Asian Journal of Plant Sciences1682-39741812-5697Asian Network for Scientific Information10.3923/ajps.2021.428.434SamsuriShampazuraini Mohammad YusoffMartini Fauzi RamlanMohd SulaimanZulkefly Md IsaIsharuddin 32021203Background and Objective: Intercropping remains a common practice in many developing nations due to the increasing focus on sustainability and food security. A field study was conducted to evaluate the productivity of sweet corn and okra planted in intercropping as affected by crop ratios. Materials and Methods: The study was conducted in a Randomized Complete Block Design with three replications. The crop ratio treatments of intercropping pattern were T1 (20% okra+80% sweet corn+rubber), T2 (50% okra+50% sweet corn+rubber), T3 (80% okra+20% sweet corn+rubber), T4 (100% okra+rubber) and T5 (100% sweet corn+rubber). Results: The sweet corn results revealed that the number of marketable cobs, cob yield and biomass yield was significantly influenced by the cropping pattern where the highest values were obtained in sole sweet corn. The number of okra fresh pods per plant, length and diameter of the fresh pod, weight per pod as well as fresh pod yield per hectare was significantly reduced when okra was intercropped with sweet corn. With regard to intercropping efficiency, the highest Land Equivalent Ratio (LER) and Monetary Advantage Index (MAI) were from the intercropping pattern of T1 (20% okra+80% sweet corn+rubber) with 1.14 and RM 3388 ha1, respectively. Conclusion: Thus, sweet corn-okra intercropping pattern of 20% okra+80% sweet corn+rubber is the most preferred practice in young rubber plantation than sole cropping of sweet corn or okra.]]>Glaze-Corcoran, S., M. Hashemi, A. Sadeghpour, E. Jahanzad, R.K. Afshar, X. Liu and S.J. Herbert,2020162199256Ijoyah, M. O. and F.T. Fanen,201213947Hugar, H.Y. and Y.B. Palled,200821159161Ijoyah, M.O. and J. Jimba,2012Zea mays L.) and okra (Abelmoschus esculentus L. Moench) intercropping system at Makurdi, Nigeria. ]]>23844Ijoyah, M.O., T. Iorlamen and J.A. Idoko,2012Zea mays L.) and okra (Abelmoschus esculentus L. Moench) to seasonal conditions at Makurdi, Nigeria. ]]>27985Brooker, R.W., A.E. Bennett, W.F. Cong, T.J. Daniell and T.S. George et al.,2015205107117Sadeghpour, A., E. Jahanzad, A.S. Lithourgidis, M. Hashemi, A. Esmaeili and M.B. Hosseini,201487789Viswanathan, P.K. and G.P. Shivakoti,200813114Leshem, A., T. Aenis, P. Grötz, I. Darnhofer and M. Grötzer,20102010pp: 11031108Hougni, D.G.J.M., B. Chambon, E. Penot and A. Promkhambut,201837787803Willey, R.W.,198521119133Ghosh, P.K.,200488227237Lithourgidis, A.S., D.N. Vlachostergios, C.A. Dordas and C.A. Damalas,201134287294Oyewole, C.I.,2010Zea mays L.)-okra (Abelmoschus esculentus (L.) Moench) intercrop as affected by cropping pattern in Kogi State, Nigeria.]]>4 19Hamma, I.L., S.M. Yusuf and U.D. Idris,2015Zea mays L.) and okra (Abelmoschus esculentus (L.) Moench) intercropping system at Samaru, Zaria.]]>21622Jahanzad, E., A. Sadeghpour, M.B. Hosseini, A.V. Barker, M. Hashemi and O.R. Zandvakili,201410619932000Sadeghpour, A., E. Jahanzad, A. Esmaeili, M.B. Hosseini and M. Hashemi,20131484348Habtam, S. and M. Tesfaye,2018Abelmoschus esculentus L.)-maize (Zea mays L.) intercropping as affected by cropping pattern at Assosa, Benishangul Gumuz Region, western Ethiopia. ]]>69399Morgado, L.B. and R.W. Willey,200865474480Muoneke, C.O. and O.O. Ndukwe,2008Amaranthus intercropping system.]]>71521Odedina, J.N., T.O. Fabunmi, S.O. Adigbo, S.A. Odedina and R.O. Kolawole,2014Vigna unguiculata, L. Walp) for intercropping with okra (Abelmoschus esculenta L. Moench). ]]>291108Ijoyah, M.O., A.U. Usman and N.I. Odiaka,201518133154Lima Filho, J.M.P.,200035915921