Ambassador :H.E.Mr.Munshi Faiz Ahmad,
Full name: People's Republic of Bangladesh
Population: 164.4 million (UN, 2010)
Capital and largest city: Dhaka
Area: 143,998 sq km (55,598 sq miles)
Major language: Bengali
Major religions: Islam, Hinduism
Life expectancy: 69 years (men), 70 years (women) (UN)
Monetary unit: 1 taka = 100 paisa
Main exports: Garments, fish, jute goods, leather products
GNI per capita: US $700 (World Bank, 2010)
Internet domain: .bd
International dialling code: +880

Aquaculture Sector

 

 

Bangladesh National Aquaculture Sector Overview

  1. Characteristics, structure and resources of the sector
    1. Summary
    2. History and general overview
    3. Human resources
    4. Farming systems distribution and characteristics
    5. Cultured species
    6. Practices/systems of culture
  2. Sector performance
    1. Production
    2. Market and trade
    3. Contribution to the economy
  3. Promotion and management of the sector
    1. The institutional framework
    2. The governing regulations
    3. Applied research, education and training
  1. Trends, issues and development
  2. References
    1. Bibliography
    2. Related links

Characteristics, structure and resources of the sector

Summary

Bangladesh is a densely populated country of 147 570 km2 with a people of 130 million people. It is fortunate in having an extensive water resource in the form of ponds, natural depressions (haors and beels), lakes, canals, rivers and estuaries covering an area of 4.56 million ha (DoF, 2005).

Bangladesh is of the world's leading inland fisheries producer with a production of 1 646 819 tonnes during 2003–4, with marine catch total of 455 601 tonnes and a total production from aquaculture of 914 752 tonnes during 2003–4. Bangladesh's total fish production for the year totaled above 2.1 million tonnes (DoF, 2005). FAO (2005) ranked Bangladesh as sixth major aquaculture producing country with its estimated production of 856 956 tonnes in 2003 (FAO, 2005). Aquaculture accounted for about 43.5 % of the total fish production during 2003–4, with inland open water fisheries contributed 34.8 % (DoF, 2005).

The present per capita annual fish consumption in Bangladesh stands at about 14 kg/year against a recommended minimum requirement of 18 kg/year; hence there is still need to improve fish consumption in the country.

Fisheries in Bangladesh are diverse, there are about 795 native species of fish and shrimp in the fresh and marine waters of Bangladesh and 12 exotic species that have been introduced. In addition, there are 10 species of pearl bearing bivalves, 12 species of edible tortoise and turtle, 15 species of crab and 3 species of lobster.

The Ministry of Fisheries and Livestock (MoFL), Department of Fisheries (DoF), Bangladesh Fisheries Development Corporation (BFDC) and the Bangladesh Fisheries Research Institute (BFRI) are the major organisations responsible for aquaculture and its development. Universities, organisations within other ministries and local and international NGOs are as well involved in this area.

History and general overview

The origin and development of aquaculture practices in Bangladesh are not well documented; historically the country's natural water bodies were stocked during the monsoon season through natural spawning. Fish farming had been a traditional practice dating back several centuries to when the country was ruled by Hindu kings. A lot of of the kings used to create ponds and tanks for drinking, bathing and sometimes for small-scale irrigation, these ponds and tanks were as well used for rearing fish although additional from a recreation aspect than for any commercial purpose.

It was Dr. Nazir Ahmed (1947–1960), the then Director of Fisheries in East Pakistan who laid the formal foundation for fish culture in ponds and lakes within Bangladesh. Dr. Ahmed worked keenly on the development of large scale carp culture in ponds and lakes and by the late sixties and early seventies some evolution had been made in this area. In the late sixties Ali (1967) successfully carried out induced breeding of Indian major carp species using carp pituitary gland extracts, over the last few decades, however, natural breeding grounds and fish habitats in Bangladesh have been degraded considerably by the development of flood control measures which, as a consequence, have resulted in a decline in natural fish production. As a result government, NGOs and private entrepreneurs have come forward to develop improved fish culture techniques especially in ponds and lakes.

On the basis of habitat you can classify types of aquaculture being carried out in Bangladesh; freshwater and coastal aquaculture; there is no marine aquaculture production currently. Freshwater aquaculture comprises mainly pond aquaculture especially the polyculture of both native and exotic species; on the other hand, coastal aquaculture is comprised mainly of shrimp farming.

In Bangladesh, aquaculture production systems are mainly extensive and extended extensive, with some semi-intensive and in very few cases intensive systems. Although the culture fishery contributes over 55 % of inland fish production, it covers only about 11percent of the total inland water resources. But the annual production are still low, 2 609 kg/ha for ponds and ditches, 780 kg/ha for oxbow lakes and 565 kg/ha for coastal aquaculture, although the potentialities are much higher. Nevertheless, over last ten years, yield from closed water aquaculture has been increasing steadily.

Indigenous freshwater carps (22 %) and exotic carps (10 %) from both the farming and capture sectors are the primary contributors to total production (Azim et al., 2002); other freshwater fish include catfish, snakeheads and small indigenous species. However, carp polyculture in ponds is additional productive, capital intensive and is a additional profitable activity when compared to the other culture systems.

Table 1. Comparison of the profitability between different types of aquaculture production systems in Bangladesh (ICLARM, 2002)

 

Annual yield(kg/ha) Operating cost(US$/ha) Net profit(US$/ha)
Carp polyculture 4 000 1 840 2 241
Tilapia monoculture 4 050 453 1 420
Integrated rice-fish culture 1 440 453 400

 

Feed and labor comprise the most significant components of the total operating cost for most culture systems in Bangladesh, each accounting for approximately 20 % and 17 %, respectively of the total operating costs.

The species cultured in the coastal regions of Bangladesh include mainly tiger prawn but as well prawn, brown shrimp, white shrimp, mud crab, giant seaperch and yellow tail mullet.

Human resources

Fisheries and aquaculture play a major role in nutrition, employment and foreign exchange earnings with about 12 million people are associated with the fisheries sector, of which 1.4 million people rely exclusively on fisheries related activities (Shah, 2003). An estimated 9.5 million people (73 %) are involved in subsistence fisheries on the country's flood plains (Azim et al., 2002), the number of fishermen increases dramatically to 11 million between June to October each year. There are 3.08 million fish farmers, 1.28 million inland fishermen and 0.45 million fry collectors (fish and shrimp) in Bangladesh (DOF, 2003) and it is estimated that fisheries and related activities support additional than 7 % of the country's people.

Currently, additional than 600 000 people are engaged in shrimp farming activities (Karim, 2003), it is as well estimated that around 14 000 fishermen (2.5 fishers per ha water body) are directly involved and 70 000 rural people are the direct beneficiaries of oxbow lake fisheries (Hasan, 2001a; Hasan and Talukdar, 2004). In both aquaculture and fisheries activities it is the male members of the family who carry out almost amount of the work in Bangladesh, very recently however a few women have been encouraged to participate through the motivation of NGOs and some private entrepreneurs. Thengamara Mahila Sabuj Sangha is a woman's NGO which is actively engaged in aquaculture development activities.

Farming systems distribution and characteristics

Table 2. Freshwater pond farming systems as defined in the context of Bangladesh

 

Farming systems Farming practices
a) Extensive Stocking mainly with the three Indian major carp species, no fertilisation and feeding.
b) Extended extensive Stocking mainly with the three Indian major and three exotic (silver, common and grass) carps, irregular use of fertilisation (mostly cow dung) but without feeding. Silver barb is as well occasionally stocked.
c) Semi-intensive
  • Stage 1: Stocking mainly with the three Indian major and three exotic carps. Regular use of fertiliser (both organic and inorganic) with occasional use of low quality supplemental feed consisting of rice bran and oil cakes. Silver barb is generally stocked and as well freshwater prawn and Nile tilapia.
  • Stage 2: Stocking mainly with the three Indian major and three exotic carps. Regular use of fertiliser (both organic and inorganic) and supplemental feed consisting of rice bran and oil cakes. Silver barb is generally stocked and as well freshwater prawn and Nile tilapia and striped catfish.
  • Stage 3: Monoculture of striped catfish. Regular feeding with rice bran/wheat bran/oil cakes and/or commercially manufactured pelleted diet.
d) Intensive Monoculture of striped catfish. Regular feeding with commercially manufactured pelleted diet.

 

Source: Modified from Hasan (2001b)

Pond aquaculture

There are an estimated 1.3 million fish ponds in the country, covering an area of 0.151 million ha, of which 55.30 % is cultured, 28.52 % is culturable and 16.18 % is unused. In 2002 the percentage of production from the above three systems was 72.09, 20.01 and 7.90 respectively (BBS, 2002). In general the size of fish ponds varies between 0.020 and 20 ha with an average of 0.30 ha. In Bangladesh, the highest number of ponds exists in the Barisal district (12.11percent), followed by Comilla (9.36 %), Sylhet (9.10 %), Chittagong (8.02 %) and Noakhali (7.75 %) (BBS, 2002).

Historically people depended mainly on natural waters for supplies of fish; but as a result of declining catches of wild fish due to an increased fishing effort by the growing people inclunding environmental degradation, people began to culture fish in enclosed waters. The polyculture of major and exotic carps and monoculture of striped catfish (Pangasius hypophthalmus), Nile tilapia and Java barb (Barbonymus gonionotus) and to some extent catfish (Clarias batrachus) are the majority widely practiced culture system in Bangladesh. Three Indian major carps namely, Labeo rohita, Catla catla and Cirrhinus mrigala and exotic carp, Hypophthalmichthys molitrix now account for additional than 78 % of total pond production (ICLARM, 2002). However, carp polyculture at the individual small holder level has the greatest potential for expansion since it can, through the implementation of additional intensive culture systems including the application of fertilisers, use of supplemental feeding and improved management practices (Gupta et al., 1999), provide a significant potential increase in income, by as much as 57 % or US$ 717/ha, this is additional than the other culture practices in use (DoF, 2003). At present annual average fish production using pond culture is 2 609 kg/ha (DoF, 2005).

Shrimp farming

Shrimp farming in the south and southeastern coastal belt of Bangladesh began in the early 1970s. From less than 20 000 ha of brackishwater ponds in 1980, the area under cultivation expanded to approximately 140 000 ha by 1995 (Wahab, 2003). The last complete survey to estimate the total area under shrimp cultivation was carried out in 1993–94; it has not been updated since then. DoF (2005) estimated that the total area under farming has expanded to 203 071 ha in 2003–2004. The major shrimp producing districts are Bagerhat, Satkhira, Pirojpur, Khulan, Cox's Bazar and Chittagong, recently farmers especially in the Bagerhat and Pirojpur districts have begun shrimp farming in their paddy fields. Traditionally shrimp farming began by trapping tidal waters in nearby coastal enclosures known as 'gher' where no feed, fertilisers or other inputs were applied, with an increasing request from both national and international markets farmers started to switch over into improved extensive and semi-intensive systems.

Semi intensive farming began in 1993 in the Cox's Bazar region, with this system ponds were stocked with 10–35 post larvae (PL)/m2 using supplemental pellet feed but without reservoir tanks. The first outbreak of a viral epidemic in shrimp farms occurred in 1994 in semi intensive farms in the Cox's Bazar region (Larkins, 1995; Karim and Stellwagen, 1998). In 1996 it was discovered to have spread to other coastal districts affecting extensive shrimp farms (Karim and Stellwagen, 1998). In 2001, the disease once again caused the collapse of shrimp production in both the Cox's Bazar and Khulna regions, the disease has not from now on been quite eradicated and can still cause havoc for shrimp producers.

Shrimp farming is a capital intensive business with total production costs of US$ 735 per ha/crop for extensive system, US$ 1 837 per ha/crop for improved traditional systems and US$ 9 184 per ha/crop for semi intensive systems, the corresponding net income however is US$ 1 275, US$ 2 204 and US$ 153 061 per ha/crop respectively (ICLARM, 2002).

Fish culture in cages

Cage culture was introduced into Bangladesh in the late 1970s on an experimental basis, a series of experiments were conducted at the Bangladesh Agricultural University (BAU) (Hasan et al., 1982, Ahmed et al., 1984 and Ahmed et al., 1997) which demonstrated the potential of cage aquaculture. The Department of Fisheries conducted a cage culture project in Kaptai lake during 1985–86 achieving a production of 6 900 tonnes of fish (Hasan, 1990). CARE, an international NGO, initiated a project at the end of 1995 until 2000, supported by the Department for International Improvment(DFID) named Cage Aquaculture for Better Economic Security (CAGES). Due to the high initial cost of inputs and the comparatively complex management technology required cage culture is from now on to become popular part the farmers.

Integrated fish farming

The integration of aquaculture with duck and chicken production was begun experimentally at the BFRI, Mymensingh producing some promising results. The project demonstrated that 500 khaki Campbell ducks can be profitably raised on a 1 ha carp pond while as well producing 4.5 tonnes/ha of fish without any additional need for supplementary feed or fertiliser for the fish. The majority promising integrated farming in Bangladesh however, is rice fish culture, Ameen (1987) reported on the technique from a lot of parts of Bangladesh. Traditionally or additional sump pond(s) are constructed at the lowest corner of the paddy field where fish accumulate as the water level reduces, thus fish are harvested from the sump without any additional stocking or management practices being required. In an experiment, Islam and Ahmed (1982) obtained 346 kg fish in 4 months by stocking minor carp, catfish, climbing perch and common carp in a rice field, on the other hand, Ameen (1987) reported an example where approximately 457 kg fish/ha and 6 kg prawn/ha were harvested in 131–175 days.

Fish culture in ox-bow lakes

The majority successful example of culture based fisheries has been accomplished in oxbow lakes located in Southwest Bangladesh (Hasan and Middendrop, 1998, Hasan, 2001a). There are approximately 600 oxbow lakes in Bangladesh with an estimated water area of 5 488 ha (DoF, 2003). Most of these oxbow lakes are located in districts of southwest Bangladesh (Khulna division: Jessore, Jhinaidah, Chuadanga and Kushtia districts and Dhaka division: Faridpur district). Twenty-three of these lakes were brought under a culture based fisheries management through the Oxbow Lakes Project (OLP II, 1997). The average production reported for oxbow lakes fishery during 2003–2004 is 780 kg/ha (DoF, 2005).

Fish farming in Kaptai Lake

The Kaptai Lake (latitude 22°22'-23°18' N; longitude 92°00'-92°26'E) was created in 1961 by damming the river Karnaphuli at Kaptai in the Chittagong Hill Tracts. It covers an area of approximately 68 800 ha, initially the lake operated a capture only fishery, however, a regular stocking program of about 35 tonnes of carp juveniles per annum is now carried out as a part of a fisheries management program. The species used for stocking are the three major carps and exotic carps (silver, grass and common carps) (ARG, 1986; Rahman and Hasan, 1992), the lake as well contains 76 other freshwater fish species, of which 68 are indigenous and the rest are exotic, in addition, there are as well a few species of freshwater prawn. Initially the indigenous major carps dominated the catch with about 81percent in 1965/66 however during the course of the last 38 years this percentage has declined to about 5 % while the production of small forage fish has increased to currently stand at 90 % of the total catch (Alamgir, 2004). Annual revenue from earnings from fishing in the lake currently is approximately US$ 0.42 million (Alamgir, 2004).

Cultured species

A total of 260 fish species have been recorded in the freshwaters of Bangladesh (Rahman, 1989) of these it is estimated that about 200 species are truly freshwater while the rest are examples of estuarine and marine species.

Of these 200 species, 59 belong to 20 families that are commercially significant, the majority of which are carps and catfish. At present, major carps such as Catla catla, Labeo rohita, Cirrhinus mrigala and Labeo calbasu along with exotic carps such as silver carp (Hypophthalmichthys molitrix); grass carp (Ctenopharyngodon idellus) and common carp (Cyprinus carpio) are cultured in polyculture system in ponds. There are as well not less than 40–50 small indigenous fish species which grow to a maximum length of 25 cm (Felts et al., 1996), some of the additional commonly found species include Puntius ticto, Amblypharyngodon mola, Colisa lalius, Anabas testudineus and Glossogobius giuris. IUCN (2001) reported that a lot of of the small indigenous fish are now critically endangered or endangered.

Indian major carps and exotic carps are the majority commonly stocked species in Kaptai Lake and in oxbow lakes. Haroon et al. (2002) reported a total of 92 species of fish and prawn from the Sylhet-Mynensingh basin of Bangladesh. Brackishwater giant tiger prawn (Penaeus monodon) and giant river prawn (Macrobrachium rosenbergii) are the major cultured species in coastal areas (Azim et al., 2002).

Practices/systems of culture

Traditional methods of fish culture in ponds do not use inputs or at least only minimal inputs through the natural recruitment of young fish. Ponds are filled by rain or by opening sections of the embankment to allow ingress of floodwaters. The stocked fish were not specifically selected, predators were not eliminated and the ponds were not fertilised or managed throughout the production cycle. As a result the average harvests from these types of ponds was very low (700 kg/ha; Mazid, 2002), in additional recent years pond aquaculture has gained importance through its growing ability to increase production levels.
Polyculture of native and exotic carps is a popular technology used by a lot of farmers throughout the country, in such systems pond preparation, species selection, stocking density, the application of feed, fertilisers, water exchange and proper husbandry are generally maintained.

In general fish culture in Bangladesh is characterised by the use of both extensive and semi-intensive systems.

Brackishwater shrimps are reared in coastal polders or by constructing embankments and using traditional trapping techniques utilising tidal water exchange (FAO/UNDP, 1985), in some areas the land is used in rotation for rice / shrimp and salt / shrimp production.

The low-lying paddy fields, salt pans and tidal ponds are enriched with earthen dykes containing box sluices to allow the entry and exit of water. Juvenile fish and shrimp which enter with the tidal waters are reared extensively without feed or additional husbandry resulting in an average harvestable production of only around 300 kg/ha (Mazid, 2002). However, semi-intensive farming which began from 1993 onwards has produced an increase in production.

Sector performance

Production

Total fish production by Bangladesh in 2003 amounted to 2 102 026 tonnes (DoF, 2005) of which 914 752 tonnes or 43.5 % was produced by the aquaculture sector. Production from ponds and ditches totaled 795 810 tonnes, coastal aquaculture (shrimp and fish ponds) 114 660 tonnes, Kaptai lake 7 238 tonnes and from oxbow lakes 4 282 tonnes (DoF, 2005). Aquaculture production in Bangladesh has increased 6–8 % per annum during the period 1991–2002 (Ahmed, 2003).

The graph below shows total aquaculture production in Bangladesh according to FAO statistics:

(Source: FAO Fishery Statistics, Aquaculture production)
 

Market and trade

In general fish markets in Bangladesh are situated in both rural and urban areas, they tend to be unhygienic, unscientific, dirty and operate using weak management systems. Approximately 97 % of the inland fish production is marketed internally for domestic consumption while the remaining 3 % is exported (Hasan, 2001a).

A large number of people are involved in the fish marketing chain and include farmers, processors, traders, intermediaries, day laborers and transporters (DFID, 1997 and Kleih, 2001).

categories of markets are involved in the distribution of fish, these are: primary markets, secondary markets (assembly markets), higher secondary markets (wholesale markets) and central markets. Locally these steps in the chain are known as: Fisherman Nikary (collector), Chalani (transporter), Aratdars (wholesaler), Paiker (retailer) and consumer (Alam, 2002). The market chain defined for freshwater prawn from producer to consumer are the field workers, prawn traders, agents and processing companies (Ahmed et al. 2004). A fish farmer receives 56 % of the price paid by the final consumer, in other words 44 % of the retail price is taken by the various intermediaries (Alam, 2002).
The country's major exportable product is frozen shrimp, other exported products include frozen fish, frozen frog, dry fish, salted fish, turtles, crabs, shark fins and fish maws (dried fish swim bladders) (DoF, 2003).

Of the total available fish and fishery products for export 30.06 % is exported to USA, 48.51percent to European nations, 9.32 % to Japan and the remainder to Thailand and Middle Eastern nations (Hossain, 2003).

Contribution to the economy

Both fisheries and aquaculture in Bangladesh play a major role in alleviating protein deficiency and malnutrition, in generating employment and foreign exchange earnings. Moreover, the fisheries sector contributes 5.10 %, of the country's export earnings, 4.91percent of its GDP and provides 63 % of the national animal protein consumption (DoF, 2003.) Fish and fishery products are the country's third major export commodity contributing 5.10 % of its exchange earnings, in 2002–2003 Bangladesh earned US$ 324 million of which shrimp alone contributed 72 % of the total by quantity and 89 % by price (DoF, 2003).

 

Promotion and management of the sector

The institutional framework

The following institutional bodies are involved in aquaculture and fisheries in Bangladesh:

  • Department of Fisheries (DoF) under the Ministry of Fisheries and Livestock (MoFL) is the sole authority with administrative control over aquaculture in Bangladesh. The DoF is managed by a Director General and has major sub-departments namely, inland and marine. The major responsibilities held by the DoF include planning, development, extension and training, DoF has divisional offices, 64 district offices and 497 upazilla (sub-districts) offices and in addition it has 118 hatcheries and training centers (Mazid, 2002).
  • Bangladesh Fisheries Research Institute (BFRI) conducts and coordinates research and to some extent training.
  • Bangladesh Rural Development Board is responsible for the fisheries component of integrated rural development.
  • Land Government and Land Reform Division is responsible for the leasing of public water bodies.
  • Export Promotion Bureau is responsible for export of fisheries products, along with the Bangladesh Frozen Foods Exporters Association which is as well involved in the export of frozen shrimp, fish and fish products.
  • The country's universities are responsible for higher level fisheries education.
  • External Resource Division under the Ministry of Finance is responsible for external aid for aquaculture development.
  • Bangladesh Krishi (Agriculture) Bank, Bangladesh Samabay (Co-operative) Bank and some other commercial banks are responsible for issuing credit to the aquaculture sector.
  • A lot of of the national and international NGO's provides credits to the fish farmers and inclunding takes up projects for aquaculture extension and development.
  • International organizations (DFID, Danida, NORAD, JICA, World Bank, IMF, ADB etc.) provide grants and credits for aquaculture development.
  • Youth Development Training Centers, under the Ministry of Youth, deals with extension and the training of unemployed young people and fish farmers.
The governing regulations

The basic act regulating inland fisheries is the Protection and Conservation of Fish Act (1950), as amended by the Protection and Conservation (Amendment) Ordinance (1982) and implemented by the Protection and Conservation of Fish Rules (1985). The Marine Fisheries Ordinance (1983), as implemented by the Marine Fisheries Rules (1983), is the basic act regulating marine fisheries. Although the basic fisheries legislation does not have separate sections on aquaculture, some of its provisions are relevant to the subject. The Protection and Conservation of Fish Rules, for instance, specifically transaction with the protection of certain carp species, prohibit certain activities to facilitate their augmentation and production and stipulate that licenses for their catch shall only be issued for purposes of aquaculture. In Bangladesh, seeding is traditionally by wild post larval and juvenile shrimps, or fish fry, which are trapped in ponds during tidal exchanges or which are gathered from the estuaries in the vicinity and used to stock the ponds. In recognition of the fact that fry collection from nature may result in long term ecological destruction, in 2000 the government - reportedly - prohibited the collection of fry or post larvae of fish, shrimp and prawns of any kind, in any form and in any way in estuary and coastal waters.

Other legislation that is relevant to aquaculture includes the Tanks Improvement Act (1939), which provides for the improvement of tanks for irrigation and aquaculture purposes. The Shrimp Culture Users Tax Ordinance (1992) stipulates that shrimp cultivation areas developed by the government by construction of embankments, excavation of canals or other water management structures shall be liable to payment of tax. In addition to these laws, aquaculture, and the conditions of its development, are affected by a variety of other laws, such as land laws, water laws and environmental regulations.

The Ministry of Fisheries and Livestock (MoFL), through its Department of Fisheries (D0F), has in general responsibility for fisheries and aquaculture development, management and conservation. Its functions, which are both regulatory and development oriented, are defined in Schedule 1 of the Rules of Business (1975) and include, inter alia, the preparation of schemes and the coordination of national policy in respect of fisheries, the prevention of fish disease, the conservation, management and development of fisheries resources, the management of fish farms and training and collection of data. The activities of DoF are supported by the Bangladesh Fisheries Research Institute (BFRI), which is responsible for fisheries research and its coordination. In addition, the Bangladesh Fisheries Development Corporation (BFDC), established under the Bangladesh Fisheries Development Corporation Act (1973), supports DoF in developing the fishing industry. Functions of BFDC include, inter alia, the establishment of units for fishing and for the preservation, processing, distribution and marketing of fish and fishery products.

In 1998, a National Fisheries Policy was adopted to develop and increase fish production through optimum utilization of resources, to meet the request for animal protein, to promote economic increase and earn foreign currency through export of fish and fishery products, to alleviate poverty by creating opportunities for self-employment and by improving socio-economic conditions of fisher folk, and to preserve environmental balance, biodiversity and improve public health. The Policy extends to amount government organizations involved in fisheries and to amount water bodies used for fisheries. It includes separate policies for inland closed water fish culture and for coastal shrimp and fish culture. The Policy touches on a lot of contentious issues. For instance, it addresses conflicts over shrimp cultivation and underscores the need for formulation of suitable guidelines. To help conservation efforts, it prescribes a moratorium on further cutting of mangrove for shrimp cultivation. It as well supports an integrated culture of fish, shrimp and paddy in paddy fields. In addition, the Policy deals with a lot of other relevant issues such as quality control, industrial pollution and the use of land.
 

Applied research, education and training

Experts from the DoF, BFRI, universities and NGOs develop research ideas and agree priorities through detailed discussion in workshops, the selected research topics are then sent to the MoFL for approval and execution. The major task of conducting applied and adaptive research has been bestowed upon the BFRI although universities are as well involved. The Bangladesh Agricultural Research Council (BARC) is the national body for coordinating, monitoring and evaluating amount aquaculture research, in addition international organisations such as CIRDAP, FAO, DFID, Danida, World Bank, CIDA, IDRC and World Fish Center are as well involved in action oriented research programs related to aquaculture in Bangladesh.
Formal fisheries education and research first began at the Faculty of Fisheries, Bangladesh Agricultural University in Mymensingh in 1967, the faculty offers B.Sc. Fisheries (eight semesters), M.Sc. (three semesters) and Ph.D. degrees in various specialised areas of fisheries and aquaculture. Later, the Institute of Marine Science was established at Chittagong University in 1973, followed by the Fisheries and Marine Science discipline in Khulna University in 1991, the Department of Aquaculture and Fisheries at Dhaka University in 1998 and the Department of Aquaculture at Rajshahi University in 2000 for fisheries education and research. The Zoology departments at the above and other universities as well offer subjects related to aquaculture and fisheries.

The Bangladesh Agricultural University offers training to the Government and NGO fisheries officers through its Graduate Training Institute, other institutes offering fisheries education and training are the Marine Fisheries Academy, Chittagong which offers 1–2 year diploma courses, the Fisheries Training Academy at Savar, Dhaka, the Fisheries Training Institute, Chandpur, offers 1–3 months training. The Fish Hatchery and Training Center, Raipur, the Fisheries Training Center, Faridpur and Vocational Youth Training Centers provide diploma certificates.

Trends, issues and development

Aquaculture production in Bangladesh has shown an average increase of 28 % from 0.12 million tonnes to 0.66 million tonnes during the period 1985 to 2000. However, during the same period the production of shrimp has increased from 11 000 to 94 000 tonnes, recording an average annual increase of 45 %. Following full implementation of improved technologies and better utilisation of water bodies, it is estimated that aquaculture production could be increased by about 150 % over the next years (Mazid, 2002). However during the fifth-year plan despite the target for total production being 2.02 million tonnes only 1.66 million tonnes was actually produced.

Over the last decade the price of fish has increased at an annual rate of 2.5 % (FFYP, 1997–2002).

The following issues require to be addressed in next:

  • To bring amount available water bodies under modern fish culture regimes.
  • To generate increased employment opportunities in fisheries and allied industries.
  • To conserve fisheries resources and species biodiversity.
  • To develop fish landing and marketing systems.
  • To establish institutional frameworks to ensure research findings are made available to the relevant people.
  • To provide an adequate provision of financial assistance to fish and shrimp farmers.
  • To increase and sustain fish production for both domestic consumption and export.

With the expansion of aquaculture, environmental degradation, biodiversity and the control of the outbreak of disease especially in the coastal farming operations have become the major issues. Shrimp post larvae (PL) collectors are estimated to destroy nearly 100 other species of flora and fauna while collecting post larvae of Penaeus monodon, moreover, the destruction of mangrove forest for coastal shrimp culture and the introduction of viral diseases in semi-intensive farms has as well become critical issues for concern. For inland aquaculture, habitat destruction, the use of insecticides and the introduction of diseases like epizootic ulcerative syndrome (EUS) have as well become significant issues.

References

Bibliography
FAO publications related to aquaculture for Bangladesh.
Ahmed, G.U., Kibria, M.G. & Islam, M.F. 1997. Rearing feasibility of African catfish, (Clarias gariepinus) Burchell fry in the outdoor net cages. Journal of Asiatic Society (Sci), 23: 9–14.
Ahmed, G.U., Aminul Haque, A.K.M., Aminul Islam, M. & Mahfuzal Haque, M. 1983. Intensive culture of Labeo rohita (Hamilton) in floating ponds with special reference to different stocking densities. Bangladesh Journal of Fisheries, 6: 11–17.
Ahmed, M.N.U. 2003. Fisheries in the economy of Bangladesh and development potential. In: Fish week compendium 2003, Department of Fisheries, Ministry of Fisheries and Livestock, Dhaka, Bangladesh. pp. 11–15.
Ahmed, N., Begum, T.M., Akandha, S.I. & Rahman, S. 2004. The sustainable livelihood approaches of freshwater prawn marketing system in Bangladesh. Paper presented at the 7th Asian Fisheries Forum, 2004, held in Penang, Malaysia, 30 November – 04 December 2004.
Alam, S. 2002. Production, accessibility and consumption patterns of aquaculture products in Bangladesh. In: Production accessibility, marketing and consumption patterns of freshwater aquaculture products in Asia- a cross country comparison. FAO Fisheries Circular No. 473, FAO Regional Office, Bangkok, Thailand.
Alamgir, M. 2004. Kaptai Rhod: Matshya Shampad O Babasthapana (Kaptai lake: Fisheries resources and management). In: Z.A. Khan et al. (ed.) Rangamati: Boichitrer. Oikata (Rangamati: harmony of diversity), Published by the District government of Rangamati Hill District, Bangladesh. 133–144 pp.
Ali, M.Y. 1967. Induced spawning of major carps in ponds by pituitary hormone injections. Agricultural Data Service, Dacca. Bangladesh.
Ameen M. 1987. Fisheries Resources and Opportunities in Freshwater Fish Culture in Bangladesh. PAT, NRD-II /DANIDA, Noakhali, Bangladesh, 244 pp.
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