The success of a culture depends on the quantity and quality of water used in fish culture without water exchange, the concentration of aquaculture waste such as ammonia (NH₃) will increase very rapidly and is toxic to the cultivated organism. One of the innovations applied in fish farming is integrating plants through an aquaponics system. This study aims to determine the effect of using a settling tub in reducing ammonia waste (NH₃) and growth in tilapia aquaculture using an aquaponic tidal system. The size of the initial tilapia seeds used is 3-4 cm. There are two treatments used, without settling tub (A) and addition of settling tub (B) with three replications. However, the results showed no significant differences (P>0.05) between treatments for all parameters observed. It is necessary to carry out further research on different fish and plants to see the optimization in reducing ammonia waste (NH₃).

[BSN]. 2009. Badan Standarisasi Nasional. 2009. SNI Produksi Benih Ikan Nila (Oreochromis niloticus) Kelas Pembesaran di Kolam Air Tenang SNI 7550:2009. Jakarta.

Akbar, R.A. 2003. Efisiensi Nitrifikasi dalam Sistem Biolfiter Submerged Bed, Filter Trickling dan Fluidized Bed. Skripsi. Institut Teknologi Bandung. Bandung.

Ako, H. dan A. Baker. 2009. Small¬ Scale Lettuce Production with Hydroponics or Aquaponics. College of Tropical Agriculture and Human Resource (CTAHR), University of Hawai‘i at Mānoa.

Cohen, A., S. Malone, Z. Morris, M. Weissburg, dan B.Bras. 2018. Combined Fish and Lettuce Cultivation: An Aquaponics Life Cycle Assesment. Procedia CIRP, (69) : 551–556.

Desiandi, M., R.J. Sitorus, dan H. Hasyim. 2009. Pemeriksaan Kualitas Air Minum pada Daerah Persiapan Zona Air Minum Prima (ZAMP) PDAM Tirta Musi Palembang. Jurnal Ilmu Kesehatan Masyarakat, 1(1) : 67-72.

Effendi, H. 2003. Telaah Kualitas Air Bagi Pengelolaan Sumber Daya dan Lingkungan. Kanisius. Yogyakarta

Fathulloh, A.S., dan N.S. Budiana. 2015. Akuaponik Panen Sayur Bonus Ikan. Penebar Swadaya. Jakarta.

Fazil, M., S. Adhar, dan R. Ezraneti. 2017. Efektivitas Penggunaan Ijuk, Jerami Padi dan Ampas Tebu sebagai Filter Air pada Pemeliharaan Ikan Mas Koki (Carassius auratus). Acta Aquatica: Aquatic Sciences Journal, 4(1): 37-43

Kordi, K.M.G.H. 2011. Panduan Lengkap Bisnis dan Budidaya ikan. Lily Publisher. Yogyakarta.

Mulyadi., U.M. Tang dan E.S. Yani. 2014. Sistem Resirkulasi dengan Menggunakan Filter yang Membedakan terhadap Pertumbuhan Benih Ikan Nila (Orechromis niloticus). Jurnal Akuakultur Rawa Indonesia, 2 (2):117 –124.

Nugroho, R.A., L.T. Pambudi, D. Chilmawati, dan A.H.C. Haditomo. 2012. Aplikasi Teknologi Akuaponik pada Budidaya Ikan Air Tawar untuk Optimalisasi Kapasitas Produksi. Saintek Perikanan: Indonesian Journal of Fisheries Science and Technology, 8 (1): 46-51

Rakocy, J.E., M.P. Masser dan T.M. Lasordo. 2006. Resiculating Aquaculture Tang Production System: Aquaponic-intergrating Fish an Plant Culture. Cooperative State Research. United Stated.

Setijaningsih, L., dan Suryaningrum. 2015. Pemanfaatan Limbah Budidaya Ikan Lele (Clarias batrachus) untuk Ikan Nila (Oreochromis niloticus) dengan Sistem Resirkulasi. Berita Biologi, (14)3.

Somerville, C., M. Cohen, P. Eduardo, S. Austin, A. Lovatelli. 2014. Small Scalle Aquaponic Food Production. FAO Fisheris And Aquaculture Publisher. Rome.

Spotte, S. 1992. Captive Seawater Fishes : Science and Technology. Willey - Interscience Publication. John Wiley & Sons. Inc. New York.

Tanjung, L.R. 1994. Pengaruh Lama Penyimpanan Terhadap Kemapuan Inokulasi Biofilter Sistem Aliran Tertutup. Limnotek Perairan Darat Tropis di Indonesia, 2: 5–10.

Tatangindatu, F., O. Kalesaran dan R. Rompas. 2013. Studi Parameter Fisika Kimia Air pada Areal Budidaya Ikan di Danau Tondano, Desa Paleloan, Kabupaten Minahasa. Jurnal Budidaya Perairan, 1(2): 8 - 19.

Whitten, K.W., R.E. Davis, L. Peck, dan G.G. Stanley. 2014. General Chemistry. Stamford: Thomson Brooks Cole.

Zahidah, H. 2016. Pertumbuhan Tiga Jenis Ikan dan Kangkung Darat (Ipomoea reptans Poir) yang Dipelihara dengan Sistem Akuaponik. Jurnal Ikhtiologi Indonesia, 17(2): 175-184