Maryam Forough; Saeid Navabpour; Esmaeil Ebrahimie; Ali Akbar Ebadi; Davood Kiani
Abstract
In this study, in order to investigate the response to salinity stress, seedlings of two rice kinds, Hashemi and its advanced mutant line, have exposed to 100 mM NaCl as a salinity stress in an experiment, conducted in 2017 at Gorgan University of Agricultural Sciences and Natural Resources, Iran. For ...
Read More
In this study, in order to investigate the response to salinity stress, seedlings of two rice kinds, Hashemi and its advanced mutant line, have exposed to 100 mM NaCl as a salinity stress in an experiment, conducted in 2017 at Gorgan University of Agricultural Sciences and Natural Resources, Iran. For the biochemical investigation, root sampling is performed during three and six days after the salinity stress treatment. The experiment is conducted as a split plot with randomized complete block design with three replications in hydroponic culture. Under salinity stress, the sodium ion content in both genotypes’ roots has increased significantly, while this trend is much lower in the root of mutant genotype than wild type. The induced oxidative stress of salinity stress is measured by the amount of hydrogen peroxide, indicating that the wild type is under higher oxidative stress which is confirmed by the higher amount of malondialdehyde. Evaluation of antioxidant enzymes’ activity include superoxide dismutase, catalase, ascorbate peroxidase, and glutathione reductase. It reveals a significant rise in the root of the mutant genotype. Overall, this study shows that mutation in the rice genotype leads to salt tolerance, compared to the wild type, through promoting the activity of oxidative enzymes and the synthesis of some osmolytes in the root tissue.
Saeid Hazrati; Amir Reza Sadeghi-Bakhtvari; Davood Kiani
Abstract
The present study aims at evaluating the effects of leaf foliar of growth regulators and nitrogen on growth parameters and yield of spring safflower. To do so it has carried out a research at East Azerbaijan Agricultural Research Center as a factorial experiment based on RCBD (Randomized Complete Block ...
Read More
The present study aims at evaluating the effects of leaf foliar of growth regulators and nitrogen on growth parameters and yield of spring safflower. To do so it has carried out a research at East Azerbaijan Agricultural Research Center as a factorial experiment based on RCBD (Randomized Complete Block Design) with three replications. The factors include growth regulators in four levels, namely auxin, cytokinin, auxin + cytokinin (wherein the treatment’s concentration has been 1000 mg/L), and control (no use of growth regulator, whatsoever), foliar application of nitrogen (3 and 6 per thousand), and two springcultivars (Soffe and Goldasht). Results show taller plants (17%) and greater number of heads per plant (39%), seeds per head (9%), and lateral stems (37%) for Soffeh cultivar, compared to Goldasht variety. On the other hand, Goldasht cultivar provides the maximum head diameter (15%) and 1000 seed weight (47%), in comparison to Soffeh cultivar. The maximum grain yield is observed for Soffeh cultivar with auxin growth regulator and a concentration of three per thousand foliar application of nitrogen (3205 kg ha -1),displaying no significant difference from either the control or the application of three per thousand foliar of nitrogen (3120 kg ha-1). The application of growth regulators has changed the fatty acid composition. The application of auxin + cytokinin as the growth regulator with a concentration of three and six per thousand foliar of nitrogen increase the oleic, palmitic, and linolenic acids. However, the use of auxin and cytokinin separately increase linoleic and stearic acids among the fatty acids, compared to the control, which is higher in Soffeh cultivar than Goldasht. In general, Soffeh cultivar shows higher growth and yield, compared to Goldasht cultivar, indicating the positive effect in foliar application of hormones and nitrogen for the latter.