Raheleh Arab; Alireza Yadavi; Hamidreza Balouchi; Hamid Alahdadii
Abstract
Objective: This experiment was conducted to investigate the effects of drought stress and foliar application of Fe and Zn on agronomical characteristics of sunflowerMethods: a farm experiment was carried out in the Fars agricultural research center in the split plots form base on a randomized complete ...
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Objective: This experiment was conducted to investigate the effects of drought stress and foliar application of Fe and Zn on agronomical characteristics of sunflowerMethods: a farm experiment was carried out in the Fars agricultural research center in the split plots form base on a randomized complete block design with three replications during 2014. Irrigation at three levels (irrigation after 60, 120, and 180 mm of evaporation from A class evaporation pan) as the main plots and foliar application at four levels (water, iron sulfate, zinc sulfate, and iron sulfate+ zinc sulfate) were used as sub-plots.Results: The results showed that the delay in irrigation from 60 to 180 mm of evaporation caused a decrease in the number of seeds per head, grain yield and biological yield by 24.8%, 37.5% and 30%, respectively. The foliar application of iron sulfate + zinc sulfate compared to the control treatment increased the number of seeds per head, 1000-seed weight and grain yield by 24.1%, 16.6 percent and 14.3 percent, respectively. The delay in irrigation, increased the water use efficiency by 50.9%. The interaction between irrigation and foliar application had a significant effect on leaf and grain iron concentration and leaf zinc concentration, so that with delay in irrigation, absorption of nutrients decreased, but foliar application under drought stress conditions increased iron and zinc absorption in sunflowerConclusion: According to these results, it can be stated that with micronutrient foliar spraying, the severe drop in sunflower yield can be prevented under drought stress conditions
shadi moradi; jalal khorshidi; mohammadreza morshedloo
Abstract
Foeniculum vulgare Mill. is one of the medicinal plants, which is widely used in pharmaceutical and food industries. Due to the effective role of micronutrients in the quantitative and qualitative yield of medicinal plants, the effect of foliar application of iron chelate (0, 1.5 and 3 g/L) and zinc ...
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Foeniculum vulgare Mill. is one of the medicinal plants, which is widely used in pharmaceutical and food industries. Due to the effective role of micronutrients in the quantitative and qualitative yield of medicinal plants, the effect of foliar application of iron chelate (0, 1.5 and 3 g/L) and zinc chelate (0, 1.5 and 3 g/L) on the functional properties and essential oil content of native and improved (cv. Soroksari) fennel was evaluated. The experiment was conducted as a split-split plot, based on RCB design with three replications during 2018 at the University of Kurdistan. Simple effects of iron chelate, the interaction iron chelate and cultivar, as well as the interaction iron chelate, zinc chelate and cultivar type, had no significant effect on measured traits. Zinc chelate significantly affected most of the studied traits, so that the highest of essential oil content (5.06%) and yield (35.07 L/ha) were belonged to 3 g/L treatment, while the highest seed yield (884.2 kg/ha) was obtained in zero treatment of zinc chelate. The interaction of iron chelate and zinc chelate as well as the interaction of zinc chelate and cultivar had only a significant effect on seed width and number of umbels, respectively. The impact of cultivar had a significant effect, on the number of umbels per plant, seed yield, and essential oil yield, so that the highest average of mentioned traits (25.29, 765.26 kg/ha and 34.27 L/ha, respectively) were belonged to native fennel. Generally, among the fertilizer treatments, 3 g/L zinc chelate and between the two types of fennel, native fennels were recognized as superior.
Peyman Mohammadzadeh Toutounchi; Reza Amirinia
Abstract
In order to investigate effect of foliar application of some micronutrients on the yield and yield components of fenugreek (Trigonella foenum-graecum L.), an experiment was conducted based on randomized complete block design with eight treatments and three replications at the Research Farm of West Azarbaijan ...
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In order to investigate effect of foliar application of some micronutrients on the yield and yield components of fenugreek (Trigonella foenum-graecum L.), an experiment was conducted based on randomized complete block design with eight treatments and three replications at the Research Farm of West Azarbaijan Agricultural and Natural Resources Research Station in 2012. Treatments were control, iron, zinc, manganese, iron + zinc, iron + manganese, zinc + manganese and iron + zinc + manganese. These elements were supplied from iron sulfate, zinc sulfate and manganese sulfate and were sprayed 3 mg lit-1 concentration. The results showed that there was a statistically significant difference between spraying of micronutrients and control. Maximum plant height (40.68 cm), number of lateral branches (6.76), number of pod per plant (25.73), number of grain per pod (15.36), 1000-grain weight (14.99 gr) and grain yield (857.62 kg.ha-1) were related to spraying of iron + zinc + manganese. It is concluded that foliar application of iron + zinc + manganese improves growth and yield characteristics of fenugreek.
Jalal Jalilian; Azimeh Khade; Alireza Pirzad
Abstract
To study effect of Fe and Zn spraying on some characteristics of mungbean, an experiment was designed as factorial based on randomized complete block with three replications in Urmia University, 2012. Treatments were nutrition systems (organic, chemical, integrated and no nutrition) and micronutrients ...
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To study effect of Fe and Zn spraying on some characteristics of mungbean, an experiment was designed as factorial based on randomized complete block with three replications in Urmia University, 2012. Treatments were nutrition systems (organic, chemical, integrated and no nutrition) and micronutrients (Fe, zinc, no foliar application and water spraying). The plant height, pod length, number of pod, number of grain in pod, and grain yield were obtained from plants treated with organic as well as chemical and integrated fertilization systems. With regards to obtain the maximum biomass (3421.8 kg/ha) and eco-friendly benefits of organic system, it is recommended as suitable fertilization treatment. The highest plant height (37.78 cm) and grain yield (800.8 kg/ha) obtained from Zn spraying, while the highest biological yield (3250.80 kg/ha) from Fe spraying and foliar application of micronutrients were the same, statistically. In conclusion, Zn and Fe spraying cause to increase the yield and yield component of mungbean.