Forough Saydpour; Mohammad Sayyari; Fardin Ghanbari
Abstract
Glycine betaine (GB) is one of the osmotic plant-protecting members that accumulate in response to abiotic stresses. An experiment was, therefore, conducted to test whether GB application at various concentrations (0, 10, 20 and 30 mM) through seed soaking or foliar spray methods would protect cucumber ...
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Glycine betaine (GB) is one of the osmotic plant-protecting members that accumulate in response to abiotic stresses. An experiment was, therefore, conducted to test whether GB application at various concentrations (0, 10, 20 and 30 mM) through seed soaking or foliar spray methods would protect cucumber seedlings, subjected to chilling stress. At two true leave stages, after GB treatment, the seedlings were exposed to chilling six h/day at 3°C for 6 days. Results showed that GB pre-treatment improved growth parameters of seedlings subjected to chilling stress and provided significant protection against chilling stress compared to non-GB-treated seedlings. GB prevented chilling injuries with increasing chlorophyll, proline content and antioxidant activities and decreasing electrolyte leakage, malondialdehyde and hydrogen peroxide content. The highest cold tolerance was obtained with 20 and 30 mM GB application and seed soaking method provided better protection compared to foliar spray method.
mehrshad Barary; sajad kordi; Lotf Ali Gerami; Ali Hatami; Ali Ashraf Mehrabi; Fardin Ghanbari
Abstract
In order to investigate the impact of foliar Zn application in reducing the negative effects of water stress on bean growth and yield, a field experiment was carried out in the Research Field of Ilam University in 2011. The experiment was arranged in split factorial based on a randomized complete block ...
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In order to investigate the impact of foliar Zn application in reducing the negative effects of water stress on bean growth and yield, a field experiment was carried out in the Research Field of Ilam University in 2011. The experiment was arranged in split factorial based on a randomized complete block design with three replications. The experimental factors were water stress including water withholding at flowering, water withholding at pod formation and control (full irrigation) as main plot, and the factorial of Zn application levels including; 0, 2000 and 4000 ppm and two bean cultivars including; Akhtar and Dorsa as sub-plots. Results showed that water stress significantly reduced grain yield and the lowest grain yield obtained from water stress at flowering stage. The highest (3163.6 kg/ha) grain yield achieved by Zn application with 4000 ppm concentration. There was a significant difference between cultivars in different treatments and in overall Dorsa with 3846.4 kg/ha produced the highest grain yield. According to the results the most sensitive stage of bean plants to water stress is flowering stage and Zn application with a concentration of at least 4000 ppm can improve plant tolerance to water deficit.