Farmer Research Committee

Farmer Research Committees (also known in Latin America as Comites de Investigacion Agropecuario Local or CIALs ) are an approach to community organizing and agricultural extension that provides rural communities and farmer organizations in developing countries with an adaptive research and technology testing service run by volunteer farmers. This approach to agricultural innovation is used in international development and rural community development for improving adoption of appropriate technology and the development of sustainable agriculture. The approach involves collaboration and joint decision-making among extension agents, farmers and researchers to develop locally acceptable farming practices and accelerate their adoption. Farmer Research Committees also produce a broad set of benefits that are generally referred to as empowerment,including the increased self-esteem and effectiveness of farmers to organise and negotiate with extension service and agricultural input providers, market chain actors, banks and politicians.[1]

Farmer Research Committees do adaptive research experiments to help farmers manage the risk of trying something new that extension has not validated under local conditions. In Latin America, numerous Farmer Research Committees have been particularly effective in evaluating and selecting new varieties and multiplying seed, enabling large numbers of farmers to access a new variety at low cost, improve their food security, generate employment and increase their income. On a lesser scale, Farmer Research Committees have worked on small machinery, fertilisers or pest and disease control regimes, enabling the adoption of cost-effective strategies in which local farmers have confidence. Farmer Research Committees may have an important role to play in rural communities' adaptation of their agriculture to climate change and globalization because they increase community-level innovative and adaptive capacity by strengthening its human and social capital.[2]

In contrast to Farmer Field Schools which are intended to transmit proven extension recommendations to farmers using experimentation for discovery learning, Farmer Research Committees set out to generate new recommendations.Their results are usually a novel blend of what was already known and what was unknown, drawing on both indigenous technical knowledge and external resources. Farmer research committees and farmer field schools can be highly complementary, as is discussed in more detail below

Costs

Most of the costs of establishing a Farmer Research Committee are a one-off investment incurred during the first year for training and a petty cash or inputs fund for operations.

  • Training of a facilitator, who may be a salaried extension professional or a para-professional farmer, involves a 5-day, on-site course and then follow-up visits by trainers to reinforce field practice. In Latin America, trainers use cellphones and the internet to mentor trainees. Numerous professionals experienced in Farmer Research Committee training exist in Latin America.[3]
  • Training a Farmer Research Committee involves learning by doing: in the first planting season (usually 4–6 months in the tropics), the facilitator mentors the Committee through a six step process.In the second season, the majority of steps in the process are delegated to the committee, the facilitator’s visits are reduced significantly and costs drop by as much as 50 percent. By the third planting system, a Committee is mature and can run its own process with minimal contact with a facilitator.[4] Some mature Committees in Latin America have been running their own process in this way for over 5 years.[5]
  • In Latin America the start-up fund for Committee operations can range from US$25 to US$200 in cash or kind, depending on the costs of experimental inputs not available locally.[6] The average yearly cost for running a Committee was estimated at US $325 over six years in the late 1990s.[7] In approximately 50% of the 200 or so farmer research committees established in Latin America by 2003, 50 percent had maintained or increased the size of this fund, in some cases by selling seed of new varieties they were recommending, in other cases from local contributions.

Farmer Research Committees need a lively and sustained communication with external sources of information and technology to keepon bringing innovations into their experiments. When cellphone coverage exists this can be achieved through cellphone contact and this helps to reduce costs further. A facilitator can support from 20 to 50 mature Farmer Research Committees, depending on distances between them and the availability of cell phones.

Reduced cost

Farmer Research Committees enable a research and extension program to improve its relevance and at the same time, expand its coverage at low cost, or reduce its costs for existing coverage. Extension costs can be reduced while quality improves because the Committee is a mechanism which encourages farmers to assume some of the costs of adaptive testing and extension of technologies. After training, a Farmer Research Committee takes over the implementation and evaluation of on-farm trials over a multi-year period with minimal outside facilitation, and assumes the job of informing its community of its results on a regular basis. When Farmer Research Committees recommend locally-proven seed and input-use practices, they and their neighbors know they can have confidence in this information, and this accelerates adoption and innovation. At least 200 pilots of this methodology in Latin America demonstrate the type of support needed to keep a mature farmer research committee running over time and how this enables a small number of technical professionals to accelerate and expand acees of the poor to innovation.

Why are farmers organized in farmer Research Committees willing to assume some of the costs of adaptive testing and extension? The answer lies in thousands of studies of agricultural technology adoption by poor farmers in developing countries. These show how some farmers in a community will always conduct small-scale experiments on their farms[8] to check out whether a blanket recommendation or a technology package from an extension agent actually works in their conditions These studies also show how other farmers will wait to see how these experimenters fare before they too take the risk of innovating. This makes sense because the poor are usually farming in highly unpredictable and risky production environments, for which it is extremely expensive for an extension system to develop precise recommendations. The best these services can do is to come up with technologies that, on the average, are likely to do well. But poor farmers need–and practise—precision farming: they deliberately maximise diversity within small areas on their farms to protect themselves from the risk of a bad season in one micro-environment, or one disease or pest or crop or variety. As a result, farmers are rightly cautious about adopting blanket recommendations, and they do their own on-farm testing to check these recommendations out.

Farmer Research Committees harness a huge, underutilized resource: the time and money poor farmers spend tinkering with technologies they don’t fully trust or understand. This is why experimenting farmers willingly volunteer as Committee members, even if they are very poor, and why they are willing to absorb the costs of adaptive testing done in Committee. A Farmer Research Committee socializes the local experimentation that is ongoing on every farm to some degree, and makes this activity more systematic, better informed and more efficient for a larger number of beneficiaries. Farmers who volunteer and are elected to be members of Farmer Research Committees are nominated by their communities because they are known to be already investing in a lot of their own local experimentation. When these farmers experiment in a group, they can replicate their experiments and learn much faster, so the return on their time and other investments increases in group experimentation compared with the idiosyncratic experimentation they do on their own.

Function

A Farmer Research Committee can be elected by any kind of client group or organizations wanting to test and adapt agricultural technology: for example, a community, a rural self-help group,a producer association or a cooperative. The Committee enables the farmers it serves to express their demand for new technology and to participate in setting priorities for local testing, as well as in designing, evaluating and disseminating appropriate technologies. Because a Committee is elected (and members can be replaced) and has to report back regularly on its results and its use of funds to its clients, this service is accountable and so ensures that only appropriate technologies are recommended locally.

Formation

The proper motivation of client groups and the nomination of committee members are crucial to success. Like all group formation processes in rural communities, Farmer Research Committees are vulnerable to being captured by an elite unless the appropriate precautions are taken to ensure a Committee represents a reasonably homogeneous set of interests in a shared agro-ecological recommendation domain. A committee can include a few as four or as many as 40 members, depending on the socio-cultural context. Members who do not put in the time or effort considered necessary by the community or client group can be replaced.

Planning Farmer Research Committees can be greatly assisted by combining the use of a Geographical Information System (GIS) with wealth ranking, a participatory rural appraisal (PRA) tool. An extension system should have at least one Farmer Research Committee per recommendation domain and organize regular contact among Committees for exchange of results.

Diagnosis and planning

Once elected, a committee organizes a diagnostic process in which all its clients participate to identify a local priority for research.Topics include for example, testing crop varieties, pest control regimes, fertilisers, livestock feeding strategies, producing and marketing new products or alternate soil erosion control technologies. The most important feature of a Committee's research topic is that it tries to solve an important local problem and that there is no readily-available and reliable knowledge of how to solve it already in existence. The diagnostic process involves the Committee in talking to experienced farmers in their locality and visiting experiment stations, agricultural input suppliers and extension offices.By the end of the diagnosis they either have found a solution to the problem or have found several alternative solutions and are not sure which one will be best.

Experimentation

If the Committee finds that locally-proven technologies are available, it asks farmers experienced with the technology to help them with community-wide training. If however, Committee members are not sure about what will work locally, then they then work with their facilitator or extension agent to design an experiment that will compare several unproven solutions. These may be of local or external origin. Farmer Research Committee experiments typically begin with several treatments compared with local practice tested on a very small scale. Over time, the number of treatments is reduced and the size of the experimental plots is increased until one or more technologies are being validated at commercial scale. Committee experiments are usually replicated on the members own farms but the Committee members may also ask other farmers to join in and plant or evaluate experiments.

Farmer Research Committee experiments are evaluated using methodology for farmer evaluation of technology (Guererro, Ashby & Gracia, 1993). This can be applied by farmers to very large or small numbers of treatments to generate a qualitative ranking based on their own criteria for evaluation. The ranking is easy for farmers to understand and report back to the Committee’s clients. At the same time a statistical packagefro the analysis of rankings is available for use by technical extension staff, if desired.

Reporting back

Reporting back involves a Farmer Research Committee in making a regular, formal report on its activities, its results and how it has used its funds to its community or client group. This is a crucial activity that socializes what has been learned from the diagnosis and experimentation by the Farmer Research Committee. Sometimes facilitators neglect this step and focus on developing the capabilities of the committee members, but this gravely under-exploits the Committee’s potential for wider impact and means that dissemination of the knowledge they generate is unnecessarily restricted to the Committee. In addition, reporting back is essential for keeping the Committee accountable for its use of funds and relevant to local priorities.

Committees that are reporting back often invite extension, local politicians, input suppliers, business people and experiment station researchers to this meeting. This is especially useful once a Farmer Committee has validated technology at commercial scale and farmers want to expand production. Some Committees have in this way, convinced local politicians to contribute to their operational costs or to sponsor more committees. Some Committee members have been elected as local political representatives, expanding the credibility of Farmer Committees and demand for their services.

Farmer Field Schools

The principal mechanisms for dissemination of Farmer Research Committee's results and recommendations are their day-to-day contact with neighbors and their Report Back meeting. However, local farmers may need training in how to implement the Committee’s recommendations or if the Committee finds a solution that needs no further experimentation, nobody in the community may know how to use it. Running Farmer Field Schools to provide training using Farmer Research Committee recommendations is highly advantageous as it gets locally-relevant, locally validated knowledge out to a larger number of farmers than the Committee can usually contact on its own.

See also

Notes

  1. Derek Byerlee. "Enhancing Accountability and Impacts of Agricultural Research Systems in Developing Countries". Crop Science Congress. Retrieved 27 March 2012.
  2. Jaquiline Ashby, Ann Braun, Teresa Gracia, Maria del Pilar Guerrero, Luis Hernandez, Carlos Quiros, and Jose Roa (May 2000). "Investing Farmers" (PDF). ciat.cgiar.org. Retrieved 27 March 2012.
  3. For further information see Andean Change Program (Cambio Andino) Directory of Trainers http://www.cambioandino.org/directoriocapacitadores.shtml
  4. Ashby, J.A., Gracia, A.T., Del Pilar Guerrero, M., Quiros, C.A., Roa, J.I. and Beltran, J.A. 1995. Institutionalizing farmer participation in adaptive technology testing with the “CIAL.” ODI Agricultural Research and Extension Network. Network Paper 57.
  5. J. A. Ashby, A. Braun, T. Gracia, M.P. Guerrero, L.A. Hernandez, C.A. Quiros & J.I. Roa. 2001.Investing in Farmers as Researchers: Experience with Local Agricultural Research Committees in Latin America. CIAT, Cali, Colombia.
  6. Ashby et al., 1995;http://go.worldbank.org/Z5B4XVXP00 World Bank Agriculture Investment Sourcebook. Module 2 - Local Agricultural Research Committees
  7. A. R. Braun, G. Thiele and M. Fernandez.2000. Farmer field schools and local agricultural Research committees: complementary platforms for integrated decision-making in Sustainable agriculture. ODI Agricultural Research and Extension Network .Network Paper No.105:12
  8. Richards, P. 1985. Indigenous Agricultural Revolution.Ecology and food production in West Africa. London:Hutchinson; B. Haverkort, J. van der Kampand A. Waters-Bayer (eds) 1991. Joining Farmers’Experiments: Experiences in participatory technology development. London: Intermediate Technology Publications

Sources

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