Journal of Advances in Biology & Biotechnology

Selecting superior parents for hybrid combinations and studying the nature of genetic variation are prerequisites for starting a successful breeding program. The main  objective  of  the present study  was  to assess performance, useful heterosis and combining  ability  among  maize  inbreds  under optimum and drought  conditions. Six inbreds and their diallel F₁'s were evaluated in 2013 and 2014 seasons in two experiments, one under well watering (WW) and one under water stress (WS) at flowering. Data combined across seasons revealed that the inbreds L53, L20 and Sk5 and the crosses L20 × L53, L53 x Sk5 and L53 × Sd7 under WW and WS had the highest grain yield/plant (GYPP) and its components. The largest average heterobeltiosis (236.58%) was shown under WS by GYPP. Maximum GYPP heterobeltiosis reached 736.0% by the cross L28 x Sd7 under WS.  (non-additive) mean squares for leaf angle (LANG), ears/plant (EPP), rows/ear (RPE), 100-kernels weight (100 KW), kernels/plant (KPP) and barren stalks (BS) under WW and WS, days to anthesis (DTA) under WW and anthesis silking interval (ASI) under WS. On the contrary, the magnitude of SCA was higher than GCA mean squares for ear height (EH), kernels/row (KPR) and GYPP, under WW and WS, DTA under WS and ASI under WW. The best inbreds in GCA  effects for GYPP and all yield components were L53 followed by L20 and Sk5. The best crosses in SCA  effects for the same traits were Sk5 × L18 followed by L20 × L53 and L28 × Sd7 under WW and WS. Mean performance of inbreds and crosses was significantly correlated with GCA and SCA effects, respectively for most studied traits under WW and WS.