Investigation of fisheries resources through digital fisheries applications towards a culture community in the revolution 5.0
Keywords:
fish resources, fisheries applications, investigations, marine, technological culture communityAbstract
Investigating marine resources through the application of technology today is a critical issue to be developed towards a technology-based 21st-century fishing society. We obtained the data from publications from 2010 to 2022. Then we examined the phenomenological approach, which involved an in-depth evaluation data coding system and high interpretation in obtaining data with high validity to answer the problems and hypotheses. After a series of studies and discussion of the results, we can conclude that investigations of marine resources using technological applications have resulted in several applications, including the track fish application, the Nusantara sea application, the intelligent fishermen application, Nusantara fishermen, Wakatobi Ais, and then I long books application. This is useful for the development of similar studies in the future.
Downloads
References
Agus, M., Widyanto, S. W., Wisnugroho, S., & Asuhadi, S. (2018). Automatic identification system (AIS) berbasis mikrokontroler untuk pengawasan nelayan di wakatobi. Prosiding Semnastek.
Alós, J., Aarestrup, K., Abecasis, D., Afonso, P., Alonso?Fernandez, A., Aspillaga, E., . . . Lennox, R. (2022). Toward a decade of ocean science for sustainable development through acoustic animal tracking. Global Change Biology, 28(19), 5630-5653.
Aripin, H., Harahap, R. H., & Ginting, B. (2020). The prohibition on using centering fishing gear and fishermen's adaptation strategy to the fishing community's economic condition. International Journal of Multicultural and Multireligious Understanding, 7(7), 490-500.
Asis, A., Sampurno, S., & Ilyas, A. (2016). Strategic policy of the government of Indonesia in the field of maritime and fisheries affairs. International Journal of Scientific and Research Publications, Volume 6, Issue 12.
Bailey, M., Bush, S., Oosterveer, P., & Larastiti, L. (2016). Fishers, fair trade, and finding middle ground. Fisheries Research, 182, 59-68.
Baran, E., & Hambrey, J. (1999). Mangrove conservation and coastal management in southeast Asia: What impact on fishery resources?. Marine Pollution Bulletin, 37(8-12), 431-440. https://doi.org/10.1016/S0025-326X(99)00076-4
Barus, B., Sudradjat, A. J., Sugiyanta, S. W., Susila, A. D., Tarigan, S., Hartono, A., & Arifin, H. S. (2019). Pertanian era digital 4.0. IPB 4.0: Pemikiran, Gagasan, Dan Implementasi, , 59.
Bennett, N. J., Finkbeiner, E. M., Ban, N. C., Belhabib, D., Jupiter, S. D., Kittinger, J. N., . . . Christie, P. (2020). The COVID-19 pandemic, small-scale fisheries, and coastal fishing communities. Coastal Management, 48(4), 336-347.
Blanco, M., Sotelo, C. G., Chapela, M. J., & Pérez-Martín, R. I. (2007). Towards sustainable and efficient use of fishery resources: present and future trends. Trends in Food Science & Technology, 18(1), 29-36. https://doi.org/10.1016/j.tifs.2006.07.015
Cooke, S. J., & Cowx, I. G. (2006). Contrasting recreational and commercial fishing: searching for common issues to promote unified conservation of fisheries resources and aquatic environments. Biological conservation, 128(1), 93-108. https://doi.org/10.1016/j.biocon.2005.09.019
Cooke, S. J., Midwood, J. D., Thiem, J. D., Klimley, P., Lucas, M. C., Thorstad, E. B., . . . Ebner, B. C. (2013). Tracking animals in freshwater with electronic tags: Past, present, and future. Animal Biotelemetry, 1(1), 1-19.
Darmadi, N. M., Edi, D. G. S., & Kawan, I. M. (2017). The Improvement of Food Quality and Safety of Fish Skin Crackers in Serangan Bali. International Research Journal of Engineering, IT and Scientific Research, 3(6), 125-135.
de Freitas, R. R., Chamy, P., & de Carvalho Dumith, R. (2017). Institutional design of small-scale fisheries in marine protected areas applied to sustainable territorial development on the Brazilian coast. Ocean & Coastal Management, 139, 92-101.
Donnelly, M. (2018). Implementing ICTs in Indonesia’s small-scale fisheries: Identifying common implementation challenges and the development paradigms that shape them.
Ducharme-Barth, N. D., Grüss, A., Vincent, M. T., Kiyofuji, H., Aoki, Y., Pilling, G., ... & Thorson, J. T. (2022). Impacts of fisheries-dependent spatial sampling patterns on catch-per-unit-effort standardization: a simulation study and fishery application. Fisheries Research, 246, 106169. https://doi.org/10.1016/j.fishres.2021.106169
Ermayanti, N. G. A. M., Oka, I. G. L., Mahardika, I. G., & Suyadnya, I. P. (2016). Free testosterone level and quality of cauda epididymis sperm of local rabbit that given commercial feed supplemented by cod fish liver oil. International Research Journal of Engineering, IT and Scientific Research, 2(3), 1-8.
Franz, G., Garcia, C. A., Pereira, J., de Freitas Assad, Luiz Paulo, Rollnic, M., Garbossa, L. H. P., . . . Turra, A. (2021). Coastal ocean observing and modeling systems in brazil: Initiatives and future perspectives. Frontiers in Marine Science, 8, 681619.
Gibbs, M. T. (2004). Interactions between bivalve shellfish farms and fishery resources. Aquaculture, 240(1-4), 267-296. https://doi.org/10.1016/S0921-8009(99)00084-1
Ginting, E. S., & Putra, M. U. M. (2020). Application of SWOT analysis in determining marketing strategy at PT. aquafarm nusantara naga kisar perbaungan. Jurnal Mantik, 4(3), 2348-2354.
Hanh, T. T. H., & Boonstra, W. J. (2019). What prevents small-scale fishing and aquaculture households from engaging in alternative livelihoods? A case study in the Tam Giang lagoon, Viet Nam. Ocean & Coastal Management, 182, 104943.
Huchim-Lara, R. O., Salas, S., Fraga, J., Mendez, N., & Chin, W. (2016). Fishermen’s perceptions and attitudes toward risk diving and management issues in small-scale fisheries. American Journal of Human Ecology, 5(1), 1-10.
Islam, M. M., Khan, M. I., & Barman, A. (2021). The impact of the novel coronavirus pandemic on aquaculture and fisheries in developing countries and sustainable recovery plans is the case of Bangladesh. Marine Policy, 131, 104611.
Kiswanto, G. (2020). Digital twin approach for tool wear monitoring of micro-milling. Procedia CIRP, 93, 1532-1537.
Klemas, V. (2013). Fisheries applications of remote sensing: an overview. Fisheries Research, 148, 124-136. https://doi.org/10.1016/j.fishres.2012.02.027
Kovacs, A., Nicolcioiu, A., Arhip, J., & Ca?u, G. (2014). Design and implementation of a GPRS remote data logger for weather forecasting. Paper presented at the 2014 10th International Conference on Communications (COMM), 1-4.
Ksatrya, S. P. (2019). Development of a Maritime Logistics System to Support Marine and Fisheries Integrated Centres in Small Island and Boundary Areas.
Leschen, A., & Correia, S. (2010). Mortality in female horseshoe crabs (Limulus polyphemus) from biomedical bleeding and handling: Implications for fisheries management. Marine and Freshwater Behaviour and Physiology, 43(2), 135-147.
Linke, S., Hadjimichael, M., Mackinson, S., & Holm, P. (2020). Knowledge for fisheries governance: Participation, integration and institutional reform. Collaborative research in fisheries (pp. 7–25) Springer.
Lloret, J., Zaragoza, N., Caballero, D., & Riera, V. (2008). Biological and socioeconomic implications of recreational boat fishing for the management of fishery resources in the marine reserve of Cap de Creus (NW Mediterranean). Fisheries Research, 91(2-3), 252-259. https://doi.org/10.1016/j.fishres.2007.12.002
Marwiati, M., & Fahrurrozi, M. (2021). E-log book untuk penilaian kinerja kompetensi perawat klinis. Jurnal Kepemimpinan Dan Manajemen Keperawatan, 4(2), 177-182.
McGarvey, R., Linnane, A. J., Feenstra, J. E., Punt, A. E., & Matthews, J. M. (2010). Integrating recapture-conditioned movement estimation into spatial stock assessment: a South Australian lobster fishery application. Fisheries Research, 105(2), 80-90. https://doi.org/10.1016/j.fishres.2010.03.006
Mion, M., Piras, C., Fortibuoni, T., Celi?, I., Franceschini, G., Giovanardi, O., . . . Raicevich, S. (2015). Collection and validation of self-sampled e-logbook data in a Mediterranean demersal trawl fishery. Regional Studies in Marine Science, 2, 76-86.
Mrówczy?ska, M., Skiba, M., Sztubecka, M., Bazan-Krzywosza?ska, A., Kazak, J. K., & Gajownik, P. (2021). Scenarios as a tool supporting decisions in urban energy policy: The analysis using fuzzy logic, multi-criteria analysis and GIS tools. Renewable and Sustainable Energy Reviews, 137, 110598.
Muawanah, U., Kusumaningrum, P. D., Nugroho, H., & Daniel, D. (2017). Gambaran, karakteristik pengguna dan persepsi nelayan terhadap kemanfaatan sistem aplikasi nelayan pintar (SINP) di pelabuhan perikanan indonesia. Jurnal Kebijakan Sosial Ekonomi Kelautan Dan Perikanan, 7(1), 63-76.
Natsir, M., Ardianto, R., Puspasari, R., & Wada, M. (2022). Application of ICT to support sustainable fisheries management: Bali sardine fishery, Indonesia. Journal of Information Processing, 30, 422-434.
Navarrete Forero, G., Miñarro, S., Mildenberger, T. K., Breckwoldt, A., & Reuter, H. (2017). Participatory boat tracking reveals spatial fishing patterns in an Indonesian artisanal fishery—Frontiers in Marine Science, 4, 409.
Otterå, H., Wathne, J. A., Fuglebakk, E., Slotte, A., Svendsen, B. V., & Vølstad, J. H. (2023). The Norwegian catch sampling lottery is a novel probabilistic survey method for at-sea sampling in pelagic fisheries. Fisheries Research, 260, 106584.
Palalloi, I. A., & Anwar, A. (2018). Information technology governance standards on mobile applications for fishing zone based on CobiT 5 framework in major. Paper presented at the IOP Conference Series: Earth and Environmental Science, 156(1) 012008.
Ramadhan, A. J. (2021). Peran humas xl axiata melalui aplikasi mobile laut nusantara dalam membangun citra perusahaan bagi nelayan. Jurnal Komunikasi, 15(1), 1-16.
Rautmare, S., & Bhalerao, D. M. (2016, October). MySQL and NoSQL database comparison for IoT application. In 2016 IEEE international conference on advances in computer applications (ICACA) (pp. 235-238). IEEE.
Rogerson, J. J. (2015). Being heard: Thinking through different versions of rationality, epistemological policing and dissonances in marine conservation. Marine Policy, pp. 60, 325–330.
Salinas de León, P. (2010). Patterns of connectivity and isolation in marine populations.
Salter-Jansen, C. (2011). Simon's town museum's project phoenix: A journey towards transformation from 1996 to 2010. International Journal of the Inclusive Museum, 3(3).
Serafy, J. E., Cooke, S. J., Diaz, G. A., Graves, J. E., Hall, M., Shivji, M., & Swimmer, Y. (2012). Circle hooks in commercial, recreational, and artisanal fisheries: research status and needs for improved conservation and management. Bulletin of Marine Science, 88(3), 371-391.
Silva, J. A., Rivera-Hechem, M. I., Hong, C., Clawson, G., Hoover, B. R., Butera, T., . . . Muawanah, U. (2022). Assessing the drivers of vessel tracking systems adoption for improved small-scale fisheries management. Ocean & Coastal Management, 226, 106265.
Stewart, K. M. (1994). Early hominid utilisation of fish resources and implications for seasonality and behaviour. Journal of Human Evolution, 27(1-3), 229-245. https://doi.org/10.1006/jhev.1994.1044
Susilowati, I., Thohir, M., Nugroho, S., & Suciati, I. (2020). Pemanfaatan aplikasi nelayan pintar di kabupaten Pati–Jawa tengah. Jurnal Ekonomi Dan Bisnis, 23(2), 243-262.
Tebaiy, S., Batto, M., Manan, J., & Manuputty, A. (2020). Community socio-economic and cultural systems in using reef fisheries: A descriptive study from the south misool marine protected area, Raja Ampat, west papua. Paper presented at the IISS 2019: Proceedings of the 13th International Interdisciplinary Studies Seminar, IISS 2019, p. 30-31 October 2019, Malang, Indonesia, p. 26.
Thiault, L., Collin, A., Chlous, F., Gelcich, S., & Claudet, J. (2017). Combining participatory and socioeconomic approaches to map fishing effort in small-scale fisheries. PLoS One, 12(5), e0176862.
Tolley, B., & Hall-Arber, M. (2015). Tipping the scale away from privatization and toward community-based fisheries: policy and market alternatives in New England. Marine Policy, 61, 401-409.
Tolley, B., & Hall-Arber, M. (2015). Tipping the scale away from privatization and toward community-based fisheries: policy and market alternatives in New England. Marine Policy, 61, 401-409.
Tondewad, P. (2018). IOT-based industrial automation & data logging using GPRS. Asian Journal for Convergence in Technology (AJCT) ISSN-2350-1146.
Trionawan, N., Diamantina, A., & Pinilih, S. A. (2021). E-catch-fisheries logbook application based on the regulation of the minister of marine and fisheries of the republic of Indonesia. Paper presented at the Proceedings of the 1st International Conference on Science and Technology in Administration and Management Information, ICSTIAMI 2019, 17-18 July 2019, Jakarta, Indonesia.
Urquhart, J., & Acott, T. G. (2013). Re-connecting and embedding food in place: Rural development and inshore fisheries in Cornwall, UK. Journal of Rural Studies, 32, 357-364.
Widyanto, S. W., Agus, M., Wisnugroho, S., & Asuhadi, S. (2017). Desain teknologi pemantauan kapal laut berbasis sistem identifikasi otomatis untuk pengamanan nelayan di wakatobi. Prosiding Semnastek.
Wiyono, E. S., Raharjo, S. S., & Permana, S. M. (2018). Fishermen acceptance on the introduction of fishing technology: Perception and its development strategies. Aquaculture, Aquarium, Conservation & Legislation, 11(3), 666-677.
Zhang, C. I., Lee, J. B., Kim, S., & Oh, J. H. (2000). Climatic regime shifts and their impacts on marine ecosystem and fisheries resources in Korean waters. Progress in Oceanography, 47(2-4), 171-190. https://doi.org/10.1016/S0079-6611(00)00035-5
Zhang, H., Yang, S., Fan, W., Shi, H., & Yuan, S. (2021). Spatial analysis of the fishing behavior of tuna purse seiners in the western and central pacific based on vessel trajectory data. Journal of Marine Science and Engineering, 9(3), 322.
Published
How to Cite
Issue
Section
Copyright (c) 2023 International journal of chemical & material sciences
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Articles published in the International Journal of Chemical & Material Sciences (IJCMS) are available under Creative Commons Attribution Non-Commercial No Derivatives Licence (CC BY-NC-ND 4.0). Authors retain copyright in their work and grant IJCMS right of first publication under CC BY-NC-ND 4.0. Users have the right to read, download, copy, distribute, print, search, or link to the full texts of articles in this journal, and to use them for any other lawful purpose.
Articles published in IJCMS can be copied, communicated and shared in their published form for non-commercial purposes provided full attribution is given to the author and the journal. Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.