A study was conducted to evaluate the effect of different fertilizers in GIFT Tilapia culture using biofloc technology. Animals (5±0.23g) were stocked at a density of 30m-3 in 500 litres FRP tanks and spentwash was used as a carbon source to maintain a C:N ratio of 10:1 for 42 days. The experimental group includes fertilization using ammonia sulphate alone (T1) and fertilization using different inorganic fertilizers (T2). No significant differences in FCR, specific growth rate, weight gain and survival of animals were found between the treatments. Proximate composition and fatty acid profile of floc were comparatively rich in T2. Increased solid concentrations with higher Floc volume index and floc sizes were recorded in T2. The rapid floc development along with multiplication of heterotrophic bacteria and decreased vibrio population was observed in T2. The present study confirmed the influence of fertilizers on the physical and nutritional quality of biofloc in GIFT tilapia culture.
Background: The study aimed to investigate the growth performance of Penaeus vannamei PL through the supplementation of fatty acid enriched Artemia franciscana.Methods: The animals were stocked at 3000PL/m3 in triplicates. The experimental diet (100nauplii/PL/day) fed initially for 7days include Artemia franciscana (unenriched) as control and Fatty acid (0.5%, 1%, 2% and 3 %) enriched nauplii as treatments (T1, T2, T3 and T4) and later switched to commercial diet for 18 days.Result: No significant difference in water quality parameters between the experimental groups was observed. Highest weight gain percentage and survival was found in T3. Fatty acid profile of Artemia franciscana and shrimp at day 7 and 25 were analysed. Higher W-6 fatty acid accumulation was found in shrimp on day 7. Histological analysis of muscles, hepatopancreas and intestine showed different fatty acids levels reflected structural changes in epithelial cells. The current study revealed that Artemia franciscana enriched with 2% fatty acid emulsion can be used as an optimum level to improve the zootechnical performance of P. Vannamei.
Background: Biofloc technology is a minimal or zero water exchange technology which exerts beneficial effects on water quality, improves feed conversion ratio by recycling microbial protein in the culture of commercially important finfishes and shellfishes. This culture technique also improves the pigmentation in the ornamental fish culture. The presence of pigment producing bacteria and the absorption of the pigments by the ornamental fishes under biofloc technology would pave a long way to boost the production and export market of the high value fishes. Therefore, the present study evaluated the use of bacterial pigments isolated from the biofloc culture in the diets of Swordtail ornamental fish for its colouration and pigment absorption ability.Methods: A 30 days trial was conducted to evaluate the colour enhancement in swordtail through the supplementation of pigment produced from the bacteria in their diets. Swordtail fishes (1.2 ± 0.01g) were stocked in 100 litres tanks (20nos / tank) in triplicates. Fish fed with normal diet served as control and diet supplemented with pigment (50mg/kg) isolated from the bacteria Exiguobacterium profundum (T1), Chryseobacterium joostei (T2), Staphylococcus pasteuri (T3), Staphylococcus arlettae (T4) served as treatments. The characteristic features of the pigments isolated from the four different bacteria were checked and showed enhanced antibacterial, total antioxidant activity and the reductive ability.Result: Significant difference was observed in water quality parameters except temperature between the experimental groups. Growth parameters showed significant difference between control and treatment. Highest carotenoid concentration was found in fishes fed with pigments extracted from Staphylococcus pasteuri compared to other experimental groups. The present study proved the incorporation of bacterial pigments in the diets of Swordtail enhanced the total carotenoid concentration.
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