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EFFICIENCY OF IRRIGATED AND RAIN-FED RICE (ORYZA SATIVA) PRODUCERS IN FADAMA AGRICULTURE, NIGERIA

Published online by Cambridge University Press:  25 June 2018

PATIENCE IFEYINWA OPATA*
Affiliation:
Department of Agricultural Economics, University of Nigeria, Nsukka, 410001, Nigeria
NOBLE JACKSON NWEZE
Affiliation:
Department of Agricultural Economics, University of Nigeria, Nsukka, 410001, Nigeria
ADAKU BRIGET EZEIBE
Affiliation:
Center for Entrepreneurship and Development Research, University of Nigeria, Nsukka, 410001, Nigeria
MAMUN MALLAM
Affiliation:
Department of Agricultural Economics, University of Nigeria, Nsukka, 410001, Nigeria
*
Corresponding author. Email: [email protected]

Summary

Given the importance of irrigation for rice production, this study compared the technical efficiency of irrigated and rain-fed rice (Oryza sativa) farms in the Upper Niger River Basin and Rural Development Authority (UNRBDA), Nigeria. Primary data were collected from 300 irrigators and 325 rain-fed rice producers. Applying the stochastic frontier Cobb–Douglas production function, net income analysis and Likert scale rating techniques, the study found that irrigated scheme increased marginal factor productivity and profitability. The study revealed the existence of large technical inefficiency in rain-fed farms when compared with irrigated farms. This suggests that there is room for output gains through technical efficiency improvement in the rain-fed system. The mean value of the marginal physical product of inputs (VMPPX) in the irrigated farms (₦2.32) was more than that of rain-fed farm (₦1.67). Thus, if the average producers in the rain-fed are to achieve the technical efficiency level of the average producer in the irrigated farms, they can realize 38% output gains. Similarly, the mean net farm income (NFI) of ₦62,280.00 per ha in the irrigated farm was more than double of that of rain-fed farms ₦22,391.00. The partial regression coefficients for the individual production factors (β1) and (β3) for labour input (X1) and other variable inputs (X3), respectively, were positive and significant at 1% level, suggesting that the partial elasticity of crop output with respect to labour and other costs was higher in the irrigated farms than in the rain-fed farms. The Likert scale rating techniques showed that the poor knowledge of irrigation techniques, insufficient water for irrigation during the dry season, high cost of labour and lack of access to credit were the critical constraints preventing the rain-fed rice producer from joining the irrigation scheme. In view of this, rice irrigators should be encouraged to train more rain-fed farmers on some rudiments of irrigation techniques. They should also be linked to the sources of finance. Water Users Association (WUA) should be established in communities within the scheme areas for effective communication between farmers and the officials of the UNRBDA. Decision on the allocation of resources to Fadama sites including water should be given to WUA to strengthen the membership of the organization, while the government officials serve as supervisory and advisory body.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2018 

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References

REFERENCES

Adekunle, O. A., Oladipo, F. and Busari, I. Z. (2015). Factors affecting farmers’ participation in irrigation schemes of the lower Niger River Basin and rural development authority, Kwara state, Nigeria. South African Journal of Agricultural Extension 43 (2):4251.Google Scholar
Allen, S., Badiane, O., Sene, L and Ulimwengu, J. (2014). Government expenditure, health outcome and marginal productivity of agricultural input: The case of Tanzania. Journal of Agricultural Economics 65 (3):637662.Google Scholar
Andersen, I., Dione, O., Jarosewich-Holder, M. and Olivry, J. (2005). The Niger Basin: A Vision for Sustainable Management (Eds Golitzen, K. G.). Washington DC: The World Bank.Google Scholar
Carpio, X., Loayza, N. and Datar, G. (2011). Is irrigation rehabilitation good for poor farmers? An impact evaluation of non-experimental irrigation project in Peru. Journal of Agricultural Economics 62 (2):449473.Google Scholar
Daramola, B. (2005). Government policies and competitiveness of Nigerian rice economy. In Rice Policy and Food Security in Sub-Saharan Africa. Cotonou, 125–140 (Eds Kormawa, P. and Toure, A. A.). Republic of Benin: WARDA.Google Scholar
Ditto, S. (1991). Efficiency of agricultural production in small- and medium-scale irrigation in Nigeria. In Issues in African Rural Development, 152–174 (Eds Doss, C. R. and Olson, C.). Arlington, VA: Winrock International Institute for Agricultural Development.Google Scholar
FAO (1982). The Estimation of Crop Areas and Yields in Agricultural Statistics, Economic and Social Development Paper No. 22. Rome: FAO.Google Scholar
FAO (2011). The State of the World's Land and Water Resources for Food and Agriculture (SOLAW) – Managing Systems at Risk. Rome/London: FAO/Earthscan.Google Scholar
Gujeranti, D. N. (1995). Basic Econometrics. New York: McGraw-Hill, Inc.Google Scholar
Jeleel, A. B. (2017). Towards attaining equity and satisfaction in water allocation mechanism for irrigated agriculture in Northern Nigeria. African Journal of Agricultural Research 12 (17):14661476. Available at: http://academicjournals.org/journal/AJAR/article-abstract/284E5C164018.Google Scholar
Kadigi, R. M. J., Tesfay, G., Bizoza, A. and Zinabou, G. (2012). Irrigation and water use efficiency in Sub-Saharan Africa. GDN Agriculture Policy Series-Briefing Paper Number (4):1–8.Google Scholar
Mallam, M. (2013). Comparative analysis of resource use efficiency in rice production among Fadama and non fadama beneficiary: An Exploratory study. Unpublished MSc studies, Department of Agricultural Economics, University of Nigeria, Nsukka, Nigeria.Google Scholar
Oriola, E. O. (2009). Irrigation agriculture: An option for achieving the millennium development goals in Nigeria. Journal of Geography and Regional Planning 2 (7):176181.Google Scholar
Tadele, Z. (2017). Raising crop productivity in Africa through Intensification. Agronomy 7 (1):22. Available at: http://www.mdpi.com/2073-4395/7/1/22.Google Scholar
Tiedemann, T. and Latacz-Lohmann, , , U. (2013). Production risk and technical efficiency in organic and conventional agriculture- the case of arable farms in Germany. Journal of Agricultural Economics 64 (1):7396.Google Scholar
Urama, K. and Hodge, I. (2004). Irrigation externalities and agricultural sustainability in South-eastern Nigeria. Journal of Agricultural Economics 55 (3):479501.Google Scholar
WARDA (2003). The Nigerian rice economy in a competitive world: Constraint, opportunities and strategic choices: Strategy for rice sector revitalization in Nigeria. In West Africa Rice Development Authority Workshop on Rice Sector Study.Google Scholar
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