• Home
  • Profitability and Technical Efficiency of Maize-Based Cropping System Farmers in Ondo State, Nigeria

Share To

Article Url


Manuscript ID : IJASRT-2303-1267 (R1) Visit : 95 Page: 11 - 22

20.1001.1.22517588.2023.13.1.2.8

Article Type: Original Research

Profitability and Technical Efficiency of Maize-Based Cropping System Farmers in Ondo State, Nigeria

Subject Areas : Extension and Economic

Tolulope  Olubunmi-Ajayi 1 (Department of Agricultural and Resource Economics, Federal University of Technology, Akure, Ondo State, Nigeria)
Taye  Amos 2 (Department of Agricultural and Resource Economics, Federal University of Technology, Akure, Ondo State, Nigeria.)
Emmanuel  Borokini 3 (Department of Agricultural Extension and Management, Rufus Giwa Polytechnic, Owo, Ondo State, Nigeria.)
Oluyede  Aturamu 4 (Department of Agricultural Science and Technology, Bamidele Olumilua University of Education, Science and Technology, Ikere-Ekiti, Nigeria.)

Received: 2023-03-07 Accepted : 2023-03-27 Published : 2023-03-01

Keywords: Productivity, Maize, Technical efficiency, Cropping systems,

Abstract :

This study was carried out to evaluate the technical efficiency of maize-based cropping systems in Ondo State, Nigeria. Primary data were used with the aid of a well-designed questionnaire. A multistage sampling procedure was used to randomly select 160 respondents. The data collected were analyzed using descriptive statistics, budgeting technique, and stochastic frontier production function model. The results of the budgetary technique revealed that the average gross margin per hectare was ₦17,715.03, ₦53,230.76, and ₦14,651 for sole maize cropping system, maize-cassava cropping system, and maize-yam cropping system, respectively. It was shown that household size and access to credit were the main determinants of the technical efficiency in sole maize cropping pattern, while access to credit and farming experience were the main determinants of technical efficiency in maize-cassava. In maize-yam, educational level and household size significantly affected technical efficiency. Farmers in the study area were producing at about 76% efficiency in sole maize cropping system, 89% efficiency in maize-cassava cropping system, 82% efficiency in maize-yam cropping system. The elasticity of variables inputs was 0.18 in sole maize cropping system, 0.61 in maize-cassava cropping system, and 0.33 in maize-yam cropping system. This indicates that all the maize-based cropping system had decreasing return to scale; therefore, the cropping systems fell within the rational stage of production surface. The implication is that maize-based farmers have not attained maximum efficiency in term of their production. Therefore, policy attention should be directed towards appropriate production technique that would improve productivity in the study area.

References:


  1. Abang, S.O., Ekpeni, E., Usani, W.W. (2001). Technical and Allocative Efficiencies of Small-Scale Growers in five selected Local Government Areas of Cross River State. Global J. Applied Sci., 7 (1): 102-106.
    2.
  2. Adedapo, K.D. (2008). Technical Efficiency of Maize Farmers in Ogbomoso Agricultural Zone of Oyo State. International Journal of Agricultural Economics and Rural Development, 1(2): 102 – 107.
    3.
  3. Adeyemo, R., Oke, J.T.O., Akinola, A.A. (2010). Economic Efficiency of Small-Scale Farmers in Ogun State, Nigeria. TROPICULTURA, 28(2): 84 – 88.
    4.
  4. Aminu, F.O., Ayinde, I.A., Ambali, O.L. (2013). Effect of Ill Health on Technical Efficiency of Dry Season Vegetable Farmers in Ojo Local Government Area of Lagos State, Nigeria. World Journal of Agricultural Research, 1(6): 108 – 113. Dio:10.12691/wjar-1-6-3.
    5.
  5. Awunyo-Vitor, D., Bakang, J., Cofie, S. (2013). Estimation of farm level technical efficiency of small-scale cowpea production in Ghana.
    6.
  6. Battese, G.E., Coelli, T.J. (1995). A Model for Technical Inefficiency Effects in a Stochastic Frontier Production Function for Panel Data. 20:  325-332.
    7.
  7. Fatuase, A.I. (2017). Climate Change Adaptation: A Panacea for Food Security in Ondo State, Nigeria. Theoretical and Applied Climatology, 124(3-4): 1 – 9.
    8.
  8. Food and Agricultural Organization, (2003). FAO. Food and Agricultural Monthly Bulletin of Statistics, 5 (12): 23.
    9.
  9. Havnevik, K., Bryceson, D., Birgegård, L. E., Matondi, P., Beyene, A. (2007). African agriculture and the World Bank: development or impoverishment? Nordiska Afrikainstitutet.
    10.
  10. Iheke, O., & Amaechi, E. (2015). Effect of Land Fragmentation on Smallholders’ Productivity in Imo State, Nigeria. International Journal of Agricultural Science, Research and Technology in Extension and Education Systems (IJASRT in EES), 5(3), 195-201.
    11.
  11. Lawrence Balogun, O. (2011). Determinants of Poverty among Rural Households in South Western States, Nigeria. International Journal of Agricultural Science, Research and Technology in Extension and Education Systems (IJASRT in EES), 1(3), 99-104.
    12.
  12. Norgrove, L., Hauser, S. (2015). Estimating the consequences of fire exclusion for food crop production, soil fertility, and fallow recovery in shifting cultivation landscapes in the humid tropics. Environmental management, 55, 536-549.
    13.
  13. Ogundari, K., Ojo, S.O. (2007). Productivity Potential and Technical Efficiency of Agro-Forestry-Based Technologies in South-Western Nigeria. Journal of Agriculture and social sciences. Available at http://www.fspublishers.org.
    14.
  14. Ojo, S.O. (2004). Improving Labour Productivity and Technical Efficiency in Food Crop Production: A Panacea for Poverty Reduction in Nigeria. Food Agric. Environ., 2(2): 227 – 231.
    15.
  15. Ojo, S.O. (2009). Backyard Farming: A Panacea for Food Security in Nigeria. Journal of Human Ecology, 28 (2): 127 – 133.
    16.
  16. Oladoyin, O. P. (2022). Evaluation of Profitability of Maize Production in Akoko South West Local Government Area, Ondo State, Nigeria. International Journal of Advanced Economics, 4(2), 30-39.
    17.
  17. Olutumise, A. I. (2022). Determinants of market participation and preference for production of pepper (Capsicum spp.) among farmers in southwest, Nigeria. Heliyon, 8(9), e10585.
    18.
  18. Olutumise, A. I., Oparinde, L. O. (2022). Climate Information and Health Variables as Determinants of Technical Efficiency: Insight from Food Crop Farmers. International Journal of Agricultural Science, Research and Technology in Extension and Education Systems (IJASRT in EES), 12(3).
    19.
  19. Olutumise, A.I., Ajibefun, I.A., Omonijo, A.G. (2021). Effect of climate variability on healthcare expenditure of food crop farmers in Southwest, Nigeria. International Journal of Biometeorology, doi:10.1007/s00484-021-02079-z. Epub ahead of print. PMID: 33474613.
    20.
  20. Onu, E., Natalia, P., Kruseman, G. and Fuylpanu, Y. (2018). Sub- Saharan African maizee – based foods technological perspectives to increase the food security. General Food Security 17:48 – 56.
    21.
  21. Salau, S. A. (2013). Determinants of technical inefficiency among maize-based farming households in Niger state. Ethiopian Journal of Environmental Studies and Management, 6(5), 543-550.
    22.
  22. Samuel, A., Saburi, A., Usanga, O. E., Ikotun, I., Isong, I. U. (2011). Post-harvest food losses reduction in maize production in Nigeria. African Journal of Agricultural Research, 6(21), 4833-4839.
    23.
  23. Zalkuwi, J.W., Dia, Y.Z., Dia, R.Z. (2010). Analysis of Economic Efficiency of Maize Production in Ganye Local Government Area of Adamawa State, Nigeria. Report and Opinion, 2(7): 1 – 9.
    24.

Related articles

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]