Madineh Bijani; Saeid Soufizadeh; Amir Hossein Shirani rad; Hamid Jabbari
Abstract
To investigate oilseed rape cultivars under Late-season drought stress, a split-plot experiment was conducted in a complete randomized blocks design with four replications for two cultivation years (2017–2019) in Karaj agricultural research station. Treatments included three drought stress (full ...
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To investigate oilseed rape cultivars under Late-season drought stress, a split-plot experiment was conducted in a complete randomized blocks design with four replications for two cultivation years (2017–2019) in Karaj agricultural research station. Treatments included three drought stress (full irrigation, withholding irrigation from the pod formation stage, and flowering stage) in main plots and five oilseed rape cultivars (Sarigol, RGS003, Hayola 401, Zafar, and Dalgan) in sub-plots. The results revealed that drought stress, especially from withholding irrigation from the flowering stage led to a significant decrease in 1000-seed weight, number of silique per plant, number of seeds per silique, seed yield, oil percentage, oil yield, Length of the growing duration, water use efficiency. Under full irrigation, The highest seed yield were obtained from Dalgan, Zafar, RGS003 and, Hayola 401 cultivars with 3959, 3886, 3776 and, 3650 kg. ha-1, respectively. In withholding irrigation from the silique formation stage, RGS003, Dalgan, and, Hayola 401 cultivars were superior with seed yield of 2841, 2812, and, 2716 kg.ha-1, respectively. Dalgan, RGS003, and Hayola 401 cultivars with the seed yield of 2357, 2276, and 2185 kg.ha-1in withholding irrigation from the flowering stage, also can be recommended as suitable cultivars in Karaj.
Masomeh Ganji; Serolah Galeshi; Hamid Jabbari; Forough Sanjarian; Benjamin Torabi
Abstract
Background: Water stress affects the crucial processes and yield of crops.
Purpose: This study aimed to investigate the effect of water stress on physiological and biochemical traits of safflower genotypes.
Materials and methods: A factorial experiment was carried out as randomized complete block design ...
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Background: Water stress affects the crucial processes and yield of crops.
Purpose: This study aimed to investigate the effect of water stress on physiological and biochemical traits of safflower genotypes.
Materials and methods: A factorial experiment was carried out as randomized complete block design in Seed and Plant Improvement Research Institute during 2017-19. The treatments included two irrigation levels (40 and 80% depletion of available water) and Parnian, Goldasht and Kazak genotypes. Plants were sown in soil columns with a height of 150 and a diameter of 23 cm, and irrigated by a drip system. Antioxidant enzymes, malondialdehyde, proline, relative water content, chlorophyll, seed yield and fatty acid composition were measured at the end.
Results: Water stress significantly increased the accumulation of hydrogen peroxide and malondialdehyde in safflower genotypes which led to increased catalase and peroxidase enzyme activity by 1 and 2.5 U, respectively. The proline content increased about 16 times under water stress conditions. In contrast, the relative water content showed a significant decrease, which resulted in increased canopy temperature and decreased seed yield by 70%. The Kazak genotype had the lowest increase in canopy temperature under stress conditions and showed higher yield stability. Moreover, the fatty acid composition of seed oil changed and the amount of linoleic acid decreased by 1.8% under water stress conditions.
Conclusion: The results showed that in addition to drought-related physiological traits, no increase in saturated/unsaturated fatty acid ratio is also an important indicator in screening superior genotypes for cultivation in water shortage.
Hamid Jabbari; Majid Gholamhoseini; Mohammad Bagher Valipour; Mohammad Reza Nazari; Amir Hossein Omidi; Habib Tashakori Meymand
Abstract
Objective: This research was carried out in order to investigate the effect of irrigation regimes on morphological traits of root and shoot of safflower genotypes.Methods: A field experiment has been conducted via polyvinyl chloride (PVC) pipes at research field of Seed and Plant Improvement Institute ...
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Objective: This research was carried out in order to investigate the effect of irrigation regimes on morphological traits of root and shoot of safflower genotypes.Methods: A field experiment has been conducted via polyvinyl chloride (PVC) pipes at research field of Seed and Plant Improvement Institute in Karaj, during 2019-2020. A factorial experiment has been laid out in a randomized complete block design with three replications. This study deals with six genotypes of safflower (Varamin landrace, Hamand landrace, Kazakhstan genotype and Amir, Goldasht and Pernian cultivars) in two irrigation regimes, including full irrigation (control) and drought stress (Irrigation after depletion of 40% and 80% of soil available moisture respectively) treatments.Results: The results showed that under drought stress conditions, root length and root diameter have increased by 28.6% and 13.6%, respectively and root dry weight, leaf relative water content (RWC), number of bolls, number of seeds per plant and seed yield per plot and was decreased by 23.6%, 15.2%, 25.4%, 63.3%, and 74.9%, respectively. Under full irrigation conditions, Amir with suitable root system (root dry weight 7.7 g and root length 71 cm) and maximum number of seeds had the highest seed yield (5.03 g per plot). In addition, under drought stress conditions, Amir cultivar had early flowering, maximum root dry weight and length, highest activity of catalase and peroxidase enzymes, and the highest seed yield per plot (1.67 g).Conclusion: Generally, Amir cultivar had more seed yield due to having a suitable root system and superior agronomic characteristics and was selected as the superior genotype.
Hamid Jabbari; Farid Golzardi; Farnaz Shariati; Hormoz Asadi
Abstract
In order to evaluate the quantity and quality of safflower cultivars forage in three forage harvesting times based on plant phenological stages, the present study has been conducted in a randomized complete block design with split-plot in time arrangements with three replications at the Seed and Plant ...
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In order to evaluate the quantity and quality of safflower cultivars forage in three forage harvesting times based on plant phenological stages, the present study has been conducted in a randomized complete block design with split-plot in time arrangements with three replications at the Seed and Plant Improvement Institute (SPII), Karaj, Iran, during 2018-2019 and 2019-2020 cropping seasons. The main factor includes three safflower cultivars (Goldasht, Golmehr, and Parnian), with three forage harvesting time (namely stem elongation, branching, and flowering stages) considered as the sub-factor. The effect of year only on plant height and water-soluble carbohydrates (WSC) has been significant (P≤0.05). The results show that the interaction effect of cultivar × harvesting time on the fresh forage yield, plant height, WSC, and neutral detergent fiber (NDF) has been significant (P≤0.01). The highest fresh forage yield (52103 kg ha-1) is obtained by harvesting the Golmehr cultivar at the beginning of flowering; however, the highest dry matter yield is observed in Golmehr and Parnian cultivars. The highest dry matter yield has been observed in the branching stage (11900 kg ha-1), with the crude protein content in this stage being 14.57%. In contrast, the maximum crude protein content is observed in the flowering stage (19.22%), even though the mean dry matter yield at this stage has been 9937 kg ha-1. The maximum and minimum RFV (130.3% and 92.3%) are recorded in the forage of Goldasht and Golmehr cultivars, respectively. Therefore, among the studied cultivars, Parnian, and among the growth stages, forage harvesting at the branching stage is introduced as the superior treatment to achieve maximum yield and quality of safflower forage.
Seyed Basir Mousavi; Saeed Sayfzade; Hamid Jabbari; alireza valadabadi; Esmaeil Hadidi Masouleh
Abstract
The current study tries to evaluate the effect of auxin foliar application in two safflower cultivars under drought stress condition, using a factorial split plot experiment with randomized complete block design in two years (2017-2018 and 2018-2019). It has been conducted at research field of Seed and ...
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The current study tries to evaluate the effect of auxin foliar application in two safflower cultivars under drought stress condition, using a factorial split plot experiment with randomized complete block design in two years (2017-2018 and 2018-2019). It has been conducted at research field of Seed and Plant Improvement Research Institute in Karaj and evaluates irrigation at two levels including normal irrigation (control) and interruption of irrigation from the beginning of grain filling stage (drought) in the main plots and cultivars of Padideh and Goldasht and auxin foliar application in two levels of non-foliar application of distilled water (control) and foliar application of auxin (indole acetic acid) in one step (mid-flowering) at a concentration of 3000 mg.l-1 (30 ppm) in sub-plots as a factorial. In the auxin foliar application and non-foliar application (control) in both normal irrigation and drought stress treatments, the highest total number of heads per plant in Goldasht cultivar have been 26.3 and 24.3 respectively, and the highest grain number per plant observed in Goldasht cultivar have been at 708 and 592, respectively. Auxin foliar application and irrigation has had no significant effect on the grain oil percentage. Goldasht cultivar demonstrates a higher grain yield compared to Padideh cultivar due to lower head temperature, higher soluble carbohydrate concentration, number of heads, and 1000-grain weight. Generally, results show that the effect of the studied treatments is affected by the year and despite the positive effect of auxin foliar application on some yield components at both irrigation levels, foliar application of auxin at middle of flowering stage has no significant effect on grain yield.
Hamid Jabbari; Hamid Reza Fanaei; Farnaz Shariati; Hamid Sadeghi Garmarodi; Mohamad Abasali; Amir Hasan Omidi
Abstract
This study evaluates the genetic diversity of 122 safflower genotypes from the institute of plant genetics and crop plant research (IPK) and International Maize and Wheat Improvement Center (CIMMYT). It compares their agronomic characteristics with five Iranian Safflower cultivars. Conducted at research ...
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This study evaluates the genetic diversity of 122 safflower genotypes from the institute of plant genetics and crop plant research (IPK) and International Maize and Wheat Improvement Center (CIMMYT). It compares their agronomic characteristics with five Iranian Safflower cultivars. Conducted at research field of Seed and Plant Improvement Research Institute in Karaj between 2017 and 2018, the experiment uses an Augmented with randomized complete block design. Results indicate high genetic variation in the germplasm. Among safflower genotypes, thirty-six genotypes without thistle, eighty-one genotypes with thorns, and ten genotypes with few thistle have been observed. Principal component analysis helps identifying three main components that account for 56.5% of the total variations. The first and second components account for 29.5% and 15.9% of the total variation, respectively. These are named as a yield components and phenology and plant architecture, respectively. Safflower genotypes are divided into four groups by principal components analysis (PCA). Genotypes in the first groups have the higher grain yield than others. Genotype No. 70 with the highest grain yield (5667 kg.ha-1) is placed in this group. Numerical values of yield components such as 1000-seed weight, number of heads, and number of seeds per plant in the third group stand higher than other groups. Generally, German genotype No. 70 with high yield and genotype No. 45 with early flowering can be used in safflower breeding programs.
Hamid Jabbari; Nayyer Azam Khosh kholgh Sima; Gholam Abbas Akbari; Iraj Allahdadi; Amir Hossein Shirani rad; Ali Hamed
Abstract
In order to study of root system relationship with water relations in Rapeseed under drought stress conditions, a pot experiment was carried out in greenhouse at Agricultural Biotechnology Research Institute of Iran (Karaj) in 2012. Five winter Rapeseed genotypes were evaluated under four irrigation ...
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In order to study of root system relationship with water relations in Rapeseed under drought stress conditions, a pot experiment was carried out in greenhouse at Agricultural Biotechnology Research Institute of Iran (Karaj) in 2012. Five winter Rapeseed genotypes were evaluated under four irrigation treatments, using a factorial experiment based on randomized complete block design. The results indicated that response of genotypes to irrigation treatments was different for stomata conductivity, SPAD value, root length and diameter, morphologic characteristics, yield and yield components. In control, Cooper produced the highest grain yield that due to higher silique number per plant, whereas, ‘Opera’ had the maximum grain yield under drought stress treatments. This subject was due to higher root depth and diameter in ‘Opera’ and on the basis of these characters, the high leaf area duration, stomata conductivity, silique number and grain number was observed in ‘Opera’. In conclusion, these results showed that role of root morphologic characteristics in Rapeseed adaptation to drought tolerance is powerful and an effective root system with last stomata conductivity, more leaf area duration and high silique number were more important for yield maintenance of Rapeseed under drought stress conditions.