Pomology
Ali Akbar Shokouhian; Somayeh Mohammadi Shevir; Shahriyar Einizadeh
Abstract
Background and Objectives
Fulvic acid has a relatively low molecular weight and contains a large number of oxygen and carbon-rich functional groups. Many of the beneficial effects of fulvic acid spray include stimulating plant metabolism, increasing the activity of transaminase and invertase enzymes, ...
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Background and Objectives
Fulvic acid has a relatively low molecular weight and contains a large number of oxygen and carbon-rich functional groups. Many of the beneficial effects of fulvic acid spray include stimulating plant metabolism, increasing the activity of transaminase and invertase enzymes, increasing bioavailability and nutrient uptake, as well as increasing crop growth and yield. Fulvic acid spraying solution helps to transfer minerals to metabolic sites within plant cells. Fulvic acid at certain stages of plant growth can be used as a major method to maximize plant production capacity. Due to the fact that calcium transfer is difficult, although the soil is rich in this element, so its foliar application is recommended. In addition, calcium deficiency leads to a decrease in root growth and leaf loss, but also leads to the production of poor quality fruits. Therefore, this study was carried out with the aim of investigating the use of fulvic acid and calcium as a spraying solution on growth and yield of Quince ‘Haj Agha Kishi’.
Materials and Methods
In order to investigate the effects of fulvic acid concentration and chelated calcium on quality and quantity of fruit indices of Quince ‘Haj Agha Kishi’ an experiment was conducted during 2017-2018 in kosar city, Ardabil province. The experiment was performed as a factorial in based on the randomized complete block design with four levels of fulvic acid application with concentrations of 0, 1, 2 and 3 per thousand and three levels of application of chelated calcium with concentrations of 0, 1.5 and 3 per thousand in three replications. The treatments were applied to six-year-old seedlings. The treatments were applied on the trees as a spray solution and applied three times: after fruit set, one and two months after fruit set. In this study, leaf chlorophyll content index was measured by Arnon method. The leaf area of the plant was measured with a level gauge, model AM300, In this study 10 leaves were randomly selected from each tree branch, the average leaf area was multiplied by the number of main and secondary branches, and the leaf area of each treatment was recorded as average. In order to determine the length, diameter and average weight of fruit, ten fruits were randomly harvested from treated trees, then the diameter and length of the fruits were measured with a caliper with an accuracy of 0.01 mm. Also, the weight of the fruits was determined with a scale of model GF800, made in Japan with an accuracy of 0.01 grams. Yield was calculated by measuring the total weight of the crop in each tree. Statistical analysis of data was performed using SAS 9.2 statistical software. Means were compared based on LSD lest at 1 or 5% and charts were drawn using EXCEL 2013 software.
Results
The results of data analysis of variance showed that the effects of chelated calcium and fulvic acid on leaf area, length, diameter, wet weight and fruit yield were significant (P<0.01). Based on the results, fulvic acid had a significant (P<0.05) effect on chlorophyll b and total chlorophyll content of leaf. The interaction of calcium ×fulvic acid treatments had a significant (P<0.01) effect on leaf area and fruit length. The highest total chlorophyll content of 1.20 mg.g-1 was obtained by using 3 per thousand concentration of fulvic acid and the lowest rate was 0.79 mg.g-1 in the control. The highest (5481.69 mm2) leaf area was obtained with the simultaneous use of 3 per thousand concentration of chelated calcium and 3 per thousand concentration of fulvic acid, which was significantly different from other levels. The lowest leaf area was also observed in control. Comparison of the means showed that the treatments of 3 per thousand concentration chelated calcium and 3 per thousand concentration of fulvic acid had the highest fruit yield with 167.63 and 135.30 kg, respectively. The lowest yield was recorded for control trees.
Conclusion
Increasing yield and quality is the most important goal in agricultural production. Due to the fact that biostimulants do not have adverse effects on soil and water. In order to maintain sustainable production should be used in the production program. Folic acid, as a biostimulant, improves plant metabolism and facilitates the absorption of elements. According to the findings of this study, application of fulvic acid and chelated calcium at 3 per thousand concentrations is recommended for Quince ‘Haj Agha Kishi’ to improve leaf efficiency and fruit yield.
Medicinal Plants
Soheila Charbandi; Faezeh Zaefarian; Vahid Akbarpour; Mohammad Kaveh
Abstract
Introduction: The tendency to produce aromatic and medicinal plants and the demand for natural products is increasing especially in the world. Ecological agriculture (Agroecology) of medicinal plants guarantees their quality and reduces the possibility of negative effects on their quality and yield. ...
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Introduction: The tendency to produce aromatic and medicinal plants and the demand for natural products is increasing especially in the world. Ecological agriculture (Agroecology) of medicinal plants guarantees their quality and reduces the possibility of negative effects on their quality and yield. Evaluation of different plant nutrition systems is one of the most important principles in the production planning of medicinal plants in order to achieve high yield and quality of effective ingredients. Proper fertilizer management is one of the most important factors in agricultural production. Identification of fertilizers which are compatible with nature and are suitable for plant growth could have favorable effects on quantitative and qualitative indices of the plant. Organic fertilizers are genuine and risk-free products that could be suitable for agricultural sustainability. Soil organic matter improves fertility and water retention, provides proper ventilation, long-term storage of plant nutrients and microorganisms, so replacing chemical fertilizers with fertilizers such as vermicompost and biofertilizer can reduce the above-mentioned effects. Biofertilizers are one of the operations that is nowadays in accordance with the principles of sustainable agriculture for soil fertility. Biofertilizers include the compost of one or more types of useful soil organisms or as metabolic by-products of these organisms that are used to provide the plant with the nutrients it needs in an agroecosystem.Materials and Methods: In order to investigate the effect of biochar, organic and biological fertilizers on the quantity and quality of Ocimum bacilicum L., a factorial experiment was done in a randomized complete block design with three replications. Experimental treatments included two levels of biochar (0 and 20 ton ha-1) and five levels of fertilizers (vermicompost (10 ton ha-1), Mycorrhiza, Azotobacter, Pseudomonas and no fertilizer application). Prior to planting sweet basil seed, biofertilizers and vermicompost were mixed with soil to the depth of 15 cm. Mycorrhizal fungi were mixed with seed. Azotobacter and Pseudomonas bacteria were also incubated with seeds (seed inoculated). It should be added that in this study no chemicals were used to control weeds and pests.Results and Discussion: According to the results, the highest plant height and number of main branches were obtained in biochar application with vermicompost (49.37 cm and 7, respectively), which was significantly better than other treatments. The interaction effect of biochar and fertilizer had a significant effect on fresh and dry weight of leaf and stem. Mean comparison of treatments showed that the highest leaf and stem fresh weight were obtained in biochar + Pseudomonas application (792 and 876 g m-2, respectively), which had no significant difference with biochar + vermicompost; and also, the maximum leaf dry weight and stem dry weight were obtained in biochar with Pseudomonas application (166 and 175 g m-2, respectively). The interaction between biochar and fertilizer on phenol, flavonoids and antioxidant activity of basil showed a significant differences between treatments.Conclusion: In general, the results showed that the use of biochar and biological and organic fertilizers could be effective in both the quality and quantity of sweet bail, where, the use of the bacterium Azobacter and Pseudomonas with biochar had the greatest effect on the quality and quantity of sweet bail. Finally, it could be concluded that the combined use of biochar with biological fertilizers had significant impacts on the quantitative and qualitative traits of sweet bail in ecological or low input agricultural.
Arezoo Safarzadeh; Giti Barzin; Daryoosh Talei
Abstract
Introduction: The salinity affliction of land constitutes a major threat amongst the various forms of soil degradation. Arbuscular mycorrhiza fungus can be useful as a bio-fertilizer in providing plant nutrition and reducing the effects of environmental stresses on plants. On the other hand, nitric oxide ...
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Introduction: The salinity affliction of land constitutes a major threat amongst the various forms of soil degradation. Arbuscular mycorrhiza fungus can be useful as a bio-fertilizer in providing plant nutrition and reducing the effects of environmental stresses on plants. On the other hand, nitric oxide plays a role in many environmental and non-environmental stresses, including drought and salinity stresses. Liquorice (Glycyrrhiza globra Linn.), commonly known as Mulahatti and Yashtimadhu, is the highest priority value crop which can be successfully cultivated on salt-affected and degraded lands. It is a small perennial leguminous herb of the family Fabaceae (Papilionaceae) native to the Mediterranean region and central and southwest Asia, and cultivated in Italy, Russia, France, UK, USA, Germany, Spain, China, Pakistan, Afghanistan, Iran, Iraq, Uzbekistan, Turkey, Turkmenistan and north-western India. This research was carried out with the aim of investigating the effect of nitric oxide modification on coexistence with arbuscular mycorrhizal fungus on some of the physiological traits of licorice under the salt stress of sodium chloride.
Materials and Methods: This research was a factorial experiment based on completely randomized block design with three replications. Factors consisted of five levels of NaCl-salinity (0 as control, 50, 100, 150 and 200 mM), two levels of nitric oxide (0 and 0.2 mM) and two levels of mycorrhizal fungi (the presence and absence of mycorrhizal). To do this, 10 kg pot of pumice mixture and pumice (1 to 1 ratio) were poured into 60 plastic containers (30 x 20 cm; 10 L) and sterilized by alcohol. The seeds germinated in petri dishes after adequate growth, they were transferred to the pots (all seeds were germinated and grown in the same conditions). In each pot, five seedlings were cultured and irrigated with distilled water until a two-leaf stage. After that, the treatment was carried out by a Hoagland solution. Application of saline treatments and nitric oxide (from sodium nitroproced as nitric oxide source) was performed 45-days. Finally, after 60 days of planting, sampling was carried out to measure the physiological traits from the middle leaves of each pot, and after being placed in an aluminum foil with ice-containing flux, it was transferred to the laboratory and then transferred to 80 o C. The evaluated traits were leaf flavonoids by Swain (52) method, proline content by Bates et al. (6) method, MDA with Ohkawa et al. (40) method, CAT activity by Pereira et al. (44) method, POD activity by Korori (28) method and SOD activity by Giannopolitis and Reis (21) method. The data were analyzed by SPSS 22 (IBM SPSS Statistics 22.0) software application. The data was normalized and inferential statistics such as analysis of variance and mean comparison of treatments were calculated using Duncan's multiple range test.
Results and Discussion: The results showed that the salinity stress had significant effect on flavonoid content, proline content, malondialdehyde rate and antioxidant activity of catalase, peroxidase and superoxide dismutase. Salinity had increased levels of malondialdehyde, proline content, and the activity of antioxidant enzymes (catalase, peroxidase, and superoxide dismutase). The coexistence of mycorrhiza fungus in combination with nitric oxide or alone reduced the number of flavonoids and increased proline content at each level of salinity stress. Nitric oxide had no significant effect on measured traits but was more effective in combination with Mycorrhiza fungi. In general, sodium chloride salinity stress had a negative effect on the physiological traits of liquorice, but the use of nitric oxide with arbuscular mycorrhizal fungus reduced the negative effects of stress. In general, it can be said that the removal and decontamination of active oxygen species is an important part of salinity tolerance in plants. In the present study, salinity stresses have significantly increased the amount of MDA, which is an indicator of plant response to stress. In addition to salinity stress, nitric oxide stress has been induced to reduce the effects of high salt concentration on some of the indices, thus reducing nitric oxide in high concentrations of MDA. Application of saline treatment significantly increased the activity of the three antioxidant enzymes CAT, POD, and SOD. The results showed that salinity stress had a decreasing effect on studied traits, but the application of arbuscular mycorrhizal fungus with nitric oxide reduced the negative effects of sodium chloride salinity stress on liquorice plant.
Farzaneh Nourbakhsh; Vida Chalavi; Vahid Akbarpour
Abstract
Introduction: Rosemary (Rosmarinus officinalis L.) is a perennial, ever green and fragrant plant belongs to Lamiaceae family. Vegetative parts of this plant have essential oil and compounds with anti oxidant and antibacterial properties which are used extensively in pharmaceutical, food and cosmetic ...
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Introduction: Rosemary (Rosmarinus officinalis L.) is a perennial, ever green and fragrant plant belongs to Lamiaceae family. Vegetative parts of this plant have essential oil and compounds with anti oxidant and antibacterial properties which are used extensively in pharmaceutical, food and cosmetic industries. The use of biofertilizers such as vermicompost and Nitroxin could have beneficial effect on production of rosemary by increasing the production of plant growth hormones and the availability of macro and micro nutrients in growing media.
Materials and Methods: The effect of vermicompost and Nitroxin biofertilizers was investigated on growth, yield, the amounts of photosynthetic pigments, flavonoid, essential oil percentage and yield of rosemary. The experiment was based on a randomized complete block design with two factors, including vermicompost (0, 10, 20, 30 and 40% w/w) and Nitroxin (inoculated and non-inoculated with Nitroxin) with four replications. This research was done at Sari Agricultural Sciences and Natural Resources University, Sari, Iran, in 2012-2013. Uniform one-year old rooted rosemary cuttings were selected for this experiment. Before planting, rooted cuttings were treated in diluted Nitroxin solution in water (1:10) for 10 minutes. After planting, rosemary plants were fertilized twice by Nitroxin for every 45 days according to the producing company recommendation. During growth period, irrigation was done according to plants requirement. At the end of experiment, parameters such as plant height, shoot fresh and dry weight, root dry weight, chlorophyll a, total chlorophyll, leaf flavonoid and essential oil yield were measured. Data was analyzed using standard analysis of variance (ANOVA) using the general linear models procedure of SAS, (version 9.1; SAS Institute, Cary, N.C.). Differences among means were tested by least significant difference (LSD) (p ≤ 0.05).
Results and Discussion: Obtained results showed that the application of different levels of vermicompost and Nitroxin inoculation and their interactions had significant effect on some rosemary morphological and physiological properties such as plant height, shoot fresh and dry weight, root dry weight, chlorophyll a, total chlorophyll, leaf flavonoid and essential oil yield. The interaction of vermicompost and Nitroxin were highly significant for shoot weight. The highest fresh weight (71.55 g) for each plant were obtained from 40% vermicompost with Nitroxin inoculated treatment. The lowest fresh weight (45.62 g and 44.4g) belonged to 10% vermicompost and control treatments, respectively. Shoot dry weight yield was also affected by vermicompost with Nitroxin interaction and was highly significant. The highest dry weight (31.37 g) was obtained from 40% vermicompost with Nitroxin inoculated treatment while the lowest dry weight (18.68 g and 18.79 g) was observed in control and Nitroxin treatment, respectively. The amount of chlorophyll a and total chlorophyll were affected by vermicompost with Nitroxin interaction too. The highest amount of chlorophyll a (25.89 mg/g) was observed in 30% vermicompost treatment. The highest amount of chlorophyll b (2.13 and 1.81 mg/g) belonged to 20% and 30% vermicompost treatments, respectively and , the highest amount of total chlorophyll (27.7 mg/g) was measured in 20% vermicompost in combination with Nitroxin inoculated treatment. The highest amount of leaf flavonoid (6.25 mg/g) was determined in 10% vermicompost with Nitroxin inoculated treatment. The highest essential oil yield (0.263 and 0.272 g per plant) was obtained from 20% and 30% vermicomposts treatments, respectively. According to the presented results, amendment of growing media with vermicompost and Nitroxin inoculation significantly increased quantity and quality properties of rosemary.
Conclusions: The presented results showed that the use of vermicompost, and Nitroxin separately or in combination have positive effect on growth yield, pigments formation and essential oil yield of rosemary. The increased fresh and dry yield of rosemary in this study could be the result of optimum condition of growth media provided by vermicompost. The use of vermicompost increases water holding capacity and better ventilation environment for plant roots. In addition, the presence of vermicompost in growing media provides greater nutrient availability for plants and therefore increases plant fresh and dry yield. This greater nutrient availability could be due to increased microbial population and their activities in vermicompost- amended growth media.