The study was carried out to assess the yield performance of groundnuts grown on ridges and non-ridges by communal farmers of ward 8 in the Guruve district of Mashonaland Central province, Zimbabwe. Interviews, surveys, questionnaires, and observation methods were used for data collection. A sample of 60 respondents was selected from a list of groundnut farmers in the ward. The results showed that 43% of the respondents were growing groundnuts on ridges, while 57% of the respondents were growing groundnuts on non-ridges. No farmers used both farming practices. The results showed that more yield per hectare was obtained by farmers who used ridged farming practices than nonridging techniques. The area planted with groundnuts varied significantly (P<0.001) with the farming practice (ridging and nonridging) and the farming seasons. The rate of adoption of the ridging farming technology was affected by the age of the household head, level of education of the household head, sex, and age of the household head. More females participated in the growing of groundnuts than their male counterparts. In conclusion, groundnut yield was comparatively higher on ridged farming technology than on non-ridging technology; farmers are encouraged to plant groundnuts on ridges to cherish the highest production benefits. However, more training is needed for farmers to take upon new farming technology and regard groundnuts as a cash crop rather than a women's crop as well as to improve the household income.

Addai, K. N., Temoso, O., & Ng’ombe, J. N. (2021).

Participation in farmer organizations and adoption of farming technologies among rice farmers in Ghana. International Journal of Social Economics,

(4), 529–545.

Ajeigbe, H., Waliyar, F., Echekwu, C., Ayuba, K., Motagi,

B., Eniayeju, D., & Inuwa, A. (2014). A Farmer's guide to groundnut production in Nigeria. Patancheru, 502(324), 36.

Ayoola, P., Adeyeye, A., & Onawumi, O. (2012). Chemical evaluation of food value of groundnut (Arachi hypogaea) seeds. American Journal of

Food and Nutrition, 2(3), 55–57.

Barbier, E. B. (2000). The economic linkages between rural poverty and land degradation: Some evidence from Africa. Agriculture, Ecosystems &

Environment, 82(1–3), 355–370.

Bationo, A., Kihara, J., Vanlauwe, B., Kimetu, J., Waswa, B. S., & Sahrawat, K. L. (2008). Integrated nutrient management: Concepts and experience from SubSaharan Africa.

Bonabana-Wabbi, J. (2002). Assessing factors affecting adoption of agricultural technologies: The case of Integrated Pest Management (IPM) in Kumi District, Eastern Uganda.

Caliskan, S., Caliskan, M., Arslan, M., & Arioglu, H. (2008). Effects of sowing date and growth duration on growth and yield of groundnut in a Mediterranean-type environment in Turkey. Field Crops Research, 105(1–2), 131–140.

Chakoma, I., & Chummun, B. Z. (2019). Forage seed value chain analysis in a subhumid region of Zimbabwe: Perspectives of smallholder producers. African Journal of Range & Forage Science, 36(2), 95–104.

Chi, T. T. N., & Yamada, R. (2002). Factors affecting farmers' adoption of technologies in the farming system: A case study in Omon district, Can Tho

province, Mekong Delta. Omonrice, 10, 94–100.

Collier, P., & Dercon, S. (2014). African agriculture in 50 years: Smallholders in a rapidly changing world? World Development, 63, 92–101.

Dapaah, H. K., Amoh-Koranteng, J. G., Darkwah, K., & Borketey-La, E. B. (2014). Influence of poultry manure and NPK fertilization on growth, yield, and storability of onion (Allium cepa L.) grown under rain-fed conditions. American Journal of Experimental Agriculture, 4(8), 866–878.

Elseed, S. M. H. (2014). Effect of Application of Some Agronomic Practices on infection by Aspergillus flavus and yield of Groundnut (Arachis hypogaea L.).

Gutu, T., Abera, D., & Alemu, B. (2019). Evaluation of the Effects of Intra and Inter Row Spacing on the Growth and Yield of Ground Nut (Arachis

Hypogaea L.) at Haro Sabu, Western Ethiopia. Evaluation, 70.

Haile, D., & Keith, S. (2017). Groundnut cropping guide. Katema, T., Hanyani-Mlambo, E. M. B. T., Gomera, M. R., & Chamboko, T. (2017). An Analysis of the

Profitability of Groundnut Production by Smallholder Farmers in Chegutu District, Zimbabwe. J.Econ. Sustain. Dev., 8, 167–175.

Kugedera, A. T., Mango, L., & Kokerai, L. K. (2020). Effects of integrated nutrient management and tied ridges on maize productivity in dry regions of

Zimbabwe. Octa J Biosci, 8(1), 7–13.

Leong, Y.-H., Latiff, A. A., Ahmad, N. I., & Rosma, A. (2012). Exposure measurement of aflatoxins and aflatoxin metabolites in human body fluids. A short review. Mycotoxin Research, 28(2), 79–87.

Majola, N. G., Gerrano, A. S., & Shimelis, H. (2021). Bambara groundnut (Vigna subterranea [L.] Verdc.) production, utilisation and genetic improvement in Sub-Saharan Africa. Agronomy, 11(7), 1345.

Motamed, M., & Singh, B. (2003). Correlates of adoption of improved sericulture practices. Indian Journal of Extension Education (India).

Mvumi, C., Washaya, S., & Ruswa, C. (2018). The effects of planting methods on growth and yield of groundnut (Arachis hypogaea) cultivar natal

common in Africa South of the Sahara.

Mwakinyali, S. E., Ding, X., Ming, Z., Tong, W., Zhang, Q., & Li, P. (2019). Recent development of aflatoxin contamination biocontrol in agricultural products. Biological Control, 128, 31–39.

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).

Mwebaze, P., & Mugisha, J. (2011). Adoption, utilisation, and economic impacts of improved post-harvest technologies in maize production in Kapchorwa District, Uganda. International Journal of Postharvest Technology and Innovation, 2(3), 301–327.

Myers, J. L., Well, A. D., & Lorch, R. F. (2013). Research design and statistical analysis. Routledge.

Nagaraj, G. (2009). Oilseeds: Properties, processing, products and procedures. New India Publishing.

Naidu, R., Kimmins, F., Deom, C., Subrahmanyam, P., Chiyembekeza, A., & Van der Merwe, P. (1999).

Groundnut rossette: A virus disease affecting groundnut production in sub-Saharan Africa. Plant Disease, 83(8), 700–709.

Odendo, M., Bationo, A., & Kimani, S. (2011). Socioeconomic contribution of legumes to livelihoods in Sub-Saharan Africa. In Fighting poverty in SubSaharan Africa: The multiple roles of legumes in Integrated Soil Fertility Management (pp. 27–46).Springer.

Okello, D., Monyo, E., Deom, C., Ininda, J., & Oloka, H. (2013). Groundnut production guide for.

Pannell, D. J., Marshall, G. R., Barr, N., Curtis, A., Vanclay, F., & Wilkinson, R. (2006).Understanding and promoting the adoption of conservation practices by rural landholders. Australian Journal of Experimental Agriculture,

(11), 1407–1424.

Paustian, M., & Theuvsen, L. (2017). Adoption of precision agriculture technologies by German crop farmers. Precision Agriculture, 18(5), 701–716.

Siemens, G., & Tittenberger, P. (2009). Handbook of emerging technologies for learning. The University of Manitoba Canada.

Singh, A., Raina, S. N., Sharma, M., Chaudhary, M., Sharma, S., & Rajpal, V. R. (2021). Functional uses of peanut (Arachis hypogaea L.) seed storage proteins. Grain and Seed Proteins Functionality.

Subrahmaniyan, K., Kalaiselvan, P., Balasubramanian, T., & Zhou, W. (2006). Crop productivity and soil properties as affected by polyethylene film mulch

and land configurations in groundnut (Arachis hypogaea L.) (Einfluss von Polyethylenfilm-Mulch und Feldbeschaffenheit auf Ertrag und Bodeneigenschaften im Erdnussanbau [Arachis hypogaea L.]). Archives of Agronomy and Soil Science, 52(1), 79–103.

Sujatha, G. (1992). Effect of Land Surface Configurations on Soil Physical Conditions and Yields of Groundnut on an Alfisol.

Tsusaka, T. W., Orr, A., Msere, H. W., Homann-Kee Tui, S., Maimisa, P., Twanje, G. H., & Botha, R. (2016). Do commercialization and mechanization of a

“women’s crop” disempower women farmers? Evidence from Zambia and Malawi. Agricultural and Applied Economics Association (Formerly the

American Agricultural Economics Association), 1–26.

Tulole, L. B., Erasto, M. S., Theofora, X. M., & Leah, W. M. (2008). On-farm evaluation of promising groundnut varieties for adaptation and adoption in

Tanzania. African Journal of Agricultural Research, 3(8), 531–536.

Usman, I., Taiwo, A. B., Haratu, D., & Abubakar, M. A. (2013). Socio-economic factors affecting groundnut production in Sabongari Local Government of Kaduna State, Nigeria. International Journal of Food and Agricultural

Economics (IJFAEC), 1(1128-2016–91995), 41– 48.

Variath, M. T., & Janila, P. (2017). Economic and academic importance of peanut. In The peanut genome (pp. 7–26). Springer.