sayyed-pooya hosseini; soudabeh golestani kermani; kourosh qaderi; nasrin sayari
Abstract
Due to scarcity of water resources, its negative effects on agricultural yield, and the need to ensure food security, it is necessary to provide effective strategies to improve management and water productivity in this sector. Accordingly, the present experiment has been carried out as a factorial based ...
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Due to scarcity of water resources, its negative effects on agricultural yield, and the need to ensure food security, it is necessary to provide effective strategies to improve management and water productivity in this sector. Accordingly, the present experiment has been carried out as a factorial based on completely randomized design during spring of 2019 in the research greenhouse of Shahid Bahonar University of Kerman. The research factors include 3 irrigation levels Fc100, Fc75, and Fc50 (100%, 75%, and 50% field capacity) as the first factor and two superabsorbent levels S0 and S5 (0 and 5 gr/kg soil) as the second factor, performed with five replications. The results show that the maximum yield (40. 23 ton/ ha) and water productivity (10.36 kg/) belong to FC100S5 treatment, increasing by 5.71% and 47.6%, respectively, compared to the values recorded in similar level of irrigation and non-superabsorbent polymer. The maximum value of total chlorophyll (25.12 mg/ml) are observed in FC100S5 treatment, which in turn increase by 19.44%, compared to the control. The maximum value of vitamin c occurs in FC100S0 treatment, being 18.27% higher than minimum recorded value. Finally, the results show that the difference between irrigation water production of cherry tomato in FC100S0 and FC75S5 has not been not significant, despite 25% reduction in field capacity moisture at FC75S5. According to the results of this research, the quadratic production function is recommended as the optimal function to estimate the mentioned traits in terms of application and non- application of super absorbent.
Seyed Abdollah Hosseini Chamani; Mohammad Hossain Gharineh; Abdol Mehdi Bakhshandeh; Amin Lotfi jalal-abadi
Volume 21, Issue 2 , July 2019, , Pages 119-130
Abstract
In order to evaluate the effects of irrigation intervals, mycorrhizal fungi and zeolite fertilizer on some Mung bean traits, a factorial splitting experiment was conducted in a randomized complete block design with four replications in the Izeh region in July 2015-1016. The main factor included irrigation ...
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In order to evaluate the effects of irrigation intervals, mycorrhizal fungi and zeolite fertilizer on some Mung bean traits, a factorial splitting experiment was conducted in a randomized complete block design with four replications in the Izeh region in July 2015-1016. The main factor included irrigation interval at three levels (7, 10 and 13 days) and various factors were Mycorrhiza inoculated (inoculated and non-inoculated) and zeolite (without consumption and 2 tons per hectare) as a factorial.The results of analysis of variance showed that only interaction effect of irrigation, mycorrhiza and zeolite on stem weight, number of seeds per pod and water use efficiency were significant. The highest grain yield was observed in irrigation intervals of seven days under inoculation and non-inoculation with fungus, as well as irrigation intervals of 10 days in inoculated mycorrhizal fungus. The use of zeolite in irrigation intervals of 10 and 13 days increased the most of traits. The results of water use efficiency showed that use of Mycorrhiza fungus and zeolite fertilizer increased water use efficiency. So that, by increasing the irrigation interval from 7 days to 10 days, using mycorrhiza and zeolite can prevent decreasing of water use efficiency. According to the results of this study, using mycorrhiza fungi and zeolite fertilizer can increase the irrigation interval of mung bean from seven to 10 days in the studied area.
S. Javad Talebzadeh; Hashem Hadi; Reza Aminia; Mehdi Tajbakhsh; Mohammad Rezaie
Abstract
In order to evaluation the pattern of assimilates distribution to seed under late season drought stress, 11 promising lines of winter wheat along with Orum, Zareh, Mihan, Zarrin and Pishgam cultivars were evaluated in two levels of irrigation (full irrigation and cutting irrigation from flowering to ...
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In order to evaluation the pattern of assimilates distribution to seed under late season drought stress, 11 promising lines of winter wheat along with Orum, Zareh, Mihan, Zarrin and Pishgam cultivars were evaluated in two levels of irrigation (full irrigation and cutting irrigation from flowering to maturity) at the Agricultural Research Station of Miandoab during 2013-2015 growing seasons. Experiments were conducted in split plot based on randomized complete block design with three replications. Results showed that water deficit stress significantly increased remobilization rate, contribution of remobilization and source restriction and decreased the amount of spike weight, peduncle weight, sink restriction by removing leaves other than flag leaf, sink restrictions by removing flag leaf, grain yield and harvest index, so that terminal water deficit stress increased remobilization by 45.45% and the total yield contribution of remobilization of 18.30% in normal conditions increased to 43.33% under stress conditions. Among the genotypes, ‘Zarrin’ and ‘Mihan’ under normal moisture conditions and ‘Mihan’ genotype under terminal drought stress conditions produced the highest grain yield. In this study under terminal drought stress conditions, there were significant positive correlations between grain yield with remobilization rate and contribution of remobilization. It can be concluded that the varieties and genotypes afforded adequate remobilization and contribution of remobilization in grain yield in both conditions are appropriate for cultivation in optimal conditions, as well as areas that are faced with terminal water deficit stress.
siavash ariafar; Ali Reza Sirousmehr
Abstract
In order to study the effects of water stress and municipal compost on qualitative and quantitative characteristics of Nigella sativa, this experiment was conducted in 2012 at the Agricultural Research Station of University of Zabol, Iran in a complete randomized block in split plot design with three ...
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In order to study the effects of water stress and municipal compost on qualitative and quantitative characteristics of Nigella sativa, this experiment was conducted in 2012 at the Agricultural Research Station of University of Zabol, Iran in a complete randomized block in split plot design with three replications. Treatments included irrigation intervals: Every seven days (without stress), every nine days (mild stress) and every 12 days (severe stress) and municipal compost treatments include: without municipal compost application (control), 10, 20 and 30 tons per hectare. The results showed that the effect of water stress was significant on the biological and seed yield, proline and chlorophyll (a). Also biological yield, grain yield and chlorophyll (a) decreased in water stress condition. But proline content in leaves increased with increasing stress level. According to results highest biological yield, grain yield, essential oil percentage, proline, chlorophyll a, chlorophyll b, total chlorophyll and carotenoids were obtained In municipal compost application. The Interaction between water stress and municipal compost treatments on chlorophyll a, chlorophyll b, total chlorophyll and carotenoid were significant. According to results, the best treatment at the increase on seed yield and essential oil content were application 30 tons per hectares of municipal compost in Zabol weather conditions.
Afsaneh Badalzadeh; Mohammad Rafieiolhossaini; Abdolrazzagh Danesh Shahraki; Mehdi Ghobadinia
Abstract
In order to evaluate the effect of water deficit and different fertilizer levels on yield and some agro-morphological characteristics of Moldavian balm, a split plot experiment was conducted in a randomized complete block design with three replications at the research farm of Shahrekord University during ...
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In order to evaluate the effect of water deficit and different fertilizer levels on yield and some agro-morphological characteristics of Moldavian balm, a split plot experiment was conducted in a randomized complete block design with three replications at the research farm of Shahrekord University during 2013-2014 growing season. Main factor was three levels of irrigation regimes including: 100 (control), 75 and 50 percent of water requirement while 6 levels of manure application including: 1) no amended fertilizer (control), 2) 25 percent urea + 75 percent cattle manure, 3) 50 percent urea + 50 percent cattle manure, 4) 75 percent urea + 25 percent cattle manure, 5) 100 percent urea and 6) 100 percent cattle manure, were used as subplot. The maximum plant height and number of flowering branch was observed for 100 percent urea and the maximum flowering branch dry yield was related to 50 percent urea + 50 percent cattle manure. The maximum plant height and number of flowering branch was achieved from 100 percent plant water requirement. The maximum leaf, shoot dry weight and dry matter yield was related to 50 percent urea + 50 percent cattle manure with 100 percent plant water requirement. In total, in order to obtain the maximum dry matter yield, application of 50 percent urea with 50 percent of cattle manure and full irrigation is recommended.
somayeh karami; Seyed Ali Mohammad Modarres-Sanavy; Faezeh Ghanati; MEHRDAD Moradi
Abstract
In order to study the effects of water deficit stress and zinc foliar application on yield, seed quality, seed vigor and zinc content of different organs of soybean cultivars, an experiment was conducted in randomized complete block design arrangement as a split factorial with three replications. Main ...
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In order to study the effects of water deficit stress and zinc foliar application on yield, seed quality, seed vigor and zinc content of different organs of soybean cultivars, an experiment was conducted in randomized complete block design arrangement as a split factorial with three replications. Main factor was three levels of drought stress (non stress, water stress in vegetative growth stage (S1) and water stress in flowering stage (S2)) and subordinate factor was combination of foliar zinc application and cultivar. Foliar zinc application in three levels (non foliar application, water foliar application and zinc sulfate (5000 ppm)) foliar application and two cultivars (‘L17’ and ‘Clarck 63’) were used in this experiment. Results showed that traits were affected by treatments. Water deficit stress in both vegetative and reproductive stages caused to decrease the yield, zinc content of organs, seed protein and oil percentage and seed vigor, but hard seed percentage were increased to 189 and 472 in S1 and S2, respectively. ‘Clark 63’ was desirable under water deficit stress. The highest yield reduction was observed for stress treatment at the reproductive growth stage. Zinc sulfate foliar application increased the yield, zinc content of seed, seed protein percentage and seedling vigor 34, 26, five and 38 percent, respectively, but decreased seed oil percentage and hard seed percentage four and 58, respectively. Zinc foliar application was more effective in yield increment of ‘L17’ than ‘Clarck 63’.