Germination and seedling growth under saline stress in maize | ||
Journal of Kerbala for Agricultural Sciences | ||
Article 9, Volume 5, Issue 5, March 2018, Pages 1-13 PDF (544.5 K) | ||
Authors | ||
Muwafaq Abdul-Razzaq AL-Naqeeb1; Mohammed Hathal Kadhm AL-Baldawi2; Jalal Hameed Hamza* 2; Mohammad Omar Shihab3; Hiba Saleh Nada4; Safaa Abdalhassan Ghadban AL-Ali5; Buthaina Abdel-Hussein Shehade6 | ||
1Department of Field Crops,College of Agriculture, University of Baghdad | ||
2Department of Field Crops, College of Agriculture,University of Baghdad | ||
3Ministry of Agriculture, Planning & Follow-up Office, Department of AEZ Maps | ||
4Ministry of Agriculture, Mesopotamia State Company for seed, Department of Maize | ||
5University of Al-Qasim Green, College of Agriculture, Department of Field Crops | ||
6University of Baghdad, College of Agriculture, Department of Field Crops | ||
Abstract | ||
An experiment was carried out at Seed Technology Laboratory, College of Agriculture, University of Baghdad in the year of 2017 to investigate the response of seed germination of four synthetic cultivars of maize (Fajr1, Almaha, Baghdad3 and Sara) under four levels of salt stress by using sodium chloride (0, 1, 4 and 7 dS.m-1). The complete randomized design was used with four replicates. The results showed that the cultivar and the electrical conductivity and their interaction had a significant effect on most studied traits. The highest ratio of variability in the studied traits was related to the effect of electrical conductivity compared to cultivar effect. The cultivar of Baghdad3 was supremacy on other cultivars when gave the highest averages of germination ratio, lengths of plumule and radicle, seedling dry weight and seedling vigour index. There was a significant negative linear relationship between electrical conductivity and the traits that mentioned above. The control treatment gave the highest averages for those traits, which decreased when electrical conductivity was increased and a significant difference was found between all levels. The cultivar of Baghdad3 had supremacy on other cultivars at each level of electrical conductivity in most traits. It can be concluded that the cultivar of Baghdad3 was the best studied cultivars that tolerate salinity during stages of germination and seedling growth. It can be recommended that to use it in saline lands or when irrigated with saline water. | ||
Keywords | ||
germination; radicle; plumule; seedling; seedling vigour; electrical conductivity; sodium chloride; synthetic cultivars | ||
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