BMZ | Bundesministerium für wirtschaftliche Zusammenarbeit und Entwicklung (Germany) |
CGIAR | Consultative Group for International Agricultural Research |
CIRAD | Centre de coopération internationale en recherche agronomique pour le développement (France) |
DFID | Department for International Development (United Kingdom) |
DoF | Department of Fisheries (Malawi) |
DRC/RDC | Democratic Republic of the Congo, République démocratique du Congo |
FAO | Food and Agriculture Organization of the United Nations |
FHH | Female-headed household |
GO | Governmental organization |
HIPC | Highly Indebted Poor Countries |
IRAD | Institut de recherche agricole pour le développement (Cameroun) (Development Agriculture Research Institute [Cameroon]) |
MAAIF | Ministry of Agriculture, Animal Industry and Fisheries (Uganda) |
MFMR | Ministry of Fisheries and Marine Resources (Sierra-Leone) |
MINEPIA | Ministère de lélevage, des pêches et des industries animales (Cameroun) (Ministry of Livestock, Fisheries and Animal Industries [Cameroon]) |
NAADS | National Agriculture Advisory System (Uganda) |
NACA | Network of Aquaculture Centres in Asia |
NGO | Non-governmental organization |
PRSP | Poverty Reduction Strategy Paper |
SENAQUA | Service Nationale dAquaculture (RD Congo) (National Aquaculture Service [DR Congo]) |
SOWEDA | Southwest Development Agency (African Development Bank) |
SSA | Sub-Saharan Africa |
T&V | Training & Visit System |
USAID | United States Agency for International Development |
WRI | Water Research Institute (Ghana) |
CAMEROON
ABO'O Pierre Nna
MINEPIA, Cameroon
[email protected]
Tel.: (+237) 976 2196
BRUMMETT Randall
WorldFish-Cameroon
[email protected]
Tel.: (+237) 223 7434
DJAMA Theodore
IRAD, Cameroon
[email protected]
TEL.: (+237) 797 8295
KOUAM Jean
MINEPIA, Cameroon
[email protected]
Tel.: (+237) 231 6049
MIEVIS Guy
SOWEDA, Cameroon
[email protected]
Tel.: (+237) 333 2906
NGUENGA David
IRAD-Cameroon
[email protected]
Tel.: (+237) 983 5209
OUSMAN Baba Malloum
MINEPIA, Cameroon
[email protected]
Tel.: (+237) 231 6049
POUOMOGNE Victor
IRAD, Cameroon
[email protected]
Tel.: (+237) 759 0026
FRANCE
LAZARD Jerome
CIRAD, France
[email protected]
Tel.: (+33) 467 046 365
GHANA
ABBAN Eddie Kofi
WRI, Ghana
[email protected]
Tel.: (+233) 21 768 310
KENYA
NYANDAT Beatrice
Department of Fisheries, Kenya
[email protected]
Tel.: (+254) 20 374 2320/49
MALAWI
CHIMATIRO Sloans
Department of Fisheries, Malawi
[email protected]
Tel.: (+265) 1 788 511
NIGERIA
FAGBENRO Oyedapo
University of Akure, Nigeria
[email protected]
Tel.: (+234) 34 243 744
SIERRA LEONE
SHERIFF Mohamed Fouad
MFMR, Sierra-Leone
[email protected]
Tel.: (+232) 76 611 664
UGANDA
MWANJA Wilson
MAAIF, Uganda
[email protected]
Tel.: (+256) 77 594 925
FAO - GHANA
REGIONAL OFFICE FOR AFRICA
MOEHL John
Regional Aquaculture Officer/
Fonctionnaire régional chargé de
laquaculture
P.O. Box, 1628 Accra
[email protected]
Tel.: (+244) 780 656
MULONDA-KALENDE Boniface
Aquaculture Specialist/Spécialiste de laquaculture
P.O.Box 1628, Accra
[email protected]
[email protected]
Tel.: (+244) 780 656
FAO - HEADQUARTERS
(ITALY)
HALWART Matthias
Fishery Resources Officer (Aquaculture)
Inland Water Resources and Aquaculture Service
Viale delle Terme di Caracalla
00100 Rome
[email protected]
Tel.: (+39) 06 570 55080
Fax: (+39) 06 570 53020
HISHAMUNDA Nathanael
Fishery Planning Officer
Development Planning Service
Viale delle Terme di Caracalla
00100 Rome
[email protected]
Tel.: (+39) 06 57054122
FAO - ZIMBABWE
SUBREGIONAL OFFICE FOR SOUTHERN AND EAST AFRICA
ZIMUDZI Farayi
Assistant FAO Representative (Programme)
[email protected]
Tel.: (+263) 91 233 600
UNITED KINGDOM
RANA Krishnan
University of Stirling
United Kingdom
[email protected]
Tel.: (+44) 1786 834 179
WORLDFISH CENTER
HECK Simon
WorldFish Regional Program
[email protected]
Tel.: (+202) 736 4114
HASSAN Zien-Elabdin
WorldFish-Malaysia
[email protected]
Tel.: (+604) 626 1606
DAY 1 | Subject | Focal person | Start at |
| Registration | Ndindjock | 08.30 h |
FAO/WorldFish/CIRAD Joint Planning Meeting | J. Moehl | 09.00 h | |
Lunch | | 12.00 h | |
Definition of "small-scale" aquaculture | J. Moehl | 13.30 h | |
Considerations for the introduction of aquaculture | M. Halwart | 14.00 h | |
Constraints to African aquaculture | J. Moehl | 15.00 h | |
Break | | 15.30 h | |
History and status of African aquaculture | J. Lazard | 16.00 h | |
Institutional support to aquaculture | R. Brummett | 16.30 h | |
Periurban aquaculture in Africa | K. Rana | 17.00 h | |
Cocktail Reception + Dinner | | 19.00 h | |
DAY 2 | Subject | Focal person | |
| Aquaculture Extension Review | V. Pouomogne | 08.00 h |
Experiences in Kenya | B. Nyandat | 08.40 h | |
Experiences in Uganda | W. Mwanja | 09.00 h | |
Experiences in Malawi | S. Chimatiro | 09.20 h | |
Experiences in Zimbabwe | F. Zimudzi | 09.40 h | |
Break | | 10.00 h | |
Experiences in DR Congo | G. Kombonzi | 10.30 h | |
Experiences in Ghana | E.K. Abban | 10.50 h | |
Experiences in Sierra-Leone | M.F. Sheriff | 11.10 h | |
Experiences in Nigeria | | 11.30 h | |
Strategic framework for aquaculture development in Cameroon | MINEPIA | 12.30 h | |
Lunch | | 13.30 h | |
Lessons Learned | B.M. Kalende | 14.50 h | |
Break | | 15.30 h | |
Identification of working group topics and members w/discussion | R. Brummett | 16.00 h | |
Dinner at Etisah Beach | | 19.00 h | |
DAY 3 | Subject | Focal person | |
| Working Groups | | 08.30 h |
Break | | 10.00 h | |
Working Groups | | 11.30 h | |
Lunch | | 12.00 h | |
Group Reports | | 13.30 h | |
Break | | 15.00 h | |
Discussion of group reports | J. Moehl | 15.30 h | |
Dinner at Down Beach Fish Place | | 19.00 h | |
DAY 4 | Subject | | |
| Elaborate group recommendations on small-scale aquaculture | R. Brummett | 08.30 h |
Break | | 10.00 h | |
Discussion of strategies and recommendations | J. Moehl | 10.30 h | |
Lunch | | 12.00 h | |
Drafting/approval of strategies and recommendations | R. Brummett | 13.30 h | |
Closing Ceremonies and Adjourn | | 15.30 h |
Mobile teams for aquaculture extension were commissioned and made operational along the following lines:
Composition
There was one mobile team per province with at least three members each (team leader, extension agent(s), aquaculture specialist). The number of extension agents depends on the intensity of work and the number of other actors in the area.
Objectives
1) Develop and/or maintain contact with viable fish farmer associations.
2) Improve the operation of associations.
3) Transfer technology.
4) Improve record keeping among farmers.
Location
Targeted sites were characterized by:
high population density;
expressed interest in fish farming, driven by need for food and income;
perennial sources of water;
good topography;
some (limited) history of aquaculture;
good vegetation cover;
soils appropriate for pond construction;
relatively easy access by mobile teams.
Results
The mobile team was especially successful in Bandundu province for the following reasons: 1) high concentration of fish farmers (28 fish farmer associations, 900 fish farmers with an average of 30 farmers/association within a radius of 35 km); 2) high demand for fish; 3) relatively large number of experienced fish farmers (some being able to serve as sources of technical information to others farmers); and 4) easy market access.
1. Elements of the Strategic Framework and the role of public and private sectors
Sustainable aquaculture development relies on a number of conditions that must be met and addressed in any strategy in a flexible way. The most prominent of these are: 1) suitable production systems; 2) availability and access to inputs (feeds, seed, capital, etc.); 3) outreach; 4) research; 5) education and training; 6) marketing; 7) producer organizations; 8) regulation; as well as 9) control, monitoring and evaluation.
For each of the two types of aquaculture defined in this document (commercial and non-commercial), the following sections define the role of the public[7] and private[8] sectors in meeting each condition. Unless otherwise specified, the role discussed applies to both commercial and non-commercial aquaculture.
In light of limited human and financial resources, government is, in general, shifting and should shift, from its role of a direct investor and development promoter to one of a facilitator of an independent and commercially viable aquaculture subsector. The private sector is composed of two general groups of actors: direct investors, including producers along with service providers, and partners, principally producer organizations and Civil Society organizations.
1.1 Suitable production systems
The government should:
identify general production technologies appropriate to relevant aquaculture zones;
inform investors in regard to these technologies; and
concentrate its outreach activities in these zones.
The private sector should:
be aware of the government strategy regarding different production systems within aquaculture zones.
1.2 Availability and access to inputs
a) Feeds[9]
The government should:
stimulate domestic feed industries by reducing or removing taxes on imported feed milling machinery and basic feed ingredients;
make information on feed and feed materials, especially prices, regularly available to producers through all means of information transmission;
within its means, ensure feed quality through inspections and feed certification;
promote the adoption of appropriate feed manufacturing guidelines such as the FAO Technical Guidelines for Responsible Fisheries No. 5 Aquaculture Development; and
encourage commercial farmers and millers to facilitate access to quality feed for the entire subsector.
Direct investors (feed mills) should:
produce and market necessary feedstuffs to growers;
provide uniform-quality products at a fair price;
find mechanisms to facilitate access to high-quality feed throughout the subsector;
make proximate analyses available to clients;
provide information on feed availability and efficacy to the public sector;
as appropriate, assist outreach programmes in promoting good feeding practices/fish management; and
monitor results.
Producer organizations should:
serve as a forum for sharing information among stakeholders;
lobby for collective bargaining and appropriate public sector intervention; and
link with research organizations.
b) Seed
The government should restrict itself to:
providing regular information on sources and prices of good-quality seed to producers;
providing guidelines in producing/ensuring good-quality seed through such measures as seed certification;
maintaining broodstock of selected culture organisms corresponding to the identified production systems; and
encourage commercial farmers and hatcheries to facilitate access to quality seed for the entire subsector.
Direct investors (seed producers) should:
produce and distribute quality seed;
sell products at a fair price;
find mechanisms to facilitate access to high-quality seed throughout the subsector;
as appropriate, assist outreach programmes in promoting good management practices favouring improved yields; and
monitor results.
Producer organizations should:
serve as a forum for sharing information among stakeholders;
lobby for collective bargaining and appropriate public sector intervention; and
link with research organizations.
c) Capital
Providing and managing credit by the government often leads to conflicts. Thus, in terms of investment capital for commercial aquaculture[10], government should restrict itself to creating an enabling environment, through, for example:
the provision of information to lending agencies on the profitability of aquaculture[11];
evaluating the technical merits of investment proposals submitted to lending agencies for funding;
advising farmers on where and how to access funding from specialized institutions; and
interacting with these funding institutions to negotiate preferential interest rates for aquaculture development, as appropriate.
The private sector:
In addition to their own equity, commercial producers should rely on private sector funding institutions for capital.
Lending institutions should consider preferential interest rates for aquaculture enterprises when applicable.
Investors requesting credit support should prepare clear and precise business plans.
Formal lending institutions should finance viable aquaculture businesses.
Small investors should ensure that they have appropriate business and financial management skills before requesting external financial support.
NGOs should:
work with non-commercial producers to develop financing options;
collect information on other funding mechanisms and make it available to farmers;
sensitise farmers to the savings and solidarity funds for use in aquaculture development;
examine the possibility of creating an aquaculture guarantee fund;
examine the possibility of providing temporary direct assistance to aquaculture producer organizations.
1.3 Outreach
The government should:
provide quality technical assistance through an efficient aquaculture outreach programme;
seek partners as necessary to meet information shortfalls that cannot be met by public resources;
establish national and international aquaculture information networks which are accessible at local hubs;
play a co-ordinating role in the outreach programme;
put emphasis on participatory approaches when providing services to farmers;
encourage group formation for purposes of rationalising marketing and purchase of inputs, as well as increasing outreach-farmer contact;
encourage commercial investors to provide outreach support to smaller operators;
facilitate the creation of discussion channels amongst different aquaculture stakeholders; and
require larger investors to pay for the technical assistance on a contract basis, negotiated with the institution providing assistance.
The private sector:
should assist and reinforce public sector outreach programmes, particularly with regard to outreach contributions by feed and/or seed suppliers;
should evaluate outreach efficacy and advise as to outreach needs;
should feedback to public sector as to available information sources;
commercial producers should pay for technical assistance; and
commercial producers should assess their opportunities for serving as information providers.
1.4 Research
For commercial aquaculture, the government should:
support applied and farmer-participatory research directed at small- and medium-scale commercial farmers;
ensure that research is responsive to the needs of farmers[12]; and
develop methods whereby farmers at the upper limit of the spectrum (i.e. large-scale, capital-intensive systems) have access to government research facilities and scientists on a contract basis.
For non-commercial aquaculture, government should:
fully fund research for systems operated by low-income farmers.
The private sector should:
fund research;
disseminate research results, as appropriate; and
evaluate research results as input into research agendas.
1.5 Education and training
The government should:
develop specific curricula for practical training of entry-level farm managers and aquaculture technicians;
arrange and/or conduct on demand at regular intervals, short courses for in-service training and human resource enhancement;
establish a continuing training plan for its staff and assist in linking candidates with local, regional or international agencies providing training, education and/or financial assistance, including distance learning options;
provide information on career development in aquaculture; and
introduce longer-term, professional training in aquaculture sciences to universities.
The private sector should:
pay for training of those technicians necessary for the development of a commercial aquaculture sector;
facilitate training opportunities on their farms; and
give feedback to the public sector regarding the efficacy of training (materials/curricula, advising on training needs as necessary).
1.6 Marketing
The government should:
make available information on fish retail prices, conservation and treatment to producers and consumers through newspapers, newsletters, rural radio or other media, for example;
protect local producers against unfair foreign competition (imports) provided that protective measures used fit within the international trade conventions/agreements;
provide basic marketing infrastructure, such as roads and communication channels;
assist producers in promoting aquaculture products (in order to stimulate demand) through agricultural fairs and other such opportunities;
encourage commercial producers to develop market channels which can be accessed by smaller producers; and
prepare, publish and regularly monitor guidelines on the implementation of quality standards of aquatic products to protect the public health as well as to improve the acceptability of aquaculture products.
Commercial producers should:
provide uniform-quality products according to market requirements; and
look for mechanisms to provide market guarantees for smaller producers (e.g. satellite production systems).
1.7 Producer organizations
The government should:
promote and facilitate the formation of producer organizations with legal status as appropriate by, for example, advertising their advantages in collective bargaining, streamlining the administrative registration process, etc.; and
advise interested farmers, feed and seed producers on where and how to obtain assistance in group formation and function.
The private sector:
Producers should organize themselves to defend their mutual interests, facilitate access to inputs, markets, etc.
NGOs should play a catalytic role in establishing producer organizations.
Organizations should consider the establishment of a national producer organization assembling the local organizations.
1.8 Regulation
The government should:
establish clear and secure user rights to land and water favourable to aquaculture investment;
avoid unnecessary costs on applicants in acquiring necessary rights to land and water and the right to undertake aquaculture operations;
regulate the movement of aquatic organisms between watersheds and the provision of discharge and outfall standards (e.g. Biological Oxygen Demand-BOD limits or alien species to receiving water bodies, etc.);
regulate the use of alien and genetically modified aquatic organisms;
require permits which specify the rights and obligations for commercial aquaculture farmers;
waive such permits for non-commercial aquaculture as long as government regulatory thresholds are not exceeded;
adopt an one-stop shop for obtaining permits and information relevant to aquaculture development;
collect and publish reliable and up-to-date statistics; and
apply and enforce appropriate international codes to which government subscribes (e.g. Code of Conduct for Responsible Fisheries - CCRF);
determine criteria for requiring environmental impact assessment studies;
regulate seed production;
regulate the production of commercial feed production;
define a regulation on quality control of aquaculture products.
The private sector should:
be aware of relevant regulations;
self regulate to ensure good farm management practices with the goal of sustainable resource use;
self regulate to ensure a safe-to-consume product is provided to all consumers; and
provide complete and correct data for monitoring by the public sector.
1.9 Control, monitoring and evaluation
The government should:
control the movement of aquatic organisms between watersheds and the provision of discharge and outfall standards (e.g. Biological Oxygen Demand-BOD limits and alien species to receiving water bodies, etc.);
control the use of alien and genetically modified aquatic organisms;
for commercial aquaculture farmers, require permits which specify their rights and obligations;
apply and enforce appropriate international codes to which government subscribes (e.g. Code of Conduct for Responsible Fisheries - CCRF);
define a standard system for statistics/data collection and treatment;
collect and publish reliable and up-to-date statistics;
control whether or not, where necessary, environmental impact assessment studies are properly conducted;
control seed quality;
control the quality of commercial feeds;
enforce the regulation on quality control of aquaculture products;
regularly evaluate the sector development level.
The private sector should:
respect regulations on the movement of aquatic organisms between watersheds and the provision of discharge and outfall standards;
respect regulations on the use of alien and genetically modified aquatic organisms;
seek permits before establishing a commercial aquaculture farm;
apply appropriate international codes to which the government subscribes;
regularly provide reliable and up-to-date statistics;
have self-regulatory, self-control mechanisms to ensure seed quality, the quality of commercial feeds and the quality of aquaculture products.
2. Specific issues
Following the logic and process described above, specific issues regarding the strategic framework for aquaculture development in Cameroon include:
2.1 Government stations
One or more government stations should be maintained for training, fish genetic management and research. The criteria to maintain a station should include, inter-alia, its economic viability, the needs for genetic conservation, research and training as well as zones with high aquaculture potential. Following the existing (draft) government master plan for aquaculture, other economically viable government infrastructure should progressively be sold or leased long-term to a well chosen private sector according to existing laws and procedures on the sale or lease of public property. Non-viable infrastructure, or those stations for which no buyer or tenant can be found, can be donated to public institutions such as schools, prisons or orphanages.
Public sector technical services should be able to assist potential buyers or leaseholders in determining the economic potential of these facilities.
2.2 Marine and coastal aquaculture
Mariculture and other coastal production systems are strategically no different from inland systems and the same processes should be applied. However, it should be recalled that coastal regions comprise critical ecosystems which are highly productive though fragile, requiring careful environmental considerations. Also, these areas are complex socio-economic zones where the potential for conflict over use is high and whose economic contribution to livelihoods is highly significant. The existing body of knowledge for best practices for integrated coastal management should be applied.
2.3 Non-conventional aquaculture systems
The culture of ornamental species should, as well, be considered among the multiple aquaculture systems practised in the country. Organically certified aquaculture, growing aquatic plants, etc. are also examples of non-conventional systems.
2.4 Unexplored culture species, introductions and genetically modified organisms
Mainstream aquaculture species are tilapias, catfish, carp and Heterotis along with a few minor cichlids. The establishment of presently unexplored culture species may have high economic costs for the development of the required seed multiplication and distribution networks. Thus, the promotion of new culture organisms must take these costs into consideration.
Introductions of alien species need to adhere to international conventions and covenants.
Control of genetic integrity of aquatic organisms is an important issue, which is frequently addressed under the rubric of aquaculture. Reference has been made above to precautionary procedures that are advised, however, is it noteworthy that the overall pond management needs to be significantly enhanced before any benefits of genetically modified organisms can become apparent.
Gabriel KOMBOZI LIMBEYA BOLOMO
Coordonnateur du Service National dAquaculture (SENAQUA)
Les premiers essais de la pratique de laquaculture en RDC se situent dans les années 1940 et 1945 par le colonisateur belge. Les poissons de la province du Katanga à Kasenga furent alors les premiers à servir dexpérimentation après capture pour lélevage de poissons deau douce dit pisciculture en Afrique. Ces poissons tilapia ainsi capturés au Katanga furent la base à léclosion de lactivité piscicole en Afrique tropicale.
Quelques années plus tard, à laccession du pays à lindépendance, alors que la population nationale atteignait à peine 15 millions dhabitants, le colonisateur avait installé 45 Centres dalevinage principaux et secondaires capables de produire 10 000 tonnes dalevins par an pour desservir près de 15 000 pisciculteurs propriétaires de plus de 126 100 étangs couvrant ensemble une superficie d environ 9 000 ha détangs noyés.
Après lindépendance du pays en 1960, la situation politico-économique de la RDC à lépoque fit que la plupart de centres dalevinage ci dessus évoqués soient abandonnés ou mal exploités et la production moyenne à lépoque qui était de 0,45 tonne/ha/an de poisson chuta brusquement à moins de 0,035 tonne/ha/an. Cette chute de production trouve son origine dans:
1. le départ précipité et sans transition du personnel dencadrement belge;
2. linexpérience et/ou linsuffisance de lexpertise locale en la matière;
3. les différents mouvements de guerre et rebellions.
Dix ans plus tard, vers les années 1970, plusieurs projets implantés de manière ponctuelle et financée par les différentes coopérations bilatérales tentèrent de redémarrer lactivité piscicole en RDC longtemps en veilleuse:
La Coopération française dans lhinterland de Kinshasa, la Capitale, qui a réussi à encadrer 200 pisciculteurs autour de 10 ha détangs pour une production de 250 000 alevins de tilapia par an et 20 à 60 tonnes de poissons marchands.
LUSAID et les Corps de la Paix qui ont couvert six provinces du pays sur les 11 quil regorge. Le Corps de la Paix ont encadré 2 029 pisciculteurs disposant de 3 229 étangs sur une superficie de 81,03 ha. La production variait entre 1 500 à 1 800 tonnes de poissons marchands par an
La Coopération technique belge, elle, a travaillé sur trois provinces pour lencadrement de 526 pisciculteurs, propriétaires de 1 603 étangs couvrant ensemble 77,6 ha détangs pour une production moyenne de 600 tonnes de poissons marchands par an.
En 1990, à la suite des événements de la démocratisation et troubles politiques divers, toutes les coopérations ci-dessus mentionnées firent fermer avec lembargo et lisolement politico-économique qua subit le pays pendant 10 ans.
Il y a lieu de remarquer que lactivité piscicole en RDC était pendant un certain temps, après lindépendance du pays, sous la conduite et lapanage de différentes coopérations bilatérales. Chaque projet avait donc sa méthodologie de travail et son approche bien appropriée poursuivant malheureusement le même objectif global qui est la réduction de la pauvreté, la sécurité alimentaire et lamélioration du revenu du paysan pisciculteur. Tous ses projets prônaient à la fois la pisciculture familiale de subsistance, la pisciculture sémi-intensive et envisageaient également la pisciculture associée à lélevage danimaux à cycle court de reproduction (porc, volaille). Cela sur fonds dapproches différentes. Cette situation nétait pas de nature à faciliter la tâche au Gouvernement dans la mesure où il assistait impuissant devant cette disparité de responsabilité sans une politique nationale cohérente en la matière.
Ainsi donc au regard de cette impasse, il est aujourdhui crée en RDC un Service National dAquaculture ayant pour rôle principal lencadrement, la planification et la promotion de laquaculture dans son sens premier vers un développement durable en conformité avec lévolution mondiale de la matière. Pour y arriver la RDC envisage, très prochainement, de mettre sur pied un cadre juridique ainsi quun Plan Directeur de Opérations avec lappui de la FAO.
Table 1. Situation de la pisciculture en RDC par province et par centre dalevinage (Juin 1990) | ||||||||||||
Provinces | Bas-congo | Bdd | Kasaï Or. | Kasaï Occ | Kasaï Occ. | Equat. | P. Or | Sud Kivu | Nord Kivu | TOTAL | ||
Centre dalevinage | Kasan-gulu | Mawu-nzi | Nzinda | Kianza | Nganda-jika | Katwi-shi | Dibaya | Geme-na | Wa-mba | Nyan-gara | Lu-bero | - - - - |
Nombre détangs | 11 | 47 | 15 | 42 | 55 | 14 | 18 | 39 | 20 | 45 | 6 | 367 |
Superficie totale (ha) | 1,33 | 4,6 | 0,9 | 10 | 2,55 | 0,50 | 0,47 | 2,6 | 5,05 | 2,5 | 2,3 | 33,92 |
Capacité de production | 7,98 | 27,60 | 3,14 | 60 | 15,30 | 3 | 2,87 | 15,6 | 30 | 15 | 12,8 | 203 |
Niveau dexploitation | 40% | 0% | 0% | 30% | 30% | 30% | 20% | 0% | 0% | 30% | 0% | - - - - |
Généralités, potentialités et quelques réalisations
La RDC dispose dune potentialité piscicole étalée sur 2 400 000 km2 repartis comme ci -après: 1 600 000 km2 pour la pisciculture de subsistance en campagne 800 000 km2 principalement autour des grandes agglomérations disponibles à la pisciculture intensive, durable et commerciale. En plus 64,2 pour cent de la superficie totale de bassin du fleuve Congo traversent le territoire national, offrant ainsi au pays dénormes potentialités dimplantation et dexploitation aquacole dans toutes les vallées et bas-fonds des montagnes et collines non recensées jusquà nos jours.
Plusieurs milliers de ruisseaux dont les débits varient entre 5 et 60 litres par seconde traversent des vastes vallées et ne tarissent point pendant la saison sèche. Le pH de toutes ces eaux varie entre 5 et 7,5, tandis que la température moyenne est de 24 °C avec une solubilité moyenne doxygène de 8,41 mg/litre. Du point de vue capacité biogénétique, les eaux congolaises sont dune richesse remarquable (présence de phytoplanctons et zooplanctons).
Les poissons délevage en RDC sont: Oreochromis niloticus, Tilapia macrochir, Heterotis niloticus et Clarias gariepinus. Laquaculture congolaise repose essentiellement sur la pisciculture de subsistance avec prédominance de la culture de tilapia malgré dénormes possibilités délevage dautres espèces notamment: les crevettes, les mollusques les grenouilles, les crocodiles, lazola et autres plantes aquatiques.
Lélevage de Clarias est une introduction récente dans lHinterland de Kinshasa et dans la vallée de Mbankana dans la Province de Bandundu. Pratiquée par insémination artificielle, cette technique se développe rapidement au regard du résultat très intéressant de croissance et gain de poids de lespèce.
Dans la vallée de la FUNA (Hinterland de Kinshasa) le sujet atteint 3 à 5 kg par cycle de production de 6 mois délevage semi-intensive. Dans la vallée de Mbankana, avec les mêmes conditions délevage presque, le sujet atteint également 4 à 6,5 kg. Dans les deux cas le taux de survie par éclosion varie de 28 à 30 pour cent dalevins.
La culture de tilapia par contre cette pratique avec extension sur toute létendue de la République. La méthode culturale pratiquée actuellement est celle dite «mixte», aux sujets non sexés et de différents âges. Cette méthode conduit souvent au phénomène de nanisme dans la plupart dexploitations des milieux ruraux. Les poissons tilapia non nourri de manière régulière en RDC atteint difficile 150 g après 6 mois délevage.
Pour résoudre ce problème nous avons amorcé le monosexage qui consiste à séparer les mâles de femelles dans notre centre de formation et de vulgarisation de Kansangulu à 45 km de la Capitale Kinshasa. Lexercice est en cours.
Comme on le remarquer les contraintes au développement de laquaculture en RDC sont de plusieurs ordres, notamment:
1. Labsence dune politique et dune stratégie cohérente du gouvernement en matière du développement durable du secteur aquacole
2. Le délabrement des infrastructures de base (45 Centres dalevinage principaux et secondaires)
3. Linsuffisance des cadres techniques formés et de capacités institutionnelles de la structure en charge de vulgarisation et encadrement technique,
4. Difficultés dacquisition et indisponibilité des intrants (alevins de bonne souche, aliments et matériels divers)
Table 2. Taux dencadrement de pisciculteurs par le SENAQUA en RDC. | ||||
PROVINCES | Effectifs de | Nombre des | Superficie totale | Production |
1. Bas-Congo | 226 | 197 | 3,82 | 136,045 |
2. Bandundu | 1 003 | 1 660 | 32,32 | 13,370 |
3. Kasaï oriental | 169 | 294 | 14,00 | 113,12 |
4. Kasaï occidental | 503 | 807 | 9,96 | 4,90 |
5. Nord Kivu | 103 | 327 | 4,70 | 34,860 |
6. Sud Kivu | 79 | 105 | 1,78 | 6,63 |
7. Katanga | 402 | 439 | 6,20 | 16,45 |
8. Equateur | 206 | 394 | 7,64 | 21,700 |
9. Province orientale | 216 | 462 | 8,73 | 26,740 |
10. Maniema | 109 | 208 | 5,32 | 30,555 |
11. Kinshasa | 1 602 | 7 479 | 38,87 | 18,620 |
TOTAL | 4 618 | 12 372 | 103,34 | 422,045 |
E. K Abban
Water Research Institute, Accra
In Ghana, the concept of culturing fish became popular during the early 1970s, primarily as a "back-yard" farming activity. Commercial aquaculture gradually evolved during the late 1970s and early 1980s. For a variety of reasons, these early efforts generally failed to achieve economic sustainability. Since 1993, enthusiasm in fish culture has revived and aquaculture is now widely practiced throughout Ghana with concentrations in three of the ten administrative regions of the country.
Virtually all aquaculture in Ghana is conducted in earthen ponds. Operations are small both in number and size of ponds per farmer. For example, in one of the major regions of aquaculture, farms are comprised of one to six ponds of between 50 and 10 000 m2.
Total production from ponds from 1998 to 2002 is shown in Table 1 and is insignificant in relation to the gap between capture production and fish demand (Table 1). Individual farmer production is estimated at one to two tonnes/ha/year suggesting a very low level of farming activity. Major constraints and their significance to development are outlined below, along with suggestions to improve the current situation.
Table 1. Production against estimated fish consumption and net imports (tonnes) Ghana (Directorate of Fisheries) | |||||
Year | 1998 | 1999 | 2000 | 2001 | 2002 |
Fish Requirement | 736 000 | 754 000 | 772 000 | 792 000 | 803 000 |
Marine Production | 376 362 | 332 641 | 380 000 | 355 000 | 290 000 |
Inland Production | 76 300 | 89 400 | 87 500 | 88 000 | 88 000 |
Pond Production | 1 800 | 2 900 | 7 500 | 6 000 | 6 000 |
Net Fish Imports | 283 000 | 332 000 | 308 000 | 338 259 | 430 000 |
Priority areas for action
Culture systems
The general public considers that fish culture can take place only in ponds, limiting participation. Farmers in savannah parts of country where water availability is restricted to reservoirs could, if properly supported by research and extension, undertake ranching, cage and stock enhanced aquaculture. Coastal lagoons are another area with substantial room for expansion, if technology were available. Appropriate education at various levels, along with pilot projects involving farming and fishing communities, could serve to mitigate this constraint.
Fish species for culture
The aquaculture sector in Ghana is based on only two species of fish: the Nile tilapia, Oreochromis niloticus and the African catfish, Clarias gariepinus. This low variability in fish culture products, adversely influences marketing of products and reduces the options to take advantage of new aquaculture sites and technology. Identification and evaluation of culture performance evaluation of the many suitable indigenous species could increase the diversity and stability of aquaculture. Investments should be made in expanding the range of fish culture products and to create specialty products for the market. The freshwater fish fauna of Ghana includes at least five species, which may not need special efforts to be cultured by farmers. Participatory research on culture performance could stimulate interest among farmers in these new species as culture candidates.
Development of improved strains
Although only two fishes have been principally cultured in Ghana and Africa, the populations currently cultured are wild or almost so. The situation limits predictability of response of fish in culture to management regimes and thus productivity. There is the need to invest in national fish breeding programmes to generate domesticated breeds for culture. This would also serve to enhance production of certified fish seed from hatcheries and thus the growth of this important subsector.
Fish seed quality and quantity
There is no regular or reliable source of fish seed, making it difficult to plan production, and limiting the adoption and expansion of (especially) small-scale commercial production systems. Culture facilities are consequently underutilized and programmed production and predetermined product size is constrained, leading to difficulties in marketing. It is necessary to have fry production establishments as enterprises in themselves to ensure maximum cycles of production. Properly managed, hatcheries could also protect genetic diversity and limit inbreeding and its effect on production. Education on the merits of obtaining high-quality fish seed from certified hatcheries could help to overcome this problem. Appropriate training and the provision of credit facilities to intended hatchery operators would further improve the quality of the cultured stock.
Commercial fish feeds
Manufactured aquaculture diets are not available in the Ghanaian market. The lack of reliable feeds limits and complicates production programming on the majority of farms even where financial resources for obtaining feed exists. Lack of feed also limits the optimum utilization of culture facilities because of the necessity to stock below maximum capacity. In addition to alleviating these constraints, the manufacturing of feeds would create employment opportunities at both rural and urban areas. Emphasis on formulating feeds from local agro-industrial by-products could improve the economics of utilization of agricultural by-products. Investment into research on formulations and trial of feeds should be accompanied by support to industry to initiate production of fish feed.
Institutional arrangement
The current institutional arrangement for support to aquaculture constrains growth by limiting the governments ability to:
make maximum use of scarce resources for aquaculture development;
focus the aquaculture agenda in regard to training, extension and research;
avoid conflicting legislation emanating from the institutions charged with contributing to aquaculture development.
To ameliorate this situation, it is necessary to establish clear information networking structures and coordinate the major institutions involved in aquaculture development. A streamlined and efficacious institutional arrangement for support to aquaculture would include policy, planning and evaluation, education and training, research and development as well as extension. Such a networked national institution would then be in a position to be useful to aquaculture practitioners and entrepreneurs.
Beatrice Nyandat
Senior Fisheries Officer, Fisheries Department
Aquaculture in Kenya has the potential to significantly contribute to the national economy through employment creation, foreign exchange earnings, poverty reduction and food security. The new Ministry of Livestock and Fisheries Development, is therefore taking steps to facilitate aquaculture development, including intensive training of extension workers and fish farmers, applied research and appropriate transfer of technology through efficient extension services. Aquaculture has not been given much attention in the past, and growth has consequently been very slow. With the new focus and new approach to delivery of extension service, fish farming as a business is expected to achieve new heights.
Kenya is endowed with numerous resources with potential for aquaculture. The Indian Ocean coastline, Lake Victoria, several large rivers, swamps and other wetlands could support aquaculture. Environments range from marine and brackish water to warm and cold freshwater. Having privatized livestock production and veterinary services, the governments main focus is on extension services, appropriate technology and improved management. It is against this background that aquaculture, with a potential and good rate of return on investment has to be demonstrated and introduced. It is not surprising that many in Kenya still look at fish farming as a marginal and risky investment.
Aquaculture in Kenya is similar to many countries in Africa, characterized by low levels of pond production stagnating over the past decade. Although rural fish farming in Kenya dates back to the 1920s, it was only popularized in the 1960s through the "Eat More Fish" campaign. However, no spectacular progress has been achieved in this subsector since its initiation. Current national development strategies focus on alleviating poverty, increasing food production and ensuring environmental health. The major emphasis of the national food policy is not only to provide carbohydrate-rich staples, but also provide quality protein. Thus, a policy priority is to improve or introduce alternative sustainable low-cost family and community initiatives, which will increase protein available for domestic use and also generate income and reduce poverty. One such initiative is to support aquaculture. Kenya has a good base on which to expand its aquaculture output. Several possible activities include: foodfish culture, shellfish for export, seaweed, sport fishing enhancement, ornamentals for export, recycling of organic wastes and the production of industrial fish products such as fish meal and fertilizers.
Current status and potential
Aquaculture contributes only about 0.5 percent of total national fish production (Table 1). Approximately 1 000 tonnes are harvested from some 10 400 small ponds owned by about 7 500 fish farmers. About 95 percent of fish farming in Kenya is small-scale. The current mean yield from small-scale fish farming is 1 000 kg/ha/year. The production statistics may not be accurate because of poor data collection. Most farmers do not keep records of harvests or sales and do not inform the extension services when they are harvesting. It is important to conduct a survey to ascertain the current number of farmers, ponds and production in the country. Inconsistent data not withstanding, aquaculture has enormous growth potential with only about 0.014 percent of the 1.4 million hectares of potential sites currently under aquaculture.
Table 1. Trends in fish production (tonnes) and the contribution of aquaculture (1980-2002) | |||
Year | Total Fish Production | Aquaculture Production | Aquaculture (% of total) |
1980 | 48 218 | 596 | 1.24 |
1981 | 57 372 | 421 | 0.73 |
1982 | 81 133 | 440 | 0.54 |
1983 | 97 461 | 585 | 0.60 |
1984 | 90 796 | 711 | 0.73 |
1985 | 105 973 | 1 085 | 1.02 |
1986 | 119 978 | 980 | 0.82 |
1987 | 131 181 | 1 094 | 0.83 |
1988 | 138 132 | 1 149 | 0.83 |
1989 | 146 403 | 922 | 0.63 |
1990 | 201 778 | 973 | 0.48 |
1991 | 198 637 | 1 009 | 0.51 |
1992 | 163 139 | 1 017 | 0.62 |
1993 | 183 091 | 1 014 | 0.55 |
1994 | 202 890 | 1 119 | 0.55 |
1995 | 193 789 | 1 083 | 0.56 |
1996 | 181 084 | 970 | 0.54 |
1997 | 164 044 | 1 002 | 0.61 |
1998 | 172 665 | 994 | 0.58 |
1999 | 214 712 | 984 | 0.46 |
2000 | 202 639 | 967 | 0.47 |
2001 | 164 261 | 998 | 0.61 |
2002 | 128 227 | 962 | 0.75 |
Table 1 shows that aquaculture production has not been rising in recent years. Improving aquaculture, however, requires significant input from those institutions responsible for developing and implementing formal and informal education and research programmes. Well-trained managers and stakeholders are necessary if resources are to be used on a productive and sustainable basis. The competitiveness and profitability of the aquaculture industry will be directly related to financial inputs, investment in research, extension and database development.
The varied climate and geographic regions of Kenya favours a variety of fish species that can be utilized for aquaculture: The indigenous tilapias are preferred by consumers and are the most commonly cultured fishes, especially Oreochromis niloticus and Tilapia zillii quite often in polyculture with the African catfish (Clarias gariepinus). Exotic species were introduced in the early part of last century and are represented by the common carp (Cyprinus carpio), rainbow trout (Onchorynchus mykiss), largemouth bass (Micropterus salmoides), red swamp crayfish (Procambarus clarkii) and more recently gold fish (Carrassius auratus).
Trout farming
Rainbow and brown trout were introduced in 1910 and 1921, respectively. The primary goal for the introduction of trout was to provide fingerlings to stock cold-water rivers for angling. A government hatchery facility was constructed to hold eggs and fingerlings before their release into rivers. Attempts to breed these species are thought to have initiated the earliest forms of aquaculture in the country. Trout farming is currently confined to a few commercial fish farms. Despite great potential, trout farming has not expanded due to the inefficiency of the government trout hatchery in Central Kenya. The government has recognized the role trout farming could play in poverty reduction through employment creation and has embarked on rehabilitating the existing hatcheries and establishing new ones. It is envisaged that these hatcheries will encourage trout farmers and also support stocking of trout rivers for promotion of angling tourism.
Mariculture
Introduction of mariculture in Kenya dates back to the early 1980s. Despite 400 km of suitable coastline, mariculture is yet to develop as an important economic activity in Kenya. Shrimp (Penaeus spp.) farming has been attempted at Ngomeni, North of Malindi. Oysters and seaweeds (Euchema spp.) are cultured on a small scale, mainly within the reefs and creeks, using semi-intensive, inter-tidal technology. The government is currently looking into prospects of private/public partnerships in developing shrimp farms along the coast. A project concept by a private entrepreneur for over 800 hectares is in the final design stages.
Research and training
Research and training is based at the Sagana Fish Culture Farm, the largest of its kind in East Africa. Established in 1948, Sagana occupies some 51 hectares of land with about 25 hectares under water. The production technology is primarily based on integrated agriculture-aquaculture, making it very attractive to a range of users, including the poor. The farm serves as a research centre, a training facility for fisheries personnel and fish farmers, demonstration farm and fingerling supply centre. Based at Sagana, the Department of Fisheries has been working closely with both local and international universities to promote aquaculture development in Kenya and the region with remarkable achievements in the short term. The Pond Dynamics/Aquaculture Collaborative Research Support Program of USAID (PD/A-CRSP) began working at Sagana in 1996 and has greatly assisted the department in viewing aquaculture as an enterprise. Both, the research and the training and extension programme, have demonstrated that fish farming can be undertaken as a very profitable business. Farmers who participated in participatory research trials organized by Sagana and PD/A-CRSP have increased their production by 5 to 10 times.
Aquaculture extension
In recognition of the importance of aquaculture as an income generating activity, the Department of Fisheries has embarked on strategies aimed at facilitating aquaculture development through efficient service delivery. The major departure from the conventional extension service is the use of contact farmers and field days to demonstrate and promote aquaculture, especially small-scale, as a business activity. Some of these new strategies include:
staff and community training;
rehabilitation of departmental fish farming demonstration centres and research stations to bring extension closer to existing and potential farmers;
development of quality extension packages for extension workers;
enhanced research on seed and feed production;
involvement of communities in utilizing public dams and reservoirs for cage farming;
promotion of trout farming and angling in cold rivers;
promotion of semi-intensive shrimp culture through private/public partnerships to create employment opportunities for coastal people;
promotion of community participation in fish farming extension through on-farm trials and field days for farmers and extension workers;
use of aquaculture for stock enhancement in Lakes Naivasha and Victoria;
facilitation of optimal utilization of water for aquaculture and participation in watershed studies, restoration and management;
modernization of Sagana Fish Culture Farm as a regional Centre of Excellence;
linking farmers to existing rural finance institutions.
Major constraints
Although Kenya enjoys a long history of aquaculture and the country is endowed with the natural resources necessary for significant aquaculture growth, the subsector has lagged behind in its contribution to the countrys economy. Various constraints have caused the slow development of aquaculture in Kenya, including:
Inefficient research and extension
Inadequate extension facilities, poorly managed government hatcheries and research stations as well as undertrained extension personnel have slowed the growth of aquaculture in Kenya. The Sagana Fish Farm is ideal for aquaculture training, but lacks adequate facilities such as accommodation and lecture halls. Aquaculture has not been taken seriously and therefore, fisheries research institutions and universities have not conducted any meaningful aquaculture research.
Lack of good quality seed
Production of fingerlings has been a monopoly of the government but has not been efficient because of poor funding and low technology.
Lack of feeds
Although affordable and cost-effective feeds are recognized as necessary for enhanced production of farmed fish, manufactured diets are not readily available in Kenya.
Lack of a fisheries policy
Kenyas economy is agriculture-based and the government has tended to put emphasis on crops and livestock production. Fish farming has thus to compete with agriculture and other sectors for land and water. There is a need to develop policies that integrate aquaculture into agricultural systems and highlight the complementary role of fish in meeting social and economic development targets.
Poor data
Aquaculture statistics collection has been poor, limiting the data available to support funding initiatives within government and among international donors.
Summary and conclusions
The government realizes that aquaculture can play an important role in poverty reduction, provision of protein food and reduction of fishing pressure in the natural ecosystems. The Department of Fisheries has therefore embarked on various strategies aimed at facilitating commercialization of small-scale fish farming. These include staff and community training, rehabilitation of fisheries research stations, enhanced research collaboration and development of extension packages.
During the preparation of the Poverty Reduction Strategy Paper in 2000, the government identified aquaculture development as a core activity for funding through the current Medium-Term Expenditure Framework budgeting system and we expect more funds to promote aquaculture. Following this development and the reorganization of government, aquaculture is now one of the four core functions of the Fisheries Department and will henceforth aim to overtake capture fisheries in production.
It is apparent that small-scale fish farming in Kenya could be developed into a viable enterprise, capable of supporting economic activities in rural Kenya and contributing to the Kenya Rural Development Strategy. This potential can be realized in the medium term if the government partners work together to build capacity for an organized extension service.
Sloans Chimatiro
Department of Fisheries
The mission of the Malawi Department of Fisheries is: "To provide framework conditions and excellent services for the maximization of socio-economic benefits through sustainable utilization and management of capture fisheries and increased aquaculture production." Within this broad framework, the goal of the department is: "To provide professional services to ensure sustainable fisheries resource utilization and enhanced aquaculture through principles of good governance." To make this goal operational, the department seeks to:
manage all fisheries according to operational management procedures;
restructure, reorganize and strengthen the Department of Fisheries for effective internal, national and international communication;
strengthen user institutional capacity for fisheries resource management and governance;
update legislation and policy in line with other national policies and legal instruments. To achieve these goals, the department undertakes to: 1) generate scientific information to guide management; 2) disseminate the results of research and development; 3) foster greater community involvement in resources management; 4) develop the institutional capacity of the Fisheries Sector; 5) generally promote small- and large-scale fish farming and 6) adopt responsible fisheries and aquaculture (e.g. prohibition of exotic fish species).
While having substantial water resources and potential for aquaculture, the fish farming sector in Malawi remains dominated by small-scale, integrated farming systems that produce many local benefits, but few macro-level impacts on the economy or overall food security. The main constraints identified to the generation of a more commercial sector are:
unclear legal and legislative provisions to support development of fish farming;
lack of, or weak, farmer institutions;
no formal link between government/NGO or service providers and farmers;
poor knowledge of fish farming technologies;
fish farming not integrated into the district decentralization structure;
lack of community support;
poor resource base at farm level;
lack of "appropriate technologies".
The policy strongly supports poverty reduction by undertaking appropriate fisheries and aquaculture regulatory and management measures, while promoting sustainable, responsible and optimal utilization and management of the national fisheries and aquaculture resources. By contributing to the four pillars of the Malawi Poverty Reduction Strategy Paper (PRSP) the department hopes to:
promote rapid and sustainable pro-poor economic growth and structural transformation;
enhance human capital development;
improve the quality of life of the most vulnerable;
promote good governance; and ultimately
to increase and sustain fish production from smallholder and large fish farming operations in order to improve fish supply. The development and implementation of this strategy has been evolving over recent years. To date, the department has succeeded in defining the scope for development at two levels: small- and large-scale, defining a development strategy based on low input, on-farm available resources, conducting research to identify critical development recommendations, producing a "Technical Toolbox" in the form of an "Info-Kit", developing a generic "Legal Toolbox", aligning aquaculture development with national and global issues and developing a management agreement with the Fish Farmer Association.
Strategic Development Plan under Poverty Reduction Strategy Paper
A number of key areas for specific and directed action have been spelled out under the fisheries part of the PRSP:
increase number of fish farmers to 5 000;
increase production from 500 to 1 000 tonnes/ha/year;
provide adequate knowledge to fish farmers;
improve the knowledge and capacity of extension staff;
improve capital outlay of poor-resource rural fish farming;
improve participation of female farmers, esp. female-headed households (FHH);
improve the status of seed/fingerlings in the country;
improve growth of indigenous fish species on small-scale fish farm;
develop scope for use of exotic species.
In particular, the department would like to increase culture of the indigenous Chambo (Oreochromis karongae, inter alia) from basically 0 up to 1 500 in pond culture by 2010 and thence to 5 000 tonnes/year through cage culture in Lake Malawi and elsewhere. In realizing these goals, the department understands that there are many outstanding issues that need resolution, in particular the following key questions need answers:
What is the role of Fish in Food Security and Nutrition?
What is the replacement cost of low local production?
What role can fishpond play in crop/livestock production?
What is the role of fish in HIV/AIDS mitigation measures?
How are fish-dependent communities affected by the pandemic?
How do we mainstream gender issues in fish farming development?
How do we adapt fish farming to the needs of women and FHH?
What role is appropriate for the youth?
To deal with these questions, the department has restructured both its physical arrangement and also its ideological and operational orientation (see Figure on next page).
In the process of imagining and implementing these changes, the department has succeeded in gaining considerable knowledge of how and why aquaculture grows and how it interacts with policy at both macro and micro levels. Key findings include:
Fish farming is no panacea for replacing the collapse of natural fish stocks.
There is a need to build capacity for decision and policy making.
We need to establish entry points for aquaculture by developing a system which makes sense ecologically, farming system-wise, economically.
Fish farming should be adapted to relevant national policies.
Capacity is lacking at the farm level.
Delivery/outreach systems or mechanisms are weak.
We need appropriate legal/legislative mechanisms (i.e. policy, strategic plan, legal toolbox). · Lobby/advocacy is lacking among both, government organizations and NGOs.
We should show successful stories (this requires good planning and adaptive management).
We should always be open-minded and learn from mistakes.
We must be aware of the driving force behind aquaculture (i.e. technology, economic, food security needs, etc.).
The way forwardThe future of aquaculture in Malawi will depend not only on the Department of Fisheries (DoF) but also upon a range of partners and stakeholders. To ensure ownership (and partnership) of the process at all levels (producers, national, international institutions) we will need to prioritize what is doable to ensure optimum delivery for success. New ideas (not business-as-usual talk-shows), innovations and imagination will be required and channelled through new leadership arrangements based on communication, inspiration, integrity, focus and an output-oriented frame of mind. Ultimately, the sustainability of aquaculture in Malawi depends on:
political will (which we abundantly have);
enhancement of technical and managerial skills (both in DoF and farmers);
adequate human, technical and financial resources;
need to encompass global and national agendas;
partnership with national and international agencies;
need for research and scientific development.
Oyedapo A. Fagbenro
Federal University of Technology, Akure
The case for aquaculture in Nigeria, with a human population of over 100 million, extensive freshwater, brackish water and marine sites that could be exploited profitably for aquaculture production, is compelling. At present, Nigerian aquaculture is predominantly an extensive land-based system practised at subsistence levels in freshwater. Commercial aquaculture is yet to become widespread or popular. Only recently, the coastal region has become a focus of development. This paper presents an overview of aquaculture in Nigeria and examines its status, prospects and constraints to its development as a step towards using aquaculture as a tool for enhancing national food security through improved protein nutrition.
History of aquaculture in Nigeria
Artisanal fishermen and fishing communities in Nigeria have practised traditional methods of fish culture in tidal pools and floodplains for generations. These were extensive polyculture systems, which do not fall strictly under the modern definition of fish culture, that is "production under controlled conditions", and presently they do not play any significant role in the national economy. The first attempt at fish farming was in 1951 at a small experimental station in Onikan (Lagos State) culturing Tilapia species. Following disappointing results with tilapias, modern pond culture started with the establishment of a pilot fish farm (20 ha) in Panyam (Plateau State) for rearing the common/mirror carp, Cyprinus carpio. These trials generated sufficient interest to encourage regional governments to establish more fish farms.
At present, most Nigerian fish farmers operate small-scale farms, ranging from homestead concrete ponds (25-40 m2) operated by an individual farmer or family to small earthen ponds (0.02-0.2 ha) operated as part-time or off-season occupations by communities, institutions, associations or cooperative societies. In 1990, there were over 6 000 homestead concrete ponds, about 6 000 small earthen ponds and 100 commercial farms (>3 ha) in operation. Although the available water surface suitable for aquaculture has been estimated at 483 406 ha, the total area of production units is 5 000 ha. Both indigenous and introduced species are cultivated in ponds, reservoirs and cages. Tilapias (Oreochromis, Sarotherodon, Tilapia spp.), clariid catfishes (Clarias and Heterobranchus spp. and their reciprocal hybrids) and the common/mirror carp (Cyprinus carpio) are the most widely cultured fish in Nigeria, because of their fast growth rate, efficient use of natural aquatic foods, omnivorous food habits, resistance to disease and handling, ease of reproduction in captivity and tolerance to wide ranges of environmental conditions. The introduced carp is particularly suited to the middle belt and southwest zones of the country.
Present status of aquaculture in Nigeria
According to the FAO, Nigerias aquaculture industry produced over 30 000 tonnes of fish in 2000 (Table 1), mostly tilapias and catfishes, cultivated under intensive (commercial) and semi-intensive (artisanal) production systems. Despite this status, the potential for aquaculture is below optimum when compared with its potential, both biophysical and socio-economic. Nigeria has a coastline of about 960 km bordering an extensive mangrove ecosystem comprising lagoons, estuaries, wetlands and series of interconnecting creeks. The coastal zone covers an estimated 1 million hectares and offers considerable potential for commercial aquaculture. About 600 000 km2 and 400 000 km2 of potential land area for subsistence and commercial aquaculture, respectively, have been identified in all geographical zones of Nigeria, hence lack of suitable sites is not a constraint to aquaculture development. By and large, aquaculture development is government-driven, however, considerable involvement of the private sector has been reported. Despite these efforts and depressing statistics, aquaculture in Nigeria can be described as fairly well developed. The challenge to Nigeria, at this time, is to ensure that aquaculture takes its rightful place in the forefront of fish production to ensure national food security in the coming years.
Table 1. Nigerian aquaculture production in 2000, including culture-based fisheries in coastal and inland waters | |||
Species | Tonnes | ||
Tilapias | (Oreochromis niloticus, O. niloticus x O. aureus hybrids) | 11 363 | |
| (Sarotherodon melanotheron, Tilapia zillii, T. guineensis) | 3 025 | |
Freshwater Catfishes | (Clarias gariepinus, C. anguillaris) | 6 553 | |
| (Heterobranchus spp., Clarias x Heterobranchus hybrids) | 2 832 | |
Brackish water catfish (Chrisichthys nigrodigitatus) | 1 515 | ||
Carps (common carp, Indian carps, gold fishes) | 1 280 | ||
Heterotis niloticus | 654 | ||
Mullets | 336 | ||
Snakehead (Parachanna obscura) | 297 | ||
Other fishes | 2 921 | ||
Total | 30 776 |
Constraints to aquaculture development in Nigeria
Skilled personnel
Aquaculture is a multi-disciplinary endeavour. Therefore, adequately trained personnel with a broad multi-disciplinary orientation who are capable of identifying and addressing deficiencies in aquaculture production project are vital. The shortage of such well-trained staff is a major constraint to aquaculture development in Nigeria. In an effort to combat this shortage, the government has established 20 Universities, including three Universities of Agriculture and four Universities of Technology, which offer undergraduate and post-graduate courses in fisheries/aquaculture. In addition, three Colleges of Fisheries and 10 Colleges of Agriculture have diploma programmes for the technical personnel. Also, three national research institutes are dedicated to fisheries and aquaculture research.
Fingerlings
At present, wild eggs, fry, fingerlings and juveniles comprise the bulk of fish seed available for subsistence aquaculture in Nigeria. Stock quality and quantity are unreliable; they cannot form the basis for commercial/intensive aquaculture. Many rural fish farmers are dependent on government support for fish seed. Even with government subsidy, fish seed prices are generally high, constituting 25 percent of operation costs. Two factors keep fingerling prices high: inefficient government breeding centres and limited supply from private hatcheries. Success has been recorded in the hatchery production of monosex tilapias, common carp, clariid catfishes, including the hybrids of Clarias and Heterobranchus (Table 2).
Table 2. Fish seed production (millions) in 2000 | |||
Fish species | Government Projects | Private Hatcheries | Total |
Monosex (hybrid) tilapias | 1.5 | - | 1.5 |
Clariid catfishes (including hybrids) | 4.5 | 10.0 | 14.5 |
Carps (common and Indian major) | - | 2.5 | 2.5 |
Total | 6.0 | 12.5 | 18.5 |
The technology for breeding, selected popular species out of season has been developed, standardized and made available to farmers, however, the high cost and local scarcity of imported synthetic hormones remains a problem. There are 20 fish seed multiplication projects funded by the government and sited all around the country. These projects are in different stages of disrepair and neglect.
Fish feeds
The absence of a fish feed industry is a second major constraint to aquaculture development in Nigeria. Semi-intensive and intensive aquaculture production systems involve input of supplementary and complete feeds, which account for up to 40 percent and 60 percent of production costs, respectively. The majority of fish feeds produced, 69.75 percent, are farm-made although some commercial feed pellets are produced on demand by a few animal feed millers. The two main feeds produced are one containing 30-35 percent crude protein for herbivorous/omnivorous species and one containing 45-50 percent crude protein for carnivorous species. In 2000, the Nigerian aquaculture industry consumed an estimated 35 570 tonnes of feed (Table 3).
Table 3. Nigerian fish feed production (tonnes) in 2000 | |||
Feed type | Farm-made | Commercial | Total |
Tilapia (low-protein) | 14 258 | 6 554 | 20 812 |
Catfish (high protein) | 10 552 | 4 206 | 14 758 |
Total | 24 810 | 10 760 | 35 570 |
Credit
Another limiting factor to aquaculture development in Nigeria is credit. There are both formal and informal sources of financing in Nigeria. The relative ease of obtaining credit without administrative delays, non-insistence on collateral and flexibility in repayment programmes make the informal sources very popular among small-scale fish farmers. However, they have limitations, such as small size of loans and high interest rates. Formal sources of credit, banks and cooperatives, lend at regulated interest rates but normally require some collateral. Bank officials consider aquaculture a high-risk venture and this does not encourage loan processing. There is often a widespread distrust of these financial institutions, especially in rural areas, because of bureaucratic procedures, delays and strict terms.
Future outlook of aquaculture in Nigeria
While continuing support to smallholder aquaculture, commercial aquaculture must also be encouraged through the dissemination of existing research results to entrepreneurs via extension agents. This would ensure that project failures are kept to a minimum, new entrants are encouraged into aquaculture and that project design and implementation is based on solid biology and economics. Projects must be market-driven as much as possible, with government subsidies kept to a minimum. Ultimately, aquaculture must pay its way, like any other business.
There is a clear need for integration of aquaculture with other agricultural practices. Aquaculture in conditions of limited water supply must be integrated into a multiple water use paradigm, such as irrigation/aquaculture/livestock and horticultural practices, especially vegetable production. Such integration creates synergy in resource exploitation and kindles interest in aquaculture among new entrants who are already conversant in animal husbandry.
The extensive creeks in the Niger delta could be ranched in the manner that milkfish (Chanos chanos) is currently produced in the Philippines. The development of cage culture in reservoirs and farm dams, as well as the tank-based fish culture in peri-urban sites, will enhance fish culture production. Furthermore, integrated rural development models in Nigeria must make aquaculture a central component and not peripheral, as has been the tradition up to now. To a large degree, the government is deeply involved and is an active player in aquaculture development. It is now generally accepted wisdom in development economic circles that government is not an ideal innovator. The role of government, therefore, must be transformed to that of provider of nutrients for aquaculture by providing good legislation, credit schemes, infrastructure and a general enabling environment.
A viable approach to aquaculture development in Nigeria must include long-term technical extension as well as long-term financial and marketing assistance directed at well-defined and promising target groups. Projects must have commercial viability so that aquaculture can become a success story, a generator of income, employment and food. External assistance will be essential, but it should be planned more carefully and designed with longer time frames to be sustainable.
Mohamed F. Sheriff
Ministry of Fisheries and Marine Resources
Sierra Leone lies between 7o N and 10o N, and between 10o 30 W and 13o W. It is bordered to the Northwest, North and Northeast by the Republic of Guinea and to the Southeast by Liberia. The population is estimated at about 4 million (1985 census). The fisheries of Sierra Leone are divided into three major sectors:
The artisanal fishery operating in estuaries and inshore waters extending from the shoreline to a depth of 15-45 m.
The industrial fishery operating in the open deep sea waters whose fleets include trawlers, shrimpers, canoe support vessels (motherships) and carriers.
Inland fisheries and aquaculture. The inland fishery is mostly in rivers, a few lakes, floodplains and swamps with a total estimated annual production of 15 000 tonnes. In aquaculture, the species of fish and shellfish that have been cultured include mullets, catfish, tilapia and oysters. None of them has been commercialized.
Riverine floodplains are widespread, particularly in the southern coastal belt and inland lowlands. At present, these ecosystems are used on a subsistence basis. However, the integration of fish and rice culture on a commercial scale offers a good potential for fish production from inland valley swamps, the riverine floodplains and boliland areas.
Rationale for aquaculture development
Fish supply in Sierra Leone is largely from capture fisheries. The current fish production from the marine environment, consisting mostly of industrial and artisanal fisheries, is about 70 000 tonnes of fish annually. Artisanal fisheries are the main source of protein for a large majority of Sierra Leoneans whilst the industrial sector generates employment and revenue. Inland fisheries in Sierra Leone are not well developed and are characterized by primitive technology. Aquaculture, on a commercial basis, has never taken off, but the potential for protein supply from this source and generation of income and employment in rural households could be immense.
The ministry has realized for a long time that fish farming can be a viable alternative to capture fishing, not only for increasing protein availability, but for improving household economies, employment, etc. In this respect, the main priority for the ministry after the war has been the provision of community ponds in various chiefdoms in non-coastal districts.
Over recent years, average per capita fish consumption has declined significantly, attributed to declining catches from the marine fisheries resulting from probable overfishing, loss of fishing equipment by artisanal fishermen due to the war and reduction in the industrial fishing fleet. In order to boost fish production, the ministry has re-oriented its strategy by placing emphasis on fish farming in its policy documents.
Aquaculture practices in Sierra Leone
Experimental fish culture
The ministry had experimental fish farming stations in Bo (12 ponds of 425-900 m2) and Makali (8 ponds of 300-400 m2). They were established with the expressed purpose of propagating commercial fish ponds in the provinces by acting as centres for fingerling production of Oreochromis niloticus. These breeding stations provide source of fingerlings for distribution to various parts of the country for propagation. These experimental ponds were abandoned during the war but have now been rehabilitated by the African Development Bank/Government of Sierra Leone Marine Fisheries Project and the Department of International Development (DFID). An experimental oyster culture project was implemented in Sierra Leone between the late 1970s and early 1980s. The projects main aims were to develop an improved technique for culturing West African Mangrove Oysters (Crassostrea tulipa), commercial production and marketing of improved cultured product, enhanced growth performance and quality. The biological studies included fouling, seed collection and separation as well as growth. Economic analyses of various culture techniques were undertaken and the study established that the raft culture method was an economic and viable method of commercially producing oysters in Sierra Leone. The extension phase of the project was, however, not successful as commercial oysters farmers did not take up the new technique. The reasons for this unsuccessful phase were attributed to initial investment cost, availability of materials, etc. In the late 1980s, the Sierra Fishing Company undertook feasibility studies for shrimp mariculture. The ministry is desirous of promoting this culture technique. Sierra Fishing Company has now indicated their willingness to try shrimp culture on a commercial basis. Likewise, cage culture has never been practised in Sierra Leone but the private sector is being wooed to invest into this culture technique.
Subsistence fish culture
Tilapia culture is being conducted at subsistence levels in the interior of the country. With funds from the Highly Indebted Poor Countries (HIPC) initiative, the ministry rehabilitated disused ponds and constructed over 60 community ponds in various regions of the country, each with a surface area of 400 m2. The strategy is to make fresh fish available to non-coastal regions in the country through community training and participation in fishpond management. The experimental stations at Bo and Makali have been utilized as sources of fingerlings for the community ponds. Due to its resilience and sturdiness, tilapia have been successfully cultured in Sierra Leone and continue to be the main species for propagation. The initial seed for culture of this species was obtained from Ivory Coast nearly 20 years ago. Continuous inbreeding has now had a negative effect on the performance and quality of this species resulting in poor growth. The ministry is now looking at the possibility of promoting the culture of other species like catfish, carp and other species of tilapia.
The future for aquaculture in Sierra Leone
Undoubtedly, fish farming can offer real hope to communities far removed from natural water bodies in terms of protein supplement, employment, cash income and stability. But the prospects for commercial fish farming have never come to fruition because of impediments like:
poor extension;
inadequately trained middle-level labour force;
poor logistics, including vehicles, motor-bikes and bicycles, etc.;
little scientific application.
Recently, great interest has been shown by donor agencies and the private sector in fish farming in the country. There are proposals for consideration by the Arab Development Bank, FAO, private citizens and others. Our President, Alhaji Ahmad Tejan Kabba, has pronounced that no Sierra Leonean should go to bed hungry by the year 2007. We intend to attain the bulk of the fish component of this food security through aquaculture.
Wilson Mwanja
Ministry of Livestock, Animal Industry and Fisheries
In Uganda, small-scale farmers can be characterized as largely poor, practicing aquaculture mainly as part of a subsistence farming system. Ponds are usually <500 m2 and constructed by family labour. There are low or no inputs with little or no routine management. Those with some training usually fertilize with chicken droppings, cow dung and other organic wastes.
Stocking of ponds is usually unplanned or at least unquantified and is in most cases at very low densities with seed received from a neighbour, relative or fellow farmer, usually at little or no cost. At the small-scale level, aquaculture serves to diversify the farm by utilizing land (wetland) that the farmer would not ordinarily engage for production. The presence of wetland and some basic information on fish farming are the driving inducements for adopting aquaculture at this level. Consequently, even when production is good, there is no drive for the fish farmer to harvest for market; instead it is harvested whenever the family wants to eat fish. With fertile land, a well-aerated pond and adequate water supply, small-scale fish farmers are able to meet their animal protein requirements and even extend a hand to neighbours, friends or relatives. Occasionally, they also sell some extra fish on the pond bank at locally depressed prices. Ponds are normally stocked once and depend on reproduction within the pond for replenishment. Production is usually in the range of 5-10 kg/100 m2 pond surface or 500-1000 kg/ha/year. In Uganda, the number of small-scale ponds is estimated at 11 000-15 000 of which nearly 80 percent are currently active.
Constraints to growth
Despite 50 years of aquaculture in the country, the technical expertise available to the sector is very limited. Mid-level training at the Fisheries Training Institute only started in late 1980s. The National University had its first graduates in Fisheries and Aquaculture only in 2003. Prior to last year, university graduates (including the author) were given only theoretical information on fish culture with no practical or technical training. Specialized training was only available outside of the country.
Limited expansion and growth of aquaculture has also been attributed to its failure to integrate into the local economy and/or the existing farming system. As a stand-alone enterprise, aquaculture faces resistance from risk-averse, small-scale farmers. Current efforts are aimed at encouraging would-be fish farmers to use technology that can create synergies with other farm enterprises, thus increasing production and profits, while lowering overall risk within the farming system. A better understanding of markets will also help aquaculture accommodate local fish consumption patterns. Expansion of aquaculture depends on the availability of good extension, credit and farm inputs, especially quality seed. Until 1990, Uganda produced only about 50 000 quality fingerlings a year from a single source - the national Aquaculture Research and Development Center. As a response to the market which was created under a national stocking programme for small dams, over 50 private hatcheries have been established, producing some 10-20 million fingerlings annually. The availability of fingerlings and fish reproduction expertise has opened the door for some limited improvement in aquaculture production. However, inputs at smallholder level and lack of credit to purchase inputs remain strongly limiting factors.
A market-driven transition
With rising market prices for fish, increased government support, the demand for agriculture options and stagnant supply from capture fisheries, farmers are beginning to adopt larger ponds of >1 000 m2 and higher stocking densities, especially for African catfish, Clarias gariepinus. The profit motive has been behind this latest surge in interest in aquaculture, and farmers with access to land and labour are enlarging their ponds both in size and number. Increasingly, seed is procured from specialized private commercial hatcheries.
More and more farmers are planning their production around markets and are searching for technical assistance from private technical service providers. The current estimate is that 20 to 30 percent of subsistence ponds have been transformed into profitable small-scale production units. We are beginning to see more organized marketing of farmed fish where fish are either sold into more lucrative urban markets or processed (salted and sun dried) for off-season or sale in areas where fish are in short supply. The key motivators for these changes are increased fish demand/prices and increased access to quality seed, which had frustrated the farmers in the past. Also associated with this improvement in production is the entry into aquaculture of the "middle-class" Encouraged by the potential for profit, a number of middle-class people and traders with land and water have taken on fish farming as an added activity on their farms.
In addition, a few of these middle-class farmers have made the transition to "commercial" aquaculture. We are now seeing the emergence of farmers who are willing to pay for private technical expertise, use more intense planning and grow fish for targeted markets. These farmers are driven purely by profit and are in turn driving the growth of aquaculture infrastructure such as hatcheries that can produce quality seed in the quantities demanded and in the proper season for stocking. There are about 2 000 of these new farms with total pond surfaces in the range of 1 500 to 40 000 m2, representing 20 to 30 percent of active pond surface. Most began as hatcheries targeting the dam stocking programme as a market, but are now diversifying into grow-out of foodfish. Production technology on these commercial farms remains, however, extensive.
Industrial and/or more intensified fish culture is only beginning to take root in Uganda. Most industrial farms are either in the stage of putting infrastructure in place or just beginning production. Industrial aquaculture is capital intensive and based on experienced technical expertise, often in the form of foreign technicians. Commercial fish feed production is only just starting, with trials currently being conducted by one company. The targeted market for industrial aquaculture is primarily the underutilized fish processing capacity resulting from declines in the Lake Victoria fishery. Most of companies or firms in this category plan to use small commercial fish farms in out-grower schemes where they provide the basic inputs including seed and feed in return for purchase at a negotiated price of fish produced.
Government action
In an effort to improve production, the Department of Fisheries Resources has recently put in place a number of initiatives, the impact of which is being monitored. These include the following:
The typical government extension officer is far removed from realities on the ground and generally lacks the practical knowledge of fish culture that would permit him to make feasible suggestions to farmers. Ultimately, the government hopes that the need for technology can be supplied by community-level technicians trained in "hands-on" practical aquaculture. In the meantime, bilateral arrangements have been made with Egypt and China to provide such expertise and assist in training.
Advocating an economically realistic minimum pond facility of at least two ponds of minimum 1 000 m2. Farmers following these recommendations will qualify for improved seed procured through government subsidies.
Issuing appropriate pond management guidelines, including pond construction, pond preparation and conditioning, fertilization, flood control and drainability.
Advocating production and use of quality seed. Realizing that lack of quality seed was a big impediment to small-scale aquaculture, we moved to discourage farmer-to-farmer supply and made regulations that allow only for seed distribution by approved hatchery operators with demonstrable ability to deliver quality seed.
A major limiting factor to further expansion of aquaculture production at all levels has been the lack of fish feeds and/or lack of knowledge on their formulation, especially at the small-scale level. We are planning an approach similar to that used with quality seed to promote the use of appropriate fish feeds.
Cognizant of the limitation of small-scale farmers to procure quality seed, properly manage fishponds, market the fish and restock without assistance, the government is encouraging the development of commercial outgrower (satellite) schemes. Large seed producers with limited grow-out capacity are being asked to enter into agreements with small-scale farmers whereby the large farms provide basic inputs in exchange for marketable fish at preferential prices.
To ensure that farmers have access to appropriate technology, government has continued to fund the National Aquaculture Research and Development Centre. Participatory on-farm research and trials are expected to produce technology options appropriate to the small-scale farmers situation.
Other government interventions include:
- aligning small-scale aquaculture with the newly privatized extension service, the National Agriculture Advisory System (NAADS);
- searching for appropriate credit mechanisms;
- encouraging market-oriented aquaculture at all levels;
- creating farmer groups that can help farmers access services and markets;
- helping farmers to process and market farmed fish.
Through the above interventions, the Government of Uganda has been able to move aquaculture production from less than 300 tonnes to nearly 5 000 tonnes per year in only 4 years time. With the private sector driving the process, we expect aquaculture at all levels to progress rapidly toward the set goal of 20 000 tonnes by 2006, 40 percent of which is expected out of improved small-scale aquaculture production units.
Farayi Zimudzi
FAO Subregional Office for Southern and East Africa, Harare
Aquaculture was introduced into Zimbabwe in the 1950s with a programme initiated by the colonial administration to develop trout farming, the stocking of dams and sport fishing, which by the 1980s had grown into some 52 commercial farms using modern technology.
Some limited culture of tilapia was also started and in the early 1990s this subsector was producing about 80 tonnes per annum of tilapia, carp and catfish from an estimated 40 ha of small-scale ponds.
Since the 1980s the situation has changed considerably. The commercial aquaculture sector has consolidated, and by the mid-1990s half of the farms were out of business. The number of small-scale farmers was also considerably reduced. At least, a part of these declines can be attributed to political turmoil, in particularly the reorganization of the two ministries (Agriculture, in charge of extension, training and seed production; Wildlife, primarily in charge of research and regulation) involved in promoting and supporting aquaculture development.
In addition, the socio-economic status of the country has declined over the last four years as a consequence of the governments land redistribution programme. Declines in disposable income among consumers have been accompanied by loss of capacity in the feed sector, reduced budgets for research and extension and wholesale alteration of the agricultural sector in general. Nascent fish farmer associations, both large- and small-scale, have become moribund during the period of economic hardship.
Despite all this, the extension services continue to try to support the growth of the aquaculture sector. Regular weeklong courses are held for field-based agents. In addition, farmer training is provided for in both ad hoc and more formal settings as budgets allow. Researchers working in the area of fish reproduction and breeding are making fingerlings available to farmers. These are distributed free of charge by the extension services.
The Zimbabwe climate is good for aquaculture and potential is considered to be high, both in terms of market and the biotechnical factors involved in production. The main constraints/challenges to aquaculture development in Zimbabwe can be summarized as:
Macro-economic environment:
limited opportunities to access funds as international financing is currently frozen;
high cost of key inputs, especially feeds;
low disposable incomes within the local market.
Institutional capacity:
fragmented & "misplaced" responsibilities;
declining quantity and quality of. trained and experienced staff;
inadequate funding;
seemingly permanent state of flux in key institutions.
Lack of effective aquaculture development strategies:
Potential of aquaculture to provide opportunities for economic growth not appreciated.
Aquaculture viewed as a sideline, hobby type activity.
[7] Includes the ministry in charge of aquaculture, the national research institute and the government extension service. [8] Includes producers, investors (in both fish farming and related sectors), non-governmental organizations (NGOs), commercial banks, universities and development agencies. [9] Including commercial and tradable feeds, feed materials and other nutrient inputs. [10] Credit is not generally considered appropriate for non-commercial aquaculture (FAO, 1999). [11] Relevant information from a variety of sources should be collated by research agencies for this purpose. [12] Researchers merit increases should be linked to on-farm results rather than publication record. |