Medicinal Plants
Zeinab Safaei; Majid Azizi; Gholamhossein Davarinejad; Hossein Arouiee
Abstract
IntroductionThe ever-increasing tendency to the use of medicinal plants in the world has grown concerns about their cultivation and production processes. As medicinal plants are more compatible with the nature, special interest and attention has recently been given to herb therapy, and use of medicinal ...
Read More
IntroductionThe ever-increasing tendency to the use of medicinal plants in the world has grown concerns about their cultivation and production processes. As medicinal plants are more compatible with the nature, special interest and attention has recently been given to herb therapy, and use of medicinal plants, being limited by the rise of pharmaceutical drugs, has become again common and widespread due to a number of reasons. Nigella sativa L. is one of the herbs that has a variety of uses and has been being used in iran’s traditional medicine since old times. Today this plant is considered as one of the most important kinds of medicine. Therefore, it is of great importance to conduct some researches on the herbs around the country due to different ecological requirements. N. sativa belonging to buttercup family, with the scientific name of Ranunculaceae, is an annual, dicotyledonous, herbaceous plant. In several studies, N. sativa has been reported to have anti-oxidative, anti-inflammatory, strengthening of immune system, and anti-histamine and oil extract properties. Furthermore, several effects such as lowering blood sugar, lipids, and hypertension, excretion of bile and uric acid, protection of liver, kidney and cardiovascular tissues as well as anti-seizure, anti-cancer, anti-microbial and anti-parasitic effects related to this plant have been reported. The aim of the present study is to improve the yield and yield components and oil of medicinal plant N. sativa by anti-transpiration compounds under drought stress conditions. Materials and MethodsAn experiment was conducted at Research Station,Faculty of Agriculture, Ferdowsi University of Mashhad, in 2012-2013. The research was performed using a split plot experiment based on a randomized complete block design with three replications. The irrigation intervals (8 and 16 days) in main plots and anti-transpiration compounds of chitosan (0.25, 0.5 and 1%), Plantogopsyllium mucilage (0.5, 1 and 1.5%) and arabic gum (0.25, 0.5 and 0.75 %) were put in subplots with three replications. Also, the distance between the main plots in each block and distance between the two blocks were assigned as 100 cm and 200 cm, respectively; so that the moisture content of a plot had no effect on the adjacent plots. Planting date was April16 and planting was performed by hand in 0.5cm-deep furrows. Throughout the growing season, anti-transpiration compounds were applied concurrently with the imposition of drought stress, administered weekly at sunset until the flowering stage. Subsequently, yield, yield components, and oil content were measured. Results and Discussion Results showed that irrigation intervals had significant effects on all studied characteristics with the exception of 1000 seed weight. ncreasing irrigation intervals reduced percentage yield and yield components and oil of black cumin grains. Anti-transpirants compounds did have significant effects on percentage of oil and yield and yield components of black cumin grains. There were significant difference between different anti-transpirants compounds in terms of oil and yield components yield and of black cumin grains. The 8 days irrigation interval produced more grain yield compared with 16 days irrigation intervals (621.56 vs. 484.23 kg/ha). The highest oil (27.74%) and lowest (21.74%), respectively, at treatment anti-transpirants compound chitosan1 percent With 8 days irrigation interval and gam arabic 0.25 percent was obtained with 16 days irrigation interval and chitosan stimulating abscisic acid synthesis in the treated plant would result in stomatal closure, reduction of stomatal conductance, transpiration rate and water content. They also pointed out that the anti-transpiration effect of chitosan was because of its stimulatory effect in increasing abscisic acid concentration in the treated leaves of bean plant. As the above compounds are natural and biodegradable, as well as safer and less expensive than other chemical anti-transpiration compounds, they can serve as a good alternative to the chemical compounds. Cognition and expertise in water relations of plant and drought stress tolerance is considered as the main program in agriculture and the ability to withstand this stress is of great economic importance. Conclusion The anti-transpiration compounds led to significant changes in terms of all the studied traits compared to the control, indicating the effectiveness of theses natural compounds. Providing the appropriate conditions, 1% chitosan treatment can enhance the yield under drought stress. Spraying by arabic gum did not improve the growth conditions. According to this experiment, 1% chitosan treatment and 1.5% Plantago psyllium mucilage is considered the most appropriate strategy to enhance the yield of Nigella sativa under drought stress.
Medicinal Plants
Faezeh Soleimani; Davood Samsampour; Abdolnabi Bagheri
Abstract
Introduction
Medicinal plants have reservoirs rich in the active ingredients of many medicines. Medicinal plants have rich reservoirs of essential active ingredients of many drugs. Considering the importance of medicinal plants, especially in the pharmaceutical industry and their scarcity in nature, ...
Read More
Introduction
Medicinal plants have reservoirs rich in the active ingredients of many medicines. Medicinal plants have rich reservoirs of essential active ingredients of many drugs. Considering the importance of medicinal plants, especially in the pharmaceutical industry and their scarcity in nature, it is very important to study the various agricultural aspects of these plants, considering the increasing spread of saline soils, to find a solution. It seems necessary to prevent living and non-living environmental stresses or at least reduce them. One of these methods is the use of symbiotic relationships between mycorrhizal fungi and host plants, which reduces the stress caused by salinity. Due to the increasing expansion of saline soils, it seems necessary to find solutions that can prevent or at least reduce the living and non-living environmental stresses. There are different ways to overcome these tensions in different situations. Water salinization is one of the most important environmental limiting factors for crop production, especially in arid and semi-arid regions of the world, since Iran is located in the arid region of the world, given that salinity is one of the environmental factors. Are that have a strong effect on the growth and activity of lemongrass; There are also vast resources of saline and semi-saline groundwater, although not currently used and likely to be used in the future. Solutions to address abiotic stresses include the use of biofertilizers. One of these methods is to use the symbiosis of fungi with host plants, which leads to a reduction in salinity stress. The aim of this study was to investigate the effect of Arbuscular mycorrhizal fungi. On vegetative and biochemical traits of lemongrass under salinity stress. Salinity is one of the most important factors limiting the growth and production of crops. Fungi as a biological fertilizer can be useful in meeting the nutritional needs of plants and reducing the effects of environmental stresses on plants.
Materials and Methods
The experiment was a factorial experiment in a completely randomized design with two factors of four salinity levels (0, 5, 10 and 15 ds.m-1 NaCl) and fungi (no inoculation and fungal inoculation). For inoculation of Arbuscular mycorrhizal fungi with mixed potting soil was applied to the lemongrass. Plant height, root length, fresh and dry weight of leaves, relative water content, catalase, peroxidase and polyphenol oxidase were measured.
Results and Discussion
The results indicate that all studied traits were significantly affected by the interaction of mycorrhiza and salinity stress. The application of mycorrhizal fungi in the presence of salinity stress due to the absorption of nutrients and water led to improved growth of lemongrass. The results showed that under salinity stress of 150 mM plant height, root length, fresh and dry weight of leaves, relative water content, catalase, peroxidase and polyphenol oxidase enzymes in lemongrass inoculated with arbuscular fungus at 23.05, 32.69, 25.31, 48.14, 31.83, 30.33, 52.72 and 33.41% respectively, increased compared to the control (no inoculation). In general, based on the results of this study, it can be concluded that the use of mycorrhizal fungi can increase the salinity tolerance of lemongrass and cultivate it in saline soil.
Conclusion
In summary, the results of the present study showed that inoculation of the fungi can protect the lemongrass plant against salinity stress. In addition, the effect of mycorrhizal fungi on lemongrass under salinity stress has been investigated for the first time. According to the results obtained in this study, salinity reduced morphological parameters and lemongrass as a reaction to salinity to maintain its status to increase the amount of enzyme activity through the mechanism of osmotic regulation to stress conditions. Compromise and to some extent deal with salinity. In the study, it was observed that inoculation with Arbuscular had a positive effect on all measured traits. The application of mycorrhizal fungi in the presence of salinity stress due to the absorption of nutrients and water led to improved growth of lemongrass. By examining all the measured traits, it can be concluded that by using mycorrhizal fungi, the salinity resistance of lemongrass can be increased and cultivated in saline soil. Arbuscular species seems to be more suitable for improving the growth of lemongrass in all conditions.
Medicinal Plants
Roghayeh Raei; Vahid Akbarpour; Mohammad Ali Bahmanyar
Abstract
Introduction Fertilizer management is one of the main factors in achieving sustainable agriculture. Therefore, the integrated agricultural system recommends the use of organic matter along with the optimal use of chemical fertilizers. This method is a balanced way to improve the physical and ...
Read More
Introduction Fertilizer management is one of the main factors in achieving sustainable agriculture. Therefore, the integrated agricultural system recommends the use of organic matter along with the optimal use of chemical fertilizers. This method is a balanced way to improve the physical and chemical properties of the soil, which leads to improved growth and increased plant yield. Organic fertilizers, especially livestock manures, have higher levels of organic matter than chemical fertilizers, and can be considered as sources of nutrients, especially nitrogen, phosphorus and potassium. One of these organic fertilizers is poultry manure, which in addition to having macro and micro elements (manganese, iron, copper, and boron) is one of the cheapest fertilizers compared to other fertilizers used. It is also richer in terms of nitrogen than other animal fertilizers. Soil fertility is the factor that change the amount of active substances and essential oils. Micronutrients such as zinc, although needed in small amounts by plants, play an important role in plant growth and development. The application of zinc sulfate fertilizer improved the quantitative and qualitative attributes of basil, peppermint, sage, and rosemary. Researchers stated that the application of a combination of chemical fertilizers and poultry manure has increased the yield of garlic essential oil. Therefore, in recent years, integrated plant nutrition management has been discussed. Integrated plant nutrition management is based on the simultaneous application of organic, chemical, and biological fertilizers. Because organic fertilizers alone can’t provide the needs of high-yielding plants. Combined application of organic, chemical, and biological fertilizers can improve the physical and chemical conditions of the soil and increase organic carbon and nutrients. Savory is an aromatic medicinal plant from the mint family. This plant has a lot of essential oils and is very important in the food, pharmaceutical, and health industries. The aim of this study was to investigate the role of poultry manure and zinc sulfate in the cultivation of savory.Materials and Methods The present experiment was performed as a factorial in a completely randomized design with 3 replications. The factors consisted of poultry manure with four levels (0, 3, 6, and 9 t.ha-1) and the second factor zinc sulfate with four levels (0, 50, 100 and 150 mg.kg-1 soil).Results and Discussion According to the obtained results, the effect of poultry manure, zinc sulfate, and their interaction on most of the studied traits was significant. The highest height was observed in the treatment of poultry manure of 9 t.ha-1 + zinc sulfate in 100 mg. kg-1 soil, which showed an increase of 79.26% compared to the control, and the lowest height belonged to the control treatment. The total chlorophyll in the chicken manure treatment of 6 t.ha-1 + zinc sulfate in 150 mg. kg-1 had a significant increase compared to the control. The highest amount of leaf nitrogen was obtained in the treatment of poultry manure of 9 t.ha-1 + 50 mg.kg-1 with an increase of 82.03% compared to the control. Zinc element was observed with a 222.75% increase in poultry manure treatment of 9 t.ha-1 + 150 mg.kg-1. Poultry manure treatment of 6 tons per hectare + 150 mg.kg-1 with 261.53% increase compared to the control contained the highest percentage of essential oil.Conclusion The results of the study showed that the use of combined ratios of poultry organic fertilizer and zinc sulfate has been effective in improving vegetative attributes, available plant elements, and essential oil content.
Medicinal Plants
Zhaleh Zandavifard; Majid Azizi
Abstract
Introduction: St. John’s wort (Hypericum perforatum L.) is a medicinal plant which used mainly in treatment of mild depression, neurological disorders and has been recently shown to have anticancer potential. The principle medicinal components of St. John’s wort are hypericin, pseudohypericin, ...
Read More
Introduction: St. John’s wort (Hypericum perforatum L.) is a medicinal plant which used mainly in treatment of mild depression, neurological disorders and has been recently shown to have anticancer potential. The principle medicinal components of St. John’s wort are hypericin, pseudohypericin, and hyperforin. Light is one of the most important environmental factors affecting plant growth, survival, reproduction and distribution. The light quality, light intensity, duration and photoperiod directly affect plant growth. Light quality refers to the color or wavelength reaching the plant's surface. A prism (or raindrops) can divide sunlight into respective colors of red, orange, yellow, green, blue, indigo and violet. Red and blue have the greatest impact on plant growth. Green light is least effective (the reflection of green light gives the green color to plants). Blue light is primarily responsible for vegetative leaf growth. The principle objective of the current study was to evaluate the effects of different spectral quality including red, blue, green and white on the growth factors and production of hypericin.Materials and Methods: This experiment was conducted on the basis of Completely Randomized Design with four treatments and 10 replications in the growth chamber in the Department of Horticulture, Ferdowsi University of Mashhad (FUM), Iran. In this study, seeds were obtained from the research greenhouse of FUM. Seeds after soaking in running water for 24 hours were planted in small pots (250g). After the seedlings have reached to height of 25cm, each 10 pots were put inside the boxes (20×30cm) made of colored filters. Experiment continued in a growth chamber with day and night temperature 25 and 21°C, respectively, relative humidity 45%, 16 hours of light with the intensity of 1000 lux and 8 hours of darkness for 50 days. Then morphological parameters including plant height, number of stems, number of leaves, number and length of internodes, fresh and dry weight of shoot and root were measured. To count the number of black nodules, the upper, middle and lower parts of seedling were evaluated individually. Hypericin content of the H. perforatum plantlets were measured according to the previous work of Azizi & Omidbaigi, 2002. Data were analyzed statistically by using SAS and Excel software. The significant differences between means were assessed by Tukeyʼs test at P < 0.05.Results and Discussion: The results showed that morphological parameters including plant height, leaf number, internode length, root fresh weight, dry weight of stem and root were affected significantly by light treatments. Minimum and maximum of plant height was related to white and red lights, respectively. Increasing plant height under the influence of red light was due to the variation in levels of growth regulators. Red and blue light by changing of the GA hormone level in the plant and affected elongation of plant stem. Minimum and maximum of leaf number was related to blue and white light respectively. Also, other morphological traits including internode length, fresh and dry weights of stem and root showed significant differences. Internode length for white light was less than red, green and blue light. Maximum of the fresh and dry weight of shoot and root of seedlings was observed under white light. Results suggest that photosynthetic compounds move in plant under the influence of light quality. Also the number of black nodules in three different parts of plant and hypericin content were compared in plantlets under the effect of light quality. Results analysis also confirmed that different lights had the significant impact on the number of black nodules in upper and middle leaves of H. Perforatum seedlings. Seedlings treated with the red light had the highest number of black nodules in the middle section of H. perforatum. In the top third of St. John’s wort seedlings, red, blue and green light was inducted the highest number of black nodules formation than white light. The highest level of hypericin was related to red, white, blue and green lights, respectively. The number of black nodules in the plant and the hypericin content have positive correlation. It seems that in the seedlings treated with the red light, carbohydrates made from photosynthesis most used in biosynthesis of secondary metabolites than plant growth. In fact, carbon allelochemical compounds such as terpenes and phenolics have such metabolism direction to explain the increasing in secondary metabolites.Conclusion: Different light spectra affects plant hormones levels and with alteration in the primary and secondary metabolites lead to a change in the morphological and biochemical traits of plant. In general, it can commented that the quantity and quality of light is able to affect the growth and the active metabolites of medicinal plants and using red and white mixture of light during seedling growth period have an effective role on generation of more strong seedlings with higher potential production of active ingredients.
Bijan Soltanian; Parviz Rezvani Moghaddam; Javad Asili
Abstract
Introduction: Nowadays the demand for medicinal plants is increasing in the pharmaceutical industries. Echinacea spp. is an herbaceous, perennial plant containing valuable substances which belong to different chemical groups, most notably phenolic compounds. Echinacea is the most well-known and most ...
Read More
Introduction: Nowadays the demand for medicinal plants is increasing in the pharmaceutical industries. Echinacea spp. is an herbaceous, perennial plant containing valuable substances which belong to different chemical groups, most notably phenolic compounds. Echinacea is the most well-known and most important treatment for the immune system and protects against cough, cold and fever. Drought stress can be a major factor in increasing the content of secondary metabolites in many medicinal plants. Organic fertilizers are known to be one of the fertility factors for soil and plant nutrition due to the impacts on the physical, chemical and biological properties of soil. The purpose of this study was to investigate the response of yield and phenolic compounds as the most important group of active compounds in Echinacea in response to different levels of water stress, chemical and organic fertilizer management and their interactions. Materials and Methods: This experiment was carried out during 2016 and 2017 years at the experimental Field of Ferdowsi University of Mashhad, located at 10 km East of Mashhad. The split plot based on factorial design was implemented in 3 Replications. The studied factors in this experiment in the main plot were water stress at three levels, including1- Non-Water stress (6000 m3.ha-1), 2- Moderate Water Stress (4500 m3.ha-1), 3- Severe Water stress (3000 m3.ha-1).In sub plots, fertilization treatments applied in eight levels, including, 1- NPK fertilizer (500 kg.ha-1) ; 2-Humic acid (20 L.ha-1); 3-Vermicompost (6000 kg.ha-1); 4-Humic acid+NPK (20 L.ha-1+500 kg.ha-1); 5. Vermicompost+NPK (3000 kg.ha-1+250 kg.ha-1); 6-vermicompost+humic acid (3000 kg.ha-1+20 L.ha-1); 7. Vermicompost+Humic acid+NPK (3000 kg.ha-1+20 L.ha-1+250 kg.ha-1) and 8.control. The amount of irrigation needed at each turn was calculated by NETWAT software. In combined treatments, half of the NPK fertilizer which used in the pure treatment was replaced with the equivalent amount of vermicompost. Constant amount of liquid humic acid was applied at the same time with vermicompost and NPK in rosette leave developing and before stem-elongation phase. The total amount of phenolic compounds in the sample was evaluated by the Folin-Ciocalteu method. Data were analyzed with MSTAT-C statistic software and means compared by Duncan Multiple Range Test. Results and Discussion: The most amounts of stem dry matter, flower dry matter and biomass were observed at vermicompost and non-stress treatment and the least amount of them was obtained from control and severe water stress condition. The highest amounts of leaf and root dry weight were obtained under vermicompost+humic acid and moderate water stress treatments and the least amount of leaf dry weight was observed at control and severe water stress treatments. At the same time with the increase of water stress, the impact of organic fertilizers on leaf dry weight decreased, however the application of organic fertilizers increased the leaf dry weight even under severe stress conditions. Maximum seed yield was observed under vermicompost+humic acid+NPK and NPK treatments with severe water stress condition. With increase in the stress level, root to shoot ratio was increased and the maximum amount of that was obtained in control treatment under severe water stress condition and the minimum amount of that was obtained at vermicompost and non-stress treatment. The application of vermicompost and humic acid increased root to shoot ratio in severe stress conditions and it were effective in developing root systems in these conditions. Maximum amounts of phenolic compounds were observed under humic acid+vermicompost treatment with severe stress condition and minimum of these compounds were obtained under humic acid treatment at no-stress. Conclusion: The response of aerial parts of plant was associated with a decrease in irrigation levels, however this trend was reversed in underground sections. Thus, the maximum amount of root dry weight, root to shoot ratio and root phenolic compounds were observed in severe stress treatment. The highest amount of Phenolic compounds of the root, the ultimate goal of this plant, were observed under humic acid+vermicompost combination treatments. Therefore the production of this plant in terms of supplying 50% of the required moisture content (is equivalent to 300 mm of irrigation during the one-year growth period) and the use of fertilizer treatments containing humic acid and vermicompost compounds is recommended.
Medicinal Plants
Mehdi Rastegar; Hassan Mumivand; Alireza Shayganfar; Abdolhossein Rezaei Nejad
Abstract
Introduction: In the last decades, human activities have had adverse effects on the atmosphere and the stratospheric ozone layer, resulting in an increase in the ultraviolet radiation on the ground, especially in highlands. Among living organisms, plants are the most exposed to ultraviolet rays due to ...
Read More
Introduction: In the last decades, human activities have had adverse effects on the atmosphere and the stratospheric ozone layer, resulting in an increase in the ultraviolet radiation on the ground, especially in highlands. Among living organisms, plants are the most exposed to ultraviolet rays due to their high and unavoidable need to light for photosynthesis, and are therefore more vulnerable to them. Plants show different responses to ambient UV radiation. The response of plants to ultraviolet light is manifested in two general ways, including tolerating the destructive effects of this radiation or/and avoiding it. The present study was conducted to evaluate the effect of ultraviolet light on growth, morphological and phenological characteristics of three cornflower cultivars under greenhouse conditions in 2018.
Materials and Methods: The experiment was performed as a split plot in a completely randomized design. Ultraviolet light was considered as the first factor in four levels (including: control, ultraviolet –A radiation, ultraviolet -B radiation and ultraviolet A + B radiations) and three cornflower cultivars (including: ‘Kornblume pink’, ‘Kornblume rot’ and ‘Kornblume blau’) as the second factor. The UV treatment was applied by lamps made by Q-Lab Co, USA. It should be noted that the 40-watt lamps used in this study were broadband and had the highest compliance with ultraviolet B (in the case of UV-B lamps) and ultraviolet A (in the case of UV-A lamps) received from the sun on the ground. So they provided the best possible simulation. During the growth period of plants, phenological traits were recorded and morphological traits and biomass traits were measured at the end of the experiment.
Results and Discussion: The results showed that UV-B radiation and simultaneous application of UV-A and UV-B radiations resulted in the reduction of the most morphological traits and yield traits including plant height, internode length, leaf width, leaf area, flowering stem length, plant fresh and dry weight, leaf dry weight, flower dry weight and number of flowers. However, flower yield was not affected by ultraviolet radiations. UV-A treatment reduced the flowering stem length and fresh and dry weight of plant in compared to the control treatment, but it had no significant effect on plant height, leaf width, leaf dry weight, flower dry weight and number of flowers. Plants response to ultraviolet radiation is very different. In many species, it has been observed that UV-A does not have a negative effect on plant growth, while, UV-B reduced the growth and yield of plants. It seems that the main reason for the reduction of plant growth and production is prevention of cell division caused by ultraviolet radiation. Degradation of plant pigments (chlorophyll) is also one of the main reason of photosynthesis decrease led to plant growth and yield reduction. The results of the present study showed that the application of UV-A reduced the number of days until the emersion of the first flower bud and the number of days until the opening of the first flower in cornflower cultivars compared to the control. UV-B treatment forced cornflowers to earlier flowering than UV-A. However, the fastest entry into the reproductive and flowering phase of cornflower cultivars was observed with the simultaneous application of UV-A and B radiations. Plants mechanisms against environmental stresses mainly depend on their origin and genetic factors. These mechanisms include three main strategies including “avoidance”, “tolerance” and “escaping”. One of the most important ways to reduce the life cycle is early flowering. It seems that the process of early flowering and completing the growth in cornflower species is a kind of stress escaping under ultraviolet radiation stress.
Conclusion: In this study, ultraviolet radiation reduced the growth and development of all three species of cornflowers. However, UV-A treatment showed the least negative effect on flower yield of plants. On the contrary, UV-B radiation and simultaneous application of UV-A and UV-B radiations reduced the growth and development of cornflowers, but did not have any significant negative effect on the flower yield (as the main useable organ of plant). Therefore, it seems that the ultraviolet radiation can be considered as a positive factor due to its positive effects on the production of secondary metabolites and early flowering and lack of significant negative effects on plant flower yield. Finally, ‘Kornblume pink’ cultivar, with higher flower yield and earlier flowering, is more suitable for cultivation than other cultivars.
Ali Rezaei; Mohammadtaghi Ebadi; Hassan Pirani
Abstract
Introduction: Organic production is one of the important aspects in the medicinal plants industry and the use of organic fertilizers is very important in this topic. Seaweeds are important marine living resources with tremendous commercial applications and many commercial products from seaweed extract ...
Read More
Introduction: Organic production is one of the important aspects in the medicinal plants industry and the use of organic fertilizers is very important in this topic. Seaweeds are important marine living resources with tremendous commercial applications and many commercial products from seaweed extract are used in agriculture and horticulture. Seaweed extracts can be used in liquid form as a foliar spray, soil drench or in powder and granular forms as soil conditioners and manure. Using seaweed extracts as fertilizers can improve plant productivity, because they contain growth-promoting hormones. Several studies have also shown that the seaweed extracts can suppress plant diseases and insect pests. Nowadays, seaweed extract is used as an organic fertilizer in order to increase the quantitative yield of medicinal plants and also resistance to environmental stresses. Summer savory is one of the medicinal and spice plants that has a high area under cultivation in our country for food and medicine. Various studies on its essential oil had been shown that it contains high amounts of phenolic compounds like Carvacrol, γ-Terpinene, Thymol, p-Cymene, β-Caryophyllene, Linalool, and other terpenoids.
Materials and Methods: In order to study the effect of different levels of seaweed fertilizer on the growth characteristics, plant material yield, essential oil percentage of summer savory, an experiment was conducted as a randomized complete block design with 3 replications at the Faculty of Agriculture, Tarbiat Modares University (TMU) during 2017. The treatments included: 0 (control), 2.5, 5 and 10 ml/liter seaweed fertilizer that they were used as a foliar application for three times in the growing season. According to the meteorological data, the area had an average rainfall of 246 mm and a semi-arid climate. In order to determine the physical and chemical properties of the soil, soil sampling and testing were done. To prepare the field, the soil tillage operation was carried out using a 40 cm depth plow. Then, plots with a 2 × 2 meters at a distance of half a meter from each other were prepared. The seeds used in this experiment were prepared from Varamin landrace, which is mainly cultivated by farmers in Tehran and Alborz provinces. Sowing operation was carried out manually. In each plot, 7 rows (30 cm spacing between rows) were cultivated and all of the plots were irrigated in the same conditions. The organic fertilizer (Bioalgax) used in this experiment was based on an extract of seaweed (Ascophyllum nodosum), which was obtained from the Kimitec company, Spain. This fertilizer is a natural source of phytohormones such as cytokinins, auxins, and gibberellins and also, it has some minerals. After reaching the height of 20 cm (eight weeks after planting), spraying of the fertilizer solutions was applied three times during the growing season at intervals of 10 days. The foliar application was carried out at sunset time by using a manual sprayer. The harvest was carried out at full flowering stage and 3 plants of each plot were harvested. The studied traits were: plant height, stem diameter, the number of branches, leaf length, and width, shoot fresh and dry weight, root fresh and dry weight, SPAD index, essential oil yield and content.
Results and Discussion: The results showed that different concentrations of seaweed fertilizer had a significant effect on the number of branches, shoot dry weight, root fresh and dry weight, leaf width and plant height at 1% probability level. They also had a significant effect on the shoot fresh weight, essential oil percentage, and yield at 5% probability level. On the basis of the results, the highest number of branches (35.44), leaf length and width (43.22 and 8.07 mm), stem diameter (5.00 mm), root fresh and dry weight (15.17 and 6.42 g), shoot fresh and dry weight (181.01 and 37.69 g) and SPAD index (48.13) were obtained from 10 ml/liter seaweed fertilizer and the lowest amounts were observed in control treatment. The maximum plant height (54.66 cm) and the highest percentages and the yield of essential oil (2.51% and 6.28 g/m2) were also obtained from 5 ml/liter seaweed fertilizer. According to the results, the response of summer savory to the use of seaweed fertilizer was positive and it could be placed in the fertilization program of farmers.
Mohammad Reza Asghari; Zahra Azarsharif; Hossein Tajik; Alireza Farrokhzad
Abstract
Introduction: Galbanum, an aromatic oleo-resin gum, is produced from umbelliferous Persian plant species in the genus Ferula with the common Persian name “Barije”, chiefly endemic flora of the mountain ranges of northern Iran. Cuminum cyminum is an edible medicinal plant, which is widely distributed ...
Read More
Introduction: Galbanum, an aromatic oleo-resin gum, is produced from umbelliferous Persian plant species in the genus Ferula with the common Persian name “Barije”, chiefly endemic flora of the mountain ranges of northern Iran. Cuminum cyminum is an edible medicinal plant, which is widely distributed in Iran, Turkey, India, Egypt and Central America countries. Calcium (Ca2+) is a secondary messenger that plays pivotal roles (such as cell wall structure, signaling in fruit ripening and ethylene biosynthesis) in regulating physiological functions in fruits, vegetables and flowers during postharvest life. Sweet cherry is one of the most popular fruits among consumers because of its good taste and abundant nutrients and bioactive components such as phenolic compounds and flavonoids. This fruit is a highly perishable product due to its high respiration rate and rapid softening process at room temperature, which ultimately cause the color changes, weight loss, browning and changes of nutrients and restrict its shelf life. Several studies have demonstrated that the postharvest life of sweet cherries can be extended by different preservation techniques, such as refrigeration, synthetic chemical fungicides, modified atmosphere packaging, osmotic treatments, hypobaric treatments, heat treatments and edible coating. In the last several years, edible coatings have been widely studied for the preservation of fruits and vegetables. Edible coating with semipermeable films might extend the postharvest life of sweet cherry through a reduction of moisture migration, gas exchange, respiration and oxidative reaction rates. Materials and Methods: Healthy fruits, uniform in size, shape, color, and degree of maturity were selected from sweet cherries collected from orchard in Kahriz located in Urmia. Effects of galbanum gum (0, 1, 2 and 3% W/V), cumin essential oil (0, 100 and 200 µl/l) and calcium chloride (0 and 1% W/V) coating on the physiological and quality responses of sweet cherry (Prunus avium Cv. Siah Mashhad) fruit were investigated. The fruits were coated, and stored at 2±1 ºC and 90-95% relative humidity for 30 day and then transferred to 20 ºC for an additional 1 day. The quality of sweet cherries was analyzed at the initial day, 15-day after storage in 2±1 ºC and 30-day after storage in 2±1 ºC+ an additional 1 day in 20 ºC. Different qualitative and physicochemical attributes including pH, total soluble solid, titrable acidity, fruit water content and moisture percentage, proline, malondialdehyde, phenyl alanine amonialyase (PAL) enzyme activity and nutraceutical (total phenol and flavonoid) evaluations were performed. Statistical analysis of data was done by SAS (version 9.4) and mean comparisons were performed using Duncan's multiple range test. Result and Discussion: Significant differences were observed in fruit coated galbanum gum 1% W/V, cumin essential oil 200 µl/l and calcium chloride 1% W/V as compared to the control. The coating applications including gum, cumin essence and calcium chloride resulted in slower rise of pH and TSS, and were effective in maintaining higher titrable acidity, fruit water content, moisture percentage, PAL enzyme activity, total phenol and flavonoid. Coating with 1% W/V galbanum gum combined with 1% W/V calcium chloride resulted in highest increase of PAL enzyme activity and total phenol 15-day after storage, which effectively prevented rapid decline enzyme activity and phenolic compound to the end of storage. The combined coating of galbanum gum 2% W/V with CaCl2 1% W/V or 200 µl/l cumin essential oil significantly maintained total flavonoid 30-day after storage in 2±1 ºC + an additional 1 day in 20ºC; These treatment are not significantly different with galbanum gum 1% W/V with CaCl2 1% W/V or 200 µl/l cumin essential oil. Concomitantly proline content (0.002748 mgr/gr F.W.) was at higher levels and malondialdehyde (0.0320 mmol/gr F.W.) at lower levels in tissues of treated fruit with 1% W/V CaCl2 compared with those of control fruit at the end of storage. Conclusion: Fruit and vegetables are highly perishable, and the causes of postharvest losses can generally be ascribed to physiological deterioration associated with consumption of the internal water and reserve substances. In addition, increasing public concern towards healthy foods has contributed to the promotion of interest in the development of alternative (Safe) methods for controlling postharvest decay and deterioration. These results suggest that galbanum gum, cumin essence and CaCl2 treatments delayed the development of senescence process ‘Siah mashhad’ sweet cherry by delaying the loss of quality parameters, polyphenol substances and maintaining the structural integrity of cell membrane. Application of 1% W/V galbanum gum coating combined with 1% W/V CaCl2 might be enhanced low temperature tolerance by maintaining quality parameters, antioxidant compound and shelf life of sweet cherry fruits.
Zhaleh Zandavifard; Majid Azizi; Hossein Arouiee; Amir Fotovat
Abstract
Introduction: Among the heavy metals, cadmium, because of high mobility and bioavailability in soil and also toxicity at low concentrations is very important. Cadmium (Cd) is known as carcinogen and can induce many types of cancers. Human activities (metallic industries, contaminated fertilizer, herbicides ...
Read More
Introduction: Among the heavy metals, cadmium, because of high mobility and bioavailability in soil and also toxicity at low concentrations is very important. Cadmium (Cd) is known as carcinogen and can induce many types of cancers. Human activities (metallic industries, contaminated fertilizer, herbicides or insecticides, irrigation with contaminated groundwater, and use of contaminated sewage sludge) are largely responsible for accumulation of different levels of Cd in soil. Saint John’s Wort (Hypericum perforatum L.) is a medicinal plant and belongs to the family Hypericaceae which its extract, one of the best-characterized herbal medicines, known as the Cd-hyperaccumulator, is widely sold for the treatment of depression. Hyperaccumulator plants are species able to accumulate high amounts of heavy metals in their tissue at concentrations of 10 to 100 times higher than tolerated by crop plants. Zinc (Zn) is an essential element occurring in several enzymes, where it plays a catalytic or structural role. Cadmium and zinc have similar electron configuration, valence state as well as affinity to S, N and O donor ligands and thus their geochemical and environmental properties are comparable. The antagonism activity between Cd and Zn in the environment and their chemical similarity can lead to interactions between Cd and Zn during plant uptake, transport from roots to shoots, or accumulation in edible tissues. Ion exchange is one of the methods used for the removal of several toxic substances. In recent years, natural amendments, such as zeolite have been widely used to address trace metals contamination. Therefore, adding zinc and zeolite to the growth medium of plant can be moderating the toxic effects of cadmium.
Materials and Methods: This pot experiment was conducted at the Experimental Field of Ferdowsi University of Mashhad (FUM) from September 2013 to June 2014. Treatments consisted of three levels of cadmium (0, 10 and 20 mg Cd kg-1 soil), three levels of zinc (0, 25 and 50 mg Zn kg-1 soil) and three levels of Zeolite (Clinoptilolite) (0, 5 and 10g zeolite kg-1 soil) arranged in a factorial based on Randomized Complete Block Design (RCBD) with three replications. Cadmium sulfate (CdSO4·4H2O) and zinc sulfate (ZnSO4·7H2O) were purchased from MERCK company. The zeolite used in this research was collected from the Semnan mine, located in South of Semnan Province. After preparing the soil, the pots (30 cm in diameter with 18 kg capacity) were filled with 18 kg soil and thoroughly mixed with appropriate amounts of cadmium, zinc and zeolite diluted in distilled water. Seeds of H. perforatum L. cv. “Topaz” were obtained from the FUM Research Field. After 24 hours of soaking in tap water, the seeds were sown on the surface of moistened soil in each pot and germinated after 10 days. Following germination, the seedlings (about 1.0 cm high) were thinned and only 10 seedlings in each pot were kept. At the full flowering stage, these plants were harvested after 9 months. Plant height, root length, flowering stem and flower number, leaf area, relative chlorophyll and number of black nodules was measured. Chlorophyll (Chl) content were determined by leaf area meter (Li-Cor-1300,USA) and SPAD chlorophyll meter. Data were analyzed statistically by using JMP 8 and Excel software. The differences between averages were tested by Tukeyʼs test at P < 0.05.
Results and Discussion: The results showed that increasing cadmium levels lead to significant decrease of 6.28, 3.45, 2.04, 5.49, 0.82, 15.71 percents in plant height, root length, flowering stem, flower number, leaf area and relative chlorophyll, respectively compared with control. In comparison to control, the number of black nodules in leaf significantly increased by 4.23 percent. Combined application of cadmium and zinc could significantly decline the effects of cadmium on plant height and root length. Meanwhile, interaction effect of cadmium and zeolite was detected significantly on root length and number of flowers. The results of three-way interactions for root length were superior in Zn0Cd0Z10 treatment. Cadmium is an inhibitor of uptake and accumulation of essential mineral nutrients, reduces conductivity of stomata andwater potential of cells and damaged photosystems; therefore, can decrease biomass production in stem, flower and root. The reduction of Chl content could lead to enzymatic degradation of these pigments or inhibition of their biosynthesis, which could be connected with Cd-induced deficiency of iron and zinc, decrease of magnesium content or cadmium bond to essential thiol groups in both the protochlorophyllide reductase protein and other enzymes involved in the light dependent synthesis of 5-aminolevulinic acid. Heavy metal stress with impact on biosynthetic pathways of pharmacologically active molecules can either increase or decrease them. Changes in black nodules number, containing hypericin and other secondary metabolites in H. perforatum in response to heavy metals can help us understand the role of this material in stress conditions. It could be assumed that high metal accumulating ability of plants producing specific secondary metabolites in H. perforatum could be also connected with chelation of toxic metals with mentioned substances.
Conclusions: Our results confirmed that the addition of zeolite and zinc presumably improved plant growth, because of increased availability of essential nutrient elements such as K, Mg, Ca, NH4, and micronutrients in presence of zeolite or decreased Cd sorption and transmission in presence of zinc.
Majid Azizi; Zainab Safaei
Abstract
Introduction: The ever-increasing tendency to the use of medicinal plants in the world has grown concerns about their cultivation and production processes. As medicinal plants are more compatible with the nature, special interest and attention have recently been given to herb therapy, and use of medicinal ...
Read More
Introduction: The ever-increasing tendency to the use of medicinal plants in the world has grown concerns about their cultivation and production processes. As medicinal plants are more compatible with the nature, special interest and attention have recently been given to herb therapy, and use of medicinal plants, being limited by the rise of pharmaceutical drugs, has become again common and widespread due to a number of reasons. In a sustainable agriculture system, application of the fertilizers which are nature friendly and suitable for plants is essential. This becomes more important when dealing with medicinal plants. Doing studies over the effect of nanopharmax and humic acid fertilizer on the plant, no research findings were obtained. So, in order to use less chemical fertilizers to prevent environmental pollution and encourage farmers to use more organic fertilizer, the present study was carried out to evaluate the effect of foliar application of humic acid and nano-pharmax fertilizer on the growth index, yield, yield components, essential oil content of N. sativa.
Materials and Methods: The experiment was conducted at Research Station, Faculty of Agriculture, Ferdowsi University of Mashhad, Iran, in 2012-2013. Land preparation was done in October. The land area was 80 square meters in which three blocks were designed. Eight plots were prepared within each block and each plot was planted with 4 lines. Furrow sowing operations were carried out on October 29. The plants were thinned in 4-6 leaf stage. First irrigation after planting, and subsequent ones were done every 7 days until the end of the growing season. No herbicides were applied in this plan and weeding was done by hand. The test treatments included humic acid and nanopharmax fertilizer with the levels of 0, 1, 3 and 6 mg per liter and 0 and 1 ml per liter, respectively. Fertilizer treatments was applied at the 8-10 leaf stage and continued once every two weeks, three times until after flowering. Foliar application continued until the plants were well treated with the solution. Plant height, leaf area index, dry weight, the number of branches, and the number of capsules per plant, the number of seeds per capsule, seed weight, seed yield, biological yield, essential oil content and yield were measured. The factorial experiment was conducted in a completely randomized block design with three replications. For the variance analysis of test data and drawing graphs, Excel and Minitab-16 software was used. All the averages data were compared at the 5 and 1% level, according to LSD test.
Results and Discussion: Different levels of humic acid imposed a significant effect on plant height, leaf area index, dry weight, the number of branches, and the number of capsules per plant, the number of seeds per capsule, seed weight, seed yield, biological yield, essential oil content and yield. Nano fertilizer application significantly increased the yield and essential oil content of Nigella sativa. Combined treatment at various levels had significant effect on dry weight, seed weight, biological yield and essential oil content and yield. According to the results, it can be concluded that the levels of 6 mg.l-1 of humic acid and Nano fertilizer (Farmks®) application the treatments were more effective in the increase of growth index, yield, yield components, essential oil content on other traits. The increased seed yield affected by humic acid and nano fertilizer can be attributed to the better vegetative growth, canopy development and consequently, more appropriate use of solar radiation and high photosynthesis. Using nano fertilizer, the time and speed of nutrients dispersion is coordinated by food requirements of the plant and thus, the plant will be able to absorb the maximum amount of nutrients and therefore, while reducing the leaching of nutrients and the crop yield increases.
Conclusion: The results showed that the use of nano fertilizer and humic acid can have positive effects on yield components and yield of N. sativa. Application of nano fertilizer and humic acid concentrations of 6 mg/l showed higher yield than other treatments. Intensifying the vegetative growth, these treatments increased the yield in N. sativa species. The combined treatments significantly increased the seed weight, growth index, seed yield, biological yield essential oil content and yield. Therefore, on the basis of the results of current study, it sounds like that nano fertilizer and humic acid can reduce the use of chemical fertilizers and environmental pollution. They also play an important role in achieving the goals of sustainable agriculture.
Mohammad Behzad Amiri; Parviz Rezvani Moghaddam; Mohsen Jahan
Abstract
Introduction: In recent years, the effect of exogenous organic amendments on soil properties and plant growth characteristics has received renewed attention. Although the utilization of mineral fertilizers could be viewed as the best solution in terms of plant productivity, this approach is often inefficient ...
Read More
Introduction: In recent years, the effect of exogenous organic amendments on soil properties and plant growth characteristics has received renewed attention. Although the utilization of mineral fertilizers could be viewed as the best solution in terms of plant productivity, this approach is often inefficient in the long-term in tropical ecosystems due to the limited ability of low-activity clay soils to retain nutrients. Intensive use of agrochemicals in agricultural systems is also known to have irreversible effects on soil and water resources.
Compost is organic matter that has been decomposed and recycled as a fertilizer and soil amendment. Compost can greatly enhance the physical structure of soil. Decomposing organic amendments slowly release nutrients which may be taken up by plants and thus result in improved agroecosystem productivity.
Vermicompost is currently being promoted to improve soil quality, reduces water and fertilizer needs and therefore increases the sustainability of agricultural practices in tropical countries. Vermicomposting is a process which stabilizes organic matter under aerobic and mesophilic conditions through the joint action of earthworms and microorganisms. The products of vermicomposting have been successfully used to suppress plant pests and disease as well as increase crop productivity.
Cow manure is an excellent fertilizer containing nitrogen, phosphorus, potassium and other nutrients. It also adds organic matter to the soil which may improve soil structure, aeration, soil moisture-holding capacity, and water infiltration.
Plant density is the number of individuals of a given plants that occurs within a given sample unit or study area. Planting density can impact the overall health of plants. Plantings that are too sparse (the density is too low) may be more susceptible to weeds, while planting that are too dense might force plants to compete over scarce nutrients and water and cause stunted growth .
Despite of many studies on the effect of organic fertilizers and plant density on different crops, information on the effects of these factors for many medicinal plants is scarce. Therefore, in this study the effect of organic fertilizers and plant density on morphological characteristics and yield of Echium amoenum was studied in a low input cropping system.
Materials and methods: In order to evaluate the plant density and comparison of organic and chemical fertilizers on Iranian Ox-Tongue (Echium amoenum), a split plots experiment in time based on RCBD design with three replications was conducted in 2011-2014 growing seasons, in Ferdowsi University of Mashhad, Iran. The main plots included factorial combination of 3 plant densities (3, 5 and 10 plants per m2) and 4 different types of organic and chemical fertilizers (compost, vermicompost, cow manure, nitrogen chemical fertilizer and control) and the sub plots included agronomic years (2 and 3 agronomic years).
Results and discussion:The results showed that the effect of plant density on dry flower yield was significant, so that the highest dry flower yield (816 kg.ha-1) obtained for 5 plants per m2 and in this treatment dry flower yield was 23% and 15% more than 3 and 10 plants per m2 treatments, respectively. In both of agronomic years, effect of different organic and chemical fertilizers was intensified in 5 plants per m2, for example in second agronomic year, compost in 5 plants per m2 increased seed yield 30 and 25% compared to 3 and 10 plants per m2 densities, respectively. Although the use of chemical fertilizers to improve yield and yield components of Iranian Ox-Tongue was no ineffective, its impacts was much less than organic fertilizers. In general, the results of this research showed that the use of organic fertilizers in optimal plant densities can be reducing environmental risks of chemical fertilizers and develop sustainable agriculture and protect the health of the products.
Organic fertilizers are among the most significant resources for development of agricultural soil quality and increase in the yield of different medicinal plants. It has been reported that this ecological inputs provide favorable conditions for plant growth and development through improvement of physical, chemical and biological properties of the soil, therefore, it can be concluded that improvement of the most studied traits in the present study were due to use of organic fertilizers.
It seems that plants compete with each other over scarce nutrients and water in high plant density and cause stunted growth . Some other studies have reported that suitable plant density can increase the growth and yield of some medicinal plants such as coriander (Coriandrum sativum L.) (Akhani), Ajwain (Carum copticum L.) , lemon balm (Melissa officinalis L.) and anise (Pimpinella anisum L.).
Conclusion: In general, the results of this research showed that the use of organic fertilizers in optimal plant densities can be reducing environmental risks of chemical fertilizers and develop sustainable agriculture and protect the health of the products.
Fatemeh Ranjbar; Alireza Koocheki; Mahdi Nasiri Mahalati
Abstract
Introduction: Ecological agriculture is an integrated system that gives credit to higher quality of products. Using of ecological agriculture and low input systems or other similar systems as a replacement for conventional systems turn out to progress in sustainable agriculture and protecting environment ...
Read More
Introduction: Ecological agriculture is an integrated system that gives credit to higher quality of products. Using of ecological agriculture and low input systems or other similar systems as a replacement for conventional systems turn out to progress in sustainable agriculture and protecting environment health. One of the best approaches to achieve these goals is to use mixed farming. Many experiments have shown that mixed farming has higher yield than sole cropping. The other benefits of mixed farming are: management of insects, weeds and diseases, promotion of diversity, improvement of products quality and also increase in stability and sustainability. These goals also achieved by decreasing in use of non-renewable resources and also reducing environment risks. Hence, assessment of intercropping patterns of Fennel (Foeniculum vulgar), Sesame (Sesamum indicum) and Bean (Phaseolus vulgaris) on qualitative and quantitative characters and yield components were the purposes of this experiment.
Materials and methods: In order to study yield and yield components in different intercrops of fennel, sesame and bean, an experiment was conducted in Agricultural Research Station, Ferdowsi University of Mashhad during 2010-2011growing season. The experimental design was a Randomized Complete Block with three replications. The treatments were consisted of: pure stand of fennel, sesame and bean, row intercropping of sesame-bean with recommended density (1:1), fennel-bean (1:1), fennel-sesame (1:1) and intercrops of fennel- sesame - bean (1:1:1). The field of experiment was prepared at the end of March, a month before sowing; 30 ton/ hectare manure fertilizer was used. Because of sowing these 3 crops in a low input system, non-chemical approaches to control weeds and diseases during the growth season were employed. In order to determine crops seed yield and their biological yield in this experiment, sampling was done after omitting of margin effects (0.5 m first and end of each row) and 8 m2 area was harvested. All harvested crops were dried under free condition and shadow, then was weighted and after that seeds were separated from crops. To measure yield components five samples were selected. For fennel: umbel number per plant, umbellate number per plant, seed number per umbellate, 1000 seed weight, for sesame: capsule number per plant, seed number per capsule and 1000 seed weight and for bean: pod number per plant, seed number per pod and 1000 seed weight were measured.
Results and discussion: Results indicated that the yield and yield components of intercropped and pure fennel treatments significantly affect grain and biological yield, harvest index, the number of umbels per plant, the number of fertile umbellates per plant, and vegetative essential oil. In addition, these treatments in sesame showed significant effect on biological yield, grain yield, harvest index, plant height and seed weight per capsule. The results for bean revealed significant effects on biological yield, grain yield and the number of seeds per pod. Moreover, the highest percentage of essential oil in fennel was obtained in fennel-sesame treatment. The highest percentage of oil in sesame was obtained in sole crop of fennel. Furthermore, the results showed that the highest LER (1.22) was observed in sesame-fennel treatment. Considering this ratio, this treatment was selected as a superior treatment among the other treatments.
An experiment on mixed cultivation of Zea maize and bean showed higher amount of biological yield, in intercropping treatments (RezvanBeydokhti et al., 2005). Another experiment on mixed cropping of cumin (Cuminum cyminum L.) and lentil (Lens culinaris M.)showed higher amount of seed yield in intercropping treatments and biological yield in sole cropping .
Sarah Bakhtari; Gholam Reza Khajoei Nejad; Ghasem Mohamadi Nejad; Rooholla Moradi
Abstract
Introduction: Medicinal plants play major roles in human health. . Cumin (Cuminum cyminum L.) is an annual plant that commonly cultivated in arid and semiarid regions of Iran. The crop has a wide range of uses including medicinal, cosmetic and food industry. Cumin occupies about 26% of the total area ...
Read More
Introduction: Medicinal plants play major roles in human health. . Cumin (Cuminum cyminum L.) is an annual plant that commonly cultivated in arid and semiarid regions of Iran. The crop has a wide range of uses including medicinal, cosmetic and food industry. Cumin occupies about 26% of the total area devoted to medicinal plants in Iran. However, cumin is seriously affected by the Fusarium wilt and blight diseases. The diseases usually increase under warm and wet conditions. It was demonstrated that the peak of the disease incidence is occurring at the flowering stage and irrigation cutoff at this time may be reduced the diseases density.
Materials and methods: In order to evaluate the effects of irrigation cutoff in flowering stage and foliar application of spermidine on some characteristics of various ecotype of cumin, an experiment was conducted in a split-split-plot arrangement in randomized complete block design with three replications at the research farm of Shahid Bahonar University of Kerman at 2014. The experimental treatments were irrigation in two levels (complete irrigation and cutoff the irrigation in flowering stage) assigned to main plots, foliar application of spermidine in three levels (0, 1 and 2 Mm) as a subplot and cumin ecotypes in three levels (Kerman, Khorasan and Esfahan) that was randomized in sub-subplot. Plots size under the trial was 4 m × 3 m so as to get 50 cm inter row spacing in six rows. The ideal density of the crops was considered as 120 plant m-2. As soon as the seeds were sown, irrigation was applied every 10 days. Foliar application of spermidine was done at three stages (after thinning, before flowering stage and in the middle of flowering stage). No herbicides and chemical fertilizers were applied during the expriments.
Results and discussion: In this study the number of branches, umbels per plant, 1000-seed weight, seed yield per plant and hectare, harvest index, essential oil percentage and yield, infected plants and proline contents were assessed. The results showed that irrigation treatment had a significant effect on all the studied traits except number of branches and umbels per plant. The irrigation cutoff at flowering stage caused a significant increase in seeds per umbel, infected plants and seed yield per plant and hectare Whereas harvest index, essential oil percentage and yield and proline contents were higher in irrigation cutoff treatment compared to completely irrigated treatment. The value of decrease in seed yield per hectare as affected by irrigation cutoff was so lower than that per plant; because more infected plants were observed in completely irrigatedtreatment in comparison with cutoff irrigated treatment. Decreasing the value of the seed yield per plant and hectare affected by irrigation cut-off were 58 and 15%, respectively. Proline contents in irrigation cut-off treatment were about two times more than completely irrigatedtreatment. Khorasan and Kerman ecotypes had higher value in comparison with Esfahan in all studied traits.. Seed yield per hectare for Kerman, Khorasan and Esfahan ecotypes were 525, 306 and 525 kg, respectively. The highest essential oil yield (14.92 kg ha-1) was gained in 1 Mm spermidine for Khorasan ecotype and the lowest (6.87 kg ha-1) was observed in 0 Mm spermidine for Esfahan ecotype. There was no significant difference between foliar application levels in terms of the studied traits such as….
Conclusion: Irrigation cutoff at flowering stage caused a significant increase in seeds per umbel, infected plants and seed yield per plant and hectare Whereas harvest index, essential oil percentage and yield and proline contents were higher in irrigation cutoff treatment compared to completely irrigated treatment. Khorasan and Kerman ecotypes achieved higher potential for cultivation in Kerman climate condition compared to Esfahan ecotype.
Helale Kaboli Farshchi; Majid Azizi; Seyyed Hossein Nemati; Vahid Rowshan
Abstract
Introduction: Medicinal and aromatic plants can play an important role in commercial crops, which also represent a safe alternative for chemical pharmaceutical industries. St. John’s Wort (Hypericum perforatum L.) due to its therapeutic efficacy has been used for decades in folk medicine and is considered ...
Read More
Introduction: Medicinal and aromatic plants can play an important role in commercial crops, which also represent a safe alternative for chemical pharmaceutical industries. St. John’s Wort (Hypericum perforatum L.) due to its therapeutic efficacy has been used for decades in folk medicine and is considered as a promising medicinal plant with valuable potential as a source of hypericin, essential oils and antioxidants. Studies on agronomic factors such as application of potassium and humic acid as well as nitrogen fertilization on yield, essential oil and antioxidant activity of Hypericum perforatum have not been investigated thoroughly until now. This study was designed to study the effect of using humic acid and potassium sulphate on morphological and phytochemical characteristics of Hypericum perforatum.
Materials and Methods: The plant material was prepared from Science and Technology Park in Khorasan-e Razzavi–Mashhad. In spring, the plants were transplanted into the field of Horticulture department, Ferdowsi University of Mashhad, for fertilizing treatments. The experimental layout was factorial in a complete randomized design (CRD), with three replications. Potassium Sulphate (K2SO4) was applied at the rates of 0.0 (K0), 60 (K60) and 100 (K100) kg ha-1. The other treatment were humic acid, which was applied at three rates 0 (H0), 20 (H20) and 40 (H40) L ha-1. Plants were treated at two stages, before flowering by potassium fertilizer and fertigated four times in 15-day intervals with humic acid. Besides the fresh and dry weight, number of flowers, stem height and number of flowering stems were determined at the end of the growing stage.
Results and Discussion: The ANOVA indicated that most of measured attributes of Hypericum perforatum plant were significantly affected by both treatments. Data presented revealed that the highest stem (91.6 cm) was recorded at the highest level of potassium sulphate (K100) treatment, while the shortest height (60.4 cm) was recorded at the lowest level of potassium sulphate (K0) treatment. On the other hand, the highest stem (80.33 cm) was achieved with the highest level of humic acid treatment. No significant difference was observed between the highest level of humic acid (H40) and the second level (H20), while both mentioned levels showed a significant difference with control (H0). This means that the control plants possessed the lowest stem height (66.7 cm). The DPPH method for evaluation of antioxidant activity reflects the ability of the present compounds to scavenge hydrophilic free radicals. DPPH inhibition was investigated and the results were evaluated as relative activities against α-tocopherol as positive control. A lower EC50 indicates a higher antioxidant activity. As it is shown, the least EC50 which indicates the highest antioxidant activity belonged to plants treated with potassium sulphate at (100 kg.ha-1). Control plants possessed the least antioxidant activity and showed no significant difference compared with plants treated with 60 kg.ha-1 of this fertilizer. Humic acid had a significant effect on antioxidant activity of H. perforatum. The lowest value of EC50 was related to the highest level of humic acid, while the highest value of EC50 was obtained from control plants. There was also significant difference between control and two other levels (20 and 40 L ha-1) of humic acid. Applied fertilizers at their high levels showed significant effects on EC50 decrease, which means the increment of antioxidant activity of H. perforatum. The high antioxidant activity of this medicinal plant is the reason of flavonoids and phenols existence. It seems that application of these fertilizers have led to increment of the mentioned secondary metabolites and followed by an increase of antioxidant activity in comparison with control plants. Totally, H. perforatum possessed a high antioxidant activity. Based on recorded data of the present study, application of the mentioned fertilizers separately or simultaneously caused the increase of this important medicinal plant fresh and dry weight, and finally the yield. Number of flowers, stem height and flowering stems reached the highest value at the highest level of both fertilizers (K100H40). As potassium plays an important role in the development of reproductive parts of plants, it might be one of the reasons of the above mentioned increase. The highest essential oil content was recorded at high levels of both fertilizers (K100H40). Since the highest essential oil content accumulates in the flowering stems, an increase of these stems height and a higher number of flowers would lead to an increase of essential oil content of H. perforatum. Antioxidant activity of this plant is flavonoids contributed. It seems that application of these fertilizers increased the antioxidant activity by an increase of this pigment content.
Mina Motamednezhad; Seyyed Vahid Eslami; Mohammad Hassan Sayyari Zahan; Sohrab Mahmoodi
Abstract
Introduction: Cultivation of medicinal and aromatic plants has always had a special situation in the traditional system of agriculture and these systems have played a major role in the diversification and sustainability of agricultural ecosystems. Tend to produce medicinal and aromatic plants and demand ...
Read More
Introduction: Cultivation of medicinal and aromatic plants has always had a special situation in the traditional system of agriculture and these systems have played a major role in the diversification and sustainability of agricultural ecosystems. Tend to produce medicinal and aromatic plants and demand for natural products, especially in terms of ecological culture in the world is increasing. Ajowan is an annual herbaceous plant from the Apiaceae family. Biological fertilizers produced by the activity of microorganisms are associated with nitrogen fixation or availability of phosphorus and other nutrients in the soil. Enrichment means increasing the concentration of nutrients in plants especially micronutrients. Application of biological fertilizers instead of using chemicals is one of the most important nutritional strategies in sustainable management of agro ecosystems. In this regard, the effect of enrichment with bio-fertilizers and micronutrients on Ajowan (Carum copticum L.) germination characteristics was studied at Birjand Agricultural Research Laboratory.
Materials and Methods: A factorial experiment based on a CRD (completely randomized design) was conducted with three replications at Birjand Agricultural Research Laboratory during 2011. Experimental treatments consisted of bio-fertilizer application with three levels including without inoculation, and seed inoculation with Azospirillum and Azotobacter and seed enrichment with ten different treatment levels including without enrichment, and enrichment using 1, 2 and 3 mM of Fe, Zn and Mn elements. Bacteria were provided by Soil and Water Research Institute of Tehran. Initially, the seeds were disinfected through immersing them in 1% sodium hypochlorite for 3 minutes and then washing them with the tap water for 2-3 times. For the Enrichment of seeds, depending on the treatments, Petri dishes were treated with 10 ml of micronutrients solution for 24 hours. Then for bacterial inoculation depending on the type of treatments, seeds were soaked in 7 ml of inoculums containing 108 alive and active bacteria per ml for 5 hours. In each treatment, 15 seeds were placed in Petri dishes sealed with parafilm and placed in a germinator set at 70% RH and 25/15 °C. The traits studied were: germination percentage, germination rate, root and shoot length, as well as root and shoot fresh and dry weight. Before analyzing the data, normality test was performed and analysis of variance was performed using Genstat and graphs were drawn using Excel software.
Results and Discussion: The Analysis of variances results showed that seed inoculation with biological fertilizers and micronutrients significantly increased germination rate, root and shoot length, root fresh weight and dry weight of root and shoot of Ajowan compared with the control. Results showed that there were not significant differences between treatments in terms of germination percentage. Using micronutrients for seed enrichment caused increased germination rate. The maximum germination rate value was obtained from the Mn 1mM treatment (2.164 seeds per day), and. its minimum value was obtained from Zn1 (1.55 seeds per day). The maximum and minimum values of root length were obtained from the combined treatments of azotobacter + Fe2 and Azospirillum + Zn3, respectively. The maximum and minimum values of shoot length were obtained from the combined treatments of azotobacter + Mn2 and Azospirillum + Zn3, respectively. The highest and lowest values of shoot dry weight were obtained from azotobacter + Fe3 and azotobacter, respectively. The highest and lowest values of root dry weight were obtained from Zn1 (2.35 mg) and Mn2 (0.4 mg), respectively. The highest and lowest values of root fresh weight were obtained from Azospriliium+ Mn3 and Azospriliium+ Zn2, respectively. The highest and lowest values of shoot fresh weight were obtained from Azotobacter+Mn2 and Mn3, respectively.
Conclusion: During the evaluation of the measured traits regarding to bio fertilizers application on ajowan, it was observed that all biological treatments were superior to the control (non-biological fertilizer) and Azotobacter was the most effective amongst them. Bio fertilizers applications used in this study showed significant effects on root and shoot length, as well as fresh weight of root and shoot. The use of micro-nutrients on ajowan, showed that the application of 1 and 2 mM of Mn and all three concentrations enhanced the examined characteristics, while the application of 1 mM of Zn was just effective on root and shoot dry weight. Overall,application of these micronutrients had significant effects on germination rate and root length and fresh weight of root and shoot as well as dry weight of shoot and root.
Mohsen Jahan; Shiva Ghalenoee; Amin Khamooshi; Mohammad Behzad Amiri
Abstract
Introduction: Basil (Ocimum basilicum L.) is an annual herbaceous plant that belongs to lamiaceae family. This plant is native of India country and other countries in south of Asia. Nowadays, the use of water superabsorbent polymers is increased in agriculture and their role in reducing the drought stress ...
Read More
Introduction: Basil (Ocimum basilicum L.) is an annual herbaceous plant that belongs to lamiaceae family. This plant is native of India country and other countries in south of Asia. Nowadays, the use of water superabsorbent polymers is increased in agriculture and their role in reducing the drought stress and increasing the crops production has been demonstrated in many researches. Superabsorbent polymers can absorb lots of water and keep it in their structure and give it to plant under drought stress conditions (9). Humic substances are a group of heterogeneous molecules that are bonded together by weak forces, therefore they have high chemical stability. Humic acid comprise 65 to 80 percent of total soil organic matter (6). According to medicinal importance of Basil and its roles in the food and pharmaceutical industries, beside the limited water resources and need to increase water use efficiency through using ecological inputs, this study designed and conducted aimed to evaluate agroecological characteristics of Basil as affected by application of water-saving superabsorbent and humic acid under irrigation intervals.
Materials and Methods: In order to evaluate the effects of different amounts of water-saving superabsorbent and foliar application of humic acid and irrigation intervals on some quantitative characteristics of basil (Ocimum basilicum L.), a split strip plot experiment was conducted based on RCBD design with three replications at The Research Farm of Ferdowsi University of Mashhad, Iran during growing season of 2012-13. Experimental factors included three levels of water-saving superabsorbent (0, 40 and 80 kg ha-1) as the main plot factor, two levels of humic acid (0 and 3 kg ha-1) as the sub plot factor and two levels of irrigation interval (5 and 10 days) as the strip plot factor. Studied traits were seed number and weight per plant, plant height, number of lateral branches per plant, seed yield, biological yield and harvest index.
Results and Discussion: The results showed that interaction of superabsorbent and humic acid had a significant effect on seed yield (p≤ 0.05), as the highest seed yield (2638.8 kg ha-1) obtained from application of 40 kg ha-1 superabsorbent without humic acid. Evaluation of the superabsorbent and irrigation intervals interaction revealed that in all levels of superabsorbent, dry matter yield under irrigation interval of 5 days was more than irrigation interval of 10 days, so that dry matter yield at irrigation interval of 5 days and 0, 40 and 80 kg ha-1 levels of superabsorbent increased 13, 50 and 17% compared to irrigation interval of 10 days, respectively. Seed number per plant significantly was affected by interaction effects of humic acid and irrigation interval, so that in condition of using of humic acid in irrigation interval of 10 days, seed number per plant increased by 26% compared to control. The triple interaction of superabsorbent, humic acid and irrigation interval had significant effect on branch number per plant, as in irrigation interval of 5 days, in both conditions of application and no-application of humic acid, the highest branch number per plant observed in 40 kg ha-1 level of superabsorbent. In general, the combined use of 40 kg ha-1 water-saving superabsorbent and humic acid in different levels of irrigation, particularly under drought stress condition, while improved quantitative characteristics of basil, played an effective role in alleviation the devastating effects of drought stress. It seems that the appropriate level of water-saving superabsorbent (40 kg ha-1) increased morphological characteristics and seed yield of Basil through the absorption of water (4) and improvement of soil physical characteristics. It seems that humic acid increased quantitative characteristics of Basil by increasing activity of growth hormones such as auxin and improving nutrient uptake. In most of the studied traits, efficiency of humic acid improved in conditions of superabsorbent application and the plant could use the humic acid more efficient.
Conclusions: The cost of this study has been funded by Research and Technology Deputy of Ferdowsi University of Mashhad, Faculty of agriculture, the financial supports is appreciated.
Hajar Neamati Darbandi; Majid Azizi; Samane Mohammadi; Sajede Karimpour
Abstract
To investigate the effect of spraying with different concentrations of Vermiwash solution on the morphological traits, percentage and yield of essential oil of lemon balm (Melissa officinalis L.), this experiment was conducted as Randomized Complete Block Design (RCBD) with four replications in experimental ...
Read More
To investigate the effect of spraying with different concentrations of Vermiwash solution on the morphological traits, percentage and yield of essential oil of lemon balm (Melissa officinalis L.), this experiment was conducted as Randomized Complete Block Design (RCBD) with four replications in experimental field of Agricultural Faculty of Ferdowsi University of Mashhad (FUM). The treatments were included 4 different concentrations of Vermiwash solution (0, 3000. 6000 and 12000 ppm). At the flowering stage, morphological characteristics include of plant height, number of nod and internodes length, as well as total fresh weight, leaf area, dry weight of plant, yield and percentage of essential oil were determined. Results showed that there was a significant difference between different treatments in terms of plant height, number of node, internodes length, leaf area, and dry weight of plant and essential oil yield. The highest height (84.91 cm), number of node (23.20), leaf area (8853.52 cm2) and plant dry weight (174.31 g) related to vermiwash concentration of 3000 ppm and the longest internodes (7.02 cm) and essential oil yield (6 g/m2) related to concentration of 1200 ppm. In conclusion, application of 3000 ppm vermiwash was the superior among the all studied treatments that confirmed activity of plant growth regulators in low concentration of vermiwash and availability of nutrient in the solution.
Raheleh Khatibzadeh; Majid Azizi; Hossein Arouiee; Mohammad Farsi
Abstract
To protect and multiply important and rare plant resources, in vitro culture serves as a more efficient alternative to traditional propagation approaches. Levisticum officinale Koch. a member of Apiaceae is an important, endangered and neglected species in Iran, which has been shown to have diuretic, ...
Read More
To protect and multiply important and rare plant resources, in vitro culture serves as a more efficient alternative to traditional propagation approaches. Levisticum officinale Koch. a member of Apiaceae is an important, endangered and neglected species in Iran, which has been shown to have diuretic, spasmolytic and carminative effects. In order to supply enough plant materials for micro-propagation of this herb and study effects of different methods of disinfection and stratification on in vitro seed germination, a factorial experiment laid out in a completely randomized design was set out to establish sterile plants out of seed culture. It was concluded that a pre-chilling treatment for 3 months resulted in maximum percent of germination (92%) and the largest germination rate. The best superficial sterilization protocol was proofed to be soaking in 70% (v:v) ethanol for 30 s and then, using of 2% (v:v) dilution of NaOCl for 15 min, followed by 3 rinses in sterile distilled water.