DESCRIPTION OF THE GENUS OF CATFISH \ AFRICAN CATFISH

GENERAL BIOLOGY OF AFRICAN CATFISH

2.3.1                DESCRIPTION OF THE GENUS AND SPECIES

            The catfish genus can be defined as displaying an eel-like shape, having an elongated cylindrical body with dorsal and anal fins being extremely long (nearly reaching or reaching the caudal fin). Both fins containing only soft fin normally has six soft trays. The head is flattened and highly ossified. The skull bones (above and on the sides) forming a casque and the body is covered with a smooth scaleless skin. The skin is generally darkly pigmented on the dorsal and lateral parts of the body. The colour is uniformly marbled and changes from grayish olive to black according to the substrate. On exposure to light, the skin colour generally becomes lighter.

            They have four pairs of unbranched barbells, one nasal, one maxillar (longest and most mobile) on the vomer and two mandibulars (inner and outer) on the jaw. Tooth plates are present on the jaws as well as on the vomer. The major function of the barbles is prey detection. A supra-bronchial or accessory respiratory organ, composed of a paired pear-shaped air- chamber containing two arborescent structures is generally present. These arborescent or cauliflower-like structures located on the secondhand forth bronchial arcs, are supported by cartilage and covered by highly vascularised tissue which can absorb oxygen from atmospheric air. The air chamber communicates with the pharynx and with the gill chamber. The accessory air breathing organ allows the fish to survive for many hours out of water or for many weeks in muddy marshes.

 

2.3.2    HABITAT

            Clarias spp. Inhabit calm waters from lakes, streams, rivers, swamps to floodplains, some of which are subject to seasonal drying. The most common habitats frequented are floodplain swamps and pools in which the catfish can survive during the dry seasons due to the presence of the accessory air breathing organs. In nature, the Africa Catfish (Clarias gariepinus) tends to live in calm waters with vegetation. Living conditions in such an environment can be harsh. There is often a lot of organic matter in the water. In addition, in several of these locations (for instance, in flood plains), the water levels fluctuate seasonally, going up during the rains and receding during the dry season. In several of the clarias catfish natural habitats, the water levels drop to the point whereby the water-way almost dries up. The relatively large amounts of organic matter in water coupled with the relatively slow water flows through such habitats result in low levels of dissolved oxygen in the water for prolonged periods and increased acidity of the water. In order to overcome these environmental challenges, the fish have adapted in the following ways:

1.     Low Oxygen Level – Catfish have developed in addition to gills, an accessory cauliflower like organ (the arborescent organ) that enables the fish to obtain oxygen from air when the oxygen levels are too low in water or the swamps have dried out. However, this organ is largely functional in adults. More than 90% of juvenile catfish oxygen consumption is from dissolved oxygen in water whereas in adults, 40% to 50% of the oxygen uptake is atmospheric.

2.     Body Shape and Features – The fish have no scales, but a relatively thin skin and protective layer of mucus over the skin. Their long cylindrical shape also allows them to easily burrow into the mud when water levels drop to keep themselves moist and cool. They can only survive in burrowing if there is an air-water interface. In addition, it has barbells that enable it sense its food even though visibility is poor in the swamp. Its flattened mouth is designed so that it can ingest food off the pond bottom.

3.     Feeding Habits –The fish is also an omnivore, meaning it can literally eat almost anything although in the wild adults preferably eat other fish, insects or other forms of aquatic animals. Adults have a diel (twenty four hour cycle) feeding pattern, meaning that they need to hunt once a day, subject to food availability. Consequently they have a relatively large stomach capable of holding quite a bit of food, unlike the Nile tilapia whose stomach is relatively small because it is naturally a browser and feeds several times a day.

4.     Social Behaviour –Catfish are extremely social. They tend to live, hunt in tight groups. Hunting as a pack is among their natural feeding strategies. They tend to dwell at the pond bottom.

5.     The fish are able to withstand slightly acidic water.

6.     The catfish also grows fast and does not become sexually mature until it is about a year old (about 600g) depending on feeding.

          Females become mature earlier than males. The above mentioned attributes, make the catfish a good candidate for aquaculture. However, these biological characteristics affect the fish’s production requirements and potential in the following manner:

1.                 Low Dissolved Oxygen Levels –Where the water has adequate levels of dissolved oxygen, catfish obtain their oxygen from the water through their gills. Aerial respiration in catfish is largely a compensatory mechanism for the periods when the dissolved levels of oxygen in the pond are low. However, in order to survive the periods of low dissolved oxygen, the fish must have access to air otherwise they will die. In addition, the fish spend more energy obtaining oxygen from the air than they would do, when they can obtain it from the water. 

In fish farming, the initial limiting factor to production as far as water quality is concerned is oxygen. Because adult catfish have the ability to overcome this by breathing air, higher carrying capacities and feed input level can be accommodated in catfish grow-out ponds as long as the buildup of metabolic waters (ammonia) in the water are kept under control and fish can access the water surface.

However, because more energy is spent when the fish obtain air from the atmosphere, Feed Conversion Rations (FCRs) tend to increase, which in turn affects the profitability of the enterprise. Therefore, just because clarias catfish have the ability to withstand situations of low dissolved oxygen is not a reason to compromise water quality. For profitable production, water quality parameters should as much as possible be maintained within the recommended ranges. A minimum amount of oxygen within the water is required for the breakdown of metabolic waters. Having more oxygen dissolved in water improves the efficiency with which the gills function which is more energy-efficient for the fish and results in better growth rates.

2.                 Body Shape and Features – Because the catfish have no scales, the thin layer of mucus is the only first line of defense against infections whose port of entry into the fish is the skin. Consequently, removal of this layer of mucus through poor handled with care during routine production operations. Because catfish are bottom dwellers, most of the time within the pond they will be at the bottom unless there is a reason for them to come up, for example, to feed or gulp air to obtain oxygen.

Consequently, they tend to stir up the pond bottom which makes the water in catfish grow-out ponds muddly (i.e. turbid). Coupled with their burrowing behavior, they also dig into side of the pond, creating what is termed as the ‘catfish highway’. These result in breakdown of pond levees, especially when they are not constructed as recommended and in addition increase levels of pond turbidity (see sections 4.1.1, 3.1.2 and 5.2.5. for more details respectively). Their body shape and the catfish highway they create in the pond enable them to easily escape seining when nets and relate techniques are poor. They are able to pass under and around the nets. When there is a hole at the bottom of the seine net and one catfish finds it, because they move n hordes like sheep unlike tilapia, all the others shall be informed and they will all escape in a stream through the hole. Therefore, seine net specifications and seining technique are important; otherwise one can easily come out with an empty net.

3.                 Feeding Habits – The clarias catfish is omnivorous. This means it can consume a wide selection of food items that allows for a range of options in culture to provide for its nutritional needs. Because of their social hunting behaviour, it is preferable to feed them in ponds from a single place as doing so induces a feeding frenzy that results in the complete consumption of the feed, improved FCRs and reduced feed wastage. This is an important fact as above 60% of production costs are the feed cost.

4.                  Social Behaviour – Pack hunting is a natural feeding strategy in Clarias catfish. Keeping the fish at high densities, consequently results in reduced stress and aggression while stocking at low densities results in the such that:

(i)                They are high enough to the point whereby territories are not established, aggressive behaviour is reduced, feeding response is high and feed consumption time is reduced.

(ii)             Management requirements to sustain the biomass in the pond not reach the pond’s carrying capacity limits for the specified management level (see sections 5.3. and 9.2.6. for more details). 

5.     Most healthy fish tend to swim against a current. Therefore, they will tend to aggregate and swim out of the inlet water is flowing into the pond during the production cycle. Thus, most escapes of catfish from ponds actually occur through the inlet.

CALL US ON 08032861326 FOR CONSULTANCY.

Share this: