Sodah, M.G.Jayeoba, O.J.Amana, Sani MathewJibrin, Mangwa I.2023-12-112023-12-112021-10-25Abbasi, M. K., Majeed, A., Sadiq, A. and Khan, S. R. (2008). Application of bradyrhinzobium japonica and phosphorus fertilization improved growth, yield and nodulation of Soybean in the sub-humid hilly region of Azad Jammu and Kashmir, Pakistan. Journal of Plant Production Society, 8 (4): 368-376 Bayan, M.R. (2013). Biochar Effects on Soybean Growth and Nodulation. Retrieved from Ideals.illinois.edu/handle/2142/https://hdl.handle.net/2142/107004 Diep, C.N. Dang, V.H, Ngau, N.V. Son, M.T., Duong, T.P. (2002). Effect of Rhizobial Inoculation and Inorganic nitrogen Fertilizer on vegetable soybean. In Herridge, D. (eds). Inoculants and nitrogen. Fixation of legumes in Herridge, D.(ed). Inoculants and Nitrogen Fixation of Legumes in Vietnan. ACIAR. Proceedings, 109: 82-85. Folnovic, T. (2019). How can Farmers Benefits from Seed Inoculation? Retrieved from blog, agrivi. Com/post/how-can- farmers -benefits-from-seed-inoculation. Kubota, A., Hoshiba, K.and Bordon, J. (2008). Effect of fertilizer N application and seed coating with rhizobial inoculants on Soybean yield in eastern Paraguay. Journal of Agricultural Research, 32: 1627- 1633. Mathenge, C. T., Masse, C. G., Onyango, J. and Vanlauvwe, B. (2019). Variability of Soybean Response to Rhizobia Inoculants Varmicompost and Legume. Specific fertilizer bland in Sirya country of Kenya, soil and tillage research. November, 2019. Manral, HS and Saxena, SC. (2003). Organic formulations for effective growth and yield in vegetables. Indian Journal of Agronomy, 46(1):35 - 140. Mete, F. Z, Mia, S., Dijlstra, F.A., Abuyusuf, M.D. and Hossain, A. S. M. I. (2015). Synergistic Effects of Biochar and NPK Fertilizer on Soybean Yield in an Alkaline Soil. Pedospher, 25 (1): 718 -719.https://keffi.nsuk.edu.ng/handle/20.500.14448/2177The experiments were conducted at the Teaching and Research Farm, Faculty of Agriculture, Shabu -Lafia Campus of Nasarawa State University, Keffi, during 2018 and 2019 cropping seasons to examine the effects of Legume Inoculant and Biochar on the growth, nodulation and yields of Soybean. The experiments were laid in Randomized Complete Block Design (RCBD). Biochar at the rates ofO, 4, 8 andl2 tons/ha was incorporated into the ridges before the Soybean seeds were planted as uninoculated (without legume inoculant) and inoculated (coated with legume inoculant) respectively. All data collected were subjected to analysis of variance (ANOVA) using GENSTAT Statistical Package while least significant different (LSD) was used to separate treatment means at 5% probability. The results revealed that inoculated plots recorded significantly (P<0.05) taller soybean plant, higher number of branches, nodules number per plant and grain yields (kg/ha) against uninoculated plots. The results also showed that biochar at the rate of 8 tons/ha produced significantly (P<0.05) tallest soybean plant, highest number of branches, nodules number per plant and grain yields (kglha) compared to other rates of biochar applied while the highest dose of biochar (12 tons/ha) applied did not necessarily influenced and increased Soybean growth and yield. Legume inoculant and biochar at the rate of 8 tons/ha is therefore recommended for sustainable Soybean in the study area.enBiochar, growth, inoculant, soybean, yieldOther