Roqia Adeli; Elias Soltani; Gholam Abbas Akbari; Hossein Ramshini
Abstract
Identification of cultivars with tolerance to water stress has important for crop production in arid and semi-arid areas. In order to, a factorial experiment was conducted based on completely randomized design with two factors of 20 genotypes of canola and 5 water potentials of 0, -0.15, -0.3, -0.5, ...
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Identification of cultivars with tolerance to water stress has important for crop production in arid and semi-arid areas. In order to, a factorial experiment was conducted based on completely randomized design with two factors of 20 genotypes of canola and 5 water potentials of 0, -0.15, -0.3, -0.5, and -0.8 MPa in 4 replications in Seed Technology Laboratory of College of Aburaihan, during 2015-16. Seed germination of different genotypes was recorded twice in a day for each water potential at 20oC. Thereafter, hydrotime model was fitted to time course germination. Results indicated that Karaj 1 and Opera had the lowest value of base water potential with -1.23 and -1.2 (MPa) and they were the most tolerant genotypes to drought. Genotypes of 203 and Likord had the highest value of base water potential with -0.27 and -0.22 and the most sensitive genotypes to water stress. The lowest hydrotime constant belonged to Zarfam and Talaye with 22.67 and 23.73 MPa-hours and the highest hydrotime constant belonged to 389 and Opera with 50.93 and 48.07 MPa-hours. The base water potential with 95% had the highest broad sense heritability. Using this information it is possible to identify genotypes with higher efficiency and more tolerate to water stress in future breeding programs to breed new genotypes with tolerance to water stress.
Samaneh Jahanpanah; Mahmoud Ghasemnejad; Younes Ebrahimi
Abstract
Incomplete pollination of kiwifruit flowers could be the main limiting factor which reduces marketable kiwifruit quality. Therefore, at the current study effect of pollen suspension and dry pollen as supplemental artificial pollination were evaluated on characteristics such as fruit size, fruit weight, ...
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Incomplete pollination of kiwifruit flowers could be the main limiting factor which reduces marketable kiwifruit quality. Therefore, at the current study effect of pollen suspension and dry pollen as supplemental artificial pollination were evaluated on characteristics such as fruit size, fruit weight, seed number, dry matter percent, tissue firmness, total soluble solid, and vitamin C content, mineral nutrient elements such as nitrogen, phosphors, potassium, calcium, and magnesium of Hayward Kiwifruit. The results showed that pollination with dry pollen, at the 60% of full bloom stage, increased marketable fruits in compare to other treatments. There are more seed number in these fruits (11% and 5% respectively), which result to increase fruit size, length and diameter as compare to pollen suspension and control. Fruit vitamin C could not affect by pollination, but fruit dry matter of flowers which pollinated at 60% of full bloom was the higher than the other treatments. Supplemental pollination with dry pollen increased fruit calcium, which resulted to improve nitrogen to calcium, potassium to calcium, the sum of potassium and magnesium to calcium, the sum of nitrogen and potassium to calcium ratios. Overall, it seems that supplemental pollination, especially with dry pollen at 60% of full bloom stage, could improve pollination and ovules fertilization. In conclusion, the same fruits have more seed number and strength sink for accumulation assimilate and mineral elements especially calcium. Overall, the profit of supplemental pollination with dry pollen was calculated about 48,800,000 Rials per hectare.
Reza Mohammadi; Masoud Arghavani; Seyed Najmadin Mortazavi; Mitra Aelaei
Abstract
This experiment was conducted to determine morphological and physiological responses of perennial ryegrass (Lolium perenne L.) at the germination and early seedling growth stage to drought stress and sodium nitroprusside (nitric oxide donor) application in horticultural science department at the University ...
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This experiment was conducted to determine morphological and physiological responses of perennial ryegrass (Lolium perenne L.) at the germination and early seedling growth stage to drought stress and sodium nitroprusside (nitric oxide donor) application in horticultural science department at the University of Zanjan in 2015. Turfgrass seeds were soaked for six hours in 0 (distilled water), 200, 400 and 600 µM of sodium nitroprusside solutions, and for drought stress treatments, germination and early seedling growth was done over the water potential range of 0 (distilled water), -1, -4 and -8 bar by polyethylene glycol. Generally, decline in water potential reduced seed germination percentage, root and shoot length, leaves chlorophyll and carotenoids content, whereas electrolyte leakage and proline content increased with decreasing of water potential. Sodium nitroprusside application at 400 and 600 µM ameliorate adverse effects of drought stress in all factors. However, in all water potentials, 600 µM treatment had no significant difference with control plants in electrolyte leakage, whereas 400 µM treatment reduced electrolyte leakage. Leaves proline content increased with decreasing water potential. Besides, treated plants with sodium nitroproside had more proline than untreated plants.In conclusion, among different investigated sodium nitroprpside concentrations, treated plants with 400 µM sodium nitroproside showed the best results.
Ghodrat Ali Talaei; Younes Sharghi; Hoeesin Zahedi; Seyed Ali Mohammad Modarres-Sanavy; Seyed Ali Alavi Asl
Abstract
To reduce the damages of water deficit stress on safflower with zeolite and chitosan, an experiment was conducted as split plot factorial in randomized complete block design with three replication at the field Research Station of agricultural Faculty of Tarbiat Modares University during the 2012 growing. ...
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To reduce the damages of water deficit stress on safflower with zeolite and chitosan, an experiment was conducted as split plot factorial in randomized complete block design with three replication at the field Research Station of agricultural Faculty of Tarbiat Modares University during the 2012 growing. Treatments were water deficit stress {(control (Irrigation after 50 percent), moderate stress (Irrigation after 65 percent) and intensive stress (Irrigation after 80 percent) discharge of available moisture}, zeolite (control and 4.5 ton hec-1) and chitosan (non sprayed, distilled water, 1 percent acetic acid, 0.05 percent chitosan and 0.5 percent chitosan). Result showed that intense stress decreased yield, half the maximum value compared to control but whit zeolite and 0.05 percent chitosan this amount was reduced to 19 percent. Oil yield increased under non-zeolite application and intensive water deficit with foliar application of 0.05 percent chitosan, about 63 percent. Application of zeolite and 0.5 percent chitosan showed the highest number of capitol that was 26 percent higher than zeolite application and non sprayed. We conclude that zeolite and chitosan application can reduce damages of water deficit stress and increase growth and yield of this plant.
Mohammad Ali Aboutalebian; Fatemeh Moqisai
Abstract
To evaluate the effect of on-farm seed priming and methods of zinc sulfate application on seed emergence properties, yield and yield components of two corn cultivars, an experiment was conducted as factorial in randomized complete block design with three replications during 2012 at research farm of Bu-Ali ...
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To evaluate the effect of on-farm seed priming and methods of zinc sulfate application on seed emergence properties, yield and yield components of two corn cultivars, an experiment was conducted as factorial in randomized complete block design with three replications during 2012 at research farm of Bu-Ali Sina university, Hamedan. First factor was methods of zinc sulfate application containing four levels of no-application, broadcasting in soil, banding and foliar application. Second factor included on farm primed and no primed seeds and third factor consisted of two corn hybrids (Es-sensor and Biaris). Analysis of variance showed that percentage and rate of emergence of on farm primed seeds increased about 16 and 12% respectively also emergence uniformity coefficient in primed seed while banding zinc sulfate comparing with no-primed seed and broadcasting zinc sulfate showed 74% increase. In Biaris cultivar priming increased significantly the number of kernel per ear. In two cultivars the highest 100 seeds weight was achieved of primed seed plus banding or foliar zinc sulfate application. In this study the highest grain yield was obtained of primed Biaris seed cultivar combined with zinc sulfate banding application ( 1370.42 g/m2) that was higher about 9.6% comparing with no-primed and no zinc sulfate treatment.
Mohammad Aboutalebian; Rangin Shabrandi
Abstract
To investigate the effect of on-farm seed priming and arbuscular mycorrhizal fungi in different amounts of phosphate fertilizer on emergence, yield and yield components of a semi-mid maturity corn hybrid (ES-SENSOR), an experiment was conducted at the research station of Agriculture College, Bu-Ali Sina ...
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To investigate the effect of on-farm seed priming and arbuscular mycorrhizal fungi in different amounts of phosphate fertilizer on emergence, yield and yield components of a semi-mid maturity corn hybrid (ES-SENSOR), an experiment was conducted at the research station of Agriculture College, Bu-Ali Sina University in 2012 in a factorial randomized complete block design with three replications, where the first factor was priming in two levels including control (non-primed) and priming with water and second factor was arbuscular mycorrhizal fungi (control and application of mycorrhizae) and the third factor was phosphate fertilizer application in three levels (non-use, 50 and 100 percent of recommended phosphate fertilizer). Results showed that seed priming increased seedling emergence rate by 15 percents. The highest symbiosis percentage was about 65.47 which was obtained by application of mycorrhizae and 50 percent of phosphate fertilizer recommendation. Also seed priming increased the number of grains per ear. 100 seed weight was also increased significantly by priming and inoculation with mycorrhizae at 50 percent phosphate fertilizer recommendation. In this study, seed priming increased grain yield by 22.32 percent. The highest yield rate of 1249.59 g/m2 was obtained in 50 percent phosphate application and use of mycorrhizal symbiosis. Therefore by application of mycorrhizal fungi in the direction of sustainable agriculture, phosphate fertilizer can be reduced by up to 50%.
Mohammad Ali Baghestani; Delavar Baghestani; Hamid Rahimian mashhadi; Hasan Mohammad Alizade
Volume 11, Issue 2 , November 2009, , Pages 19-27
Abstract
The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete ...
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The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete phenological stages from flowering to fruit ripening. Based on the cardinal temperature of broomrape (9.5°C), the parasite weed needs 209, 1125.5, 1414.5 and 961 GDD for completion of seed germination, stem emergence, flowering and seeding stages, respectively. Maximum seed germination occurred at the depth of 18 cm. Maximum root infection was observed at the depth of 9 to 12 cm. The highest infection to this parasite plant was recorded on roots with 9 to 11.9 mm diameter.