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Effect of Deficit Irrigation and Sowing Date on Physicochemical Characteristics, Seed Yield, and Oil Content of Safflower (Carthamus tinctorius L.) Cultivars
2023
Golchin, Leyli | Tavakoli, Afshin | Ghahremanpoure, Vahideh | Zarringhalami, Soheila
In order to investigate effects of deficit irrigation and sowing date on qualitative characteristics of oil and fatty acids in Safflower cultivars, a split factorial experiment was conducted based on a randomized complete blocks design with four replications at the research farm of Faculty of Agriculture, University of Zanjan, during the 2015-2016 growing season. In this experiment, irrigation levels included optimal irrigation and deficit irrigation (50% of water requirement) as main plots and combined two sowing dates including (20 March and 20 April) and three spring safflower cultivars (i.e. Gholdasht, Soffeh, and Sina) were allocated to subplots in a factorial arrangement. Drought stress and late sowing date decreased chlorophyll content, seed yield, and oil content. The results showed that deficit irrigation caused decrease in seed yield and oil content. Late sowing date caused a decrease in seed yield. The highest seed yield was obtained on optimal irrigation and on the sowing date 20 March (2036 kg/h) and the lowest seed yield was obtained on 50% of water requirement and the sowing date 20 April (1675.4 kg/h). Among the studied cultivars, the highest seed yield (1986.91 kg/ha) was obtained from Soffeh cultivar. With the sowing date and deficit irrigation, iodine number decreased and acid value increased. Among fatty acids, the content of linoleic and linolenic acids decreased due to deficit irrigation and late sowing date and the amount of oleic and stearic acids was the highest in the second sowing date, while palmitic acid had the highest amount in the first sowing date. Therefore, to obtain the highest yield and the highest oil quality Soffeh cultivar, optimal irrigation and early sowing date are recommended.
Показать больше [+] Меньше [-]The Effect of Vermicompost, Humic Acid, and Manure on Yield, Biochemical Characteristics, and Enzymatic Activities in Sugar Beet (Beta vulgaris L.) under Water Deficit Conditions
2023
Fatahi Ghazi, Sina | Mir Mahmoodi, Toraj | Hamze, Hamze
To investigate the effect of organic fertilizers on the quantitative and qualitative characteristics of sugar beet under different moisture conditions, a study was conducted as a split plot experiment based on a randomized complete block design with three replications in Mahabad city in 2021. Irrigation treatments, including irrigation after 60 (normal), 90 (mild stress), and 120 (severe stress) mm evaporation from the class A evaporation pan, and organic fertilizer treatments (control, vermicompost, manure, and humic acid) were placed in main plots and sub-plots, respectively. Severe water stress conditions reduced the content of chlorophyll a (22.82 %) and relative water content (RWC) (24.35 %) and increased the content of proline (47.43%), beta glycine (17.89%), catalase (21.30 %), malondialdehyde (47.95 %) and water use efficiency (WUE) (23.83%) compared to normal irrigation conditions. Also, the application of vermicompost increased the amount of chlorophyll a, RWC, proline, glycine beta, catalase content, and WUE by 29.11, 20.15, 34.83, 14.98, 13.70, and 21.56 percent, respectively, and decreased the content of malondialdehyde about 18.53% in comparison to control. In this study, the highest stomatal conductivity (51.01 mol.m-2s-1), chlorophyll b content (16.3 mg.g-1FW), carotenoid (4.27 mg.g-1 FW), roots yield (78.33 t.ha-1) and the lowest content of hydrogen peroxide (0.96 μmol.g-1FW) allocated to the vermicompost treatment under normal irrigation conditions. Root yield showed a positive and significant correlation with stomatal conductance, chlorophyll b, carotenoid, RWC, and WUE, but a negative and significant correlation with catalase enzyme activity, hydrogen peroxide content, malondialdehyde, and sugar content.
Показать больше [+] Меньше [-]Recovery potential of sensitive and tolerant genotypes of sunflower post drought stress conditions
2023
Akbari, Nasrin | Darvishzaeh, Reza
Sunflower is one of the most important oilseed crops with more than 50% of nutritional (table) consumption. Considering the climate changes, the development of genotypes tolerant to abiotic stresses is more important than before. In the present research, the recovery capacity of two oilseed sunflower genotypes (DM-2 and H158A/H543R) was evaluated 24 hours after irrigation following sever drought stress (30% of field capacity) by evaluating the changes in enzymes activity at 8-leaf stage and quality and quantity of end product at adult plant stage. The experiments were conducted in frame of completely randomized design with 3 replications under controlled conditions. A significant difference was observed between genotypes in the terms of guaiacol, ascorbate, lipoxygenase and proline contents, as well as leaf area, leaf length, root weight, plant height and root sodium-potassium ratio in recovery conditions. Based on the results of the evaluations and changes in the mean of traits in the comparison of two normal and recovery conditions, as well as the pattern of fatty acids, genotype DM-2 has a high recovery ability.
Показать больше [+] Меньше [-]Evaluating the Effect of Vrn-B1 and Vrn-D1 Genes on Drought Tolerance of Bread Wheat Using Isogenic Lines
2023
Pourtabrizi, Soraya | Kazemipour, Ali | Mohamadinejad, Ghasem | Khajoei, Ghlamreza | Abdolshahi, Rohollah
Vernalization genes (Vrn), in addition to controlling the growth habit of wheat (spring and winter), play a key role in flowering time and early maturity of wheat. They are also of great interest in drought tolerance researches. To investigate the effect of Vrn genes on drought tolerance, four isogenic lines were developed. Isogenic lines were resulted from the crosses of the early heading Australian variety, Excalibur, with the late heading Iranian variety, Roshan, and followed by backcrossing with Roshan. Two experiments were conducted based on randomized complete block design with four replications under rainfed conditions of Sepidan during 2019-2020 and under well-watered conditions of Kerman during 2020-2021 cropping years. In the present research, seven important agronomic traits, including days to heading, days to ripening, grain filling period, spike number per meter square, grain number per spike, 1000-grain weight, and grain yield were assessed. Isogenic lines were assessed for drought tolerance using eight indices, including mean of productivity (MP), yield index (YI), stress tolerance index (STI ), geometric mean of productivity (GMP), stress susceptibility index (SSI ), yield stability index (YSI), and stress tolerance score (STS). The results of stress tolerance score (STS) showed that isogenic lines vrn-B1/Vrn-D1a and Vrn-B1a/vrn-D1 had the highest and the lowest stress tolerance score, respectively. In addition, the vrn-B1 and Vrn-D1a alleles, which cause early flowering, improve drought tolerance by utilizing an escape mechanism from dry conditions.
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