Mengistu KETEMA, Kibebew KİBRET, Feyisa HUNDESSA, Tewodros BEZU

Adoption of Improved Maize Varieties as a Sustainable Agricultural Intensification in Eastern Ethiopia: Implications for Food and Nutrition Security

This paper examines factors determining farmers’ adoption decision for improved maize varieties in the maize-common bean intercropping practices in two districts of East Hararghe zone, Eastern Ethiopia. It is based on data collected from 129 farm households using structured questionnaire. Descriptive results revealed that adopters of improved maize varieties had better food and nutrition security status. Furthermore, logit model output indicated that the decision to adopt improved maize varieties is influenced by location (district) dummy, education status of the household head, age of the household head, distance from the main road, and the number of plots owned. Major recommendations include improving the rural road infrastructure, educating and training farmers, organizing experience sharing events among farmers, and raising awareness about the food and nutrition security benefits of sustainable agricultural intensification practices like intercropping improved maize with improved common bean varieties.

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Abdulai A, Huffman W. 2014. The adoption and impact of soil and water conservation technology: an endogenous switching regression application. Land Economics, 90 (1): 26-43.

Abdulai A, Owusu V, Bakang JEA. 2011. Adoption of safer irrigation technologies and cropping patterns: evidence from southern Ghana. Ecological Economics, 70 (7): 1415-1423. DOI: 10.1016/j.ecolecon.2011.03.004.

Admassie A, Ayele G. 2010. Adoption of improved technology in Ethiopia. Ethiopian Journal of Economics, 19(1): 155-180.

Adu-Gyamfi JJ, Myaka FA, Sakala WD, Odgaard R, Vesterager JM, Hogh-Jensen H. 2007. Biological nitrogen fixation and nitrogen and phosphorus budgets in farmer-managed intercrops of maize-pigeonpea in semi-arid Southern and Eastern Africa. Plant and Soil, 295: 127-136. DOI: https://doi.org/10.1007/s11104-007-9270-0.

Akudugu M, Guo E, Dadzie S. 2012. Adoption of modern agricultural production technologies by farm households in Ghana: What factors influence their decisions? Journal of Biology, Agriculture and Healthcare, 2(3).

Alene AD, Poonyth D, Hassan RM. 2000. Determinants of adoption and intensity of use of improved maize varieties in the Central Highlands of Ethiopia: A Tobit analysis. Agrekon, 39 (4): 633-643. DOI: https://doi.org/10.1080/ 03031853.2000.9523679.

Aydogdu M, Yenigün K. 2016. Farmers’ risk perception towards climate change: a case of the gap-şanliurfa region, Turkey. Sustainability, 8 (8): 806. DOI: 10.3390/su8080806.

Bayissa G. 2014. A Double-Hurdle approach to modelling of improved teff technologies adoption and intensity use in case of Diga District of East Wollega Zone. Global Journal of Environmental Research, 8: 41-49. DOI: 10.5829/ idosi.gjer.2014.8.3.1106.

Berihun K, Bihon K, Kibrom A. 2014. Adoption and Impact of Agricultural Technologies on Farm Income: Evidence from Southern Tigray, Northern Ethiopia. International Journal of Food and Agricultural Economics, 2(4): 91-106. DOI: 10.22004/ag.econ.190816.

Beshir H, Emana B, Kassa B, Jema Haji J. 2012. Determinants of chemical fertilizer technology adoption in North eastern highlands of Ethiopia: the double hurdle approach. Journal of Research in Economics and International Finance, 1(2): 39- 49.

Bybee-Finley, KA, Ryan MR. 2019. Advancing Intercropping Research and Practices in Industrialized Agricultural Landscapes. Agriculture, 8 (6): 80. DOI: 10.3390/ agriculture8060080.

CSA. 2017. Agricultural Sample Survey 2015/2016, Volume I, Report on Area and Production of Major Crops (Private Peasant Holdings), Meher season. Addis Ababa, Ethiopia.

CSA. 2018. Agricultural Sample Survey 2016 /17: Report on Farm Management Practices (Private Peasant Holdings, Meher Season), volume III, Addis Ababa, Ethiopia.

CSA. 2019. Agricultural Sample Survey 2018/19: Report on Area and Production of Major Crops (Private Peasant Holdings, Meher Season), Volume I, Addis Ababa, Ethiopia.

Dawson N, Martin A, Camfield L. 2018. Can agricultural intensification help attain sustainable development goals? Evidence from Africa and Asia. Third World Quarterly, 40 (5): 926-946. DOI: 10.1080/01436597.2019.1568190.

Dhraief, MZ, Bedhiaf-Romdhania S, Dhehibib B, OueslatiZlaouia M, Jebali O, Ben Youssef S. 2018. Factors Affecting the Adoption of Innovative Technologies by Livestock Farmers in Arid Area of Tunisia. FARA Research Report. Volume 3 (5): 22. DOI: 10.13140/RG.2.2.15795.27686.

Di Falco S, Penov I, Aleksiev A, van Rensburg T. 2010. Agrobiodiversity, farm profits and land fragmentation: Evidence from Bulgaria. Land Use Policy, 27: 763–771. DOI: 10.1016/j.landusepol.2009.10.007.

Djibo O, Maman NM. 2018. Determinants of agricultural technology adoption: Farm household’s evidence from Niger. Journal of Development and Agricultural Economics, 11(1): 15-23. DOI: 10.5897/JDAE2018.0998.

Emmanuel D, Owusu-Sekyere E, Owusu V, Jordaan H. 2016. Impact of agricultural extension service on adoption of chemical fertilizer: Implications for rice productivity and development in Ghana. NJAS-Wageningen Journal of Life Sciences, 79: 41–49. DOI: https://doi.org/10.1016/ j.njas.2016.10.002.

Feleke S, Zegeye T. 2006. Adoption of improved maize varieties in Southern Ethiopia: Factors and strategy options. Food Policy, 31 (5): 442–457. DOI: 10.1016/j.foodpol. 2005.12.003.

Freud EH, Phillipe P, Jacques R. 1996. Innovation in West African smallholder Cocoa: Some conventional and nonconventional measures of success. In: Food Security and Innovations: Successes and Lessons Learned, International Symposium, 131-146, Hohenheim, Germany.

Fung KM, Tai APK, Yong T, Liu X, Lam HM. 2019. Co-benefits of intercropping as a sustainable farming method for safeguarding both food security and air quality. Environmental Research Letters, 14. DOI: https://doi.org/ 10.1088/1748-9326/aafc8b.

Garnett T, Appleby MC, Balmford A, Bateman IJ, Benton TG, Bloomer P, Burlingame B, Dawkins M, Dolan L, Frasser D, Herrero M, Hoffmann I, Smith P, Thornton PK, Toulmin C, Vermeulen SJ, Godfray HCJ. 2013. Sustainable Intensification in Agriculture: Premises and Policies. Science, 341 (6141): 33–34. DOI: 10.1126/science.1234485.

Gebregziabher G, Giordano M, Langan J, Namara R. 2014. Economic Analysis of Factors Influencing Adoption of Motor Pumps in Ethiopia. Journal of Development and Agricultural Economics, 6(12): 490-500. DOI: http://dx.doi.org/10.5897/ JDAE2014.0576.

Gebresilassie L, Bekele A. 2015. Factors determining allocation of land for improved wheat variety by smallholder farmers of northern Ethiopia. Journal of Development and Agricultural Economics, 7: 105-112. DOI: 10.5897/JDAE2014.0621.

Giller KE, Wilson KJ. 1993. Nitrogen Fixation in Tropical Cropping Systems CAB International, Wallingford, USA. DOI: 10.1079/9780851994178.0000.

Gujaratti D. 2003. Basic Econometrics. 4rd edition, McGraw-Hill, Inc. New York. ISBN: 978-0071333450.

Haile B, Carlo CC, Koo AJ. 2017. Adoption of Sustainable Intensification Practices Evidence from Maize-legume Farming Systems in Tanzania. Environment and Production Technology Division, IFPRI Discussion Paper 01696.

Harper J, Rister M, Mjelde J, Drees M, Way M. 1990. Factors influencing the adoption of insect management technology. American Journal of Agricultural Economics, 72(4): 997- 1005. DOI: https://doi.org/10.2307/1242631.

Heyi DD, Mberengwa I. 2012. Determinants of farmers’ land management practices: The Case of Tole District, South West Shewa Zone, Oromia National Regional State, Ethiopia. Journal of Sustainable Development in Africa, 14(1).

Hosmer DW, Lemeshew S. 1989. Applied Logistic Regression. A Wiley-Inter Science Publication, New York. DOI: https://doi.org/10.1002/sim.4780100718.

Jaleta M, Yirga C, Kassie M, de Groote H, Shiferaw B. 2013. Knowledge, adoption and use intensity of improved maize technologies in Ethiopia. Invited paper presented at the 4th International Conference of the African Association of Agricultural Economists, September 22-25, 2013, Hammamet, Tunisia.

Kafle B. 2011. Factors affecting adoption of organic vegetable farming in Chitwan District, Nepal. World Journal of Agricultural Sciences, 7: 604-606.

Kaliba ARM, Verkuij H, Mwangi W. 2000. Factors affecting adoption of improved maize seeds and use of inorganic fertilizer for maize production in the intermediate and lowland zones of Tanzania. Journal of Agricultural and Applied Economics, 32 (1): 35-47. DOI: https://doi.org/ 10.1017/S1074070800027802.

Kariyasa K, Dewi A. 2011. Analysis of factors affecting adoption of integrated crop management farmer field school (Icm-Ffs) in swampy areas. International Journal of Food and Agricultural Economics, 1(2): 29-38.

Kousar R, Sohail M, Makhdum A, Ullah R, Saghir A, Usman S, Sadaf T. 2020. Empirical Investigation of Impact of Land Fragmentation on Crop Productivity in Punjab, Pakistan. Sarhad Journal of Agriculture, 36(1): 217-223. DOI: http://dx.doi.org/10.17582/journal.sja/2020/36.1.217.223.

Kudi TM, Bolaji M, Akinola MO, Nasa’I DH. 2011. Analysis of adoption of improved maize varieties among farmers in Kwara State, Nigeria. International Journal of Peace and Development Studies, 1(3): 8-12.

Latruffe L, L Piet. 2014. Does land fragmentation affect farm performance? A case study from Brittany, France. Agricultural Systems, 129(1): 68-80. DOI: https://doi.org/ 10.1016/j.agsy.2014.05.005.

Legese G, Langyintuo AS, Mwangi W, Jaleta M. 2011. Determinants of adoption of improved drought tolerant maize varieties and their implication for household food security in drought prone areas. Ethiopian Journal of Agricultural Economics, 8(1): 105-132.

Mariano MJ, Villano R, Fleming E. 2012. Factors influencing farmers’ adoption of modern rice technologies and good management practices in the Philippines. Agricultural Systems, 110: 41–53. DOI: 10.1016/j.agsy.2012.03.010.

Martey E, Wiredu AN, Etwire PM, Fosu M, Buah SSJ, Bidzakin J, Ahiabor BDK, Kusi F. 2014. Fertilizer adoption and use intensity among smallholder farmers in northern Ghana: a case study of the AGRA soil health project. Sustainable Agriculture Research, 3 (1): 24–36. DOI:10.5539/sar.v3n1p24.

Melesse B. 2018. A Review on Factors Affecting Adoption of Agricultural New Technologies in Ethiopia. Journal of Agricultural Science and Food Research, 9: 226.

Mignouna B, Manyong M, Rusike J, Mutabazi S, Senkondo M. 2011. Determinants of adopting imazapyr-resistant maize technology and its impact on household income in Western Kenya: AgBioforum, 14(3), 158-163.

Mucheru MM, Pypers P, Mugendi D, Mugwe J, Merckx R, Vanlauwe B. 2010. A staggered maize-legume intercrop arrangement robustly increases crop yields and economic returns in the highlands of Central Kenya. Field Crops Research, 115 (2): 132-139. DOI: 10.1016/j.fcr.2009.10.013.

Mwangi M, Kariuki S. 2015. Factors determining adoption of new agricultural technology by smallholder farmers in developing countries. Journal of Economics and Sustainable Development, 6 (5): 201.

NBE (National Bank of Ethiopia). 2019. Annual Report of the National Bank of Ethiopia for the year 2018/19. Addis Ababa, Ethiopia. Available from: https://nbebank.com/annual-report/ [Accessed: 13.04.2020].

Nyuor, AB. 2016. Economic impacts of climate change on cereal production: Implications for sustainable agriculture in northern Ghana. Sustainability, 8 (8): 724. DOI: https://doi.org/ 10.3390/su8080724.

Ogada MJ, Mwabu G, Muchai D. 2014. Farm technology adoption in Kenya: a simultaneous estimation of inorganic fertilizer and improved maize variety adoption decisions. Agricultural and Food Economics, 2: 12. DOI: https://doi.org/10.1186/s40100-014-0012-3

Olarinre AA, Omonona BT. 2018. Effect of Land Fragmentation on the Productivity of Rice Farmers in Osun State, Nigeria. Applied Tropical Agriculture, 23(1): 105-111. DOI: 10.13140/RG.2.2.11854.31049.

Oluwayemisi A, Olarinde LO, Fatunbi AO. 2017. Determinants of adoption of improved maize varieties in Kano-KatsinaMaradi, West Africa. African Crop Science Journal, 25: 1-11. DOI: 10.4314/acsj.v25i1.1S.

Pan D. 2014. The impact of agricultural extension on farmer nutrient management behaviour in Chinese rice production: A household-level analysis. Sustainability, 6 (10): 6644- 6665. DOI: 10.3390/su6106644.

Paudel KP, Gauthier WM, Westra JV, Hall LM. 2008. Factors influencing and steps leading to the adoption of best management practices by Louisiana dairy farmers. Journal of Agricultural and Applied Economics, 40 (1): 203–222. DOI: https://doi.org/10.1017/S1074070800023555.

Pindyck RS, Rubinfeld DL. 1981. Econometric Models and Economic Forecasts. 2nd edition, New York, McGraw-Hill Boo Co. ISBN: 978-0070500983.

Rahman S, Rahman M. 2008. Impact of land fragmentation and resource ownership on productivity and efficiency: The case of rice producers in Bangladesh. Land Use Policy, 26: 95– 103.

Rusinamhodzia L, Corbeels M, Nyamangara J, Giller KE. 2012. Maize–grain legume intercropping is an attractive option for ecological intensification that reduces climatic risk for smallholder farmers in central Mozambique. Field Crops Research, 136: 12–22. DOI: https://doi.org/10.1016/ j.fcr.2012.07.014.

Sánchez-Toledano BI, Kallas Z, Rojas OP, Gil JM. 2018. Determinant factors of the adoption of improved maize seeds in Southern Mexico: A survival analysis approach. Sustainability, 10: 3543. DOI: https://doi.org/10.3390/ su10103543.

Sanginga PC, Tumwine J, Lilja NK. 2006. Patterns of Participation in Farmers’ Research Groups: Lessons from the Highlands of Western Uganda. Agriculture and Human Values, 23(4): 501-512. DOI: 10.1007/s10460-006-9018-0.

Shiferaw B, Kassie M, Jaleta M, Yirga C. 2014. Adoption of improved wheat varieties and impacts on household food security in Ethiopia. Food Policy, 44: 272-284. DOI: 10.1016/j.foodpol.2013.09.012.

Shita A, Kumar N, Singh S. 2018. Agricultural technology adoption and its determinants in Ethiopia: a reviewed paper. Asia Pacific Journal of Research, I(LVV): 99-104.

Silva KNN, Broekel T. 2016. Factors constraining farmers’ adoption of new agricultural technology programme in Hambantota District in Sri Lanka: Perceptions of Agriculture Extension Officers. 13th International Conference on Business Management, 378-398.

Smith A, Sieglinde S, Regis C, Peter TP, Mateete B, Jerry G. 2016. Measuring Sustainable Intensification in Smallholder Agroecosystems: A Review. Global Food Security, 12: 127– 38. DOI: https://doi.org/10.1016/j.gfs.2016.11.002.

Srivastava AK, Mboh CM, Faye B, Gaiser T, Kuhn A, Ermias E, Ewert F. 2019. Options for Sustainable Intensification of Maize Production in Ethiopia. Sustainability, 11: 1-20. DOI: https://doi.org/10.3390/su11061707.

Sun Y, Liu YZ. 2010. Evaluation of land use sustainability based on land fragmentation: A case on Fenyi County, Jiangxi Province. Journal of Natural Resources, 25(5): 802-810. DOI: http://dx.doi.org/10.17582/journal.sja/2020/36.1.217.223.

Tan S, Heerink N, Kuyvenhoven A, Qu F. 2010. Impact of land fragmentation on rice producer’s technical efficiency in South-East China. NJAS-Wageningen Journal of Life Sciences, 57: 117-123. DOI: https://doi.org/10.1016/ j.njas.2010.02.001.

Tura M, Aredo D, Tsegaye W, La Rovere R, Tesfahun G, Mwangi W, Mwabu G. 2010. Adoption and continued use of improved maize seeds: Case study of Central Ethiopia. African Journal of Agricultural Research, 5(17): 2350-2358. DOI: https://doi.org/10.5897/AJAR.9000024.

Ullah A, Khan D, Zheng S, Ali U. 2018. Factors influencing the adoption of improved cultivars: a case of peach farmers in Pakistan. Ciência Rural, Santa Maria, 48: 11, e20180342, 2018. DOI: 10.1590/0103-8478cr20180342.

Zbinden S, Lee DR. 2005. Paying for environmental services: an analysis of participation in Costa Rica’s PSA program. World Development, 33(2): 255-272. DOI: https://doi.org/10.1016/ j.worlddev.2004.07.012.