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Co-design of improved climbing bean production practices for smallholder farmers in the highlands of Uganda

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  • Ronner, E.
  • Descheemaeker, K.
  • Almekinders, C.
  • Ebanyat, P.
  • Giller, K.E.

Abstract

We evaluated the usefulness of a co-design process to generate a relevant basket of options for climbing bean cultivation in the context of a large-scale project. The aim was to identify a range of options sufficiently diverse to be of interest for farmers of widely-different resource endowment. The co-design process consisted of three cycles of demonstration, evaluation and re-design in the eastern and southwestern highlands of Uganda in 2014–2015. Evaluations aimed to distinguish preferences of farmers between the two areas, and among farmers of different gender and socio-economic backgrounds. Farmers, researchers, extension officers and NGO staff re-designed treatments for demonstrations in the next season. Climbing bean yields and evaluation scores varied between seasons and sites. Evaluation scores were not always in line with yields, revealing that farmers used multiple evaluation criteria next to yield, such as marketability of varieties, availability of inputs and ease of staking methods. The co-design process enriched the basket of options, improved the relevance of options demonstrated and enhanced the understanding of preferences of a diversity of users. Developing options for resource-poor farmers was difficult, however, because they face multiple constraints. The basket of options developed in this study can be applied across the East-African highlands, with an ‘option-by-context’ matrix as a starting point for out-scaling. The study also showed, however, that consistent recommendations about the suitability of technologies for different types of farmers were hard to identify. This highlights the importance of a basket of options with flexible combinations of practices rather than developing narrowly specified technology packages for static farm types.

Suggested Citation

  • Ronner, E. & Descheemaeker, K. & Almekinders, C. & Ebanyat, P. & Giller, K.E., 2019. "Co-design of improved climbing bean production practices for smallholder farmers in the highlands of Uganda," Agricultural Systems, Elsevier, vol. 175(C), pages 1-12.
    • Handle: RePEc:eee:agisys:v:175:y:2019:i:c:p:1-12
    DOI: 10.1016/j.agsy.2019.05.003
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    as
    1. Salembier, Chloé & Segrestin, Blanche & Berthet, Elsa & Weil, Benoît & Meynard, Jean-Marc, 2018. "Genealogy of design reasoning in agronomy: Lessons for supporting the design of agricultural systems," Agricultural Systems, Elsevier, vol. 164(C), pages 277-290.
    2. Prost, Lorène & Reau, Raymond & Paravano, Laurette & Cerf, Marianne & Jeuffroy, Marie-Hélène, 2018. "Designing agricultural systems from invention to implementation: the contribution of agronomy. Lessons from a case study," Agricultural Systems, Elsevier, vol. 164(C), pages 122-132.
    3. Sumberg, James & Okali, Christine & Reece, David, 2003. "Agricultural research in the face of diversity, local knowledge and the participation imperative: theoretical considerations," Agricultural Systems, Elsevier, vol. 76(2), pages 739-753, May.
    4. Bellon, Mauricio R., 2001. "Participatory Research Methods For Technology Evaluation: A Manual For Scientists Working With Farmers," Manuals 23717, CIMMYT: International Maize and Wheat Improvement Center.
    5. Wood, Stanley & Sebastian, Kate & Nachtergaele, Freddy & Nielsen, Daniel & Dai, Aiguo, 1999. "Spatial aspects of the design and targeting of agricultural development strategies:," EPTD discussion papers 44, International Food Policy Research Institute (IFPRI).
    6. Defoer, Toon, 2002. "Learning about methodology development for integrated soil fertility management," Agricultural Systems, Elsevier, vol. 73(1), pages 57-81, July.
    7. Le Gal, P.-Y. & Dugué, P. & Faure, G. & Novak, S., 2011. "How does research address the design of innovative agricultural production systems at the farm level? A review," Agricultural Systems, Elsevier, vol. 104(9), pages 714-728.
    8. Kraaijvanger, Richard & Veldkamp, Tom & Almekinders, Conny, 2016. "Considering change: Evaluating four years of participatory experimentation with farmers in Tigray (Ethiopia) highlighting both functional and human–social aspects," Agricultural Systems, Elsevier, vol. 147(C), pages 38-50.
    9. Chloé Salembier & Blanche Segrestin & Elsa Berthet & Benoit Weil & Jean-Marc Meynard, 2018. "Genealogy of design reasoning in agronomy: Lessons for supporting the design of agricultural systems," Post-Print hal-01810426, HAL.
    10. Rufino, M.C. & Dury, J. & Tittonell, P. & van Wijk, M.T. & Herrero, M. & Zingore, S. & Mapfumo, P. & Giller, K.E., 2011. "Competing use of organic resources, village-level interactions between farm types and climate variability in a communal area of NE Zimbabwe," Agricultural Systems, Elsevier, vol. 104(2), pages 175-190, February.
    11. Tittonell, P. & van Wijk, M.T. & Herrero, M. & Rufino, M.C. & de Ridder, N. & Giller, K.E., 2009. "Beyond resource constraints - Exploring the biophysical feasibility of options for the intensification of smallholder crop-livestock systems in Vihiga district, Kenya," Agricultural Systems, Elsevier, vol. 101(1-2), pages 1-19, June.
    12. Giller, K.E. & Tittonell, P. & Rufino, M.C. & van Wijk, M.T. & Zingore, S. & Mapfumo, P. & Adjei-Nsiah, S. & Herrero, M. & Chikowo, R. & Corbeels, M. & Rowe, E.C. & Baijukya, F. & Mwijage, A. & Smith,, 2011. "Communicating complexity: Integrated assessment of trade-offs concerning soil fertility management within African farming systems to support innovation and development," Agricultural Systems, Elsevier, vol. 104(2), pages 191-203, February.
    13. Dogliotti, S. & García, M.C. & Peluffo, S. & Dieste, J.P. & Pedemonte, A.J. & Bacigalupe, G.F. & Scarlato, M. & Alliaume, F. & Alvarez, J. & Chiappe, M. & Rossing, W.A.H., 2014. "Co-innovation of family farm systems: A systems approach to sustainable agriculture," Agricultural Systems, Elsevier, vol. 126(C), pages 76-86.
    14. Cornwall, Andrea, 2003. "Whose Voices? Whose Choices? Reflections on Gender and Participatory Development," World Development, Elsevier, vol. 31(8), pages 1325-1342, August.
    15. Collinson, M., 2001. "Institutional and professional obstacles to a more effective research process for smallholder agriculture," Agricultural Systems, Elsevier, vol. 69(1-2), pages 27-36.
    16. Misiko, M., 2013. "Dilemma in participatory selection of varieties," Agricultural Systems, Elsevier, vol. 119(C), pages 35-42.
    17. Nagy, Joseph G. & Sanders, John H., 1990. "Agricultural technology development and dissemination within a farming systems perspective," Agricultural Systems, Elsevier, vol. 32(4), pages 305-320.
    18. Ronner, E. & Descheemaeker, K. & Marinus, W. & Almekinders, C.J.M. & Ebanyat, P. & Giller, K.E., 2018. "How do climbing beans fit in farming systems of the eastern highlands of Uganda? Understanding opportunities and constraints at farm level," Agricultural Systems, Elsevier, vol. 165(C), pages 97-110.
    19. Chloé Salembier & Blanche Segrestin & Elsa Berthet & Benoit Weil & Jean-Marc Meynard, 2018. "Genealogy of design reasoning in agronomy: Lessons for supporting the design of agricultural systems," Post-Print hal-01823313, HAL.
    20. Bellon, Mauricio R. & Reeves, Jane, 2002. "Quantitative Analysis Of Data From Participatory Methods In Plant Breeding," Manuals 23718, CIMMYT: International Maize and Wheat Improvement Center.
    21. Tittonell, P. & van Wijk, M.T. & Rufino, M.C. & Vrugt, J.A. & Giller, K.E., 2007. "Analysing trade-offs in resource and labour allocation by smallholder farmers using inverse modelling techniques: A case-study from Kakamega district, western Kenya," Agricultural Systems, Elsevier, vol. 95(1-3), pages 76-95, December.
    22. Schut, Marc & van Asten, Piet & Okafor, Chris & Hicintuka, Cyrille & Mapatano, Sylvain & Nabahungu, Nsharwasi Léon & Kagabo, Desire & Muchunguzi, Perez & Njukwe, Emmanuel & Dontsop-Nguezet, Paul M. & , 2016. "Sustainable intensification of agricultural systems in the Central African Highlands: The need for institutional innovation," Agricultural Systems, Elsevier, vol. 145(C), pages 165-176.
    23. Biggs, Stephen D., 1990. "A multiple source of innovation model of agricultural research and technology promotion," World Development, Elsevier, vol. 18(11), pages 1481-1499, November.
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    2. Chloé Salembier & Blanche Segrestin & Nicolas Sinoir & Joseph Templier & Benoit Weil & Jean-Marc Meynard, 2020. "Design of equipment for agroecology: Coupled innovation processes led by farmer-designers," Post-Print hal-03108292, HAL.
    3. Périnelle, Anne & Meynard, Jean-Marc & Scopel, Eric, 2021. "Combining on-farm innovation tracking and participatory prototyping trials to develop legume-based cropping systems in West Africa," Agricultural Systems, Elsevier, vol. 187(C).
    4. Salembier, Chloé & Segrestin, Blanche & Sinoir, Nicolas & Templier, Joseph & Weil, Benoît & Meynard, Jean-Marc, 2020. "Design of equipment for agroecology: Coupled innovation processes led by farmer-designers," Agricultural Systems, Elsevier, vol. 183(C).
    5. Bakker, Teatske & Dugué, Patrick & de Tourdonnet, Stéphane, 2022. "How do farmers change their practices at the farm level after co-design processes in Farmer Field Schools?," Agricultural Systems, Elsevier, vol. 201(C).

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