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The technology adoption behavior of women farmers: The case of alley farming in Nigeria

Published online by Cambridge University Press:  12 February 2007

Elizabeth A. Ogunlana*
Affiliation:
School of Environment, Resources and Development, Asian Institute of Technology, PO Box 4, Klong Luang, Pathum Thani 12120, Thailand.
*
*Corresponding author: [email protected]

Abstract

The indigenous system of crop production in Nigeria, the bush fallow farming system, which is known for its stability and biological efficiency, can no longer be operated effectively, due to a shortage of land. In order to increase farm productivity, researchers have devised alley farming, a low-input farming system which sustains crop and livestock production, can reduce competition from weeds, and conserves soil by reducing soil physico-chemical degradation and the decline of soil organic matter. The mobilization of women to adopt agricultural innovations is an important topic in development studies. Due to the important role of Nigerian women farmers in crop and livestock production, they are encouraged to adopt alley farming. Contrary to some of the literature, which claims that women are slow innovation adopters, this study argues that women farmers easily adopt innovations that can enhance their economic status. The paper argues that the characteristics of alley farming influence women farmers‘ adoption or rejection of the farming system. It was observed that the land tenure system is not an inflexible constraint on alley farming adoption. It is argued that low participation of women in agricultural innovation adoption is caused by lack of information about the advantages of the innovations, because meetings are fixed at times when women are not able to attend. This paper points out that the adoption of alley farming has increased the agricultural production and the quality of life of women farmer adopters.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2004

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References

1Fabiyi, Y.L. & Ogunfowora, O.O. 1989. Economics of production and utilization of organic fertilizer. Organic Fertilizer Seminar, Hamdala, Kaduna. p. 4.Google Scholar
2Ahmed, S. 1995. Agriculture–Fertilizer Interface in Asia: Issues of Growth and Sustainability. Oxford & IBH Publishing Co. PVT. Ltd., New Delhi. p. 99.Google Scholar
3Theocharopoulos, S.A., Karayianni, M., Gatzogiani, P., Affentaki, A., & Aghgelides, S. (1999). Nitrogen leaching from soils in the Kopais area of Greece. Soil Use and Management 9:7684.CrossRefGoogle Scholar
4Kang, B.T. & Shannon, D.A. 2001. Agroforestry with focus on alley cropping. In Sustaining Soil Fertility in West Africa. Soil Science Society of America Special Publication no. 58. Soil Science Society of America, Madison, WI, USA. p. 197224.Google Scholar
5Goss, M.J. & Goorahoo, D. 1995. Nitrate contamination of groundwater measurement and prediction. Fertilizer Research 42:331338.CrossRefGoogle Scholar
6UNEP 1997. Asia–Pacific Environment Outlook. United Nations Environment Programme, Thailand. p. 1415.Google Scholar
7Kang, B.T. 1993. Alley cropping: Past achievements and future directions. Agroforestry Systems 23(2–3):141156.CrossRefGoogle Scholar
8Sumberg, J. & Okali, C. 1993 Farmers, on-farm research and new technology. In Chambers, R., Pacey, A. & Thrupp, L.A. (eds). Farmer First. Farmer Innovation and Agricultural Research. Intermediate Technology Publications, London. p.109114.Google Scholar
9Kang, B.T., Atta-Krah, A.N., & Reynolds, L. 1999. Alley Farming. Macmillan Education Ltd., London. p.53.Google Scholar
10Manyong, V.M. & Honlonkou, V.A. 1999. Structural Change and Technological Bias Induced by Adoption of Mucuna Fallow in the Derived Savanna of West Africa. Mimeo. IITA, Ibadan, Nigeria.Google Scholar
11Isaac, L., Wood, C.W., & Shannon, D.A. 2003. Hedgerow species and environmental conditions: effects on soil total C and N and C and N mineralization patterns of soils amended with their prunings. Nutrient Cycling in Agroecosystems 65:7387.Google Scholar
12Aihou, K., Sanginga, N., Vanlauwe, B., Lyasse, O., Diels, J., & Merckx, R. 1999. Alley cropping in the moist savanna of West Africa: I. Restoration and maintenance of soils in Benin Republic. Agroforestry Systems 42:213227.CrossRefGoogle Scholar
13Dvorak, K.A. 1996. Adoption Potential of Alley Cropping. Resource and Crop Management Research Monograph No. 23. IITA, Ibadan, Nigeria.Google Scholar
14Adesina, A.A., Coulibaly, O., Manyong, V.M., Sanginga, P.C., Mbila, D., Chianu, J., & Kamleu, D.G. 1999. Policy Shifts and Adoption of Alley Farming in West and Central Africa. IITA, Ibadan, Nigeria.Google Scholar
15Kang, B.T., Vander Kruijs, A.C., & Couper, D.C. 1986. Alley cropping for food crop production in the humid and sub-humid tropics. In Kang, B.T. & Reynolds, L.(eds). Alley Farming in Humid and Sub-Humid Tropics, Proceedings of an International Workshop held at Ibadan, Nigeria. IDRC, Ottawa. p. 1626.Google Scholar
16Tossah, B.K., Zamba, D.K., Vanlauwe, B., Sanginga, N., Lyasse, O., Diels, J., & Merckx, R. 1999. Alley cropping in the moist savanna of West Africa: II. Impact on soil productivity in a North-to-South transect in Togo. Agroforestry Systems 42:229244.CrossRefGoogle Scholar
17Shannon, D.A., Isaac, L., & Brockman, F.E. 1997. Assessment of hedgerow species for seed size, stand establishment and seedling height. Agroforestry Systems 35:95110.CrossRefGoogle Scholar
18Vanlauwe, B., Sanginga, N., & Merckx, R. 1998. Recovery of leucaena and dactyladenia residue nitrogen-15 in alley cropping systems. Soil Science Society of American Journal. 62(2): 454460.Google Scholar
19Vanlauwe, B., Sanginga, N., & Merckx, R. 1998. Soil organic matter dynamics after addition of nitrogen-15-labeled leucaena and dactyladenia residues. Soil Science Society of American Journal 62(2): 461466.CrossRefGoogle Scholar
20IITA 2000. Annual Report. International Institute of Tropical Agriculture, Ibadan, Nigeria.Google Scholar
21Isaac, L., Wood, C.W., & Shannon, D.A. 2000. Decomposition and nitrogen release of prunings from hedgerow species assessed for alley cropping in Haiti. Agronomy Journal 92:501511.Google Scholar
22Atta-Krah, A.N. & Franscis, P.A. 1987. The role of On-Farm trials in the evaluation of composite technologies: The case of alley farming in Southern Nigeria. Agroforestry Systems 23:133152.CrossRefGoogle Scholar
23Vogel, W.O. 1986. Economic returns of alley farming. In Kang, B.T. & Reynolds, L. (eds). Alley Farming in Humid and Sub-Humid Tropics, Proceedings of an International Workshop held at Ibadan, Nigeria. IDRC, Ottawa. p. 196207.Google Scholar
24Isaac, L., Wood, C.W. and Shannon, D.A. 2003. Prunning management effects on soil carbon and nitrogen in contour hedgerow cropping with Leucaena leucocephala (Lam.) De Wit on sloping land in Haiti. Nutrient Cycling in Agroecosystems 65:253263.CrossRefGoogle Scholar
25Okigbo, B.N. 1986. Welcoming Address. In Kang, B.T. & Reynolds, L. (eds). Alley Farming in Humid and sub-Humid Tropics, Proceedings of an International Workshop held in Ibadan, Nigeria. IDRC, Ottawa. p. 25.Google Scholar
26Vanlauwe, B., Aman, S., Aihou, K., Tossah, B.K., Adebiyi, V., Sanginga, N., Lyasse, O., Diels, J., & Merckx, R. 1999. Alley cropping in moist savanna of West Africa. III. Soil organic matter fractionation and soil productivity. Agroforestry Systems 42:245264.Google Scholar
27Manyong, V.M., Houndekon, V.A., Sanginga, P.C., Vissoh, P. & Honlonkou, A.N. (1999). Mucuna Fallow Diffusion in Southern Benin. IITA, Ibadan, Nigeria.Google Scholar
28Levine, R.A. 1970. Sex Roles and Economic Change in Africa. In Middleton, J. (ed.). Black Africa. Macmillan, New York. p.174180.Google Scholar
29Francis, P.A. & Atta-Krah, A.N. 1988. Incorporating Gender Concerns into On-Farm Research: The Household and Alley Farming in southwest Nigeria. In: Feldstein, H & Jiggins, J. (eds). Methodologies Handbook on Intra-Household Dynamics and Farming Systems Research and Extension. Typescript Ibadan: International Livestock Centre for Africa, Ibadan, Nigeria. p. 36.Google Scholar
30Kinnucan, H., Hatch, U., Molnar, J., & Pendergrass, R. 1990. Adoption and diffusion potentials for bovine somatotropin in southeast dairy industry. Bulletin 605. Auburn University, Alabama, USA.Google Scholar
31Adams, M.E. 1982. Agricultural Extension in Developing Countries. Intermediate Tropical Agriculture Series. Longman, UK. p. 3950.Google Scholar
32Sheth, J.N., Mittal, B., & Newman, B.I. 1999. Customer Behaviour: Consumer Behaviour and Beyond. The Dryden Press, Harcourt Brace College Publishers, New York.Google Scholar
33Jabbar, M.A. 1990. Socio-economic aspects of diffusion and adoption of alley farming. Paper presented at the Alley Farming Training Course, IITA, Ibadan, Nigeria. p. 610.Google Scholar
34Cramb, R.A. & Nelson, R.A. 1998. Investigating constraints to the adoption of recommended soil conservation technology in the Philippines. In Penning de, F.W.T.Vries, Agus, F. & Kerr, J.(eds). Soil Erosion at Multiple Scales. CAB International, Wallingford, UK. p.99120.Google Scholar
35Rogers, E.M. 1995. Diffusion of Innovations. 4th ed.The Free Press, New York.Google Scholar
36Koudokpon, V.,Versteeg, M., Adegbola, P., & Budelman, A. 1995. The adoption of hedgerow intercropping by farmers on the Adja Plateau, South Benin Republic. In Kang, B.T., Osiname, A.O., Larbi, A.O.(eds). Alley Farming Research and Development. Alley Farming Network for Tropical Africa/International Institute of Tropical Agriculture, Ibadan, Nigeria. p. 483498.Google Scholar
37Garcia, J.N.M., Gerrits, R.V., Cramb, R.A., & Saguiguit, G.C. 1998. Implementation of conservation technologies in the case study sites. In Cramb, R.A. (ed.). Conservation Farming in the Philippine Uplands: Socio-Economic Perspectives. ACIAR Proceedings. Australian Centre for International Agricultural Research, Canberra.Google Scholar
38IITA 1989/1990. Annual Report. International Institute of Tropical Agriculture, Ibadan, Nigeria.Google Scholar
39Shannon, D.A.,Vogel, W.O., & Kabaluapa, K.N. 1994. The effects of alley cropping and fertilizer application on continuously cropped maize. Tropical Agriculture 71(3): 163169.Google Scholar
40Pandey, S. & Lapar, M.A.L. 1998. A microeconomic analysis of adoption of contour hedgerows in the Philippine Uplands. In Penning de Vries, F.W.T., Agus, F. & Kerr, J. (eds). Soil Erosion at Multiple Scales. CAB International, Wallingford, UK. p. 8398.Google Scholar
41Lionberger, H.F. 1960. Adoption of New Ideas and Practices, The Iowa State University Press, Ames, Iowa. p. 366.Google Scholar
42Francis, P.A. & Atta-Krah, A.N. 1988 a. Sociological and ecological factors in technology adoption: Fodder trees in Southeast Nigeria. Experimental Agriculture 25:610.Google Scholar
43Rawal, T. 1981. An analysis of factors affecting the adoption of modern varieties in Nepal. Research Paper Series, No. 11. Agricultural Projects Services Center, Nepal.Google Scholar
44Williams, S.K.T. & Williams, C.E. 1971. Farmers’ control with agricultural extension services of Western Nigeria. Bulletin of Rural Economics and Sociology 6(1): 4849.Google Scholar
45Clark, R.C. & Akinbode, I.A. 1968. Factors associated with adoption of farm practices in Western State, Nigeria. Research Bulletin No. 1. Faculty of Agriculture, University of Ife, Ile-Ife, Nigeria.Google Scholar
46Kang, B.T. & Akinnifesi, F.K. 2000. Agroforestry as alternative land-use production systems for the tropics. Natural Resource Forum 24:137151.CrossRefGoogle Scholar
47Khemnark, C. & Jamreonpruksa, M. 1991. Sustainable agroforestry on hilly land. Proceedings of International Workshop on Conservation and Sustainable Development, 2226 April, AIT/Bangkok and Khao Yai National Park, Thailand.Google Scholar