagic fishery in Solomon Islands. Fisheries Research, 174, 250–259.
Rose, K. C. (2024). Light in inland waters. In Wetzel’s Limnology (pp. 75–94). Academic Press.
Saediman, H., Yana, W. O., Hidrawati, H., Yunus, L., Alwi, L. O., Alam, S., & Mboe, I. S. (2024). Economic analysis of flying fish roe harvesting: The case of Wakatobi fishers operating in the Aru Islands, Maluku Province. In BIO Web of Conferences (Vol. 112, p. 11002). EDP Sciences.
Saeki, H., Shimizu, Y., & Takeda, H. (2022). Fish roe products of Japan. In Fish Roe (pp. 211–242). Academic Press.
Said, M., Tresnati, J., Nur, M., & Alam Nasyrah, A. F. (2025). Species composition and size structure of flying fish as a basis for conservation and sustainable management in the waters of West Sulawesi Province, Indonesia. International Journal of Conservation Science, 16(1).
Saraswati, E., Purwangka, F., & Mawardi, W. (2019). Penentuan lokasi penangkapan ikan karang di perairan pesisir timur Pulau Kei Besar Maluku Tenggara. ALBACORE Jurnal Penelitian Perikanan Laut, 3(1), 105–124.
Sari, I., Boli, P., White, A., Barclay, K., Simatauw, F., Tebay, S., Menai, E., Henan, Z., Leatemia, S., Parenden, D., Ananta, A., Ichsan, M., & Rotinsulu, C. (2024). Integrating social equity as a new paradigm in managing fisheries: Case of the flying fish roe fishery, West Papua Province, Indonesia. Ocean & Coastal Management, 249, 106971.
Satrioajie, W. N., Syahailatua, A., & Arifin, Z. (2018, August). Banda deep-sea research: history, mission and strategic plan. In IOP Conference Series: Earth and Environmental Science (Vol. 184, No. 1, p. 012001). IOP Publishing.
Setiawan, H., & Manessa, M. D. M. (2024). Study on Spatio-temporal Distribution of Chlorophyll-a on Pelagic Catch Productivity in Muara Bendera, West Java, Indonesia. Scientific Journal of Fisheries & Marine/Jurnal Ilmiah Perikanan dan Kelautan, 16(2).
Shaked, Y., Twining, B. S., Browning, T. J., Koedooder, C., & Kranzler, C. F. (2025). Trace metal biogeochemistry in the ocean: From chemical principles to biological complexity. Elsevier.
Shakhovskoy, I. B. (2018). Specific features of distribution in the World Ocean of some flying fishes of the genera Exocoetus, Hirundichthys and Cypselurus (Exocoetidae). FishTaxa, 3(4), 40–80.
Shakhovskoy, I. B., & Parin, N. V. (2013). A review of flying fishes of the subgenus Hirundichthys (genus Hirundichthys, Exocoetidae). Part 2. Nerito-oceanic species: H. oxycephalus, H. affinis. Journal of ichthyology, 53, 509–540.
Shakhovskoy, I. B. (2023). Quantitative distribution of the flying fish (Exocoetidae), marine mammals, birds, and sea turtles in the northern part of the Central Atlantic Ocean (results obtained in the research cruises nos. 43–45 of the R/V “Akademik Nikolaj Strakhov”). Journal of Ichthyology, 63(3), 435–468.
Simatauw, F., Boli, P., Tabay, S., Leatemia, S., Parenden, D., & Ananta, A. (2019). Perikanan Ikan Terbang dan Perikanan Lainnya di Perairan Fakfak. Prosiding Simposium Nasional Kelautan dan Perikanan, 6.
Smith, A. D., Brown, C. J., Bulman, C. M., Fulton, E. A., Johnson, P., Kaplan, I. C., Montes, H.L., Mackinson, S., Marzloff, M., Shannon, L.J., Shin, Y-J., & Tam, J. (2011). Impacts of fishing low–trophic level species on marine ecosystems. Science, 333(6046), 1147–1150.
Soselisa, H. L., dan Ingratubun, M. A. (2025). Berlindung di Balik Andon: Nelayan Kecil dengan Tangkapan Besar, Kajian Aktivitas Eksploitasi Telur Ikan Terbang di Perairan Kepulauan Kei 111–152, Maluku, dalam buku Merampas Laut Merampas Hidup Nelayan. Editor: Dedi Supriadi Adhuri. Cetakan ke II. https://www.kiara.or.id/wp-content/uploads/2025/05/Book-of-Merampas-Laut.pdf#page=56
Spondylidis, S., Giannoulaki, M., Machias, A., Batzakas, I., & Topouzelis, K. (2023). Can we actually monitor the spatial distribution of small pelagic fish based on Sentinel-3 data? An example from the North Aegean Sea (Eastern Mediterranean Sea). Frontiers in Marine Science, 10, 1117704.
Stevens, P. W., Bennett, C. K., & Berg, J. J. (2003). Flyingfish spawning (Parexocoetus brachypterus) in the northeastern Gulf of Mexico. Environmental biology of fishes, 67(1), 71–76.
Stige, L. C., Ottersen, G., Brander, K., Chan, K. S., & Stenseth, N. C. (2006). Cod and climate: effect of the North Atlantic Oscillation on recruitment in the North Atlantic. Marine Ecology Progress Series, 325, 227–241.
Su, L., Zhang, K., Xu, Y., & Chen, Z. (2025). Variations in the fish community of the Beibu Gulf (South China Sea) following fishery resources protection measures. Fisheries Research, 283, 107293.
Suherman, A., Hernuryadin, Y., Suadela, P., Furkon, U. A., & Amboro, T. (2025). Transformation of Indonesian capture fisheries governance: Review and prospects. Marine Policy, 174, 106619.
Suman, A., Irianto, H. E., Satria, F., & Amri, K. (2017). Potensi dan tingkat pemanfaatan sumber daya ikan di wilayah pengelolaan perikanan Negara Republik Indonesia (WPP NRI) Tahun 2015 serta Opsi Pengelolaannya. Jurnal Kebijakan Perikanan Indonesia, 8(2), 97–100.
Sun, R. X., Pan, C. G., Peng, F. J., Chen, Z. B., Sun, Y., Fan, J. T., Zhang, J., & Mai, B. X. (2024). Biomagnification of polybrominated diphenyl ethers and alternative halogenated flame retardants through food chains of yellowfin tuna (Thunnus albacares) and their prey from the South China Sea and the associated potential health risk. Science of The Total Environment, 957, 177770.
Suryadarma, M. W., Atmadipoera, A. S., Nugroho, D., Naulita, Y., & Zuraida, R. (2025). Indonesian Throughflow Water and Its Circulation in the Maluku Sea: An Evaluation Using the CROCO Model. Regional Studies in Marine Science, 104047.
Susanto, A., Daryanto, A., & Sartono, B. (2017). Pemilihan strategi peningkatan daya saing industri tekstil dan produk tekstil dengan pendekatan ANP-BOCR. Arena Tekstil, 32(1).
Suwarso, S., Zamroni, A., & Wijopriyono, W. (2017). Eksploitasi sumber daya ikan terbang (H. oxycephalus, Famili Exocoetidae) di perairan Papua Barat: pendekatan riset dan pengelolaan. BAWAL Widya Riset Perikanan Tangkap, 2(2), 83–91.
Syahailatua, A., & Rijoly, F. (2021, June). Notes on flyingfish diversity in Indonesia waters. In IOP Conference Series: Earth and Environmental Science (Vol. 789, No. 1, p. 012010). IOP Publishing.
Syahailatua, A., Ali, S. A., & Makatipu, P. (2008). Strategi reproduksi ikan terbang (Exocoetidae) dan kaitannya dengan faktor oseanografi di Perairan Indonesia. J. Penelitian Perikanan Indonesia, 14(3), 303–311.
Syahailatua, A., Djamali, A. makatipu, P., & Ali, S. A. (2006). Keragaman jenis dan distribusi ukuran panjang ikan terbang di Perairan Indonesia Timur. J. Perikanan Univ. Gadjah Mada, 8(2), 260–265.
Syahailatua, A. (2006). Perikanan ikan terbang di Indonesia: Riset menuju pengelolaan. Oseana, 31(3), 21–31.
Syam, A. R., Zubaidi, T., & Edrus, I. N. (2017). Aspek biologi reproduksi ikan terbang Cypsilurus spilopterus di Perairan Tual, Maluku Tenggara. Jurnal Penelitian Perikanan Indonesia, 10(4), 87–95.
Syarif, E., Fatchan, A., & Astina, I. K. (2017). Progressivity Punggawa-sawi in sustaining flying fish resources on culture patorani Takalar District South Sulawesi Indonesia. Mediterranean Journal of Social Sciences, 8(1), 397.
Tahara, T., & Rusli, R. (2020). Strategi Usaha Perikanan Nelayan Engbatu-batu Kabupaten Takalar. Pangadereng, 6(2), 186–203.
Talib, A. (2018). Peluang dan tantangan industri teknologi pengolahan hasil perikanan dalam mendukung terwujudnya lumbung ikan nasional (LIN) di Maluku Utara. Agrikan: Jurnal Agribisnis Perikanan, 11(1), 19–27.
Tavakoli, S., Luo, Y., Regenstein, J. M., Daneshvar, E., Bhatnagar, A., Tan, Y., & Hong, H. (2021). Sturgeon, caviar, and caviar substitutes: From production, gastronomy, nutrition, and quality change to trade and commercial mimicry. Reviews in Fisheries Science & Aquaculture, 29(4), 753–768.
Taylor, J. J., Rytwinski, T., Bennett, J. R., Smokorowski, K. E., & Cooke, S. J. (2017). The effectiveness of spawning habitat creation or enhancement for substrate spawning temperate fish: a systematic review protocol. Environmental evidence, 6, 1–7.
Teniwut, W. A., Hamid, S. K., & Makailipessy, M. M. (2022). Developing a masterplan for a sustainable marine sector in a small islands region: Integrated MCE spatial analysis for decision making. Land use policy, 122, 106356.
Thiagarajan, V., Nah, T., & Xin, X. (2024). Impacts of atmospheric particulate matter deposition on phytoplankton: A review. Science of The Total Environment, 950, 175280.
Timisela, N. R., Nanlohy, H., & Dyahapsari, I. (2017). Management of Sea Resources Based on Local Wisdoms in Conservation of Island Kei in Maluku Tenggara Regency. Coastal and Ocean Journal (COJ), 1(2), 113–126.
Tuapetel, F. (2015). Tingkat pemanfaatan, kondisi stok dan keragaman populasi ikan terbang, Hirundichthys oxycephalus (Bleeker, 1852) di Laut Seram. Doctoral Disertation. Sekolah Pascasarjana Universitas Hasanuddin Makassar, Indonesia, 182p (unpublish).
Tuapetel, F. (2020). Ikan terbang, potensi perairan Maluku yang terabaikan. Warta Iktiologi, 4(3), 11–18.
Tuapetel, F. (2021a). Biologi reproduksi ikan terbang, Cheilopogon abei Parin, 1996 di perairan Selat Geser Seram Timur. Jurnal Iktiologi Indonesia, 21(2), 167–184.
Tuapetel, F. (2021b). Management of flying fish resources in Maluku waters in Rahardjo and Tuapetel. Management and conservation of pelagic fish resources in Maluku waters National Fish Barn. Ind (Ichth. Soc, Cibinong, 2021).
Tuapetel, F. (2021c). Maluku capture fisheries management to ensure the availability of national fish stocks in Latumahina. Maluku future: monog. thoughts of Maluku Academics. (Adab, Indramayu, 2021).
Tuapetel, F. (2023, 7 Juni). Ikan terbang, potensi perairan Maluku yang terabaikan. Mongabay. https://mongabay.co.id/2023/06/07/ikan-terbang-potensi-perairan-maluku-yang-terabaikan/
Tuapetel, F., & Tupan, C. (2021). Distribution of flying fish species (Exocoetidae) in the waters of Ambon Island. In E3S Web of Conferences (Vol. 322, p. 01011). EDP Sciences.
Tuapetel, F., Kadarusman, K., Syahailatua, A., Boli, P., Indrayani, I., & Wujdi, A. (2024a). Stock structure of flying fish (cypselurus poecilopterus) in the eastern Indonesia water based on morphometric and meristic variation. BAWAL Widya Riset Perikanan Tangkap, 15(3), 109–119.
Tuapetel, F., Jaflean, E. B., Buiswarin, J. (2024b). Sosialisasi peraturan perundang-undangan pemanfaatan sumberdaya ikan terbang di Maluku Tenggara. Balobe: Jurnal Pengabdian Masyarakat, 3(1), 9–19.
Tuapetel, F., Nessa, M. N., & Ali, S. A. Sudirman. (2015a). Tingkat pemanfaatan sumberdaya ikan terbang (exocoetidae) di laut seram. Prosiding Simposium II FPIK Unhas, 232–239.
Tuapetel, F., Nessa, N., Ali, S. A., Hutubessy, B. G., & Mosse, J. W. (2017, October). Morphometric relationship, growth, and condition factor of flyingfish, Hirundicththys oxycephalus during spawning season. In IOP Conference Series: Earth and Environmental Science (Vol. 89, No. 1, p. 012001). IOP Publishing.
Tuapetel, F., Nessa, N., Ali, S. A., Sudirman. (2015b) Distribution, species composition and size of flying fish (Exocoetidae) in the Ceram Sea. International J. of Scientific and Technology Research, 4(3), 75–76.
Tuapetel F, Panca M, Batmamolin, Themin Y. 2022a. Laporan survey sumberdaya ikan terbang dan alat penangkapannya di Perairan Kepulauan Tanimbar dan sekitarnya, bekerjasama dengan Kementrian Kelautan dan Perikanan serta GEF 6 (unpublished).
Tuapetel F, Fuatkait SD, Masbaitubun J, Natasian, NT, Wibowo E. 2022b. Laporan survey Laporan survey sumberdaya ikan terbang dan alat penangkapannya di Perairan Kepulauan Aru dan sekitarnya, bekerjasama dengan Kementrian Kelautan dan Perikanan, serta GEF 6 (unpublished).
Tuapetel, F., Silooy, F. D., & Tualepe, Y. A. (2025a). Size distribution and seasonal fishing patterns of tuna (Katsuwonus pelamis and Thunnus albacares) in troll line fisheries at PPN Ambon, Indonesia. Agricola, 15(2), 29–43.
Tuapetel, F., Tupan, C. I., & Lailossa, G. W. (2025b). Pemberdayaan nelayan talaga ratu melalui diversifikasi alat tangkap dan desiminasi teknologi Bale-Bale. Bakira: Jurnal Pengabdian Kepada Masyarakat, 6(1), 01–12.
Usman, M., Sameen, A., Khan, M. I., Sahar, A., Younas, R., Tariq, A., & Aadil, R. M. (2022). Introduction to world production of fish roe and processing. In Fish Roe (pp. 1–18). Academic Press.
Usmany, N., & Liline, S. (2018). Pengaruh konsentrasi garam dan lama waktu perendaman terhadap cita rasa ikan terbang (Hirundichthys oxycephalus). Biopendix: Jurnal Biologi, Pendidikan Dan Terapan, 5(1), 18–23.
Uy Jr, R. F., Adora, I. G. R., Pilvera, C. J., Dibdib, S., Jaramillo, H., Arendain, J. R. E., & Laña, Q. (2023). Community Needs assessment as basis for the extension program of Philippine College Foundation. International Journal of Scientific and Management Research, 6(07), 71–87.
Van Noord, J. E., Lewallen, E. A., & Pitman, R. L. (2013). Flyingfish feeding ecology in the eastern Pacific: prey partitioning within a speciose epipelagic community. Journal of fish biology, 83(2), 326–342.
Varghese, R., Behera, S., & Behera, M. D. (2024). Tropical ocean teleconnections with gross primary productivity of monsoon-Asia. Science of the Total Environment, 938, 173337.
Wahyudi, V. A., Harini, N., Manshur, H. A., Wachid, M., & Aini, A. N. (2022). Study of protein concentrate from flying fish roe filament and its application for nutrified rice-corn milk. Current Research in Nutrition and Food Science Journal, 10(2), 766–776.
Waller, J., Bartlett, J., Bates, E., Bray, H., Brown, M., Cieri, M., Clark, C., DeVoe, W., Donahue, B., Frechette, D., Glon, H., Hunter, M., Huntsberger, C., Kanwit, K., Ledwin, S., Lewis, B., Peters, R., Reardon, K., Russell, R., Smith, M., Uraneck, C., Watts, R., & Wilson, C. (2023). Reflecting on the recent history of coastal Maine fisheries and marine resource monitoring: the value of collaborative research, changing ecosystems, and thoughts on preparing for the future. ICES Journal of Marine Science, 80(8), 2074–2086.
Wang, Y., Ma, C., Song, X., Li, M., & Zhang, H. (2024). Assessment of fish diversity in the East China Sea hairtail national aquatic germplasm resources conservation zone using DNA barcoding. Global Ecology and Conservation, 53, e03013.
Wang, J., Zhang, H., Pan, C., Feng, B., & Hou, G. (2025). Spatial and temporal patterns in pelagic fish egg assemblages in spring and late autumn–winter in eastern Beibu Gulf. Marine Environmental Research, 207, 107066.
Wattimena, M. C., & Salamena, G. G. (2025). Interannual deep-water renewal in the tropical fjord of Kao Bay of Halmahera Island, eastern Indonesia, linked to ocean dynamics in western equatorial Pacific. Regional Studies in Marine Science, 81, 103953.
Weber, S. B., Richardson, A. J., Brown, J., Bolton, M., Clark, B. L., Godley, B. J., & Broderick, A. C. (2021). Direct evidence of a prey depletion “halo” surrounding a pelagic predator colony. Proceedings of the National Academy of Sciences, 118(28), e2101325118.
Wijaya, A., Priyono, B., & Mahdalena, N. C. (2018). Karakteristik spasial temporal kondisi oseanografi Laut Banda dan hubungannya dengan potensi sumberdaya perikanan. JFMR-Journal of Fisheries and Marine Research, 2(2), 75–85.
Wilen, C. D., & Wilen, J. E. (2012). Fishing down the food chain revisited: Modeling exploited trophic systems. Ecological Economics, 79, 80–88.
Winton, S., Fletcher, S., Evans, T., Fletcher, R., Friedrich, L., Greenhill, L., Howel, D., Arendal, G., Lucas, B., March, A., McOwen, C., Vause, J., Vestergaard, O., & Carvalho, L. (2024). Accelerating the Delivery of the 2030 Agenda for Sustainable Development Through the Implementation of a Sustainable Blue Economy.
Wirasatriya, A., Susanto, R. D., Setiawan, J. D., Agustiadi, T., Iskandar, I., Ismanto, A., & Dollu, E. A. (2023). Extreme Upwelling Events in the Seas of the Alor Kecil, Alor Island, Indonesia. Oceanography, 36(1), 28–37.
Wudianto, W., Widodo, A. A., Satria, F., & Mahiswara, M. (2019). Kajian pengelolaan rumpon laut dalam sebagai alat bantu penangkapan tuna di perairan Indonesia. Jurnal Kebijakan Perikanan Indonesia, 11(1), 23–37.
Xiao, M., Deng, B., Zhang, G., Wu, H., Chen, Y., & Hou, L. (2024). Nutrient changes from Zhoushan coastal upwelling fluctuations since 1900 and its implications for fisheries. Global and Planetary Change, 243, 104630.
Xu, G. H., Zhao, L. J., Gao, K. Q., & Wu, F. X. (2013). A new stem-neopterygian fish from the Middle Triassic of China shows the earliest over-water gliding strategy of the vertebrates. Proceedings of the Royal Society B: Biological Sciences, 280(1750), 20122261.
Yamanouchi, T., & Takata, K. (2020). Rapid change of the Arctic climate system and its global influences-Overview of GRENE Arctic climate change research project (2011–2016). Polar science, 25, 100548.
Yuan, D., Li, X., Wang, Z., Li, Y., Wang, J., Yang, Y., & von Storch, J. S. (2018). Observed transport variations in the Maluku Channel of the Indonesian Seas associated with western boundary current changes. Journal of Physical Oceanography, 48(8), 1803–1813.
Yusuf, J., Rukmana, D., Ali, S. A., & Indar, Y. N. (2014). Studi kelembagaan dalam pengelolaan dan pemanfaatan telur ikan terbang (kasus Desa Pa’lalakang Kabupaten Takalar). Torani Journal of Fisheries and Marine Science, 24(3).
Zainuddin, M. (2011). Preliminary findings on distribution and abundance of flying fish in relation to oceanographic conditions of Flores Sea observed from multi-spectrum satellite images. Asian Fisheries Science Journal, 24(1), 20–30.
Zhang, X., Tinacci, L., Xie, S., Wang, J., Ying, X., Wen, J., & Armani, A. (2022a). Caviar products sold on Chinese Business to customer (B2C) online platforms: Labelling assessment supported by molecular identification. Food control, 131, 108370.
Zhang, D., Zhang, J. D., & Huang, W. X. (2022b). Physical models and vortex dynamics of swimming and flying: A review. Acta Mechanica, 233(4), 1249–1288.
Zhang, W., Wang, J., Bai, F., Xu, P., Gao, R., Wu, J., Zhao, Y., & Xu, X. (2025a). Mechanisms of Formation, Deterioration, and Regulation of Quality in Caviar and Its Substitutes: Recent Advances and Future Trends. Trends in Food Science & Technology, 104908.
Zhang, L., Ma, X., Wan, X., Xu, W., Sun, X., & Li, M. (2025b). Three-dimensional thermohaline reconstruction of mesoscale eddies under remote sensing observation: From the perspective of deep learning of layer depth sequences with fusion of physical mechanisms. Journal of Sea Research, 102593.
Zhang, X., Wang, H., Li, X., Purwandana, A., & Putra, I. W. S. E. (2025c). Internal solitary waves in the Banda Sea, a pathway between Indian and Pacific oceans: Satellite observations and physics-AI hybrid forecasting. Remote Sensing of Environment, 323, 114733.
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