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SCOPUS 2023
UN SDG
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Aquaculture Studies 2022, Vol 22, Num, 2     (Pages: AQUAST800)

Performance of Different Biomaterials as Carbon Sources on the Immunological Response and Oxidative Status of African Catfish Clarias gariepinus in Biofloc Systems

Omoniyi Michael Popoola 1-2 ,Oyelade Ayomide Miracle 1

1 Federal University of Technology, School of Agriculture and Agricultural Technology, Department of Fisheries and Aquaculture, Akure, Nigeria
2 ICAR-Central Inland Fisheries Research Institute, Indian Council of Agricultural Research, Aquatic Environmental Biotechnology & Nanotechnology Division, Barrackpore, Kolkata-700 120 West Bengal, India
DOI : 10.4194/AQUAST800 Viewed : 2202 - Downloaded : 1886 A trial was performed to investigate how carbon sources can affect the welfare status of African catfish (3.8±0.2g and 8±0.11 cm) juveniles in biofloc systems. Inocula was prepared in glass tanks (5L) by adding 20g of pond bottom soil in well aerated water (1L) containing 10mg L-1 ammonium sulphate (NH)4SO4 and 400mg L-1 of four different carbon sources (tapioca, wheat offal, brewery and cassava peel) for 24 hours. Each treatment group (carbon sources and control) were replicated and each tank contained 1000 Clarias gariepinus juvenile, fed with commercial feed (Crude protein 42%) at 5% of their body weight 72 days. The water quality showed that all water parameters remained at concentrations suitable for Clarias gariepinus culture in the studied systems. The enzymes activities were noticed to be different across the biofloc and the selected organs. There were significant differences in serological content in fish between the treatment`s groups (P<0.05). The significant difference was found between the treatments in case of enzymes activity (P<0.05). The study shows that the welfare status with reference to digestive enzymes activity, oxidative status and extent of the immune system stimulation in BFT system is carbon source dependent. Keywords : Bioflocs Digestive enzymes Oxidative status Immune system Clarias gariepinus