Possibility of Fish Cultivation Based on Study of Water Quality around Dutungan Island, Barru Regency, Indonesia
DOI:
https://doi.org/10.55677/ijlsar/V02I10Y2023-10Keywords:
Possibility, Water quality, Cultivation, Dutungan, BarruAbstract
The study aims to determine the possibility of fish cultivation based on aspects of water quality around Dutungan Island, Barru Regency, Indonesia. There are 4 study locations, namely Location 1 is located around Dutungan Island, Location 2 is located in the fish hatchery industry and Location 3 is located around residential areas of Mallusetasi Beach, Barru Regency. Water quality parameters measured include current, brightness, temperature, pH, dissolved oxygen, and salinity. Data were analyzed by descriptive analysis. Based on the results of water quality analysis, it shows that the waters of Dutungan Island, Barru Regency still qualify the requirements for the development of fish and seaweed cultivation. The highest speed of water currents is obtained at location 1, which is an average of 0.52 m/s, the highest average water brightness was obtained at location 2 of 3.43 m, the highest average water temperature was obtained at location 1 of 28.97oC, the highest average water pH was obtained at location 1 of 8.03., the highest average dissolved oxygen water was obtained at location 3 of 5.25 ppm, and the highest average water salinity was obtained at location 2 of 33.5 ppt. However, the most suitable location for fish and seaweed cultivation of all locations is location 1, namely the location around Dutungan Island.
References
Arjuni, A., Cokrowati, N. and Rusman. 2015. Growth of Kappahycus alvarezii seaweed from tissue culture. Jurnal Biologi Tropis., 18(2):216-223. http://doi.org/10.29303/jbt.v18i2.740
Ask, E.I. and Azanza, R.V. 2002. Advances in Cultivation Technology of Commercial Eucheumatoid Species: a Review with Suggestions for Future Research. Aquaculture., 206:257-277.
Astuti, L. P., A. L. S. Hendrawan and Krismono. 2018. Water Quality Management Through Application of Smart Cage Culture. Indonesian Fisheries Policy Journal., 10(2): 87-97.
Atmanisa, A., Mustarin, A., and Anny, N. 2020. Analysis of Water Quality in the Eucheuma Cottoni Seaweed Cultivation Area in Jeneponto Regency. Jurnal Pendidikan Teknologi Pertanian., 6(1), 11-22. https://doi.org/10.26858/jptp.v6i1.11275
Bahri, S., Rudi, E. and Dewiyanti, I. 2015. Condition of Coral Reefs and Macro Invertebrates in Ujong Pancu Waters, Peukan Bada District, Aceh Besar. Depik., 4(1): 1-7.
Beveridge, M.C.M. 2004. Cage aquaculture. 3rd ed., Blackwell Publishing, London, 368pp.
Boyd, C.E. 2000. Calcium. Water Quality in Ponds for Aquaculture.Department of Fisheries and Allied Aquacultures.Alabama Agriculture Experiment Station.Aubum University, 143pp.
Buamona, D. E., Nur, I. and Kasim, M. 2021. Comparison of Recovery Duration of Kappaphycus alvarezii, (Doty 1985) Seaweed Deteriorated by Bites of Herbivorous Fish that Maintained in Box Net and Net Walls. Media Akuatika. Jurnal Ilmiah Jurusan Budidaya Perairan., 6(4): 154-16. http://dx.doi.org/10.33772/jma.v6i4.18382
Chapman, D. 1996. Water Quality Assessments - A Guide to Use of Biota,Sediments and Water in Environmental Monitoring -Second Edition. Published by E&FN Spon, an Imprint of Chapman & Hall, 609pp.
Choi, T. S.; Ju. E, K., Hyoung, J.K. and Young, K.K. (2010). Effect of Salinity on Growth and Nutrient Uptake of Ulva Pertusa (Chlorophyta) From an Eelgrass Bed. Algae., 25(1):17-26. http://doi.org/104490/algae2010.25.1.017
Dahuri, R., Rais, J., Ginting, S.P.. and Sitepu, M.J. 1996. Integrated Management of Coastal and Marine Resources. Jakarta: Pradnya Paramita, 305pp.
Doty, M.S. 1987. The Prduction and Use of Eucheuma. in: Doty, M.A., Caddy, J.F, Santilices, B. (Eds), Case Studies of Seven Commercial Seaweed Resources. FAO Fish. Tech. Pap. 281: 123-161.
Effendi, H. 2003. Review Water Quality for Management of Aquatic Resources and Environment. Kanisius Publisher.Yogyakarta, 258pp.
Ervany, M., Eshmat, N. and Manan, A. 2013. Analysis of Water Quality Conditions on Humpback Grouper Culture (Cromileptes altivelis) in Situbondo. Jurnal Ilmiah Perikanan dan Kelautan., 5(1): 1-4.
Haerudin and Putra, A.M. 2019. Analysis of Seawater Quality Standards for the Development of Marine Tourism in the Coastal Waters of Labuhan Haji, East Lombok Regency. Jurnal Geodika., 3(1): 13-18.
Hamuna, B., Tanjung, R.H.R., Suwito., Maury, H.K. and Alianto. 2018. Study of Seawater Quality and Pollution Index Based on Physico-Chemical Parameters in Depapre District Waters, Jayapura. Jurnal Ilmu Lingkungan., 16(1): 35-43.
Hamzah, M.S. 2003. Study of Seasonal Variation of Several Oceanographic Parameters on Growth and Survival of Pearl Mussel (Pinctada Maxima) in Kombal Bay Waters, West Lombok, ISOI National Seminar, Jakarta, 12pp.
Haslam, S.M. 1995. River pollution and ecological perspective. John Willey and Sons, Chichester, UK, 253pp.
Hayashi, L., de Peula, E.J. and Chow, F. 2007. Growth Rate and Carragenan Annalyses, in Four Striains of Kappaphycus alvarezii (Rhodophyta, gigatinales) Farmed in the Subtropical Waters of Sao Paulo State, Brazil. Journal of Applies Phycology., 19(5):393-399. DOI: 10.1007/s10811-006-9135-6
Heemstra, P.C. and Randal, J.E. 1993. FAO Species Catalog Vol. 16 : Groupers of The Word (Famli Serranidae, Subfamily Epinephelus). Food and Agriculture Organization of The United Nation. Rome, 382pp.
Indriani, H. and Sumiarsih, E. 1992. Seaweed Cultivation, Processing and Marketing. Penebar Swadaya. Jakarta, 99pp.
Joppy, D., Mudeng., Edwin, L.A., Ngangi. and Rompas, R.J. 2015. Identification of Water Quality for Mariculture Development in Regency of Sangihe Archipelago, Province of North Sulawesi. Jurnal Budidaya Perairan., 3(1): 141-148.
Kordi, K.M.G.H. 2011. Mariculture: Principles and Practices of Mariculture. Lily Publisher, Yokyakarta, 618pp.
Lam, T.J. 1974. Siganid. Their biology and mariculture potential. Aquaculture., 3:324-354.
Lee, C.S. 1997. Constraints and Government Intervention for The Development of Aquaculture in Developing Countries. Aquaculture Economics and Managements., 1(1): 65-71.
Lestari, N.A.A., Diantari, R. and Efendi, E. 2015. Decline of Phosphate in the recirculating system with the addition of a different filter. e-Journal of Aquaculture Engineering and Technology., 3(2): 367-374.
McNeely, R.N., Nelmanis, V.P. and Dwyer, L. 1979. Water quality source book, a guide to water quality parameter. Inland Waters Directorate, Water Quality branch, Ottawa, Canada, 89pp.
Megawati, C., Yusuf, M. and Maslukah, L. 2014. The distribution of water quality in terms of nutrients, dissolved oxygen and pH in the southern waters south Bali. Jurnal Oseanografi., 3(2): 142-150.
Merta, S. 1982. Study of Ecological of Baronang Fish (Siganus canaliculatus) in Banten Bay, North Coast of West Java. IPB thesis. Bogor, 130pp.
Mudeng, J. D., Magdalena, E.F.K. and Abdul, R. 2015. Conditions of the Water Environment in Kappaphycus alvarezii Seaweed Cultivation Land in Jayakarsa Village, North Minahasa Regency. Jurnal Budidaya Perairan., 3(1):172-186.
Nontji, A. 1987. Archipelago Sea. Publisher: Djambatan. Jakarta, 368pp.
Nontji, A. 1993. Archipelago Sea. Publisher: Djambatan. Jakarta, 367pp.
Nontji, A. 2005. Archipelago Sea. Publisher: Djambatan. Jakarta, 372pp.
Novotny, V. and Olem, H. 1994. Water quality, prevention, identification and management of diffuse pollution. Van Nostrans Reinhold, New York, 1054 pp.
Nursidi. Mauli. and Heriansah. 2017. Development of Seaweed Kappaphycus alvarezii Cultivation Through Vertical Method in the Water of Small Islands in South Sulawesi, Indonesia. AACL. Bioflux., 10(6):1428-1435.
Nybakken, J.W. 1992. Marine biology : an Ecological Approach. Jakarta: Gramedia Pustaka Utama, 480pp.
Parenrengi, A., Rachmansyah. and Suryati, E. 2011. Cultivation of Seaweed Producing Carrageenan (Caraginophyte). Revised Edition. Brackish Water Aquaculture Research Institute, Marine and Fisheries Research and Development Agency. Jakarta: Ministry of Maritime Affairs and Fisheries, 54pp.
Paruntu, C. 1989. Study the Polyculture Technique of Mud Grouper (Epinephelus tauvina) and Samadar Carp (Siganus canaliculatus) in a Floating Cage. Thesis. Faculty of Fisheries, Sam Ratulangi University, Manado, 48 pp.
Paruntu, C. P. 2015. Mariculture of Grouper (Epinephelus tauvina Forsskal, 1775) and Rabbit Fish (Siganus canaliculatus Park, 1797) in Floating Net with Polyculture System. Jurnal Budidaya Perairan., 3(1): 1-10.
Patty, S. I. 2013. Distribution of Temperature, Salinity and Dissolved Oxygen in Kema Waters, North Sulawesi. Jurnal Ilmiah Platax., 1(3): 148-157.
Philip, T.I. 1986. Observations on the Growth of Mud Grouper and Tiger Grouper in Floating Cage. Scientific Report of Mariculture Research and Development Project (ATA-192) in Indonesia JICA. pp. 400-409.
Pujiastuti, P., Ismail, B., and Pranoto. 2013. Quality and Pollution Load of Gajah Mungkur Reservoir Waters. Jurnal Ekosains., 5(1): 59-74.
Purnomo, K. 2013. Carrying Capacity and Fish Production Potential of the Sempor Reservoir in Kebumen Regency, Central Java Province. Jurnal Penelitian Perikanan Indonesia., 19(4): 203-212.
Rahman, M.M. 2015. Role of common carp (Cyprinus carpio) in aquaculture production systems. Frontiers in Life Science., 8(4): 399-410.
Salmin. 2000. Dissolved Oxygen Levels in the Dadap River, Goba, Coral Estuary and Banten Bay. In: Foraminifera as a Bioindicator of Pollution, Study Results in the Estuarine Waters of the Dadap River, Tangerang (Djoko P. Praseno, Ricky Rositasari and S. Hadi Riyono, eds.) P3O – LIPI. pp. 42-46.
Salmin. 2005. Dissolved Oxygen (DO) And Biological Oxygen Need (BOD) As one of Indicator To Determine Water Quality. Oseana., 30(3): 21-26.
Septianawati., Atmira and Tjahjaningsih, W. 2010. Management of Rat Grouper enlargement (cromileptes altivesis) In Brackish Water Cultivation Development Center (BBPBAP) Jepara, East Java. Jurnal Ilmiah Perikanan dan Kelautan., 2(1): 67-75.
Selanno, D.A.J., Adiwilaga, E.M., Dahuri, R., Muchsin, I., and Effendi, H. 2009. Spatial Distribution of Pollution areas and Analysis of Pollution Load ofOrganic Matter in Inner Ambon Bay Waters. Torani., 19(2): 96-106.
Selanno, D. A. J., Tuhumury, N.C. & Handoyo, F.M. 2016. Water Quality Status of Floating Net Cages in Fishery Resources Management at Inner Ambon Bay. TRITON Journal., 12(1): 42-60.
Sihombing, J. L., Riskyan, N., Madusari, B.D., and Yahya, M.Z. 2022. Analysis of Water Quality in Milkfish Aquaculture Cage (Chanos chanos) in Laboratory Waters Slamaran Pekalongan. RISTEK : Journal of Research, Innovation and Technology Batang Regency., 6(2): 47-51. DOI: https://doi.org/10.55686/ristek.v6i2.117
Simanjuntak, M. 2009. The relationship between chemical, physical environmental factors on the distribution of plankton in the waters of East Belitung, Bangka Belitung. Journal of Fisheries Sciences., 11(1): 31-45.
Simanjuntak, M. 2012. Seawater Quality Viewed From The Aspects Of Nutrients, Dissolved Oxygen And pH In Banggai Waters, Central Sulawesi. Journal of Tropical Marine Science and Technology., 4(2): 290-303.
Simarmata, A.H., Adiwilaga, E.M., Lay, B.W. and Prartono, T. 2008. Study of the Relationship Between Oxygen Stocks and Organic Matter Loads in the Lacustrine and Transition Reservoir of the Ir. H. Djuanda. J. Lit. Fishery. Ind., 14(1): 1-14.
Sitinjak, L. and Sinaga, H. 2021. Development of Marine Ornamental Fish Cultivation Using Biofilters in Recirculation System. ALBACORE., 4(2): 133-139. https://doi.org/10.29244/core.
Soemarjati, W., Yuliana, E., and Warlina, L. 2021. Analysis of Carrying Capacity of Marine Waters for Floating Net Cage Aquaculture in Kendit District Situbondo Residence. PELAGICUS: Journal of Science and Technology Applied Fisheries and Maritime Affairs., 2(2):63-81. http://dx.doi.org/10.15578/plgc.v2i2.9821
Sudjiharno & Winanto, T. 1998. Tiger Grouper Hatchery (Ephinephelus Fuscoguuatus). Department of Agriculture, Directorate General of Fisheries, Lampung Marine Cultivation Center, pp. 16-17.
Sukadi, M.F. 2010. Resistance in Water and Release of Nitrogen & Phosphorus Into the Water Media of Various Freshwater Fish Feeds. J. Ris. Akuakultur., 5(1): 1-12.
Suniada, I.K. and Indriyawan, W.M. 2014. Study of Determining the Location of Seaweed Cultivation Development in Saleh Bay Waters, Sumbawa. Journal of Fisheries and Tropical Marine., 8(1): 39-47.
Supii A. I., Aprillia, T.I., Sulianto, A.A. and Lusiana, N. 2020. Utilization Test of Marine Fish cultivation Hatchery Wastewater For Nursery Cantang Hybrid Grouper. ECOTROPHIC., 14(1): 49-61.
Susilowati, T., Rejeki, S., Nurcahaya, E.D. and Zulfitriani. 2012. Effect of Depth on Seaweed Growth (Eucheuma cottonii) Cultivated by the Long Line Method At Mlonggo Beach, Jepara Regency. Journal of Fishery Saintek., 8(1):7- 12.
Sverdrup, H.U., Johson, M.W. and Fleming, R.H. 1970. The Ocean. Their Physiscs, Chemistry, and General Biology. Printed in the United States of America, 1060pp.
Tambunan, J.M., Anggoro, S. and Purnaweni, H. 2013. Study of Environmental Quality and Suitability of Tourism Tanjung Pesona Beach, Bangka Regency. Proceedings of the National Seminar on Natural Resources and Environment Management: 356-362
Tavares, L.H.S., Millan, R.N. and Milstein, A. 2016. Limnology of an Integrated Cage-pond Aquaculture Farm. Acta Limnologica Brasiliensia 28, 8pp. http://dx.doi.org/10.1590/S2179-975X3014
Tebbut, T. H. Y. 1992. Principles of water quality control. Fourth edition. Pergamon Press, Oxford, 251pp.
Teng, S.K. and Chua, T.E. 1979. Use of Artificial Hides to Increase the Stocking Density and Production of Estuary Grouper, Epinephelus Salmoides, rReared in Floating Net-cages Aquaculture., 16 (79): 219-232.
Thesiana, L. and Pamungkas, A. 2015. Technology Performance Test Recirculating Aquaculture System (RAS) on Water Quality Conditions in Sand Lobster Nurseries (Panulirus homarus). Journal of National Marine., 10(2):65-73.
Wetzel, R.G. 2001. Limnology: Lake and River Ecosystems. Academic Press, 1006 pp.
Winarno F, G., Fardiaz, S. and Fardiaz, D. 1996. Seaweed Processing Technology. Jakarta (ID). Gramedia Pustaka Utama. Jakarta, 68pp.
Woo, N.Y.S., and Kelly, S.P. 1995. Effects of Salinity and Nutritional Status on Growth and Metabolism of Sparus Sarba in a Closed Seawater System. Aquaculture., 135: 229-23.
Yulianto, H. 2012. Analysis of Suitability and Extent of Marine Aquaculture Waters Based on Ecosystem Variables in Lampung Bay waters. Thesis. Program studi Magister Manajemen Sumberdaya Pantai. Universitas Diponegoro, 116pp.
Yulius., Aisyah., Prihantono, J. and Gunawan, D. 2018. Study on Water Quality for Grouper Marine Culture in Saleh Bay, Dompu Regency. Journal Segara., 14(1): 57-68. DOI: http://dx.doi.org/10.15578/segara.v14i1.7108
Yulius, Y., Ramdhan, M., Prihantono, J., Pryambodo, D.G., Saepuloh, D., Salim, H.L., Rizaki, L. and Zahara, R.I. 2019. Seaweed Aquaculture and its Management in the Coastal Areas of Dompu District, West Nusa Tenggara Province Based on Land Suitability and Environmental Carrying Capacity Analysis. Journal Segara., 15(1): 19-30. http://dx.doi.org/10.15578/segara.v15i1.7429
