Mouafor et al Greener Journal of Agricultural Sciences Vol. 6 (10), pp. 276-284, November 2016. ISSN: 2276-7770 Research Paper Manuscript Number: 072716124 (DOI: http://doi.org/10.15580/GJAS.2016.10.072716124) Farmer’s Adoption of Improved Cassava Varieties in the Humid Forest Agro-ecological Zone of Cameroon Mouafor Boris Igwacho*1, Temegne Nono Carine2,4, Ngome Ajebesone Francis3, Malaa Dorothy3 1University of Yaoundé II, Faculty of Science Economics and Management P.O. Box 18 Soa, Cameroon. 2University of Yaoundé I, Faculty of Science, Department of Plant Biology, P.O. Box 812 Yaoundé, Cameroon. 3Institute of Agricultural Research for Development (IRAD), P.O. Box 2123 Yaoundé, Cameroon. 4University of Bamenda, Higher Technical Teacher Training College, Department of Civil Engineering and Forestry Techniques, P.O. Box 39 Bambili, Cameroon. Abstract Background: Development of high yielding and disease resistant cassava (Manihot esculenta Crantz) varieties, coupled with the promotion of efficient processing technologies, is the principal intervention aimed at changing the cassava sector in Cameroon. National research and extension programs have been spearheading efforts to disseminate these varieties alongside improving farmer’s access to other technologies. Methods: This paper investigated the rate of adoption of the disseminated cassava varieties and processing technologies on adopting households. Survey of 100 households was done in 5 villages (Mbankomo, Akono, Okola, Ngoumou and Nkoldoum) in the Center Region of Cameroon. Results: The results showed that in all the study sites 40% of the farmers cultivate improved variety. They process cassava at home using small processing commercial processors. It is noted that the farmers prefer the improved variety because of their high dry matter content and most common processed cassava products were found to be “Baton” and “Fufu”. Moreover, farmers that were able to obtain the improved variety appreciate this variety so much because of its yield and disease tolerant and most of all of because of their high dry matter content which the farmers appreciate a lot. The farmer’s adhesions in community organizations or cooperative organizations have a higher tendency of obtaining credits for their farms seeds and other technical support. Thus the introduction of new cassava varieties would be enhanced by farmers’ access to these facilities and services. Conclusion: The size of the farm, the availability and the adoption of improved planting material play a critical role on cassava tuber production in Center Region of Cameroon. Keywords: Cassava products, Cassava value chain, improved varieties, Manihot esculenta, Center Region, Cameroon Return to Content View [Full Article – PDF] [Full Article – HTML] [Full Article – EPUB] Post-review Rundown View/get involved, click [Post-Review Page] References Azobi MV (1988). A Geographical Appraisal of the North West Development Authority (MINDENO): An agent of Rural Development. Third Cycle Doctorate Thesis in Geography. University of Yaoundé I (Cameroon). Borlaug N (1992). Small-scale agriculture in Africa: the myths and realities. Feeding the Future (Newsletter of the Sasakawa Africa Association) 4: 2. Fonjong LN (2004). Changing fortunes of government policies and its implications on the application of agricultural innovations in Cameroon. Nordic Journal of African Studies, 13(1): 13-29. http://www.njas.helsinki.fi/pdf-files/vol13num1/fonjong. Gwanfogbe M, Meligui A, Moukam J and Nguoghia J (1983). Geography of Cameroon. Hong Kong: Macmillan Education Ltd. Molua EL and Lambi CM (2006). Climate, Hydrology and Water Resources in Cameroon. CEEPA Discussion Papers, Special Series on Climate Change and Agriculture in Africa. Centre for Environmental Economics and Policy in Africa (CEEPA), University of Pretoria, South Africa. Retrieved from http://www.ceepa.cocza/docs/CDPN°17.pdf. pp. 1-37. Moma C, Mfoumou C, Zibi M and Lebailly P (2014). Opportunities and challenges of women cassava producers in Bityili (South-Cameroon) and the implications for gender roles. Fifth International Scientific Agricultural Symposium (Agrosym), 1092-1099. Mvodo MES and Liang D (2012a). Cassava sector development in Cameroon: Production and marketing factors affecting price. Agricultural Sciences, 3(5): 651-657. doi: 10.4236/as.2012.35078. Mvodo MES and Liang D (2012b). SWOT Analysis of Cassava Sector in Cameroon. World Academy of Science, Engineering and Technology, 71: 236-242. Ngome AF, Amougou MFC, Tata PI, Ndindeng SA, Mfopou MYC, Mapiemfu-Lamare D and Njeudeng TS (2013). Effects of cassava cultivation on soil quality indicators in the humid forest of Cameroon. Greener J. Agric. Sci., 3: 451-457. www.gjournals.org. Nguimkeng GED, Zapfack L, Mbogne TJ, Temegne NC, Ntsomboh-Ntsefong G., Tonfack LB and Youmbi E (2016) Agromorphological and organoleptic characterization of Vernonia calvoana and V. amygdalina. J. Chem. Bio. Phy. Sci. Sec. B, 6(4): 1345-1361. Njukwe E, Onadipe O, Amadou Thierno D, Hanna R, Kirscht H, Maziya-Dixon B, Araki S, Mbairanodji A and Ngue-Bissa T (2014). Cassava processing among small-holder farmers in Cameroon: Opportunities and challenges. Int. J. Agric. Pol. Res., 2(4): 113-124. http://www.journalissues.org/ijapr/ Temegne NC, Ngome AF, Fotso KA (2015). Influence de la composition chimique du sol sur la teneur en éléments nutritifs et le rendement du manioc (Manihot esculenta Crantz, Euphorbiaceae) dans deux zones agro-écologiques du Cameroun. Int. J. Biol. Chem. Sci., 9(6): 2776-2788. DOI: http://dx.doi.org/10.4314/ijbcs.v9i6.21. Temegne NC, Mouafor BI and Ngome AF (2016). Agro-morphological Characterization of Cassava (Manihot esculenta Crantz) Collected in the Humid Forest and Guinea Savannah Agro-ecological Zones of Cameroon. Greener J. Agric. Sci., 6(7): 209-225. DOI: http://doi.org/10.15580/GJAS.2016.8.062716107. Tricoche B, David-Benz H and Song J-E (2008). L’organisation de la filière manioc au Cameroun: des modes de coordination pour régir les incertitudes de marché. Atelier REPARAC, Juin 2008, Yaoundé, Cameroun, pp. 13. <hal-00415315>.