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A PARTICIPATORY APPROACH TO INCREASING PRODUCTIVITY OF MAIZE THROUGH STRIGA HERMONTHICA CONTROL IN NORTHEAST NIGERIA

Published online by Cambridge University Press:  01 July 2008

A. Y. KAMARA*
Affiliation:
International Institute of Tropical Agriculture, Ibadan, Nigeria, c/o L. W. Lambourn & Co., Carolyn House, 26 Dingwall Road, CR9 3EE, UK
J. ELLIS-JONES
Affiliation:
Agriculture-4-Development 4 Silbury Court, Silsoe Beds, UK, MK45 4RU
P. AMAZA
Affiliation:
International Institute of Tropical Agriculture, Ibadan, Nigeria, c/o L. W. Lambourn & Co., Carolyn House, 26 Dingwall Road, CR9 3EE, UK
L. O. OMOIGUI
Affiliation:
International Institute of Tropical Agriculture, Ibadan, Nigeria, c/o L. W. Lambourn & Co., Carolyn House, 26 Dingwall Road, CR9 3EE, UK
J. HELSEN
Affiliation:
International Institute of Tropical Agriculture, Ibadan, Nigeria, c/o L. W. Lambourn & Co., Carolyn House, 26 Dingwall Road, CR9 3EE, UK
I. Y. DUGJE
Affiliation:
Department of Crop Production, University of Maiduguri, PMB 1069 Maiduguri, Nigeria
N. KAMAI
Affiliation:
Borno State Agricultural Development Programme, Maiduguri, Nigeria
A. MENKIR
Affiliation:
International Institute of Tropical Agriculture, Ibadan, Nigeria, c/o L. W. Lambourn & Co., Carolyn House, 26 Dingwall Road, CR9 3EE, UK
R. W. WHITE
Affiliation:
Rothamsted Research, Harpenden, Hertfordshire, UK, AL5 2JQ
*
Corresponding author: [email protected]

Summary

Striga hermonthica is a parasitic weed that attacks maize, sorghum and other staple cereal crops and has long been considered one of the greatest biotic constraints to cereal production in Africa. Use of resistant or tolerant maize varieties, a maize–legume rotation using trap crops that stimulate suicidal germination of Striga and the application of nitrogen fertilizer are all effective in reducing infestation and damage. This paper reports on the use of a participatory research and extension approach in assessing the performance and scaling-up of integrated Striga control packages in three agro-ecological zones in Borno State, Nigeria. The participatory process which encourages close interaction between research, extension and farmers, involved 30 local communities and 228 farmers representing 193 farmer groups in identifying their own problems and seeking solutions to them. Results showed not only effective Striga control but productivity increases of over 200%. The involvement of local farmers and groups in the evaluation process, firstly, helped to confirm that Striga control can best be achieved using soyabean followed by Striga-resistant maize together with productivity-increasing management practices and, secondly, promoted farmer-to-farmer extension. A participatory adoption assessment exercise indicated widespread adoption of new varieties and management practices, despite the need for increased labour. Great potential exists to scale out the results to similar areas of Guinea and Sudan savannas in the West Africa region.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2008

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References

REFERENCES

Adesina, A. A. and Chianu, J. (2002). Determinants of farmers' adoption and adaptation of alley farming technology in Nigeria. Agroforestry Systems 55:99112.Google Scholar
Abebaw, D. and Belay, K. (2001). Factors influencing adoption of high yielding maize varieties in South-Western Ethiopia: An application of Logit. Quarterly Journal of International Agriculture 40:149167.Google Scholar
Berner, D. K., Winslow, M. D., Awad, A. E., Cardwell, K. F., Mohan Raj, D. R. and Kim, S. K. (1997). Sustainable control of S. hermonthica spp. through a focused integrated pest management programme. In Contributing to Food Self-sufficiency: Maize Research and Development in West and Central Africa, 111 (Eds. Badu-Apraku, B., Akoroda, M. O., Oudraogo, M. and Quin, F. M.), IITA, Ibadan, Nigeria.Google Scholar
Carsky, R. J., Berner, D. K., Oyewole, B. D., Dashiell, K. and Schulz, S. (2000). Reduction of Striga hermonthica parasitism on maize using soybean rotation. International Journal of Pest Management 46:115120.Google Scholar
Dugje, I. Y, Kamara, A. Y. and Omoigui, L. O. (2006). Infestation of crop fields by Striga species in the savannahs of northeast Nigeria. Agriculture, Ecosystems, and Environment 116:251254.Google Scholar
Ellis-Jones, J., Schulz, S., Douthwaite, B., Hussaini, M. A., Oyewole, B. D., Olanrewaju, A. S. and White, R. (2004). An assessment of integrated Striga hermonthica control and early adoption by farmers in northern Nigeria. Experimental Agriculture 40:353368.Google Scholar
Ellis-Jones, J., Schulz, S., Chikoye, D., de Haan, N., Kormawa, P. and Adedzwa, D. (2004). Participatory research and extension approaches: A guide for researchers and extension workers for involving farmers in research and development. IITA, Ibadan, Nigeria, and Silsoe Research Institute, UK. IITA Research Guide 71.Google Scholar
Emechebe, A. M., Ellis-Jones, J., Schulz, S., Chikoye, D., Douthwaite, B., Kureh, I., Tarawali, G., Hussaini, M. A., Kormawa, P. and Sanni, A. (2004). Farmers' perception of the Striga problem and its control in northern Nigeria. Experimental Agriculture 40:215232.CrossRefGoogle Scholar
Feder, G., Just, R. E. and Zieberman, D. (1985). Adoption of agricultural innovations in developing countries: a survey. Economic Development and Cultural Change 33:255298.Google Scholar
Franke, A. C., Ellis-Jones, J., Tarawali, G., Schulz, S., Hussaini, M. A., Kureh, I., White, R., Chikoye, D., Douthwaite, B., Oyewole, B. D. and Olanrewaju, A. S. (2006). Evaluating and scaling out integrated Striga hermonthica control among farmers in northern Nigeria. Crop Protection 25:865878.Google Scholar
GenStat, 2000. GenStat for Windows. Release 4.2. 5th Edition. VSN International Ltd., Oxford, UK.Google Scholar
Hagmann, J., Chuma, E., Murwira, K. and Connelly, M. (1999). Putting process into practice: operationalising participatory extension. ODI Agricultural Research and Extension (AGREN) Network Paper No. 94. Overseas Development Institute, London. www.odi.org.uk/networks/agren/papers/agrenpaper_94.pdfGoogle Scholar
Kamara, A. Y., Kureh, I., Menkir, A., Tarfa, B. D., Kartung, P. D. and Amaza, P.S. (2006). Participatory on-farm evaluation of the performance of drought-tolerant maize varieties in the Guinea savannas of northern Nigeria. Journal of Food, Agriculture, and Environment 14:99103.Google Scholar
Kim, S. K., Adetimirin, V. O. and Akintunde, A. Y. (1997). Nitrogen effects on Striga hermonthica infestation, grain yield, and agronomic traits of tolerant and susceptible maize hybrids. Crop Science 37:711716.Google Scholar
Lagoke, S. T. O., Parkinson, V. and Agunbiade, R. M. (1991). Parasitic weeds and control methods in Africa. In Combating Striga in Africa, Proceedings of International Workshop, 22–24 August 1988 IITA, Ibadan, Nigeria, 3–14.Google Scholar
Manyong, V. M., Houndekon, A. V., Gogan, A., Versteeg, M. N. and Van Der Pol, F. (1996). Determinants of adoption for a resource management technology: The case of mucuna in Benin Republic. In Advances in Agricultural and Biological Environment Engineering, Proceedings of a Conference 15–19 August, 1996, Beijing, China. 1–93.Google Scholar
Oswald, A. and Ramsom, J. K. (2001). Response of maize varieties to Striga infestation. Crop Protection 23:8994.CrossRefGoogle Scholar
Parker, C. and Riches, C. R. (1993). Parasitic Weeds of the World: Biology and Control, 174. Wallingford, UK: CABI Publishing.Google Scholar
Ransom, J. K., Odhiambo, G. D., Eplee, R. E. and Diallo, A. D. (1996). Estimates from field studies of the phytotoxic effects of Striga species on maize. In Advances in Parasitic Plant Research, Proceedings of the 6th Parasitic Weed Symposium. Cordoba Spain, 795–800.Google Scholar
Robinson, D. L., Thompson, R. and Digby, P. G. N. (1982). REML, a programme for the analysis of non-orthogonal data by restricted maximum likelihood. Compstat 1982. Proceedings in Computational Statistics, Part II (supplement), 231232, Physica-Verlag, Vienna.Google Scholar
Sauerborn, J. (1991). The economic importance of the phytoparasites Orobanche and Striga. In Proceedings of the 5th International Symposium of Parasitic Weeds, 24–30 June, 1991, CIMMYT, Nairobi, Kenya. 137–143.Google Scholar
Schulz, S., Hussaini, M. A., Kling, J. G., Berner, D. K. and Ikie, F. O. (2003). Evaluation of integrated Striga hermonthica control technologies under farmers' management. Experimental Agriculture 39:99108.Google Scholar
Tarawali, G. and Kureh, I. (2004). Promoting Sustainable Agriculture in Borno State. Synthesis Livelihood Analysis in Three Contrasting Agro-ecological Zones, PROSAB, Borno State, Nigeria, pp. 1–45.Google Scholar
Yanguba, A. (2005). Agricultural technology adoption by small-scale farmers: The case of extra-early maize varieties in the Sudan savannahs of Katsina State, Northern Nigeria. MSc thesis, University of Ibadan, Nigeria.Google Scholar