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Posted by
Maendeleo Vijijini
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Fish farming is one of the key agribusiness activities in the
country, with the government sometime back realising its potential and
pumping millions of shillings in the venture.
However, despite many people embracing the business, farmers still get it wrong. Here is how to get it right.
SPECIES SELECTION
This
depends on climatic conditions of an area, water quality and supply and
most importantly, market needs. Fish species suitable for culturing in
Kenya can be categorised into two; the cold and warm water species.
Cold
water species require low water temperatures, relatively low dissolved
oxygen and continuous supply of high quality water. An example of cold
water species is trout.
Warm water species, on the other hand, require less intensive management.
Warm water species, on the other hand, require less intensive management.
Common
species include tilapia, cat fish and common carps. These species are
hardy and can be easily cultured in earthen ponds with average level of
management thus suitable for smallholder producers.
Each
species has its own advantages and challenges on management and
marketing. The challenge with tilapia is over-reproduction that results
in small and emaciated fish stock. Keeping monosex fish or introducing a
predator species like catfish or common carp helps to check tilapia
population.
On the other hand, catfish is difficult to
breed in pond environment and, therefore, farmers must rely on
hatcheries for fingerings. A technology to induce reproduction
artificially at the farm level can be adopted after nursery management
training to ensure optimal fingerings survival.
THINGS TO CONSIDER
Presence
of pin bones in common carp meat discourages most consumers despite its
massive body. However, when choosing a suitable species to culture,
consider the following;
The ability to reproduce in captivity.
The ability to reproduce in captivity.
The growth rate.
Whether it feeds on both commercial or supplemental feeds.
Ability to tolerate high stocking density.
Ability to tolerate high stocking density.
Average management.
Highly desired in the market.
Site identification and pond construction
The following factors should be considered;
The following factors should be considered;
Terrain:
Fish ponds should be constructed in areas with a slope of not more than
1 per cent and near a steady water source. This helps to use gravity in
inflow and draining of the ponds. Higher inclinations increases the
cost of construction and predisposes the ponds to collapse of dykes.
Soil
type: Ponds should be constructed on soils that are 20 to 35 per cent
clay. Sandy soils are porous while clay soils are too compact and
absorptive, thus, may deprive water some essential nutrients for fish to
flourish.
Water source: Water used in fish ponds
should be from natural sources like rivers, lakes, boreholes or rain.
The water should have high level of dissolved oxygen and free of silt,
poison, predators and unwanted fish. Ponds should not be sited in areas
prone to flooding as this may cause heavy losses from washed or escaped
fish.
Size of the pond: The size of the pond depends on
purpose, production system and the intended scale of the venture. Ponds
intended for breeding purposes are generally smaller compared to the
ones used for raising fish. The size of the pond also depends on the
target population one intends to produce.
Once you
identify a proper site, the next step is to construct the pond. The
shape of the pond doesn’t matter much as this is intended to fit the
topography. However, rectangle ponds are easy to construct and manage.
The depth of the pond depends on the fish species to keep, the size and
production system.
As a rule of thumb, deep end should
not exceed a depth of 1.2 metres at water level and the shallow end
should not be less than 0.4 metres. Shallow ponds predispose the fish to
predation, weed encroachment and reduces stocking capacity thereby
lowering productivity.
On the other hand, very deep
ponds limit light and heat penetration to the floor thereby interfering
with food production. Further, the deep areas have low dissolved oxygen
and cooler waters and are avoided by fish making them a wasted space and
resource.
The floor slope should be in such a way
that it allows easy draining of the pond. A slope of about 0.02 per cent
(2cm for every 10 metres along the pond) is recommended.
Around
the pond, strong dykes (walls or embankments) should be constructed to
avoid walls from collapsing and water overflowing when the pond is
filled.
Draining the pond is a routine management
practice intended to help in preventing overflowing, harvesting,
eradicating predators, de-silting, and improving the bottom conditions
of the pond. The drainage should be from where the pond is deepest.
ROUTINE POND MANAGEMENT
After
constructing a fish pond, what follows is a series of routine practices
to maximise production. Proper and accurate records should be kept for
every activity taking place in the pond.
Routine
management practices include stocking, feeding, fertilisation,
controlling water levels, quality, pH, weeds, predators, diseases,
harvesting and marketing.
Apply lime and organic manure
in the pond before refilling new stock. Agricultural lime is most
preferred and should be evenly applied on the floor. Rates of
application depend on the alkalinity of the water or soil pH. Where the
soil pH or alkalinity is not known, the minimum recommended amount of
lime (1kg per 10m2 of pond surface) should be applied.
Where
organic manure is not applied before filling the pond, continuous
application at the rate of about 5kg per 100m2 per week should be
maintained. Animal manure (cow, pig, chicken, goat or sheep) is the most
preferred, but, compost manure and plant matter (hay or humus) can also
be used.
To further increase productivity, inorganic
(chemical) fertilisers should be applied in the water taking precaution
not to deposit the mineral directly at the bottom. Commonly used
inorganic fertiliser include DAP and urea. Application rates for each
are two and 30 teaspoons full of DAP and urea respectively per 100m2 per
week.
STOCKING RATES
Stocking
density of a fish pond depends on fish species and pond productivity.
However, in extensively managed earthen ponds, a stocking rate of about
one to two fingerings per m2 is recommended for monocultures of tilapia.
This rate can be increased with improved management
to optimise pond productivity. Where catfish is introduced in tilapia
ponds to control population, a ratio of 1:10 (a catfish per every 10
tilapia) should be considered.
Catfish should be
introduced when tilapia is at least three times the size of former. The
stocking rate for catfish monocultures is about two to three fingerings
per m2 but can be increased to about five fingering per m2 if there is
good management. With proper management, the fish should attain market
weight at about six to nine months depending on water temperatures.
FEEDING YOUR FISH
Tilapia
fingerings are omnivorous, feeding mainly on tiny water organisms as
well as dead organic matter (detritus) and as they increase in size,
they become entirely herbivorous and feed on small water plants.
Similarly, at young stages the catfish and common carp fingerings are
omnivorous and as they increase in size, they become predatory.
Tilapia
are surface water feeders and prefer feeding during the day, while
catfish and common carp are bottom water feeders and prefer darkness
when feeding.
Fish can be provided with supplemental
or commercial feeds especially where the stocking rate is high to avoid
starving. Kitchen and slaughter house waste, oil seed cakes and grains
are among supplemental feeds.
When feeding the fish, ensure time, place, quantity and quality are maintained as disruption may induce stress to the fish.
WATER QUALITY AND QUANTITY
Water
quality is determined by turbidity, temperatures, pH, dissolved oxygen
and minerals. Highly turbid water impairs vision especially for surface
water feeders like tilapia interfering with their feeding.
Catfish
and common carps, on the other hand, depend on their smell and touch in
search of food and can tolerate reasonable turbidity. Regardless of the
fish species, low dissolved oxygen lowers their activity particularly
feeding.
Low dissolved oxygen can arise when the water
temperature decreases or there is invasion by algal bloom. Algal blooms
can be distinguished by discolouration of pond water and usually
happens due to increased application of fertiliser in the pond.
Overstocking
and excess pond vegetation can lower the pH of the pond significantly
and should be avoided. Rise in pond water pH is usually caused by acidic
soils and can be controlled using agricultural lime.
WEEDS, PREDATORS AND DISEASE CONTROL
Weeds
and predation are the most serious challenges in earthen ponds.
Diseases are not very common partly due to the low rates of fish farming
and because cultures used are native to the tropics and, therefore,
tolerant to common diseases.
Weeds can be controlled
by continuously trimming unnecessary vegetation along the banks of the
pond and deepening shallow ponds to recommended depths. Common predators
include birds (pelicans, kingfishers and herons), frogs, tadpoles,
predator fish, dogs and wild carnivores and human beings.
To
control predation from land, a perimetre fence should be installed and a
net placed over the pond. Drying the ponds prior to restocking is a
good way of killing frog eggs. Common indicators of stressed fish
include gulping air, abrupt change in feeding behaviour, whirling or
swimming erratically away from others, distended stomach,
discolouration, peeling skin and ulcerations, among others.
Harvesting and marketing fish
After
six to nine months, fish is ready to be harvested and sold or consumed
at home. At this age, fish from properly managed ponds should be about
250 to 500g.
Harvesting should be done early in the
morning or late in the evening when fish are not very active. Always
harvest fish after identifying a ready market to avoid losses.
The
most common method of harvesting involves draining the ponds. In cases
where draining of the pond is not possible, seine, cast, lift, gill or
hoop nets can be used.
Chege works in Animal Science Department, Egerton University
NMG/SEEDSOFGOLD
NMG/SEEDSOFGOLD
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