Pengaruh Pengurangan Kadar Protein Pakan Terhadap Performa Produksi Ikan Lele Dumbo (Clarias gariepinus) Dalam Teknologi Bioflok

Sujono Sujono
Azam Bachur Zaidy
Hurip Pratomo

Abstract

Penelitian ini bertujuan untuk menganalisis pengurangan kadar protein pakan pada teknologi bioflok terhadap performa produksi. Penelitian dilaksanakan pada bulan Februari–April 2024 di hatchery Instalasi Praktek Lapang Komunikasi dan Penyuluhan Politeknik Ahli Usaha Perikanan. Penelitian ini menggunakan metode eksperimental, dengan Rancangan Acak Lengkap (RAL) 4 perlakuan dan 3 kali ulangan, X0(NB) protein 32% kontrol, X1(B) protein 32%, X2(B) protein 28% dan X3(B) protein 25%. Variabel yang diamati yaitu performa produksi lele dumbo serta pengaruh penurunan kandungan kadar protein pakan dalam teknologi bioflok. Hasil penelitian menunjukkan bahwa kualitas air oksigen terlarut, pH, suhu, nitirt, dan TSS tidak berbeda nyata antar perlakuan (P<0,05), sedangkan TAN berbeda nyata antar perlakuan (P<0,05), tetapi masih dalam rentan yang layak. Performa produksi pertumbuhan spesifik, pertumbuhan mutlak, berat akhir, biomas berbeda nyata antara X3(B) dengan X0(NB), X1(B) dan X2(B), dengan nilai terendah pada kolam X3(B) protein 25% dan nilai tertinggi pada kolam X1(B) protein 32%. Kelulushidupan X3(B) protein 25% berbeda nyata dengan X1(B) protein 32% dan rasio konversi pakan X3(B) protein 25% berbeda nyata dengan X1(B) protein 32% dan X2(B) protein 28%. Performa produksi kolam X2(B) protein 28 % dalam teknologi bioflok dapat diaplikasikan dalam budidaya lele dengan efesiensi biaya produksi 18,03 % dari kolam XO(NB) protein 32 % kontrol.

Keywords

lele dumbo; pengurangan kadar protein pakan; performa produksi; teknologi bioflok

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References

AOAC. 2012. Official Method of Analysis: Association of Analytical Chemists. 19th ed. Washington DC (US).

Augusta, Tania Serezova. 2016. “Dinamika perubahan kualitas air terhadap pertumbuhan ikan Lele Dumbo (Clarias gariepinus) yang dipelihara di kolam tanah.” Jurnal Ilmu Hewani Tropika 5(1):41–44.

Azhari, Deidy, dan Aprelia Martina Tomasoa. 2018. “Kajian Kualitas Air dan Pertumbuhan Ikan Nila (Oreochromis niloticus) yang Dibudidayakan dengan Sistem Akuaponik.” Akuatika Indonesia 3(2):84. doi: 10.24198/jaki.v3i2.23392.

Bakar, Nur Syuhada Abu, Nurfarahana Mohd Nasir, Fathurrahman Lananan, Siti Hajar Abdul Hamid, Su Shiung Lam, dan Ahmad Jusoh. 2015. “Optimization of C/N ratios for nutrient removal in aquaculture system culturing African catfish,(Clarias gariepinus) utilizing Bioflocs Technology.” International Biodeterioration & Biodegradation 102:100–106.

Effendie, M. I. 1979. “Metode Biologi Perikanan [Methods of Fisheries Biology].” Bogor: Yayasan Dewi Sri.[Bahasa Indonesia].

Ekasari, J. 2008. “Bioflocs technology: the effect of different carbon source, salinity and the addition of probiotics on the primary nutritional value of the bioflocs.” Gent (BE). Universiteit Ghent.

Emerenciano, Maurício, Eduardo L. C. Ballester, Ronaldo O. Cavalli, dan Wilson Wasielesky. 2012. “Biofloc technology application as a food source in a limited water exchange nursery system for pink shrimp Farfantepenaeus brasiliensis (Latreille, 1817).” Aquaculture Research 43(3):447–57. doi: 10.1111/j.1365-2109.2011.02848.x.

Hargreaves, John A. 2013a. “Biofloc Production Systems for Aquaculture.” Hal. 1–12 in SRAC Publication.

Hargreaves, John A. 2013b. “Biofloc Production Systems for Aquaculture.” SRAC Publication No. 4503.

Imron, Ali, Agung Sudaryono, dan Dicky Harwanto. 2014. “Pengaruh Rasio C/N Berbeda Terhadap Rasio Konversi Pakan dan Pertumbuhan Benih Lele (Clarias sp.) Dalam Media Bioflok.” Journal of Aquaculture Management and Technology 3(3):17–25.

Joshi, Prasanna, Shri Shivaji Arts, dan Sreeramana Aithal. 2021. “Introduction to the Fish Nutrition , Feed Formulation , and Feeding Conversion.” Bioscience Discovery 12(4):208–16.

Mustajab, Ridhwan. 2024. “Data Produksi Lele di Indonesia Periode 2012-2022.” DataIndonesia.id. Diambil 5 Mei 2024 (https://dataindonesia.id/agribisnis-kehutanan/detail/data-produksi-lele-di-indonesia-periode-20122022).

Nootong, Kasidit, Prasert Pavasant, dan Sorawit Powtongsook. 2011. “Effects of Organic Carbon Addition in Controlling Inorganic Nitrogen Concentrations in a Biofloc System.” Journal of the World Aquaculture Society 42(3):339–46. doi: 10.1111/j.1749-7345.2011.00472.x.

Pérez‐Fuentes, Jorge Alberto, Carlos Iván Pérez‐Rostro, Martha Patricia Hernández‐Vergara, dan María del Carmen Monroy‐Dosta. 2018. “Variation of the bacterial composition of biofloc and the intestine of Nile tilapia Oreochromis niloticus, cultivated using biofloc technology, supplied different feed rations.” Aquaculture Research 49(11):3658–68.

Salamah, Salamah, dan Zulpikar Zulpikar. 2020. “Pemberian probiotik pada pakan komersil dengan protein yang berbeda terhadap kinerja ikan lele (Clarias sp.) menggunakan sistem bioflok.” Acta Aquatica: Aquatic Sciences Journal 7(1):21. doi: 10.29103/aa.v7i1.2388.

De Schryver, Peter, Roselien Crab, Tom Defoirdt, Nico Boon, dan Willy Verstraete. 2008. “The basics of bio-flocs technology: the added value for aquaculture.” Aquaculture 277(3–4):125–37.

Sukendar, Windu, Widanarni, dan Mia Setiawati. 2016. “Respons imun dan kinerja pertumbuhan ikan lele, Clarias gariepinus (Burchell 1822) pada budi daya sistem bioflok dengan sumber karbon berbeda serta diinfeksi Aeromonas hydrophila.” Jurnal Iktiologi Indonesia 16(3):309–23.

Tanjung, L. R., T. Chrismadha, Y. Mardiati, E. Mulyana, E. Nafisyah, dan N. Muit. 2020. “Experimental aquatic food chain system: Enhancing Daphnia magna as natural feed using eutrophic waters.” Hal. 12052 in IOP Conference Series: Earth and Environmental Science. Vol. 535. IOP Publishing.

Wang, Guangjun, Ermeng Yu, Jun Xie, Deguang Yu, Zhifei Li, Wen Luo, Lijiang Qiu, dan Zonglin Zheng. 2015. “Effect of C/N ratio on water quality in zero-water exchange tanks and the biofloc supplementation in feed on the growth performance of crucian carp, Carassius auratus.” Aquaculture 443:98–104. doi: 10.1016/j.aquaculture.2015.03.015.

Wanja, Defrinus Walu, Felix Rebhung, dan Sunadji Sunadji. 2020. “Efisiensi penggunaan pakan dalam kolam bioflok pada budidaya ikan bandeng (Chanos chanos).” Jurnal Aquatik 3(2):43–48.

Widodo, Tri, Bambang Irawan, Agung Tri Prastowo, dan Ade Surahman. 2020. “Sistem Sirkulasi Air Pada Teknik Budidaya Bioflok Menggunakan Mikrokontroler Arduino Uno R3.” Jurnal Teknik Dan Sistem Komputer 1(2):34–39.

Wijaya, Muhamad, Rita Rostika, dan Yuli Andriani. 2016. “Pengaruh pemberian c/n rasio berbeda terhadap pembentukan bioflok dan pertumbuhan ikan lele dumbo (Clarias gariepinus).” Jurnal Perikanan Kelautan VII(1):41.

Xu, Wu Jie, Timothy C. Morris, dan Tzachi M. Samocha. 2016. “Effects of C/N ratio on biofloc development, water quality, and performance of Litopenaeus vannamei juveniles in a biofloc-based, high-density, zero-exchange, outdoor tank system.” Aquaculture 453:169–75. doi: 10.1016/j.aquaculture.2015.11.021.

Zaidy, Azam Bachur, Yuke Eliyani, dan Toni Ruchimat. 2022. “Effects of Feed Reduction on Growth Performance, Water Quality, and Hematology Status of African Catfish, Clarias Gariepinus Reared in Biofloc Pond System.” Indonesian Aquaculture Journal 17(1):37–43. doi: 10.15578/iaj.17.1.2022.37-43.

Zaidy, Azam Bachur, Yuke Eliyani, Eddy Supriyono, dan Adang Kasmawijaya. 2022. “Biofloc Consumption, Growth Performance And Water Quality Of African Catfish (Clarias gariepenus) And Tilapia (Oreochromis Niloticus) Cultured In Biofloc System Without Water Exchange.” International Journal of Novel Research and Development 7(4):550–56. doi: 10.6084/m9.doione.IJNRD2204061.

Zhao, Dahu, Luqing Pan, Fei Huang, Chao Wang, dan Wujie Xu. 2016. “Effects of different carbon sources on bioactive compound production of biofloc, immune response, antioxidant level, and growth performance of Litopenaeus vannamei in zero‐water exchange culture tanks.” Journal of the World Aquaculture Society 47(4):566–76.

Zhao, Pei, Jie Huang, Xiu-Hua Wang, Xiao-Ling Song, Cong-Hai Yang, Xu-Guang Zhang, dan Guo-Cheng Wang. 2012. “The application of bioflocs technology in high-intensive, zero exchange farming systems of Marsupenaeus japonicus.” Aquaculture 354–355:97–106. doi: 10.1016/j.aquaculture.2012.03.034.

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