Maryam Heidarzade; Gholamreza Zarei; Abolfazl Morowati
Abstract
Introduction: Lemon verbena (Lippia citriodora H. B. k.) is a valuable medicinal plant because of the essential oils, such as neral and garanial, which are used in the pharmaceutical, food, cosmetic and sanitary industries. In different industries, using essential oil of medicinal plants depends on the ...
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Introduction: Lemon verbena (Lippia citriodora H. B. k.) is a valuable medicinal plant because of the essential oils, such as neral and garanial, which are used in the pharmaceutical, food, cosmetic and sanitary industries. In different industries, using essential oil of medicinal plants depends on the chemical composition, which is influenced by environmental factors, harvest time and farming methods.Materials and Methods: This experiment was conducted to investigate the effect of different levels of urea fertilizer and several iron fertilizers on yield and quality of lemon verbena at Fathabad garden of Kerman in 2017. The plants were planted based on factorial experiment in format of a randomized complete block design with three replications. Different levels of urea fertilizer (0, 100, 150 and 200 kg ha-1) and different sources of iron fertilizers included non-use, iron sulfate, nano iron chelate and ortho-chelate iron, were considered in four levels. The measured traits included plant height, fresh and dry weight of leaf per plant, number of branch, chlorophyll content and essential oil quantity and quality. Essential oil extraction was carried out using water distillation method using Clevenger's apparatus and identification of essential oil compounds was performed by gas chromatography–mass spectrometry (GC/MAS). The data were subjected to variance analysis using SAS software and means comparison were done with LSD at 5% level.Results and Discussion: The results showed that different levels of urea and various iron sources had significant effect on all traits. Treatment with 150 kg ha-1 urea had the highest effect on measured traits compared to control. Among the types of iron sources, ortho-chelate iron had highest effect on quantity and quality compared to other iron sources and control. Generally, 150 kg ha-1 urea in combination with ortho-chelate iron produced the highest quantitative and qualitative yield. The same trend was observed in chlorophyll (35 mg/ml) and oil content (1.3%). In this study, a significant positive correlation was observed between chlorophyll content of leaves with vegetative traits and essential oil, which confirmed the positive effect of chlorophyll content on measured traits. Evaluation of quality of the leaves, 20 chemical compositions were detected in essential oils that were more than 85 percent of the total components. The neral and geranial were the predominant compounds in essential oils and the lowest levels of these compounds were observed in control (33.8%) and the highest levels were observed in the combination of 150 kg ha-1 urea with nano iron chelate (44.9%). The essential oils are terpenoid compositions that their constructive units need to NADPH and ATP, thus the presence of nitrogen is essential for the formation of these compounds. Moreover, iron acts as a cofactor for NADPH and ATP activity in nitrogen metabolism. Therefore, the increase in nitrogen and iron absorption by the plant has increased the content of essential oil. Due to the fact that geranial and neral are the most important compounds used in the essential oil of lemon verbena in various industries, especially pharmaceutical industry. The results of this experiment can be used to increase the quantity and quality of lemon verbena.Conclusion: The current study demonstrated that different levels of urea and various iron sources had a significant effects on all traits. Generally, 150 kg ha-1 urea in combination with ortho-chelate iron produced the highest quantitative and qualitative yield. A significant positive correlation was observed between chlorophyll content of leaves with vegetative traits and essential oil. Twenty chemical compositions were detected in essential oils that the neral and geranial were the most predominant compounds.
Mehdi Ghesmati; Farid Moradinezhad
Abstract
Introduction: Sour cherry is one of the most strategically important horticultural products in the Khorasan Razavi province that proper nutrition can improve the performance of the plant. This fruit is rich in vitamins, antioxidants, and soluble fiber, which is very useful for lowering blood ...
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Introduction: Sour cherry is one of the most strategically important horticultural products in the Khorasan Razavi province that proper nutrition can improve the performance of the plant. This fruit is rich in vitamins, antioxidants, and soluble fiber, which is very useful for lowering blood pressure. Proper nutrition is one of the important factors in determining the quantity and quality of the fruit. In arid and semi-arid regions, micronutrient elements availability is one of the factors that limits growth, yield, and quality of fruit trees , because absorption of nutrients being limited due to the alkalinity of the soil. So, the use of an appropriate method to provide the required nutrients by plants is necessary. Foliar application of nutrient is one of the important ways in the food supply for plants. Hence, spraying is an effective way to reduce nutritional disorders in plants. Therefore, the objective of this study was to evaluate the effect of foliar application of iron and zinc micronutrients on the yield and physicochemical properties of sour cherry fruit.
Materials and Methods: In order to investigate the effect of spraying of iron chelate and zinc sulfate on yield and qualitative characteristics of the sour cherry fruit, a factorial experiment was conducted in a randomized complete block design with 4 replications in the commercial orchard of Astan Quds Razavi, Mashhad, Iran. The first factor was spraying iron 6% Fe-EDDHA at 3 levels (0, 2 and 4 g l-1) and the second factor was spraying zinc sulfate at 3 levels (0, 2 and 4 g l-1). The treatments were applied in two stages, 20 days after the whole flowering stage and 20 days after the first spraying. Spraying chemicals was done in the morning when temperature and humidity were not high.. Fruit and leaves samples were collected, at the commercial maturity stage of fruit, from each tree include one kilogram of fruit and half kilogram leaves. Thereafter, healthy fruits and leaves of the same shape, size, and color were selected to determine the biochemical properties of fruit and chlorophyll leaves. In this experiment, 36 grilled cherry trees of 10 years old with a spacing of 3×4 m were used. The general conditions of the selected trees were similar to other garden trees, and irrigation (dripping), pest and disease control were applied uniformly to all treated trees. The studied traits included the fresh weight of fruit, dry matter percentage, fruit yield, fruit juice acidity, soluble solids, total antioxidant, trace related to chlorophyll content, iron and zinc concentration in leaves.
Results and Discussion: The results showed that different levels of iron chelate, zinc sulfate, and their interaction increased fruit fresh weight, dry matter percentage, fruit yield and chlorophyll traits. An individual application of 4 g l-1 of iron or zinc, and also their combination application showed the greatest values on evaluated traits In addition, the soluble solids, total antioxidant, and iron leaf values were only affected by different levels of chelate iron, which improved with increasing spraying levels of the studied traits. Sprayed with zinc sulfate could increase the concentration of zinc in the leaves but the acidity of juice was not affected by the treatments. The results showed that different levels of zinc significantly affected all quantitative traits of sour cherry fruit than iron chelate. However, spraying with iron chelate had a significant effect on the quality traits of fruit, including total soluble solids and total antioxidants. Moreover, the combination effect of chelate iron and zinc sulfate in comparison to their individual application had a better effect on the quantitative and chlorophyll traits of the cherry leaf. The highest increase in both zinc and iron content of leaf samples were obtained in trees that were treated with 4 g l-1 of zinc or iron solutions, respectively. The results show that foliar application of high concentrations of both chemicals increased zinc or iron content of leaf samples about 30% compared to the control. Thus, not only higher yield but also quality improvement of sourcherry fruit occurred in treated trees. Our results was in accordance with the findings of previous studies on different fruit tress like grapes, pistachio and orange. According to the results, it can be concluded that spraying with zinc sulfate and iron chelate during plant growth season can increase yield and improve the physical and chemical properties of the sour cherry fruit.
