Stocking density of Nile tilapia in cages placed in a hydroelectric reservoir

The Brazilian government has been encouraging fish farming in cages in federal water bodies, including hydroelectric reservoirs. Despite the government support, it is a new activity and the production model still needs some adjustment to reduce the production costs and achieve sustainability. The ai...

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Bibliographic Details
Published in:Aquaculture 2013-10, Vol.410-411, p.51-56
Main Authors: Garcia, Fabiana, Romera, Daiane M., Gozi, Kátia S., Onaka, Eduardo M., Fonseca, Fernando S., Schalch, Sérgio H.C., Candeira, Pedro G., Guerra, Luis O.M., Carmo, Fernando J., Carneiro, Dalton J., Martins, Maria Inez E.G., Portella, Maria Célia
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal aquaculture
Animal productions
Animal, plant and microbial ecology
Aquaculture
Biological and medical sciences
cages
disease control
disease occurrence
disease outbreaks
dissolved oxygen
drugs
farmers
feed conversion
fish
fish culture
Fish stocking
Fresh water ecosystems
Fundamental and applied biological sciences. Psychology
General aspects
growth performance
harvesting
juveniles
mortality
Oreochromis niloticus
Pathology
Production cost
production costs
Reservoirs
risk
stocking rate
surface water
Synecology
Tilapia
Water quality
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Summary:The Brazilian government has been encouraging fish farming in cages in federal water bodies, including hydroelectric reservoirs. Despite the government support, it is a new activity and the production model still needs some adjustment to reduce the production costs and achieve sustainability. The aims of this study were to determine the appropriate stocking density of Nile tilapia in cages in a hydroelectric reservoir and to evaluate to what extent fish size selection could improve their uniformity. Twelve cages (6m3) were placed at the Fish Farmers' Cooperative of Santa Fé do Sul and Region, Ilha Solteira reservoir, São Paulo, Brazil (20°12′10″S, 50°58′31.15″W). In stage I (initial fish weight, 78g), four stocking densities were tested: D1—800, D2—2000, D3—2500 and D4—3000 fish/cage, with three replicates. At the end of this stage (average fish weight, 255g), the fish were selected into three sizes, except for D1. In stage II, four stocking densities were tested, designed to obtain the following final production: D1—100kg/m3 (800 non-selected fish/cage), D2—80kg/m3 (600 fish/cage), D3—100kg/m3 (800 fish/cage) and D4—120kg/m3 (900 fish/cage). The trial ended when the fish weighed 800g. By reducing the initial stocking density from 2500 to 800 tilapia juveniles per cage, there was no need for selection. The growth performance was higher, the feed conversion rate was better and the time taken to reach harvesting was shorter. Consequently, the production cost reduced and the operating profit increased. Using the lowest initial stocking density, the risk of disease outbreak was also lower, and there was no need to use drugs for disease control since the mortality rate and occurrences of disease and deformity decreased and the dissolved oxygen level inside the cages was higher. •Four stocking densities of Nile tilapia in cages were tested.•At the lowest density, the performance was higher and fish were uniform.•At the highest densities, the prevalence of disease was higher.•At the lowest density, the production cost was reduced.•The lowest density is recommended to Nile tilapia in cages.
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2013.06.010