Advancements in Life Sciences

Background: Maize is an important cereal crop, grown throughout the globe for human food and livestock feed, but biotic and abiotic factors had shown adverse effects on biomass and grain yield. Changing climatic conditions have imposed drought (water scarcity) as a major problem to combat with yield losses and biomass in maize and other cereals. 

Methods: The prescribed study was conducted to evaluate F₁ hybrids at seedling subject to 45% moisture level. The data was recorded and subjected to multivariate analysis to find the significant variation attributed by various traits under stress conditions for efficient root/shoot development.

Results: Significant differences were found in F₁ hybrids for all studied traits. Higher heritability was found for root length, shoot length and fresh shoot weight, while fresh shoot weight, dry shoot weight and dry root weight showed higher genetic advance. Significant correlation was found for dry root weight to fresh shoot length and fresh root length, fresh root weight to fresh root/shoot weight ratio and fresh shoot weight. The hybrids Sh-139×B-316, Raka-poshi×B-316, B-327×B-316, Sh-139×EV-340, EV-1097Q×EV-347, EV-1097Q×EV-340, EV-1097Q×Pop/209 and B-327×EV-340 showed higher and positive heterosis and heterobeltiosis for most of the studied traits. To assess the overall variation on dependent structure, we used multivariate analysis, an important tool in breeding program, for efficient selection.

Conclusions: EV-1097Q×Pop/209 and Sh-139×EV-340 showed significant results for root and shoot development under various water stress regimes at seedling stage, thus further studies should be carried out to find out the known and un-known loci regarding root and shoot development traits in high yielding maize cultivars under arid/semi-arid regions.

Boyer J, Westgate M. Grain yields with limited water. Journal of Experimental Botany, (2004); 55(407): 2385-2394.

Kramer P, Turner N. Drought, stress, and the origin of adaptations. In: Adaptation of Plants to Water and High Temperature Stress (1980). 17-20. John Wiley and Sons. New York.

Ali Q, Ahsan M, Tahir MHN, Basra SMA. Genetic evaluation of maize (Zea mays L.) accessions for growth related seedling traits. International Journal for Agro Veterinary and Medical Sciences, (2012); 6(3): 164-172.

Berzsenyi Z, Dang Q, Micskei G, Takács N. Effect of sowing date and N fertilization on grain yield and photosynthetic rates in maize (Zea mays L.). Cereal Research Communications, (2006); 34(1): 409-412.

Ali Q, Ahsan M, Ali F. Genetic advance, heritability, correlation, heterosis and heterobeltiosis for morphological traits of maize (Zea mays L). Albanian Journal of Agricultural Sciences, (2013); 12(4): 689-698.

Ali Q, Ahsan M, Tahir MHN, Basra SMA. Genetic studies of morpho-physiological traits of maize (Zea mays L.) seedling. African Journal of Agriculture Research, (2013); 8(28): 3668-3678.

Ali Q, Ali A, Awan MF, Tariq M, Ali S, et al. Combining ability analysis for various physiological, grain yield and quality traits of Zea mays L. Life Science Journal, (2014); 11(8s): 540-551.

Beiragi MA, Sar BAS, Geive HS, Alhossini MN, Rahmani A, et al. Application of the multivariate analysis method for some traits in maize. African Journal of Agricultural Research, (2012); 7(10): 1524-1533.

Zwart SJ, Bastiaanssen WG. Review of measured crop water productivity values for irrigated wheat, rice, cotton and maize. Agricultural Water Management, (2004); 69(2): 115-133.

Steel RG, JH Dickey D. Principles and procedures of statistics a biometrical approach. (1997); 400-428. WCB/McGraw-Hill.

Steiner SH. EWMA control charts with time-varying control limits and fast initial response. Journal of Quality Technology, (1999); 31(1): 75.

El-Badawy MEM. The relative contribution of yield components by using specific statistical techniques in corn. Annals of Agriculture Science, (2006); 44(3): 899-909.

Ali F, Ahsan M, Saeed NA, Ahmed M, Ali Q, et al. Establishment and optimization of callus-to-plant regeneration system using mature and immature embryos of maize (Zea mays). International Journal of Agriculture and Biology, (2014); 16(1): 111-117.

Saseendran SA, Ma L, Nielsen D, Vigil M, Ahuja L. Simulating planting date effects on corn production using RZWQM and CERES-Maize models. Agronomy Journal, (2005); 97(1): 58-71.

Ahsan M, Hussain M, Farooq J, Khaliq I, Farooq A, et al. Physio-genetic behavior of maize seedlings at water deficit conditions. Cercetari Agronomice in Moldova, (2011); 14641-49.

Ahsan M, Farooq A, Khaliq I, Ali Q, Aslam M, et al. Inheritance of various yield contributing traits in maize (Zea mays L.) at low moisture condition. African Journal of Agriculture Research, (2013); 8(4): 413-420.

Cirilo AG, Dardanelli J, Balzarini M, Andrade F, Cantarero M, et al. Morpho-physiological traits associated with maize crop adaptations to environments differing in nitrogen availability. Field Crops Research, (2009); 113(2): 116-124.

Khorasani SK, Mostafavi K, Zandipour E, Heidarian A. Multivariate analysis of agronomic traits of new corn hybrids (Zea maize L.). International Journal of AgriScience, (2011); 1(6): 314-322.

Khan NH, Ahsan M, Saleem M, Ali A. Genetic association among various morpho-physiological traits of Zea mays under drought condition. Life Science Journal, (2014); 11(10s).

Ali F, Kanwal N, Ahsan M, Ali Q, Niazi NK. Crop improvement through conventional and non-conventional breeding approaches for grain yield and quality traits in Zea mays. Life Science Journal, (2015); 12(4s).

El-Badawy MEM, Mehasen S. Multivariate analysis for yield and its components in maize under zinc and nitrogen fertilization levels. Australian Journal of Basic and Applied Sciences, (2011); 5(12): 3008-3015.

Filipović M, Babić M, Delić N, Bekavac G, Babić V. Determination relevant breeding criteria by the path and factor analysis in maize. Genetika, (2014); 46(1): 49-58.

Grice JW. Computing and evaluating factor scores. Psychological methods, (2001); 6(4): 430.

Laserna M, Maddonni G, López C. Phenotypic variations between non-transgenic and transgenic maize hybrids. Field Crops Research, (2012); 134175-184.