KUALITAS AIR DALAM AKUAKULTUR

Penulis

  • Julkarnain Ahmad, Leni Handayani, Aang Setyawan Anjasmara, Mhd Aidil Huda J., Anis Zubaidah, Moh Burhanuddin Mahmud, Shinta Septiana, Anne Rumondang, Muhammad Latiful Khobir, Wa Ode Sry Wulan, Gloria Ika Satriani, Yusdalifa Ekayanti Yunus Penulis

Kata Kunci:

KUALITAS AIR DALAM AKUAKULTUR

Abstrak

Buku "Kualitas Air dalam Budidaya" merupakan panduan komprehensif yang ditujukan bagi para praktisi, peneliti, dan mahasiswa di bidang akuakultur. Dalam 12 bab yang terstruktur dengan baik, buku ini membahas berbagai aspek penting mengenai kualitas air dan dampaknya terhadap keberhasilan budidaya perairan. Buku ini memberikan pengantar tentang gambaran umum tentang pentingnya kualitas air dalam akuakultur, serta menjelaskan pengaruh faktor-faktor lingkungan terhadap pertumbuhan dan kesehatan organisme air. Dalam buku ini juga, pembaca akan diajak memahami parameter fisik, kimia dan biologi perairan, serta siklus nutrien yang menjadi salah satu faktor penting dalam keberhasilan akuakultur. Termasuk di dalamnya siklus nitrogen dan fosfor, serta cara pengelolaan kualitas air yang tepat agar dapat meningkatkan efisiensi budidaya. Ditambah lagi, melalui buku ini, pembaca akan mendapatkan wawasan tentang strategi pengelolaan limbah untuk meminimalkan dampak negatif terhadap kualitas air dan lingkungan sekitar. Buku ini juga memberikan informasi tentang polusi dan dampaknya terhadap kualitas air akuakultur. Regulasi regulasi nasional dan internasional yang mengatur kualitas air dalam akuakultur, serta pentingnya kepatuhan terhadap standar tersebut untuk keberlanjutan industri juga diulas sesuai dengan baik dalam buku ini. Dengan pendekatan multidisiplin dan informasi yang mendalam, buku ini menjadi sumber referensi penting bagi siapa saja yang terlibat dalam dunia akuakultur. "Kualitas Air dalam Budidaya" tidak hanya memberikan pengetahuan teoritis tetapi juga praktik terbaik untuk mencapai hasil budidaya yang optimal.

Referensi

Accenture. (2017). How Digital Technology is Changing Manufacturing.

Addini, N., Tang, U. M. & Syawal, H., 2020. Physiological Growth Of Selais Fish (Ompok Hypophthalmus) In The Recirculation Aquaculture System (Ras). Berkala Perikanan Terubuk , 48(2), pp. 1-14.

Affairs, W. (1996). Water Quality Guidelines Volume 6 Agricultural Use : (Vol. 6).

Ahmad, A., Abdullah S.R., Hasan, H.A., Othman, A.R., & Ismail N.I. (2021). Aquaculture industry: Supply and demand, best practices, effluent and its current issues and treatment technology. Journal of Environmental Management, 287. https://doi.org/10.1016/j.jenvman.2021.112271.

Akhter F, Siddiquei HR, Alahi MEE, Mukhopadhyay SC. (2021). Recent Advancement of the Sensors for Monitoring the Water Quality Parameters in Smart Fisheries Farming. Computers. 10(3):26. https://doi.org/10.3390/computers10030026

Al-Harbi, A. H., & Kamal, M. (2003). "Use of Ozone for Improving the Water Quality in Aquaculture." Aquaculture, 218(1-4), 495-500.

Aliza D, - W, Sipahutar LW. (2013). Efek Peningkatan Suhu Air Terhadap Perubahan Perilaku, Patologi Anatomi, Dan Histopatologi Insang Ikan Nila (Oreochromis niloticus). J Med Vet. 2013:7(2).

Alloway, B. J. (2013). Heavy Metals in Soils: Trace Metals and Metalloids in Soils and Their Bioavailability. Dordrecht: Springer.

Andrian Tri Jaka Surya, Agung Setyo Sasongko, F. D. C. (2024). Kandungan amonia, fosfat, nitrat dan nitrit air laut di perairan pesisir desa lontar. 5(3), 238–245.

Alimaturahim, F., Aris, M., Samadan, G. M., & Fitra, R. A. (2024). MANAJEMEN AIR PADA BUDIDAYA IKAN. Kamiya Jaya Aquatic.

APHA (2017). Standard Methods for the Examination of Water and Wastewater. 23rd Edition. American Public Health Association.

Ariadi, H. 2023. Manajemen Kualitas Air. Penerbit Adanu Abimata. Jawa Barat.

Ariadi, H., Wafi, A., dan Madusari, B. D. 2021. Dinamika Oksigen Terlarut. Penerbit Adanu Abimata. Jawa Barat.

Asis, A., Sugihartono, M. & Ghofur, M., 2017. Pertumbuhan Ikan Patin Siam (Pangasianodon Hypopthalmus F.) Pada Pemeliharaan

Sistem Akuaponik Dengan Kepadatan Yang Berbeda. Jurnal Akuakultur Sungai dan Danau, 2(2), pp. 51-57.

Aslam, M. M. A., Khan, Z. M., Sultan, M., Niaz, Y., Mahmood, M. H., Shoaib, M. Ahmad, M. (2017). Performance Evaluation of Trickling Filter-Based Wastewater Treatment System Utilizing Cotton Sticks as Filter Media. Polish Journal of Environmental Studies, 26(5), 1955-1962. https://doi.org/10.15244/pjoes/69443

Avnimelech, Y. (1999). Nitrogen transformations in intensive aquaculture systems. Aquaculture, 176(3-4), 181-212.

Azeem, Muhammad., Riaz, A., Chaudhry, A., Hayat, R., Hussain, Q., Tahir, M. I., and Imran, M. (2014). Microbial phytase activity and their role in organic P mineralization. Archives of Agronomy and Soil Science. 61. 751-766.

Badiou, P., & Bouchard, J. (2013). A Review of Recirculating Aquaculture System Technologies. Aquaculture Research, 44(3), 387-399. DOI: 10.1111/j.1365-2109.2012.02903.x.

Baker, D., Smith, T., & Jones, R. (2024). Temperature Control in Aquaculture Systems: Advances in Technologies and Practices. Journal of Aquaculture Management and Technology, 15(1), 34-50. doi:10.1016/j.aquatman.2024.102682

Baker, R. W. (2004). Membrane Technology and Applications. New York: McGraw-Hill.

Baker, R. W. (2012). "Membrane Technology and Applications." John Wiley & Sons.

Bannister, J., Sievers, M., Bush, F., & Bloecher, N. (2019). Biofouling in marine aquaculture: a review of recent research and developments. Biofouling, 35(6), 631-648.

Bergstedt JH, Skov PV. (2023). Acute hydrogen sulfide exposure in post-smolt Atlantic salmon (Salmo salar): Critical levels and recovery. Aquaculture [Internet]. 2023;570:739405. Available from: https://doi.org/10.1016/j.aquaculture.2023.739405

Bernhard, A. (2010) The Nitrogen Cycle: Processes, Players, and Human Impact. Nature Education Knowledge 2(2):12

Boyd, C. E. (1998). Water Quality in Warmwater Fish Ponds. Auburn University.

Boyd, C. E. (2015). Water Quality: An Introduction. New York: Springer.

Boyd, C. E. (2018). "Water quality in aquaculture: use of mechanical and biological filtration systems." Aquaculture Research, 49(5), 1277-1285.

Boyd, C. E., & Tucker, C. S. (1998). Pond Aquaculture Water Quality Management. Boston: Springer Science & Business Media.

Boyd, C. E., & Tucker, C. S. (2012). Water Quality and Pond Aquaculture. Auburn University.

Boyd, C. E., D'Abramo, L. R., Glencross, B. D., Huyben, D. C., Juarez, L. M., Lockwood, G. S., ... & Valenti, W. C. (2020). Achieving sustainable aquaculture: Historical and current perspectives and future needs and challenges. Journal of the World Aquaculture Society, 51(3), 578-633. https://doi.org/10.1111/jwas.12714

Bregnballe, . J., 2015. A Guide to Recirculation Aquaculture. 2015 Edition ed. s.l.:FAO and EUROFISH.

Bunt, J. S. (2010). "Recirculating Aquaculture Systems: Water Quality Considerations." Aquaculture Research, 41(6), 796-803.

Cahyanti Y, Awalina I. (2022). Studi Literatur : Pengaruh Suhu terhadap Ikan Nila (Oreochromis niloticus). Panthera J Ilm Pendidik Sains dan Terap. 2022;2(4):224–35.

Campanati, C., Willer, D., Schubert, J., & Aldridge, D. C. (2022). Sustainable intensification of aquaculture through nutrient recycling and circular economies: more fish, less waste, blue growth. Reviews in Fisheries Science & Aquaculture, 30(2), 143-169. https://doi.org/10.1080/23308249.2021.1897520

Caraco, N. F., Cole, J. J., & Likens, G. E. (1993). Sulfate control of phosphorus availability in lakes. Hydrobiologia, 253(1-3), 275-280.

Cardinale, B. J., et al. (2012). "Biodiversity Loss and Its Impact on Humanity." Nature, 486(7401), 59-67.

Cintia V, Syarif AF, Robin R. 2023. Pengaruh Suhu Terhadap Kelangsungan Hidup, Pertumbuhan Dan Tingkat Konsumsi Oksigen Ikan Seluang (Brevibora dorsiocellata) Di Wadah Budidaya Pada Tahap Awal Domestikasi. J Aquatropica Asia. 2023;8(1):24–32.

Clarkson, T. W., Magos, L., & Myers, G. J. (2003). The toxicology of mercury—current exposures and clinical manifestations. New England Journal of Medicine, 349(18), 1731-1737.

Dalsgaard, T., Halberg, N., & Madsen, J. (2013). "Nutrient and energy utilization in aquaculture: challenges and opportunities." Aquaculture International, 21(5), 949-964.

Dauda, A. B., Ajadi, A., Tola-Fabunmi, A. S., & Akinwole, A. O. (2019). Waste production in aquaculture: Sources, components and managements in different culture systems. Aquaculture and Fisheries, 4(3), 81-88. https://doi.org/10.1016/j.aaf.2018.10.002

DeLong, D. C. (2005). Sustainable aquaculture: the impact of water quality management on the long-term health of aquaculture systems. Environmental Monitoring and Assessment, 108(1-3), 307-321. doi:10.1007/s10661-005-4130-7

Djoharam, V., Riani, E., & Yani, M. (2018). Analisis Kualitas Air Dan Daya Tampung Beban Pencemaran Sungai Pesanggrahan Di Wilayah Provinsi Dki Jakarta. Jurnal Pengelolaan Sumberdaya Alam Dan Lingkungan (Journal of Natural Resources and Environmental Management), 8(1), 127–133. https://doi.org/10.29244/jpsl.8.1.127-133

Dreamyseila A, Ningsih Y, Nurita T, Salsabila A. (2024) Dampak hujan asam: solusi berkelanjutan untuk memperbaiki ekosistem atmosfer dalam mencapai SDGs. Kohesi J Multidisiplin Saintek. 2024;3(2024):100–11.

Duangwongsa, J., Ungsethaphand, T., Akaboot, P., Khamjai, S., & Unankard, S. (2021) "Real-time Water Quality Monitoring and Notification System for Aquaculture," 2021 Joint International Conference on Digital Arts, Media and Technology with ECTI Northern Section Conference on Electrical, Electronics, Computer and Telecommunication Engineering, Cha-am, Thailand, pp. 9-13. doi: 10.1109/ECTIDAMTNCON51128.2021.9425744.

Dufour, J., & Hélène, G. (2019). "Membrane processes in water treatment: Recent developments and future trends." Journal of Membrane Science, 575,99-113. doi:10.1016/j.memsci.2018.01.051.

Ebeling, J. M., Timmons, M. B., & Osteen, P. (2006). Engineering and economics of recirculating aquaculture systems. Aquacultural Engineering, 34(1-2), 19-35. doi:10.1016/j.aquaeng.2005.11.003

Ellen MacArthur Foundation. (2015). Circular Economy: Concept and Definition.

Erlania, E. (2010). Pengendalian Limbah Budidaya Perikanan Melalui Pemanfaatan Tumbuhan Air dengan Sistem Constructed Wetland. Media Akuakultur, 5(2), 129-137.

European Environment Agency. (2016). Circular Economy in Europe: Developing the Knowledge Base.

Fadillah, I., Ramadhani, T. S., & Tiftazani, Z. A. (2024). Pendugaan Suhu Dan Ph Budidaya Ikan Air Tawar Menggunakan Support Vector Regression (Svr). Jurnal Khatulistiwa Informatika, 11(2), 85–91. https://doi.org/10.31294/jki.v11i2.16177

Fajardo, C., Martinez-Rodriguez, G., Blasco, J., Mancera, J. M., Thomas, B., & De Donato, M. (2022). Nanotechnology in aquaculture: Applications, perspectives and regulatory challenges. Aquaculture and Fisheries, 7(2), 185-200. https://doi.org/10.1016/j.aaf.2021.12.006

FAO & WHO. 2023. (n.d.). Safety and quality of water used in the production and processing of fish and fishery products.

FAO. (2019). The State of Food and Agriculture.

Firgiawan Paputungan, Novie P. L. Pangemanan, R. A. T., & Suzanne L. Undap, Sipriana S. Tumembouw, S. V. R. (2022). Kajian kualitas air untuk menunjang perikanan budidaya Danau Moaat, Provinsi Sulawesi Utara. Budidaya Perairan, 10(2), 134–143.

Fleckenstein, L. J., Tierney, T. W. & Ray, A. J., 2018. Comparing biofloc, clear-water, and hybrid recirculating nursery systems (Part II): Tilapia (Oreochromis niloticus) production and water quality dynamics.. Aquacultural Engineering, Volume 82, pp. 80-85.

Food and Agriculture Organization (FAO). (2022). The State of World Fisheries and Aquaculture 2022: Towards Blue Transformation. FAO. Retrieved from FAO

G. Cervetto, C. Mesones, and D. Calliari, “Phytoplankton biomass and its relationship to environmental variables in a disturbed coastal area of the Rio de la Plata, Uruguay, before the new sewage collector system.,” Atlântica, vol. 24, no. 1, pp. 45–54, 2002.

Gao, H., & Zhang, Y. (2024). Sustainable Aquaculture: The Importance of Water Quality Management. Aquaculture Sustainability, 31(1), 101-116. doi:10.1016/j.aqua.2024.101116

Ghaly, A. E., Doylend, J. M., & Nassar, A. (2010). "Genetically modified fish: A review." Aquaculture, 306(1-4), 25-35.

Ghosh, R.N & Loloee, R. (2013) "System for oxygen measurements in a fish farm," SENSORS, IEEE, Baltimore, MD, USA, pp. 1-3. doi: 10.1109/ICSENS.2013.6688331.

Gollnisch, S., Ebeling, J. M., & Timmons, M. B. (2023). Aeration and Oxygenation Strategies in Aquaculture: Advances and Innovations. Aquacultural Engineering, 100, 102739. doi:10.1016/j.aquaeng.2023.102739

Green, B. W., and Boyd, C. E. (1995). Water Quality Considerations for Aquaculture. Research and Extension Bulletin

Gross, A., Boyd, C. E., and Wood, C. W. (2000). Nitrogen transformations and balance in channel catfish ponds. Aquacultural Engineering, 24(1),

Gzar, H., Al-Rekabi, W., & Khalid, Z. (2021). Application of Moving Bed Biofilm Reactor (MBBR) for Treatment of Industrial Wastewater: A mini Review. Journal of Physics: Conference Series. 1973. 012024. 10.1088/1742-6596/1973/1/012024.

Hargreaves, J. A. (2013). "Biofloc Technology: A Review." Aquaculture, 356-357, 38-46.

Hargreaves, J. A., & Bowser, D. C. (2006). Aquaculture: Farming Aquatic Animals and Plants. Aquaculture Magazine, 32(5), 35-40.

Hargreaves, J.A. and Tucker, C.S. (2004) Managing Ammonia in Fish Ponds (Vol. 4603). Southern Regional Aquaculture Center, Stoneville.

Harizahayu, Friendly & Tampubolon, . F. R., 2021. Alih Fungsi Kolam Tanah Menjadi Kolam Beton Pada Budidaya Ikan Lele di Kelompok Tani Wakaf Mandiri. Jurnal Ilmiah MADIYA: Masyarakat Mandiri Berkarya, 2(1), pp. 14-19.

Hasan, et al., 2020. Budidaya Ikan Nila pada Kolam Tanah. Maspul Journal of Community Empowerment, 1(2), pp. 24-33.

Hasan, M. R., & New, M. B. (2013). On-Farm Feeding and Feed Management in Aquaculture. FAO.

Hasibuan, S. et al., 2021. Pengapuran Dan Pemupukan Untuk Meningkatkan Kualitas Air Kolam Budidaya Di Rumbai Bukit

Kecamatan Rumbai Pekanbaru. Jurnal Pengabdian Kepada Masyarakat, 27(4), pp. 293-300.

Hasibuan, S., 2020. Monograf: Kolam Akuakultur Ikan. Cetakan Pertama ed. Pekanbaru: UR Press Pekanbaru.

Hastuti YP. (2011). Nitrifikasi dan denitrifikasi di tambak. J Akuakultur Indonesia 2011;1(1):89–98.

Helfrich, L. A., Weigmann, D. L., Hipkins, P., & Stinson, E. R. (2009). Water Pollution: Causes, Effects, and Solutions. Virginia: Virginia State University.

Hendrayana, H., Raharjo, P., & Samudra, S. R. (2022). Komposisi Nitrat, Nitrit, Amonium dan Fosfat di Perairan Kabupaten Tegal. Journal of Marine Research, 11(2), 277–283. https://doi.org/10.14710/jmr.v11i2.32389

Hendri, H., & Suhardi, S. (2018). "Penerapan Teknologi Membran untuk Pemurnian Air Hujan." Jurnal Sumberdaya Alam dan Lingkungan, 10(1), 1-10.

Hertika, A. M. S., Putra, R. B. D. S., dan Arsad, S. 2022. Kualitas Air dan Pengelolaanya. UB Press. Malang.

Hidayat, M. K., Izzati, M. & Setiari, N., 2012. Produksi dan Konsumsi Oksigen serta Pertumbuhan Ceratophyllum demersum L. pada Kerapatan yang Berbeda dalam Mendukung Potensinya sebagai Bioaerator. Buletin Anatomi Dan Fisiologi Dh Sellula, 19(2), pp. 1-9.

https://doi.org/10.1007/s11157-023-09672-1

Ibrahim, L. A. et al., 2023. A Comprehensive Review of the Multiple Uses of Water in Aquaculture-Integrated Agriculture Based on International and National Experiences. Water, 15(367), pp. 1-21.

Indriastuti, C. E., Ratnawati, B., & Budiharto, I. W. (2022). Survival And Growth Performance The Catfish Clarias Gariepinus In High Density Nurseries Using Recirculating Aquaculture System (Ras). In E3S Web of Conferences (Vol. 348, p. 00013). EDP Sciences.

Indriati, P. A., & Hafiludin, H. (2022). Manajemen Kualitas Air Pada Pembenihan Ikan Nila (Oreochromis niloticus) Di Balai Benih Ikan Teja Timur Pamekasan. Juvenil: Jurnal Ilmiah Kelautan dan Perikanan, 3(2), 27-31.

IRENA. (2018). Renewable Energy Prospects.

Jacinda, A. K., Yustiati, . A. & Andriani, Y., 2021. Aplikasi Teknologi Resirculating Aquaculture System (RAS) di Indonesia; A Review. Jurnal Perikanan dan Kelautan, 11(1), pp. 43-59.

Jambeck, J. R., Geyer, R., Wilcox, C., et al. (2015). Plastic waste inputs from land into the ocean. Science, 347(6223), 768-771.

John, E. M., Sureshkumar, S., Sankar, T. V., & Divya, K. R. (2020). Phycoremediation in aquaculture; a win-win paradigm. Environmental Technology Reviews, 9(1), 67–84. https://doi.org/10.1080/21622515.2020.1830185

Junaidi, J., & Parmi, H. J. (2021). Studi Kualitas Air Pada Beberapa Stasiun Yang Berdekatan Dengan Industry Tambak Udang Vannamie Di Pesisir Padak Guar Kecamatan Sambelia Kabupaten Lombok Timur. Jurnal Ilmiah Mandala Education, 7(3), 526–533. https://doi.org/10.36312/jime.v7i3.2310

Jusuf, H., Adityaningrum, A., & Arsyad, C. (2023). Analisis Kandungan Nitrat (No3), Nitrit (No2), dan Kandungan Logam Berat Merkuri (Hg) pada Air di Danau Perintis Kabupaten Bone Bolango. Jambura Journal of Health Science and Research, 5(4), 1101–1111. https://ejurnal.ung.ac.id/index.php/jjhsr/index

Kadarini, T., Yamin, M., Nurhidayat & Sholichah, L., 2021. Pertumbuhan Ikan Mas Koki, Carrasius Auratus Pada Sistem Akuaponik Dengan Tanaman Air Yang Berbeda. Jurnal Riset Akuakultur, 16(3), pp. 167-176.

Karanikola, V., & Sykas, D. (2018). "Nanofiltration: Principles and Applications." Desalination and Water Treatment, 100, 69-78. doi:10.5004/dwt.2018.23312.

Kashem, A. H. M., Das, P., Hawari, A. H., Mehariya, S., Thaher, M. I., Khan, S., ... & Al-Jabri, H. (2023). Aquaculture from inland fish cultivation to wastewater treatment: a review. Reviews in Environmental Science and Bio/Technology, 22(4), 969-1008.

Keputusan Menteri Negara Lingkungan Hidup. (2004). No Title. Baku Mutu Air Laut, 0.

Khulbe, K. C., & Matsuura, T. (2019). Membrane Fabrication: A Comprehensive Guide. In Handbook of Membrane Separation Technology. CRC Press.

Kim, J., Kim, Y., Park, S.E. Kim, T. H., Kim, B. G., Kang, D., Rho. T K. (2022). Impact of aquaculture on distribution of dissolved organic matter in coastal Jeju Island, Korea, based on absorption and fluorescence spectroscopy. Environ Sci Pollut Res 29, 553–563. https://doi.org/10.1007/s11356-021-15553-3

Könneke, M., Bernhard, A. E., de la Torre, J. R., Walker, C. B., Waterbury, J. B., and Stahl, D. A. (2005). Isolation of an autotrophic ammonia-oxidizing marine archaeon. Nature. 437(7058), 543 – 546.

Krklješ, D. B., Kitić, G. V., Petes, C. M., Birgermajer, S. S., Stanojev, J. D., Bajac, B. M., Matović, J. B. (2024). Multiparameter water quality monitoring system for continuous monitoring of fresh waters. IEEE Sensors Journal.

Kulla, O. L. S., Yuliana, E., & Supriyono, E. (2020). Analisis Kualitas Air Dan Kualitas Lingkungan Untuk Budidaya Ikan di Danau Laimadat, Nusa Tenggara Timur. Pelagicus, 1(3), 135-144.

Lembang, M. S. & Kuing, L., 2021. Efektivitas Pemanfaatan Sistem Resirkulasi Akuakultur (Ras) Terhadap Kualitas Air Dalam Budidaya Ikan Koi (Cyprinus rubrofuscus). Jurnal Teknologi Perikanan dan Kelautan, 12(2), pp. 105-112.

Lin, H., & Zhang, M. (2023). Advanced membrane technologies for wastewater treatment and recycling. Membranes, 13(6), 558. https://doi.org/10.3390/membranes13060558

Linbo, T. L. 2009. Zebrafish (Danio rerio) husbandry and colony maintenance at the Northwest Fisheries Science Center. U.S. Dept. Commer., NOAA Tech. Memo. NMFSNWFSC-100, 62 p

LIPI. (2007). Jurnal Ilmiah Nasional. Keanekaragaman Jenis Nepenthes (Kantong Semar) Dataran Rendah Di Kalimantan Tengah, 8, 15. http://e-journal.biologi.lipi.go.id/index.php/berita_biologi/article/view/1898

Liu, J., & Diamond, J. (2005). China's environment in a globalizing world. Nature, 435(7046), 1179-1186.

Maharani, N. A., & Sari, P. N. (2016). Penerapan Aquaponic Sebagai Teknologi Tepat Guna Pengolahan Limbah Cair Kolam Ikan Di Dusun Kergan, Tirtomulyo, Kretek, Bantul, Yogyakarta. Jurnal

Pengabdian Kepada Masyarakat (Indonesian Journal of Community Engagement), 1(2), 172-182.

Malone, R. F., & Pfeiffer, T. J. (2018). "Design of recirculating aquaculture systems with integrated biological filtration." Aquacultural Engineering, 34(1), 3-12.

Mamesah, Y., Undap, S. L., Tumembouw, S. S., Kusen, D. J., Pangemanan, N. P., dan Monijung, R. D. 2023. Kelayakan kualitas air untuk budidaya ikan Kuwe (Caranx sp.) pada kurungan jaring apung di Perairan Kelurahan Makawidey. e-Journal BUDIDAYA PERAIRAN. 11(2): 293-308.

Manoj, M. et al., 2022. State of the Art Techniques for Water Quality Monitoring Systems for Fish Ponds Using IoT and Underwater Sensors: A Review. Sensors, 22(2088), pp. 1-17.

Marimuthu K, Palaniandya H, Muchlisin ZA. (2019). Effect of different water pH on hatching and survival rates of African catfish Clarias gariepinus (Pisces: Clariidae). Aceh J Anim Sci. 2019;4(2):80–8.

Marsidi R, Herlambang A. (2011). Proses Nitrifikasi Dengan Sistem Biofilter Untuk Pengolahan Air Limbah Yang Mengandung Amoniak Konsentrasi Tinggi. J Teknol Lingkung. 2011;3(3):195–205.

Marsono, M., Daging, I. K., Mustono, E., Hermawan, A., Husen, E. S., & Herdiansyah, M. F. (2023). Rancang Bangun Alat Filtrasi Dan Sterilisasi Ultraviolet Dengan Sistem Kontrol Otomatis Berbasis Arduino. Journal of Innovation Research and Knowledge, 3(1), 4687-4696.

Marzuki, I., Athirah, A., Rohani, S., Suciati, P., Asaf, R., Suradi, T., Asriani, T., dan Nisaa, K. 2024. Teknologi Bioremediasi Budidaya Udang. TOHAR MEDIA.

Maulana, M. R., Supendi, S., & Fajar, S. (2021). Kualitas Air (Amonia, Nitrit, Dan Nitrat) Pada Pemeliharaan Glass Eel Dengan Aplikasi Mikroba Berbeda. Buletin Teknik Litkayasa Akuakultur, 19(1), 43. https://doi.org/10.15578/blta.19.1.2021.43-46

McKinsey & Company. (2016). Resource Revolution: Meeting the World's Energy, Materials, Food, and Water Needs.

Meyer, A., et al. (2021). "Microbial Diversity and Functional Dynamics in Aquaculture Systems." Aquaculture Research, 52(3), 1050-1063.

Meyer, J., & Linder, K. (2018). Mechanical Filtration in Aquaculture: Techniques and Applications. Aquaculture Engineering, 81, 35-42.

Mnyoro MS, Munubi RN, Pedersen LF, Chenyambuga SW. (2022). Evaluation of biofilter performance with alternative local biomedia in pilot scale recirculating aquaculture systems. Journal of Cleaner Production, 366, 132929. https://doi.org/10.1016/j.jclepro.2022.132929

Monalisa, S. S., & Minggawati, I. (2010). Kualitas air yang mempengaruhi pertumbuhan ikan nila (Oreochromis sp.) di kolam beton dan terpal. Journal of Tropical Fisheries, 5(2), 526-530

Muarif, 2016. Characteristics of Water Temperature in Aquaculture Pond. Jurnal Mina Sains, 2(2), pp. 96-101.

Muctadi D. (2016). Pengetahuan Bahan Hasil Perikanan. Modul 1 Pengolah Hasil Perikanan. 2016;1–52.

Munaeni, W., Agam, B., Tarigan, N., Hamka, M. S., Saridu, S. A., Purnamasari, T., ... & Irawan, H. (2024). Teknologi Akuakultur. Kamiya Jaya Aquatic.

Munaeni, W., Alimaturahim, F., Aris, M., & Muchdar, F. (2024). Pakan Dan Manajemen Pakan. Kamiya Jaya Aquatic.

Mutmainnah, N., Karim, M. Y., & Aslamyah, S. (2019). The effect of dissolved glucose on survival rate and performance of swimming crab larvae Portunus pelagicus from zoea stadia to megalopa. ~ 85 ~ International Journal of Fisheries and Aquatic Studies, 7(6), 85–88. http://www.fisheriesjournal.com

Nainggolan, A. A., Arbaningrum, R., Nadesya, A., Harliyanti, D. J., & Syaddad, M. A. (2019). Alat Pengolahan Air Baku Sederhana Dengan Sistem Filtrasi. Widyakala Journal: Journal Of Pembangunan Jaya University, 6, 12-20.

Nasution SH, Oktaviani D, Dharmadi, Hartoto DI. (2008). Komunitas Ikan dan Faktor Kondisi Beberapa Ikan Putihan di Sungai Muara Kaman dan Danau Semayang. J. Limnotek 2008;XV(1):10–21.

Naylor, R. L., et al. (2021). "Plankton Dynamics in Aquaculture: Implications for Food Webs and Nutrient Cycling." Environmental Reviews, 29(4), 458-470.

Neethu K C, et al., 2020. Recirculating Aquaculture System: Concepts and Designs. Aquaculture Spectrum, 3(6), pp. 34-37.

Nisar, U., Peng, D., Mu, Y., & Sun, Y. (2022). A solution for sustainable utilization of aquaculture waste: a comprehensive review of

biofloc technology and aquamimicry. Frontiers in Nutrition, 8, 791738. https://doi.org/10.3389/fnut.2021.791738

Nugroho, A. S., & Arifin, Z. (2017). "Pengembangan Teknologi Membran untuk Pemisahan Air dan Minyak." Jurnal Teknik Kimia Indonesia, 16(2), 78-84.

Nuryadi, A., et al., (2021). "Utilization of Ozone in Aquaculture: Impact on Water Quality and Fish Health." Jurnal Akuakultur Indonesia, 19(1), 35-42.

Ode, I., Rahmadiah, T., Abdullah, N., Krettiawan, H., Alimaturahim, F., Rumondang, A., ... & Nizar, M. (2024). Teknologi Reproduksi Dan Pembenihan Ikan. Kamiya Jaya Aquatic.

Pachaiappan, R., Cornejo-Ponce, L., Rajendran, R., Manavalan, K., Femilaa Rajan, V., & Awad, F. (2022). A review on biofiltration techniques: recent advancements in the removal of volatile organic compounds and heavy metals in the treatment of polluted water. Bioengineered, 13(4), 8432-8477. https://doi.org/10.1080/21655979.2022.2050538

Paul, D., & Hall, S. G. (2021). Biochar and zeolite as alternative biofilter media for denitrification of aquaculture effluents. Water, 13(19), 2703. https://doi.org/10.3390/w13192703

Pay Drechsel, Sara Marjani Zadeh, A., & Published, F. P. S. (2023). Water Quality In Agriculture: Risks and risk mitigation. The Food and Agriculture Organization of the United Nations and International Water Management Institute. The Food and Agriculture Organization of the United Nations and International Water Management Institute.

Peraturan Menteri Kelautan dan Perikanan RI. (2016). Pengelolaan Kualitas Air Dan Pengendalian Pencemaran Air.

Peraturan Pemerintah Republik Indonesia. (2021). 5 ayat 12). Penyelenggaraan Perlindungan dan Pengelolaan Lingkungan Hidup, 085459.

Peraturan Pemerintahan RI. (2001). Presiden republik indonesia. Pengelolan Kualtas Air dan Pengendalian Pencemaran Air.

Pescod, M. B. (1992). Wastewater Treatment and Use in Agriculture. FAO Irrigation and Drainage

Piedrahita, R. H. (2003). Reducing the Potential Environmental Impact of Aquaculture: The Role of Recirculating Systems. Aquaculture, 226(1-4), 107-120. DOI: 10.1016/S0044-8486(03)00329-2.

Pillay, T. V. R. (2004). Aquaculture and the Environment. Oxford: Blackwell Publishing.

Prahitaningtyas, S. (2023). Prosedur Sampling dan Pengamatan Fitoplankton di Waduk Ir. H. Djuanda, Jatiluhur, Purwakarta, Jawa Barat. Jurnal Sosial Teknologi, 3(5), 444-455.

Pramesti Oktaviana E, Widyorini N. (2016) Pengaruh Konsentrasi Fenol yang Berbeda terhadap Sintasan Benih Ikan Mas (Cyprinus carpio L.). Diponegoro J Maquares [Internet]. 2016;5(1):62–8. Available from: http://ejournal-s1.undip.ac.id/index.php/maquares

Prastowo, B. W., Bond, M. M. & Senggagau, B., 2021. Comparison Of Grow-Out Methods Of Sand Lobster (Panulirus Homarus) With Recirculation Aquaculture System (Ras) And Flow-Through (Ft): Study Of Biological Activities. Jurnal Rekayasa dan Teknologi Budidaya Perairan, 10(1), pp. 1-14.

Prastowo, B. W., Bond, M. M., & Senggagau, B. (2021). Comparison Of Grow-Out Methods Of Sand Lobster (Panulirus homarus) With Recirculation Aquaculture System (RAS) And Flow-Through (FT): Study Of Biological Activities. e-Jurnal Rekayasa dan Teknologi Budidaya Perairan, 10(1), 1-14.

Pratiwi, D., & Nuraini, N. (2019). "Kinerja Membran dalam Pengolahan Air Limbah dengan Teknologi Membran." Jurnal Ilmu Lingkungan, 17(1), 57-65.

PT. Visco Prima Indonesia. (2024). Penggunaan UV Sterilisasi Air. Diakses dari [https://viscochemical.com/ultraviolet-sterilisasi-air/].

PT. Visco Prima Indonesia. (2024). Penggunaan UV Sterilisasi Air. Diakses dari [https://viscochemical.com/ultraviolet-sterilisasi-air/].

PT. Visco Prima Indonesia. (2024). Penggunaan UV Sterilisasi Air. Diakses dari [https://viscochemical.com/ultraviolet-sterilisasi-air/].

Rahmawati, R., & Hidayat, R. (2021). "Aplikasi Teknologi Membran dalam Pemisahan dan Pemurnian Air." Jurnal Sains dan Teknologi, 10(3), 225-233.

Ramadhan, V. M., 2019. Perkembangan Perikanan Dari Budidaya Tradisional Ke Budidaya Modern Di Kabupaten Sampang Tahun 2003–2017. Journal Pendidikan Sejarah, 7(2).

Reddy, K. R., Kadlec, R. H., and Flaig, E. G. (1999). Phosphorus retention in streams and wetlands: A review. Critical Reviews in Environmental Science and Technology, 29(1), 83-146.

Repetto, R., & Baliga, S. S. (1996). Pesticides and the Immune System: The Public Health Risks. Washington, D.C.: World Resources Institute.

Risamasu, F. J. L., & Budi, H. (2011). Kajian Zat Hara Fosfat, Nitrit, Nitrat dan Silikat di Perairan Kepulauan Matasiri, Kalimantan Selatan. Jurnal Ilmu Kelautan, 16(1), 135–142.

Risgaard-Petersen, N., Langezaal, A., Ingvardsen, S. (2006). Evidence for complete denitrification in a benthic foraminifer. Nature 443, 93–96

Rodriguez, H., and Fraga, R. (1999). Phosphate solubilizing bacteria and their role in plant growth promotion. Biotechnology Advances, 17(4-5), 319-339

Saeed, A. & Sun, G. (2012). Review of Mechanical Filtration Systems in Aquaculture. Journal of Aquaculture Research and Development, 3(1), 1-8.

Santoso HB, Hidayaturrahman, Suhartono E, Yunita R, Biyatmoko D. 2021. Ikan Gelodok Sebagai Bioindikator Pencemaran Logam Berat. Scripta Cendikia. Banjarmasin.

Saputra, H. M., Sar, M., Purnomo, T., Suhartawan, B., Asnawi, I., Palupi, I. F. J., Sahabuddin, E. S., Sinaga, J., Juhanto, A., Yuniarti, E., & Nur, S. (2023). Analisis Kualitas Lingkungan (N. Sulung & R. M. Sahara (eds.); Issue September). GET PRESS INDONESIA Anggota IKAPI No. 033/SBA. https://www.researchgate.net/publication/374118371_Parameter_Kualitas_Air#:~:text=Terdapat 3 (tiga) pengggolongan parameter,; dan 3) paramater biologi.

Sari, D. K., & Rachmawati, S. (2016). "Karakteristik dan Performansi Membran Ultrafiltrasi untuk Pemurnian Air Limbah." Jurnal Teknik Lingkungan, 2(1), 15-22.

Scabra, A. R. & Setyowati , D. N., 2019. Peningkatan Mutu Kualitas Air Untuk Pembudidaya Ikan Air Tawar Di Desa Gegerung Kabupaten Lombok Barat. Jurnal Abdi Insani LPPM Unram, 6(2), pp. 267-275.

Schandl, H., Fischer-Kowalski, M., West, J., Krausmann, F., & Eisenmenger, N. (2016). Global Material Flows and Resource Productivity. UNEP.

Schroeder, G. L. (1988). The role of filtration in aquaculture. Aquaculture Engineering, 7(2), 133-149. doi:10.1016/0144-8609(88)90003-8.

Schuler, D. J., & Malone, R. F. (2019). "Membrane filtration in aquaculture: Processes and applications." Journal of Water Process Engineering, 31, 100844.

Setiawati, M. R., Suryatmana, P., Hindersah, R., Fitriatin, B. N. D., dan Herdiyantoro. (2014). Karakterisasi Isolat Bakteri Pelarut Fosfat untuk Meningkatkan Ketersedian P pada Media Kultur Cair Tanaman Jagung (Zea Mays L.). Bionatura, 16(4), 30 – 34

Shalahuddin, Iqbal. (2016, 18 Mei). Teknologi Membran. Diakses dari [https://iqshalahuddin.wordpress.com/2016/05/18/teknologi-membran/].

Shalahuddin, Iqbal. (2016, 18 Mei). Teknologi Membran: Aplikasi Membran Mikrofiltrasi. Diakses dari [https://iqshalahuddin.wordpress.com/2016/05/18/teknologi-membran/]

Shalahuddin, Iqbal. (2016, 18 Mei). Teknologi Membran: Perbedaan Kemampuan dalam Memfilter Partikel di dalam Air Berdasarkan Ukurannya. Diakses dari [https://iqshalahuddin.wordpress. com/2016/05/18/teknologi-membran/].

Siang, R. D., Lawelle, S. A., Riani, I., Yusuf, S., Piliana, W. O., Rumondang, A., ... & Agam, B. (2024). Agribisnis Perikanan. Kamiya Jaya Aquatic.

Sivalingam, V., Dinamarca, C., Wakjera, E., Kukankov, S., Wang, S., Bakke, R. (2020). Effect of Intermittent Aeration in a Hybrid Vertical Anaerobic Biofilm Reactor (HyVAB) for Reject Water Treatment. Water. 12. 10.3390/w12041151.

Strickland, J. D. H., & Parsons, T. R. (1972). A Practical Handbook of Seawater Analysis. Fisheries Research Board of Canada.

Suharno, et al., (2020). "Pemanfaatan Teknologi Membran dalam Pemurnian Air: Tinjauan dan Aplikasi." Jurnal Teknik Lingkungan, 11(2), 123-134.

Suhendar, D. T., Zaidy, A. B., & Sachoemar, S. I. (2020). Profil Oksigen Terlarut, Total Padatan Tersuspensi, Amonia, Nitrat, Fosfat dan Suhu pada Tambak Intensif Udang Vanamei. Jurnal Akuatek, 1(1), 1–11.

Sukmono, S., & Mardiana, R. (2022). "The Role of Ozone in Improving Water Quality in Aquaculture Practices." Jurnal Ilmu Perikanan dan Kelautan, 10(3), 157-165.

Summerfelt, S. T., et al., (2019). "Ozone and UV treatment of water in recirculating aquaculture systems: A review." Aquacultural Engineering, 85, 13-22.

Suparjo, M. N. (2010). Daya Dukung Lingkungan Perairan Tambak Desa Mororejo Kabupaten Kendal. Daya Dukung Lingkungan Perairan Tambak Desa Mororejo Kabupaten Kendal, 4(1), 50–55.

Susanto, A., & Utami, S. (2020). "Effectiveness of Ozone Treatment on Water Quality in Freshwater Aquaculture." Jurnal Penelitian Perikanan Indonesia, 26(2), 99-108.

Svobodova Z, Lloyd R, Machova J, Vykusova B. (1993). Water quality and fish health. Vol. No. 54, EIFAC Technical Paper. 1993. 1–59 p.

Tilley, E., Luethi, C., Morel, A., Zurbruegg, C. and Schertenleib, R. (2008) Compendium of Sanitation Systems and Technologies. Swiss Federal Institute of Aquatic Science and Technology (EAWAG), Duebendorf.

Timmons, M. B., & Ebeling, J. M. (2007). Recirculating Aquaculture. Cayuga Aqua Ventures.

Timmons, M. B., & Ebeling, J. M. (2013). "Advances in recirculating aquaculture systems using ozone and UV." Aquaculture Engineering, 48(2), 30-42.

Timmons, M. B., and Ebeling, J. M. (2013). Recirculating Aquaculture. Cayuga Aqua Ventures, United States of America.

Timmons, M. B., Ebeling, J. M., Losordo, T. M., & Weber, A. S. (2002). Recirculating Aquaculture. Cayuga Aqua Ventures. ISBN: 0970354310

Timmons, M.B. and Ebeling, J.M. (2007) Recirculating aquaculture. Northeastern Regional Aquaculture Center (NRAC) Publication #01-007, Michigan State University, Lansing.

Tom, A. P., Jayakumar, J. S., Biju, M., Somarajan, J., & Ibrahim, M. A. (2021). Aquaculture wastewater treatment technologies and their sustainability: A review. Energy Nexus, 4, 100022. https://doi.org/10.1016/j.nexus.2021.100022

Tsuraya, F., Fitriah, U. N., Krestina, W., & Aziz, F. (2024). Pelatihan Pengamatan Dan Identifikasi Fitoplankton Air Rawa Gambut Sebagai Upaya Peningkatan Keterampilan Praktikum Guru Biologi Se-Kota Palangkaraya. JMM (Jurnal Masyarakat Mandiri), 8(1), 965-975.

Tucker, C. S., & Hargreaves, J. A. (2004). Biology and Culture of Channel Catfish. Elsevier.

Turcios, A. E., & Papenbrock, J. (2014). Sustainable treatment of aquaculture effluents—what can we learn from the past for the future?. Sustainability, 6(2), 836-856. https://doi.org/10.3390/su6020836

Turner, B. L., Frossard, E., & Baldwin, D. S. (Eds.). (2005). Organic Phosphorus in the Environment. CABI Publishing.

Ugroseno, W., Bisri, M., Fidari, J. S., & Lufira, R. D. (2019). Studi Rancangan Instalasi Pengolahan Air Limbah Tambak Intensif Udang Vannamei Kota Probolinggo. Jurnal Mahasiswa Jurusan Teknik Pengairan, 3(1), 9.

UNEP. (2015). Resource Efficiency: Economics and Outlook for Asia and the Pacific. United Nations Environment Programme.

Venugopal V & Sasidharan A. (2021). Seafood industry effluents: Environmental hazards, treatment and resource recovery. Journal of Environmental Chemical Engineering. 9(2): 2213-3437. https://doi.org/10.1016/j.jece.2020.104758.

Vitousek, P. M., Cassman, K., Cleveland, C., Crews, T., Field, C. B., Grimm, N. B., Howarth, R. W., Marino, R., Martinelli, L., Rastetter, E. B., and Janet, I. (2002). Sprent. Towards an ecological understanding of biological nitrogen fixation. Biogeochemistry 57, 1–45.

Volkoff H, Rønnestad I. Effects of temperature on feeding and digestive processes in fish. Temperature [Internet]. 2020;7(4):307–20. Available from: https://doi.org/10.1080/23328940.2020.1765950

Wahyuni, R. S., Rahmi, R., & Hamsah, H. (2022). Efektivitas Oksigen Terlarut Terhadap Pertumbuhan Dan Sintasan Udang Vaname (Litopenaeus vannamei). Jurnal Perikanan Unram, 12(4), 536–543. https://doi.org/10.29303/jp.v12i4.356

Waqas, S., Harun, N.Y., Sambudi, N.S., Bilad, M.R., Abioye, K.J., Ali, A., Abdulrahman, A. (2023) A Review of Rotating Biological Contactors for Wastewater Treatment. Water, 15, 1913. http://doi.org/10.3390/w15101913.

Wardhana, W. (2004). Dampak Pencemaran Lingkungan. Yogyakarta: Andi Offset.

Wedemeyer, G. A. (1996). Physiology of Fish in Intensive Culture Systems. Springer.

Wei, Y., & Choi, J. (2017). Membrane Separation Technology for Water Treatment. Desalination and Water Treatment, 85, 226-233. doi:10.5004/dwt.2017.21209.

Wetzel, R. G. (2001). Limnology: Lake and River Ecosystems (3rd ed.). Academic Press.

Widagdo, J. (2017). Sebaran Kandungan Oksigen Terlarut Perairan Pantai Sebagai Daya Dukung Usaha Tambak Di Kabupaten Jepara. Disprotek, 8(1), 67–80.

Widianingsih, W., & Suryono, S. (2021). Struktur Komunitas Fitoplankton dan Parameter Kualitas Air Di Perairan Paciran, Lamongan. Journal of Marine Research, 10(4), 493-500.

Widiyanti, W., Sudjono, I., Suyetno, A., & Riza, F. (2023). Pengembangan Fishfeed Extruder Machine Based-On Solar Cell System Guna Meningkatkan Produktivitas Budidaya Perikanan Air Tawar. Dharmas Education Journal (DE_Journal), 4(3), 93-104.

Wilson, D. C., Velis, C., & Cheeseman, C. (2006). Role of informal sector recycling in waste management in developing countries. Habitat International, 30(4), 797-808.

Xie, M., et al., (2020). "Membrane technology for water reuse in aquaculture." Water Research, 173, 115563.

Xiong, W., Mei, X.,Meng, X., Chen, H. & Yang, H.2020. Phytoplankton biomarkers in surface sediments from Liaodong Bay and their potential as indicators of primary productivity.

Marine Pollution Bulletin, 159:111536. DOI: 10.1016/j.marpolbul.2020.111536.

Yang, H., & Li, Q. (2019). "Membrane separation technology: Principles and applications." Separation and Purification Reviews, 48(4), 295-309. doi:10.1080/15422119.2018.1469421.

Yang, X., Li, Z., & Liu, J. (2023). The Role of pH in Aquaculture Systems: Effects on Health and Productivity. Journal of Aquatic Science, 80(3), 287-301. doi:10.1016/j.aquascitech.2023.102548

Yolanda, Y. (2023). Analisa Pengaruh Suhu, Salinitas dan pH Terhadap Kualitas Air di Muara Perairan Belawan. Jurnal Teknologi Lingkungan Lahan Basah, 11(2), 329. https://doi.org/10.26418/jtllb.v11i2.64874

Zainuddin, A., et al., (2022). "Penggunaan Membran dalam Teknologi Pengolahan Air: Potensi dan Tantangan." Jurnal Teknik Sipil dan Lingkungan, 5(1), 42-50.

Zhao, S., et al., (2018). Advances in Membrane Technology for Water Treatment: A Review. Environmental Science & Technology, 52(5), 2561-2577. doi:10.1021/acs.est.7b05783.

Zhou, J., Liu, M., & Wang, Y. (2024). Management of Ammonia, Nitrite, and Nitrate in Aquaculture Systems: Current Approaches and Future Directions. Aquaculture Research, 55(5), 1672-1689. doi:10.1111/are.16384

Zhou, Y., & Lee, Y. M. (2016). "Recent advances in membrane materials for gas separation." Journal of Membrane Science, 514, 123-136. doi:10.1016/j.memsci.2016.05.043.

Diterbitkan

2025-05-23

Terbitan

KUALITAS AIR DALAM AKUAKULTUR

Bagian

Book

Cara Mengutip

KUALITAS AIR DALAM AKUAKULTUR. (2025). Penerbit Kamiya Jaya Aquatic. https://kjaquatic.com/index.php/penerbitkamiyajayaaquatic/article/view/51