CHAPTER
ONE
INTRODUCTION
1.1
Background to the Study
The
increase in human population coupled with large numbers of undernourished
people, especially in developing countries, have made the need for food
production a major worldwide issue of concern (Okechi, 2004). Studies have
showed that there is a limit to world’s natural stocks of fish and shell fish,
though renewable, have finite production limits, which cannot be exceeded even
under the best management regimes. Hence, the maximum sustainable fishing limit
in natural waters has been exceeded (FAO, 2000). Therefore, fish production
will depend on aquaculture to bridge the demand-supply gap of fish. According
to (FAO 2006) production in capture fisheries is stagnating and aquaculture
output is expanding faster than any other animal-based food sector worldwide,
particularly in developing countries. It contributes nearly a third of the
world’s supply of fish products and China and other Asian countries are by far
the largest producers. Unlike terrestrial farming, where the bulk of the
production is based on a limited number of species, aquaculture produces more
than 220 species; of these species, catfish, carps, tilapia and related fish
form the largest group in terms of quantity while other groups include aquatic
plants and mollusc (FAO 2006).
Out
of 35 grams of animal protein per day per person recommended by the Food and
Agriculture Organisation (FAO), less than 7 grams is consumed on the average.
Many Nigerians suffer from protein deficiency due to low animal protein uptake
(Emmanuel and Omotoriogun, 2010). According to Ojo (2008), a small amount of
fish is an important dietary supplement for people who cannot easily afford
other sources of animal protein. Fish is therefore considered a good source of
dietary protein for most Nigerians. Anoop et al, (2009), also stated
that catfish provides food for the
populace allows for improved protein nutrition because it has a high biological
value in terms of high protein retention in the body, higher protein
assimilation as compared to other protein sources, low cholesterol content and
one of the safest sources of animal protein. Although, fish provides far less
animal protein for global nutrition than livestock, people in major areas of
Africa and Asia are highly dependent on fish as part of their daily diet. In 18
countries in Africa and Asia, nine on each continent, fish provide at least 40%
of dietary animal protein. It also provides highly digestible energy, and is a
rich source of fat and water soluble vitamins, minerals and fatty acids.
While
other sources of fish production are now very unpredictable due mainly to
technological, environmental and climatic constraints which are beyond the
control of fish farmers in Nigeria; fish supply from aquaculture is more
predictable. To meet the country’s high demand for fish, Nigeria must therefore
turn to her under-utilized in-land water for improved fish production and
aquaculture. The Federal Department of Fisheries (2007) estimated the total
available land for aquaculture development to be 1.7million hectares of which
only 60,000 hectare have been utilized and of the estimated aquaculture
production potential of 2.5million tons only 85,087 is being produced per
hectare (Kehinde, et al., 2009).
1.2
Problem Statement
In
spite of the ever increasing growth being witnessed by other major sources of
animal protein such as livestock and poultry industries, the problem of protein
deficiency has continued unabated due to the current level of production in the
country. Fish constitutes about 41% of the total animal protein intake by the
average Nigerian, hence there is a great demand for fish in the country
(Federal Ministry of Agriculture & Rural Development, 2011).
F.A.O
(2002) stated that fisheries products represented a major source of export
revenue for developing countries amounting to over US$ 20 billion per annum in
late 1990s. Fish is also important as food, fish oil, fish skin and leather,
fish meal and fish manure, medicine and disease control. The contribution of
fishing to the Gross Domestic Product (GDP) of the Nigerian economy increased
from ₦108.2B in 2003 to ₦486.7B in 2013 (CBN, 2014). Catfish production is
important to the Nigerian economy as it serves as a source of income, reduces
the rate of unemployment.
In
Nigeria, catfish fetches a higher price than tilapia. It also requires less
space, time, money and has a higher feed conserving rate. As identified by Osawe
(2004), catfish is hardy, survives in different culture systems and diverse
environments, grows very fast, has higher fecundity, improved survival of the
fry and adaptation to supplemental feed. Although statistics indicate that
Nigeria is the largest African aquaculture producer with production output of
over 154,890 tonnes per annum which grew to 800,000 tonnes per annum in 2008
(Fison, 2008), this has been unable to meet the market demand in Nigeria which
according to Inside Nigeria Fish report (2006) increased from over 1 million
tonnes per annum in 2006 to 2.66 million tonnes per annum in 2009. Consequently
the country has become a major importer of fishery products given its ever
increasing consumption and insufficient internal sources, leading to
considerable imports which accounted for more than 800,000 tonnes (valued at
$900 million) in 2009 (Rondom and Nzeka, 2010). This is a source of concern
owing to the various efforts that the government has put in place so as to make
Nigeria self- sufficient in fish production.
To
meet up the shortfall in fish demand, the government especially at the Federal
and State levels in 2008 placed premium on growing local fish farm and catfish
was the choice on account of its nativity to the country (Fison, 2008). Also, in
May 2009, the Federal government deployed a simple but proven technology in the
36 states as well as the Federal Capital Territory (FCT) to encourage private
fish farmers master the art of fingerling production and hatchery in the bid to
boost local fish production.
The
gap could be attributed to several factors. One of these could be low returns
on investment as profit plays a vital role in the success of any business. Low
returns on investment could be attributed to use of poor quality fingerlings,
high cost of feed, inadequate finance as catfish farming is capital intensive,
inadequate information, traditional techniques, poor infrastructural
facilities, small size of holdings and low capital investment as identified by
Ugwumba and Nnabuife, (2008). Olagunju et al., (2007) also identified
water pollution, inadequate supply of fingerlings, inadequate information and
feed supply as constraints to catfish farming. The increasing demand for fish
highlights the need for sustainable management of aquatic resources and the
need to measure the efficiency of catfish farmers to meet up the increasing demand.
Even though a number of researches may have been undertaken to assess economic
analysis of catfish production, no one has been done in the FCT and hence the
need for this study. Without a critical assessment of the catfish business, it
might be difficult to ascertain the profitability of the business. Given this
background, it therefore becomes imperative to carry out this research with a
view to producing answers to the following research questions:
i.
What are the socio-economic characteristics of catfish farmers in Kuje Area
Council of FCT - Abuja?
ii.
Is there any relationship between inputs and outputs of catfish farming?
iii.
What is the profitability status of catfish farming in Kuje Area Council?
iv.
What is the technical, allocative and economic efficiency of catfish farmers?
v.
What are the determinants of technical, allocative and economic efficiency in
catfish production?
vi.
What are the constraints to catfish farming in Kuje Area Council?
Department: Agricultural Economics
Format: Microsoft Word
Format: Microsoft Word
Chapters: 1 - 5, Preliminary Pages, Abstract, References, Questionnaire
Delivery: Email
Delivery: Email
No. of Pages: 84
Price: 3000 NGN
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