Parisa Sheikhzadeh; Gholam Behzad; Nasser Zare; Mitra Rostami
Abstract
To investigate the effects of selenium nanoparticles application on photosynthetic and biochemical characteristics and cold tolerance of oilseed rape, an experiment was carried out based on a randomized complete blocks design with three replications in the research farm station of the University of Mohaghegh ...
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To investigate the effects of selenium nanoparticles application on photosynthetic and biochemical characteristics and cold tolerance of oilseed rape, an experiment was carried out based on a randomized complete blocks design with three replications in the research farm station of the University of Mohaghegh Ardabili in 2018. The treatments consisted of foliar application of selenium nanoparticles (0 as control, 25, and 50 mg L-1) applied at the 8-6 leaves stage. The results showed that selenium nanoparticles application significantly increased the RWC, photosynthetic pigments, antioxidant enzyme activity, winter survival, and grain yields of oilseed rape plants. The highest RWC, Fm, Fv, and Fv/Fm, proline content, and the activity of catalase and peroxidase enzymes were obtained with foliar application of 50 mg L-1 selenium nanoparticles. It seems that selenium nanoparticles application significantly increased the winter survival of oilseed rape plants by about 7.18 to 8.94 percent, by improving the Fv/Fm, the activity of the antioxidant enzymes, and proline content. Foliar application of 25 and 50 mg L-1 selenium nanoparticles caused about 28.10 and 34.19 percent increase in grain yield of oilseed rape as compared to control (no spraying) treatment, respectively. In general, the application of 50 mg L-1 selenium nanoparticles had positive and significant effects on the photosynthetic and biochemical characteristics, which resulted in increased cold tolerance of the oilseed rape plant.
Nasrin Teimoori; Mokhtar Ghobadi; Danial Kahrizi
Abstract
Objective: The research aimed to investigate the effect of silicon foliar spraying in increasing drought tolerance in Camelina.Methods: The experiment was conducted as a factorial based on a randomized complete blocks design with three replications in a pot experiment. The treatments included two Camelina ...
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Objective: The research aimed to investigate the effect of silicon foliar spraying in increasing drought tolerance in Camelina.Methods: The experiment was conducted as a factorial based on a randomized complete blocks design with three replications in a pot experiment. The treatments included two Camelina genotypes (Sohail cultivar and line-84), drought treatments (at two levels: without and with drought stress) and foliar spraying of sodium silicate (at five levels: 0, 2, 4, 6 and 8 mM).Results: The results showed that drought stress decreased grain yield, yield components, and morphological traits of both Camelina genotypes. Drought stress reduced the grain weight per plant of the Sohail cultivar and Line-84 by about 27 and 39%, respectively. Foliar application of silicon effectively increased yield and yield components. On average, foliar spraying of 6 mM silicon compared to the control treatment caused an increase in the traits of grain weight per plant (13.04%), harvest index (12.1%), and the number of siliques per plant (7%). In the correlation analysis, it was found that among the grain yield components, the highest positive correlation coefficient with the grain weight per plant belonged to the number of siliques per plant (0.941).Conclusion: Overall, it seems that foliar application of 6 mM silicon can be effective in increasing drought tolerance in Camelina.