Maize is a primary crop in most farming systems and staple food of the rural population in abundant of the mid-altitude sub- humid agro-ecologies of Ethiopia. Nearly 88% of maize produced in Ethiopia is consumed as food, both as green and dry grain. Yet, it has low protein content since it is normal maize, with poor protein quality limited by deficiencies in lysine and tryptophan and has an excess of leucine and isoleucine. Suggestions on hybrid performance and heterosis of QPM inbred for grain yield and its components is vital to design suitable breeding strategies for the development of nutritionally enhanced maize varieties. A line x tester analysis involving 36 crosses generated by crossing nine elite maize inbred lines with four testers and four checks were evaluated for yield and yield related traits at Bako and Jimma. The objectives were to evaluate mean performance and the magnitude of heterosis for quality protein maize inbred lines, adapted to mid altitude agroecology of Ethiopia. The genotypes were evaluated in alpha lattice design replicated three times. Analyses of variances showed significant (p<0.05 or p<0.01) mean squares due to genotypes in each and across locations for most traits studied, indicating the existence of appropriate genetic variability. The crosses, L5xT2, L7xT2, L8xT1, L8xT2, L3xT2, L5xT1, and L1xT1 showed higher grain yield. The estimated mid and better parent heterosis for grain yield across locations for all crosses displayed positive and highly significant variances which ranged from 386.6% to 111.2% and 288.9% to 72.2%, respectively. From this study, about 77.78% of crosses had better potential for grain yield. The results attained in this experiment suggest that the hopeful potentials of the identified inbred lines for further breeding of QPM for the mid-altitude agroecology of Ethiopia.

Abate T, M Fisher, T Abdoulaye, GT Kassie, R Lunduka, P Marenya, W Asnake, 2017. Characteristics of maize cultivars in Africa: How modern are they and how many do smallholder farmers grow? Agriculture & Food Security.

Abate, T., Shiferaw, B., Menkir, A., Wegary, D., Kebede, Y., Tesfaye, K., Kassie, M., Bogale, G., Tadesse, B. and Keno, T., 2015. Factors that transformed maize productivity in Ethiopia. Food security.

Addisalem, M., Wegary, D., Mohamed, W., Tarekegne, A. and Teklewold, A., 2019. Hybrid Performance and Combining Ability of Quality Protein Maize Inbred Lines under Low-Nitrogen Stress and Non-Stress Conditions in Ethiopia. Ethiopian Journal of Agricultural Sciences.

Adefris T, Dagne W, Abraham T, Birhanu T, Kassahun B, Dennis F, Prasanna BM. (2015). Quality Protein Maize (QPM): A Guide to the Technology and Its Promotion in Ethiopia. CIMMYT: Addis Ababa, Ethiopia.

Ali Q, Ali A, Awan MF, Tariq M, Ali S, Samiullah TR and Hussain T., 2014. Combining ability analysis for various physiological, grain yield and quality traits of Zea mays L. Life. Sci. J.

Amare S, Dagne W and Sentayehu S., 2016. Combining ability of elite highland maize (Zea mays L.) inbred lines at Jimma Dedo, South West Ethiopia. Advances in Crop Science and Technology.

Berhanu T. 2009. Heterosis and combining ability for yield, yield related parameters and stover quality traits for food-feed in maize (Zea Mays L.) adapted to the mid-altitude agroecology of Ethiopia. MSc. Thesis. Haramaya University, Haramaya, Ethiopia.

Beyene A., 2016. Heterosis and combining ability of mid-altitude quality protein maize (Zea Mays L.) inbred lines at Bako, Western Ethiopia. MSc Thesis. Haramaya University, Haramaya.

Bisen, P., Dadheech, A., Namrata, N., Kumar, A., Solanki, G. and Dhakar, T.R., 2017. Combining ability analysis for yield and quality traits in single cross hybrids of quality protein maize (Zea mays L.) using diallel mating design. Journal of Applied and Natural Science.

Bitew T, Mideksa D, Temesgen D, Belay G, Girma D, Dejene K, Dagne W, Adefiris T. 2017. Combining ability analyses of quality protein maize (QPM) inbred lines for grain yield, agronomic traits, and reaction to grey leaf spot in mid-altitude areas of Ethiopia. African Journal of Agricultural Research.

Bitew T. 2016. Heterosis and Combining Ability of Mid-Altitude Maize (Zea mays L.) Inbred Lines for Grain Yield, Yield Related Traits and Reaction to Turcicum Leaf Blight (Exserohilum turcicum Leonard and Suggs) at Bako, Western Ethiopia. MSc. Thesis. Haramaya University, Haramaya, Ethiopia.

Dagne W, Habtamu Z, Temam H, M. T. Labuschagne and H. Singh. 2007. Heterosis and combining ability for grain yield and its components in selected maize inbred lines. South African Journal of Plant and Soil.

Dufera T, T Bulti and A Girum 2018. Heterosis and combining ability analyses of quality protein maize (Zea mays L.) inbred lines adapted to mid-altitude subhumid agroecology of Ethiopia. African Journal of Plant Science.

Dufera T. Tesso, D., and Azmach, D., 2017. Combining Ability, Heterosis and Heterotic Grouping of Quality Protein Maize Zea mays L. Inbred Lines at Bako, Western Ethiopia (Master of sciences thesis, Haramaya University).

Falconer, D. S. and Mackay, T. F. C. 1996. Introduction to quantitative genetics. (4th ed.), Longman, London, UK.

Gemechu G, 2019. Combining ability and heterosis in maize inbred lines (zea mays L.) For yields in mid altitude sub-humid agroecology of Ethiopia (Master of Science thesis, university of Nigeria).

Girma C. Hosana, Sentayehu Alamerew, Berhanu Tadesse & Temesgen Menamo.2015. Test Cross Performance and Combining Ability of Maize (Zea Mays L.) Inbred Lines at Bako, Western Ethiopia, Global Journal of Science Frontier Research: Department of Agriculture and Veterinary.

Gomez, A.K. and Gomeze, A.A (1984). Statistical Procedure for Agricultural Research. 2nd edition. John Wiley and Sons. New York.

Gudeta N, W Dagne, M Wassu, and Z Habtamu. 2017. Mean Performance and Heterosis in Single Crosses of Selected Quality Protein Maize (QPM) Inbred Lines. J. Sci. Sustain. Dev.

Hussain, M.O.Z.A.M.M.I.L., Kiani, T.T., Shah, K.N., Ghafoor, A. and Rabbani, A., 2015. Gene action studies for protein quality traits in (Zea mays L.) under normal and drought conditions. Pakistan Journal of Botany.

Legesse, B.W., Pixley, K.V. and Botha, A.M., 2009. Combining ability and heterotic grouping of highland transition maize inbred lines. Maydica.

Lemi, B., Sentayew, A., Ashenafi, A. and Gerba, D. 2018. Genotype x environment interaction and yield stability of Arabica coffee (Coffee Arabica L.) genotypes.

Mbuya, K., Nkongolo, K.K. and Kalonji-Mbuyi, A., 2011. Nutritional analysis of quality protein maize varieties selected for agronomic characteristics in a breeding program. International Journal of Plant Breeding and Genetics.

Rahman, H., Arifuddin, Z., Shah, S., Shah, A., Iqbal, M., and Khalil, I.H. 2010. Evaluations of maize S2 lines in test cross combinations I: flowering and morphological traits. Pakistan Journal of Botany.

Rawi. 2016. Relative performance and combining ability for yield and yield components in maize by using full diallel cross. International Journal of Current Research.

SAS Institute, Inc (2003). SAS proprietary Software and Version 9.0, SAS Inst., Cary, NC.. SAS Institute, Inc, CARY, NC, Canada.

Shashidhara, C.K., 2008. Early generation testing for combining ability in maize (Zea mays L.). MSc Thesis.University of Agricultural Sciences, Dharwad.

Shushay W. 2011. Line x tester analysis of maize (Zea mays L.) inbred lines for grain yield and yield related traits in central rift valley of Ethiopia. MSc. Thesis, Haramaya University, Haramaya, Ethiopia.

Shushay W., 2014. Standard Heterosis of Maize (Zea mays L.) Inbred Lines for Grain Yield and Yield Related Traits in Central Rift Valley of Ethiopia. Journal of Biology, Agriculture and Healthcare

Singh, P.K., Singh, A.K., Shahi, J.P. and Ranjan, R., 2012. Combining ability and heterosis in quality protein maize. The bioscan.

Singh, R.K., and Chaudhary, B.D (1985). Biometrical methods in quantitative genetic analysis. Kalyani Publishers New Delhi, India.

Tilahun B, Girum A, Tolera K, Temesgen Ch, Belay G, Beyene A, Dufera T, Zelalem T & Desalegn Ch,.2018. Test cross performance and combining ability of newly introduced quality protein maize (Zea mays L.) inbred lines for grain yield and agronomic traits evaluated in mid-altitude agro-ecological zones of Ethiopia, South African Journal of Plant and Soil.

Tolera, K., Mosisa, W. and Habtamu, Z., 2017. Combining ability and heterotic orientation of mid altitude sub-humid tropical maize inbred lines for grain yield and related traits. African Journal of Plant Science.

Zhang, Y.D., X.M. Fan, W. Yao, H.P. Piepho, and M.S. Kang. 2016. Diallel analysis of four maize characters and a modified heterosis hypothesis. Crop Science.