Tilapia Cage Farm Management In Brazil
Summary: Much of Brazil’s expanding tilapia aquaculture takes place in floating cages with sturdy frames and nets made from plastic-coated steel or polypropylene. Although larger cages are also used, most cages have small volumes up to 20 m3 that support high stocking densities and intermittent harvesting without overstressing the fish. Earthen ponds may be used for the nursery of fry, but compartments in cages are more common. Size grading is a major management component.
Tilapia cage farm
Tilapia were first brought to Brazil in 1953, but only over the past decade has tilapia farming grown to commercial scale. Since 1999, the industry has expanded at an average annual growth rate of 18%. In 2009, the Brazilian Ministry of Fisheries and Aquaculture reported the tilapia harvest was 133,000 mt.
Over the years, Brazilian farmers have used a number of tilapia strains, starting with the Florida red and more recently the genetically male tilapia. Nile tilapia, Oreochromis niloticus, Chitralada strain, brought from Thailand in 1995, has established itself as the main strain farmed in the country.
Much of the tilapia aquaculture takes place in floating cages near many of Brazil’s coastal areas.
Cage Characteristics
Brazil holds about 10 million ha of freshwater in dams, rivers, lakes and man-made reservoirs. Floating cages have become the most popular system for rearing tilapia in Brazil in areas with suitable water quality, flushing rates and water depth.
Tilapia cages are simple to build, inexpensive (U.S. $400 for a 6-m3 cage) and easy to manage. Cages are usually constructed with rigid or flexible nets made from plastic-coated galvanized steel, stainless steel or synthetic fibers such as polypropylene. Steel nets are more widespread, as they better resist predatory fish such as the piranhas found in some inland areas in the country. Cage frames are made from stainless steel or galvanized steel. Strong, long-life, high-density polyethylene frames are less widely available and more costly, but have become the choice of farms that operate with medium-volume cages.
In sites close to shore, stationary cages are spaced 2 to 4 m apart in groups and docked with anchoring poles fixed inshore. Otherwise, submerged chains and ropes attached to concrete bottom weights are used as mooring systems. To facilitate daily management, many farms now adopt walkways made from wood attached to empty barrels or plastic containers.
Most cages used for tilapia rearing have small volumes of 4 to 20 m3. These can be round or square in shape with heights not greater than 2 m. The cages can safely operate with high stocking densities (starting at 120 kg tilapia/m3) due to rapid water exchange.
Since much of Brazil’s tilapia sales are domestic and retail, small-volume cages allow the harvest of fewer quantities of fish without imposing stress on the greater stocked population. As cages move beyond 10 m3 in volume with monthly harvests exceeding 10 mt, farms require a moderate level of capital investment and cash flow, and scale harvests for consistent sales and production flow.
Walkways improve access to floating cages for applying feed and monitoring its use.
Tilapia farms that operate with cages beyond 300 m3 in volume are sometimes vertically integrated from fingerling production to fish distribution. They operate with processing plants and sales contracts that require the harvest of large volumes of tilapia at a time.
In larger-volume cages, final stocking densities are reduced to 60 kg of fish/m3. They have the disadvantage of poor flexibility and maneuverability, but on the other hand, can represent significant savings in labor force.
Nursery
Sex-reversed tilapia are usually sold to growout farms as fry with wet body weights between 0.2 and 0.5 g. A thousand tilapia fry cost U.S. $30 to $45, depending on quality, location and availability. When available at short distances, some farmers prefer acquiring juvenile fish of 10- to 30-g weight, although their prices may exceed $80/1,000 fish. At this stage, fish mortality can be significantly reduced and the growout cycle shortened.
Earthen ponds may be used for the nursery of Chitralada fry prior to stocking in cages. However, cages equipped internally with flexible 5-mm mesh nets are usually more common, as they facilitate fish handling and transfer to growout cages. In cages, it takes five to eight weeks to grow 0.5-g fry to 30-g juveniles, depending on stocking density, feed and water quality.
Size Grading
Tilapia growth can vary widely within the same stock, especially when the fish are subjected to high density. This is in part due to genetic differences, but also because of competitive interactions among fish. Some fish outcompete others for feed and consequently grow faster. As a result, size grading becomes a major management component of tilapia cage farming.
When tilapia are transferred to different cages, it also allows moving the stock to clean units with larger mesh sizes, which promotes greater water exchange within the rearing unit. From 5-mm mesh sizes, 10-g fish are usually moved to cages with mesh sizes of up to 15 mm. Then 30 to 200-g tilapia are held within nets of 15- to 25-mm mesh. The mesh on nets for fish larger than 200 g is 25 mm or wider.
Grading frequency depends on a number of variables, including the targeted fish size at harvest, number of cages available on site, stock size variation, degree of prevalent stress and health status of the stocked population. Many farmers target tilapia above 900 g in weight to achieve premium prices. For this fish weight, grading can be carried out two to three times in a production cycle (Figure 1).
During the rainy season, when fish become more susceptible to disease outbreaks, there is a reduction in tilapia stocking density as well as grading frequency. When size grading is adopted, final tilapia body weight variation can be reduced from 40% at initial stages to about 15% at harvest time. Tilapia are often sorted into four size categories, with the smallest, most challenged fish removed as early as possible since their delay in growth can not be recovered during the production cycle. Fish are usually sorted manually by eye, but in large operations, this procedure can be mechanized.
Figure 1. Example of a tilapia size-grading strategy over a normal production cycle.
Fish Weight | Crude Protein | Particle Size | Feeding Rate* |
< 0.1-5.0 g | 40-45% | < 1 mm | 10.0-18.0% |
5.0-30.0 g | 40-45% | 1-2 mm | 6.0-10.0% |
30.0-100.0 g | 35-40% | 2-4 mm | 3.0-6.0% |
100.0-200.0 g | 30-35% | 4-6 mm | 2.5-3.0% |
200.0-500.0 g | 30-32% | 6-8 mm | 2.0-2.5% |
500.0 g-1.2 kg | 28-32% | 6-8 mm | 1.5-2.0% |
Table 1. Feeding table for the rearing of tilapia under intensive cage culture.
Feeds, Feeding
Cage-farmed tilapia in Brazil receive only extruded diets. Feed protein content, pellet size and suggested feeding rates may vary according to the feed manufacturer. Fish feeds tend to be high in protein content at initial stages and drop as fish attain larger sizes (Table 1). Growout and finishing feeds are usually 32% in protein content and may represent up to 80% of all feeding costs at a cage farm. Feed costs to produce a 1-kg tilapia can range U.S. $1.10-1.30/kg of fish harvested. As such, feed management is critical to the economics of a cage operation.
To determine maximum ration sizes, farmers usually follow suggested rates from commercial feeding tables. However, rations are adjusted on a daily basis depending on fish appetite. In small-volume cages, rations are never delivered in full amounts. Initially, fish can be fed only half of the calculated ration. The remainder is offered if the first ration is fully consumed within 30 minutes after distribution. After this period, uneaten feed can be oversaturated with water, and the heavier pellets exit the confined feed area, leading to feed loss. Cage operations equipped with walkways allow more detailed inspections of feed consumption. They facilitate feed handling and storage, and promote feed delivery to as often as 8 times/day during growout – compared to three times when distributed from feed boats. Walkways also allow the collection of fish debris and more frequent clean-up of feeding rings or net curtains.
Perspectives
Tilapia cage farming will continue to grow quickly in the years to come in Brazil to reduce the increasing domestic deficit of fisheries products in the country. Tilapia are mostly marketed fresh and degutted at weights of 700 to 900 g. Farm gate prices range U.S. $2.00-2.80/kg.
Today a great proportion of Brazil’s tilapia production is consumed in the countryside, but the fish are also now found in large supermarket chains, restaurants and fish markets all over the country. As capture fisheries continue to decline in Brazil and more city residents learn to appreciate tilapia, increasing demand will further drive new entrepreneurs into tilapia aquaculture. In this new scenario, medium-size cages and more mechanized practices will emerge to keep pace with large-scale production and more-efficient operations.
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