Esmaeil Gholinezhad; Bakhtiar Lalehgani; Shahryar Kazemi
Abstract
In order to investigate the effect of polyamines on antioxidant activity and biochemical traits of Camelina under salinity stress conditions, a pot (as poen air) experiment was conducted at Payame Noor University (PNU), Iran in March 2022 as factorial layout based on a completely randomized design ...
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In order to investigate the effect of polyamines on antioxidant activity and biochemical traits of Camelina under salinity stress conditions, a pot (as poen air) experiment was conducted at Payame Noor University (PNU), Iran in March 2022 as factorial layout based on a completely randomized design with 12 treatments and 3 repetitions. The salinity treatment was at three salinity levels (0, 15 and 30 dS/m) and 4 foliar spraying levels including 1- spermine (2 mM), 2- spermidine (2 mM), 3- putrescine (2 mM) and control (pure water foliar spraying). The results showed that with the increasing salinity stress, oil and protein contents and dry seed weight, chlorophyll index, shoot organic and mineral percentage decreased, but protein percentage, shoot ash percentage, soluble sugars, antioxidant activity and ion leakage percentage increased significantly. Salinity stress of 30 and 15 ds/m compared to the control, reduced the chlorophyll index (32 and 15 percent) and mineral percentage (19 and 3 percent), oil percentage (17 and 9 percent), dry oil weight in pot (62 and 21 percent) and dry seed weight (52 and 10 percent), but protein percentage (9 and 3 percent), ash percentage (33 and 30 percent), soluble sugars (32 and 20 percent) and antioxidant activity (21 and 13 percent) increased, respectively. Also, foliar spraying with polyamines increased the above traits, but decreased the percentage of ion leakage. Therefore, in order to decreasing the effects of salinity stress and increasing the dry seed and oil weights in pot, spraying with polyamines, especially spermine, is suggested.
Mahsa Rafati Alashti; Shahryar Kazemi; Mojdeh Sadat Khayat Moghadam
Abstract
Drought stress is one of the most important factors in reducing yield and seed quality of rapeseed. The present study chiefly tries to evaluate the effect of application of brassinosteroid on seed yield, oil content, oil yield, and fatty acids profile of rapeseed genotypes under late-season water deficit ...
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Drought stress is one of the most important factors in reducing yield and seed quality of rapeseed. The present study chiefly tries to evaluate the effect of application of brassinosteroid on seed yield, oil content, oil yield, and fatty acids profile of rapeseed genotypes under late-season water deficit stresseen considered. A factorial split-plot test has been conducted in a randomized complete blocks design for two cultivation years (2017-2019) in Karaj, Iran. Experimental treatments include two levels of brassinosteroid (i.e., 0 (control) and 0.1μmol) and two levels of irrigation (full irrigation (control) and withholding irrigation from flowering stage) as factorial in the main plots, and rapeseed genotypes (Nafis, Ahmadi, Okapi, Nima, and Niloufar) as subplots. The levels of oleic acid and linoleic acid in the conditions of application of brassinosteroids have been 0.7% and 11% in full irrigation conditions and 1.1% and 6.4% in withholding irrigation conditions, respectively, compared to the control on the other hand, the use of brassinosteroids in withholding irrigation conditions reduce palmitic acid by 14% compared to the control. Okapi genotype has had the highest and lowest erucic acid and grain yield in irrigation conditions, respectively. Under drought stress conditions, the highest seed yield (3112.3 kg/ha) and the lowest amount of erucic acid (0.26%) belonged to Niloufar genotype. The use of brassinosteroids in both irrigation treatments improve the quality of fatty acids and Niloufar cultivar is recommended in both irrigation conditions