Medicinal Plants
Fatemeh Khosravi; Mohammad Ali Bahmanyar; Vahid Akbarpour
Abstract
Introduction
Humic acid as an organic matter, made during chemical processes in the soil leads to improved root growth and aerial part of the plant. It increases the penetration of elements in the plant and improves water permeability. Zinc is involved in the maintenance of root cell membranes, ...
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Introduction
Humic acid as an organic matter, made during chemical processes in the soil leads to improved root growth and aerial part of the plant. It increases the penetration of elements in the plant and improves water permeability. Zinc is involved in the maintenance of root cell membranes, the activation of antioxidant enzymes, and the production of RNA and DNA. This study aimed to investigate the effect of applying humic acid and zinc sulfate on some morphological and phytochemical traits of Salvia officinalis L.
Materials and Methods
In this regard, this experiment was conducted as a factorial based in a completely randomized design with two factors (concentrations of 0, 1.5, 3 and 4.5 g/l humic acids and concentrations of 0, 3, 6 and 9 g/l zinc sulfate) in five replications in 2021. The studied traits included plant height, stem diameter, fresh weight, and dry weight, number of sub-branches, chlorophyll, carotenoids, phenols, flavonoids and essential oils. Seedlings of the same size and age as sage were grown under equal. The properties of the soil used in the laboratory were examined. Treatments were sprayed with humic acid 6% and zinc sulfate 34% in five steps, every two weeks.
Results and Discussion
Result showed that application of humic acid and zinc sulfate had no significant effect on plant height and only their simultaneous use had a significant effect on this trait and the highest plant height was observed for treatment of 1.5 g/l humic acid and 9 g/l zinc sulfate (66.50 cm). In stem diameter analysis, the use of humic acid (p≤0.01) and the application of zinc sulfate (p≤0.05) and the interaction of these two treatments(p≤0.05) affected the stem diameter. According to the results, the highest stem diameter was 8.69 mm, which occurred in the treatment of 4.5 g/l humic acid and 3 g/l zinc sulfate. Application of humic acid significantly (p ≤ 0.01) affected the fresh weight of the plant. Application of zinc sulfate also had a significant effect (p ≤ 0.05) on fresh weight. The effect of simultaneous use of humic acid and zinc sulfate on the fresh weight of this plant was significant at the level of 1% probability and the highest fresh weight was 87.26 g.plant-1, which achieved at a concentration of 4.5 g/l humic acid and 6 g/l zinc sulfate. Compared to the control plant, it has increased by 12.56 grams. The effect of humic acid on dry weight was significant at the level of 5% probability, while the effect of zinc sulfate application on this trait was not significant. The combined use of humic acid and zinc sulfate was significant at the 1% probability level. The maximum dry weight reached 29.73 grams per plant, achieved with a concentration of 4.5 grams per liter of humic acids and 3 grams per liter of zinc sulfate. Both humic acid and zinc sulfate exhibited a significant effect (at the one percent level) on the number of branches. Furthermore, the combined application of humic acid and zinc sulfate proved to be highly effective (p<0.01). The greatest number of sub-branches was observed at the 1.5 grams per liter level of humic acid. Humic acid had a substantial impact on chlorophyll a, b, total chlorophyll, and carotenoids (p≤ 0.01). Similarly, the application of zinc sulfate showed significant effects on chlorophyll a, b, and carotenoids (p≤ 0.01), as well as on total chlorophyll (p≤ 0.05). In the end, the simultaneous application of humic acid and zinc sulfate significantly influenced chlorophyll a, b, total chlorophyll, and carotenoids (p<0.01). The most significant effects on photosynthetic pigments (carotenoids, chlorophyll a, and total chlorophyll) were observed with concentrations of 4.5 grams/liter of humic acid and 6 grams/liter of zinc sulfate. The highest chlorophyll b content was obtained with the treatment of 3 grams/liter of humic acid and 6 grams/liter of zinc sulfate. The effect of humic acid and zinc sulfate application as well as their simultaneous use on the amount of phenols and flavonoids was significant at the level of 1% probability. The highest amount of phenol was 0.372 (mg gallic acid per gram of fresh tissue) which was obtained at a concentration of zero zinc sulfate and 3 g/l humic acid. The highest flavonoid content was 0.527 (mg quercin per gram of fresh tissue) which was observed in the treatment of 4.5 g/l humic acids. The use of humic acid had significant effect on the amount of essential oil. The percentage of essential oil reached the highest levels at the concentrations of 1.5 and 3 g/l humic acids.
Conclusion
Based on the results, the use of humic acid alone and in combination with zinc sulfate, had the greatest effect on most of the studied traits.
Medicinal Plants
Hossein Gholami; Mohammad Jamal Sahar khiz; Mohsen Shirdel; Kohzad Sartavi; Hamid Mazareie
Abstract
Introduction
Lavandula stricta, Cassia obovata, Cocculus pendulus, and Solanum xanthocarpum are among the species that can be grown in Bushehr province, and so far, there is no report describing the ecophysiological, herbicidal and biochemical characteristics of these species in Iran. In recent ...
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Introduction
Lavandula stricta, Cassia obovata, Cocculus pendulus, and Solanum xanthocarpum are among the species that can be grown in Bushehr province, and so far, there is no report describing the ecophysiological, herbicidal and biochemical characteristics of these species in Iran. In recent decades, many chemical herbicides have been used to control weeds in agricultural ecosystems. Despite the many benefits of these herbicides, their improper use has caused devastating effects on the environment and agricultural production and ultimately has harmed human health. At present, the approach of developed countries is to use non-chemical methods and natural materials (biocides) to control weeds. Bushehr province with an area of about 252,653 Km2 in southern Iran and the Persian Gulf and at an altitude of 0 to195 meters above sea level. The average rainfall in Bushehr province is 250 mm. Bushehr province has a great variety in terms of having medicinal plants that allopathic substances and secondary metabolites of these plants have received less attention. Therefore, the identification of secondary metabolites and plants with allopathic properties is very important for the production of biological herbicides.
Materials and Methods
This study was conducted to evaluate the eco-physiological, biochemical and herbicidal characteristics of Lavandula stricta, Cassia obovata, Cocculus pendulus and Solanum xanthocarpum. The plants were collected in April and May 2019. The location was situated in Kangan and Dashti, Bushehr Province, Iran. The ecological characteristics of the four areas such as latitude and longitude (UTM) and altitude were also recorded. Also, in order to determine the physicochemical properties of the soil in the collection areas of the studied plants, samples were taken from 15 different points of plant growth, from a depth of 0-30 cm and their properties were reported. In order to investigate the phytotoxic activity of the studied plants on germination and growth characteristics of Malva sylvestris and Chenopodium album in laboratory conditions, the seeds were first disinfected in 5% sodium hypochlorite for 5 minutes. Then the seeds were washed for 15 minutes and then dried at room temperature. In this study, Solanum xanthocarpum juice and alcoholic extracts of Lavandula stricta, Cassia obovata and Cocculus pendulus were used to investigate the phytotoxic properties and biochemical traits. From the extracts, concentrations of 0 (distilled water), 200, 400, 600, 800 and 1000 µl.L-1 were prepared and added to Petri dishes containing 25 seeds. In order to germinate the seeds, Petri dishes containing the extracts related to the extract were placed in suitable light conditions at a temperature of 25°C. Two weeks after treatment, germination percentage (%), germination rate index (number of day), radicle and plumule length (cm) and allopathic index were measured. Determination of free radical scavenging was performed by using the DPPH test. The samples’ absorptions were read at a wavelength of 517 nm with Epoch Microplate Spectrophotometer, BioTek Instruments, Inc., USA. Measuring the total phenols was performed according to Folin’s reagent method and the use of gallic acid as standard by using a spectrophotometer at the wavelength of 765 nm. Total flavonoid content was measured using a spectrophotometer at a wavelength of 510 nm through a standard curve of quercetin from Sigma-Aldrich. Flavones and flavonols were measured using 2% aluminum chloride and methanol at 425 nm. To isolate and measure the amount of polyphenols, an HPLC Agilent HPLC 1200 series model was used. Data were analyzed by using Duncan’s multiple range test (P< 0.05) by SAS, version 9.4 for Windows.
Results and Discussion
Among the studied plants, the highest and lowest amount of total phenol was found in Cocculus pendulus and Cassia obovata, respectively. The results showed, the highest amount of the total flavonoid in the extract, was achieved in Lavandula stricta plants collected in Kangan. The lowest (0.37 mg QUE. 100 g-1 DW) and highest (2.79 mg QUE. 100 g-1 DW) amount of flavon and flavonol was found in Cassia obovata and Cocculus pendulus, respectively. Also, antioxidant activity (I%) for Cocculus pendulus, Lavandula stricta and Solanum xanthocarpum were 77, 57 and 35%, respectively. Although, the lowest amount of antioxidant activity was found in Cassia obovata plants collected in Dashti. The results showed, the Lavandula stricta plants collected in Kangan had p-coumaric acid (PC) and ellagic acid (EA) by 0.565 and 1.28 mg g-1 DW. Among the phenolic acids evaluated, only catechin (0.262 mg g-1 DW) and p-coumaric acid (0.163 mg g-1 DW) were observed in the Cocculus pendulus plants collected in Kangan. The Cassia obovata plants collected in Dashti, had ellagic acid by 0.915 mg g-1 DW. The results of this study showed that the phenolic compounds identified in Solanum xanthocarpum juice were caffeic acid, chlorogenic acid, pi-coumaric acid, vanillin and hesperidin. Chlorogenic acid was the predominant phenolic compound by 457 mg g-1 DW. Laboratory results showed Cocculus pendulus and Solanum xanthocarpum extracts had the most inhibition effect on the germination and growth of Malva sylvestris at the concentration of 1000 µl L-1.
Conclusion
In this study, as the concentration of the extracts increased, the germination percentage, germination rate index (GRI), radicle and plumule lengths of Chenopodium album decreased significantly. Moreover, Solanum xanthocarpum juice showed the highest inhibition effect on Chenopodium album growth and germination at 1000 µl L-1. Due to the high potential allelopathy of the Cocculus pendulus and Solanum xanthocarpum, they can be used for Malva sylvestris and Chenopodium album control. Also, Cocculus pendulus extract can be used as a natural antioxidant source in related industries.
Medicinal Plants
Salimeh Makhtoumi; Shabnam Khoshbakht; Abbas Ali Nourinia
Abstract
Introduction
Inefficient and excessive use of chemical fertilizers in agriculture has caused soil erosion and pollution of water resources and has also been effective in reducing the quality of crops. On the other hand, the use of beneficial soil microorganisms as bio-organic enhances soil fertility, ...
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Introduction
Inefficient and excessive use of chemical fertilizers in agriculture has caused soil erosion and pollution of water resources and has also been effective in reducing the quality of crops. On the other hand, the use of beneficial soil microorganisms as bio-organic enhances soil fertility, and results in healthier and richer nutritional needs is a further harvest away from ecosystem contamination. Increase crop in terms of quantity and quality without damaging the farm ecosystem, especially medicinal plants. Bio-fertilizers are the latest development in organic farming. They are also a gift from modern agricultural science that should replace chemical fertilizers on farms which play a vital role in maintaining long-term soil fertility and stability. Ocimum basilicuum is a grown aromatic and medicinal plant that is a leafy vegetable of the Labiatae family. This plant has different healing properties and is also used to flavor various food products due to its special taste. Therefore, in this study with the aim of providing a practical solution to reduce the use of artificial fertilizers and environmental pollution, the effect of vermicompost and biological fertilizers on the composition of secondary metabolites and growth of basil (Ocimum basilicuum) was studied.
Materials and Methods
This study was conducted in 2017-2018 to investigate the effects of vermicompost and biological fertilizers on some traits of basil (Ocimum basilicuum) in of Azadshahr in Golestan province. In this experiment, application of vermicompost at three levels (a1: no application, a2: application at a rate of 10% and a3: application at a rate of 20% by weight of soil) and application of biological fertilizers at three levels (b1: no application, b2: use of Bacillus subtillis, b3: use of natural element compounds) were examined. The experiment was carried out in a randomized complete block design with three replications in the exterior space as a pot culture. The alcoholic extract used in this study was performed by soaking. The amount of total phenol compounds was measured by the Folin Siocalto method and the total flavonoid content was measured by aluminum chloride colorimetric method. Data obtained from experiments using the software SAS Ver. 9.1 and comparison of means was performed using the least significant difference test (LSD). Excel software was also used to draw the graphs.
Results and Discussion
The results of analysis of variance showed that the application of vermicompost was significant on root fresh and dry weight, fresh and dry weight of stem, stem length, fresh and dry weight of leaves and leaf area. Also, the effect of biological fertilizers on root fresh weight and stem dry weight was significant. Comparison of means also showed that vermicompost 20% compared to control and vermicompost 10% in traits such as fresh weight of root (5.14), dry weight of root (7.25), fresh weight of stem (25.23), dry weight of stem (2.25), length stem (33.77), fresh weight of leaf (51.85), dry weight of leaf (8/08) and leaf area (75.13) had the highest values. No significant effect was observed between vermicompost and biological fertilizers. The maximum amount of total phenol in vermicompost treatments belonged to 20% vermicompost at 1.98 mg/g, and in biological fertilizers treatments to Probio96 at 1.96 mg/g. Also, the maximum levels of total flavonoids in plants treated with vermicompost were 20% and Probio 96 were 92.13 mg/g and 91.22 mg/g, respectively. The results show that vermicompost had the greatest effect on target organs such as leaf area, fresh and dry weight of basil leaves.
Conclusion
The trade and cultivation of medicinal and aromatic plants is an important part of agriculture. Medicinal and aromatic plants are the main source of known medicines. Therefore, obtaining methods to increase the yield and therapeutic indicators of medicinal plants is of particular importance. In the growth of medicinal plants and biomass production, the quality of raw materials used is important. Chemical fertilizers have several adverse effects on the environment and human health. These effects can include leaching and displacement of various soil layers, groundwater and surface water pollution, accumulation of heavy metals and nitrates, air pollution, acid rain, and chemical accumulation in plants, animals, and human tissues. According to the findings, it is generally recommended to use bio-fertilizers such as vermicompost and Probiot 96 as a suitable alternative to chemical fertilizers in plant nutrition to protect the environment, human health and the positive economic effects of medicinal plants
Growing vegetables
Mohammad Hossein Aminifard; Mahboobeh Askarian; Mehdi Jahani; Mehdi Khayyat
Abstract
Introduction
Basil (Ocimum basilicum L.) is an annual and herbaceous plant of the family of Lamiaceae. It is used as an antispasmodic, appetizer, carminative, diuretic, lactation aid, and sedative in traditional medicine. In general, basil is rich in phenols and flavonoids. Organic and chemical ...
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Introduction
Basil (Ocimum basilicum L.) is an annual and herbaceous plant of the family of Lamiaceae. It is used as an antispasmodic, appetizer, carminative, diuretic, lactation aid, and sedative in traditional medicine. In general, basil is rich in phenols and flavonoids. Organic and chemical fertilizers are necessary for each other and both types of fertilizers are needed to create favorable conditions to improve biochemical traits. Overuse of chemical fertilizers has caused several problems in agriculture including changes in the soil structure, contamination of underground waters, and heavy metal toxicity. Agricultural scientists suggest replacing chemical fertilizers with organic products to reduce negative effects on environment and soil properties. In recent years, neglecting the importance of organic matters to improve soil fertility has led to an increase in chemical fertilizer use in Iran. Organic matters due to their positive effects on soil are identified as one of the important pillars of soil productivity. However, more than 60 percent of agricultural soils in Iran contain less than one percent of organic matter. Therefore, the objective of this study was to investigate the influence of vermicompost and copper sulfate on biochemical parameters and the antioxidant activity of basil.
Materials and Methods
To investigate the effect of vermicompost and copper sulfate on the biochemical characteristics of Basil's medicinal plant, a factorial experiment was conducted based on randomized complete block design with a field experiment at the Faculty of Agriculture, University of Birjand. The factors included vermicompost in three levels (0, 5, and 10 t.ha-1) and copper sulfate in three levels (0, 3, and 6 per thousand) with three replications. After applying the treatments and after the plants entered the flowering stage, ten plants from each plot were randomly selected taking into account the marginal effects and then samples of the developed leaves of 10 plants were randomly prepared and the biochemical traits of basil were measured. Measured traits included photosynthetic pigments, antioxidants, phenols, anthocyanins, flavonoids, total sugar, and biological function. Statistical analysis of data was performed using SAS statistical software.
Results and Discussion
The results of the mean comparison showed that vermicompost had a significant effect on chlorophyll content, antioxidant activity, anthocyanin, flavonoids, sugar, and biological function of basil so that the highest amount of flavonoids (3.26 mg.g-1) with the application of 10 t.ha-1 of vermicompost and the lowest Its amount (2.65 mg.g-1) was obtained from the control. Treatment of 10 t.ha-1 of vermicompost increased plant sugar by 37.05% compared to the control. Copper sulfate also affected chlorophyll a and total, antioxidant activity, phenol, anthocyanin content, sugar, and biological function, so that the highest activity of phenol and sugar (15.29 and 12.99 mg.g-1, respectively) of the treatment of 3 per thousand Copper sulfate and its lowest levels (10.98 and 9.19 mg.g-1, respectively) were obtained from the control. The results of interactions also showed the highest levels of chlorophyll a (1.62 mg.g-1), chlorophyll b (2.57 mg.g-1), total chlorophyll (4.19 mg.g-1), antioxidant activity (92.57%), and anthocyanins (3.03 mg.g-1) was obtained by applying 10 tons per hectare of vermicompost and 3 per thousand of copper sulfate. Furthermore, the highest increase in biological function (20968.3 kg.ha-1) with the application of 5 t.ha-1 of vermicompost and 6 per thousand copper and the lowest (16596.7 kg.ha-1) was related to the control.
Conclusion
In general, the results indicated a positive effect of vermicompost and copper sulfate on Basil's biochemical characteristics. Therefore, vermicompost (10 t.ha-1) of and copper sulfate (3 per thousand) treatments can be suggested as a suitable treatment. From the present study, it can be concluded that the combined application of organic fertilizers with chemical fertilizers has a useful and effective role in improving photosynthetic pigments, antioxidants, anthocyanins, and the biological function of basil. In the discussion of basil production as a medicinal and vegetable plant, the best results in terms of crop production were related to the combined treatments of organic and chemical fertilizers, because these treatments have increased the production relative to organic treatments alone.
Medicinal Plants
Shirin Taghipour; Abdollah Ehtesham Nia; Hamed Khodayari; Hassan Mumivand
Abstract
Introduction
Due to their pleasant and soothing taste and odor, attractive colors, and medicinal purposes, Chrysanthemum morifolium flowers have been widely used as food, tea, ornamentation, and medicine. It has been reported that C. morifolium can reduce hyperactivity of the liver, improve eyesight ...
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Introduction
Due to their pleasant and soothing taste and odor, attractive colors, and medicinal purposes, Chrysanthemum morifolium flowers have been widely used as food, tea, ornamentation, and medicine. It has been reported that C. morifolium can reduce hyperactivity of the liver, improve eyesight and regulate cellular immunity. Pharmacological investigations have shown that Flo's chrysanthemum exhibits antibacterial, antioxidant, anti-inflammatory, and heart-protective characteristics. Previous phytochemical studies on caffeic acid derivatives, flavonoids, triterpenoids, glycosides and alkaloids have been isolated from Flo's chrysanthemum. In this study, chrysanthemum cultivars were evaluated in terms of having secondary compounds and desirable medicinal properties, as well as antibacterial effects to introduce superior cultivars and purposeful planning for breeding research. The purpose of the present study, 25 cultivars of C. morifolium were compared in terms of essential oil content, leaves total phenolic, flavonoid and antioxidant activity.
Materials and Methods
In this experiment, 25 chrysanthemum cultivars were studied in terms of essential oil percentage, antioxidant index, total phenol and flavonoid content and antibacterial effects in a randomized complete block design in Lorestan University research farm in the year 2016. Essential oil was extracted from dried flowers in the shade using a Clevenger apparatus for 3 hours. Evaluation of antioxidant activity of the extract was measured by DPPH method based on the method of Kulisic et al. (2004). The amount of flavonoids was measured by aluminum chloride and total phenol by Folin - Ciocalteu reagent colorimetric. Ward analysis was done to classify the cultivars.
Results and Discussion
The results of analysis of variance showed that the studied chrysanthemum cultivars had significant differences in terms of all studied phytochemical traits. According to the obtained results, among different cultivars, the total amount of phenolic compounds is between 14.52-47.90 mg/g dry weight, the total flavonoid content is between 11.59-55.62 mg/g DW and IC50 index varied between 83.92 and 257.43 μg/ml. The highest amount of total phenol was present in Avadis and Dila cultivars (45.86-47.90 mg/g dry weight), while Yasamin cultivar (14.52 mg/g DW) had the lowest amount. Also, in terms of total flavonoid content, Golnar and Farahnaz cultivars had the highest total flavonoid content with 55.62 and 53.01 mg quercetin/g DW, respectively. Cluster analysis divided all studied cultivars into five groups. The percentage of essential oil among different cultivars varied between 0.41 to 0.62% and a high variability was observed in terms of the amount of essential oil in the studied cultivars. The highest percentage of essential oil was related to Farhnaz and Elmira2 cultivars. In general, the results showed high antioxidant activity of most cultivars. Therefore, chrysanthemum extract can be introduced as a suitable source of natural antioxidants. Also in this study, Paridokht, Sana and Ashraf cultivars were studied in terms of antioxidant and antibacterial index and Farahnaz and Elmira 2 cultivars appeared superior to other cultivars in terms of essential oil production. Hedaei et al. (2018) studied evaluation of some bioactive compounds and antioxidant activity of leaf methanolic extract and flower essential oil content from different cultivars of Chrysanthemum morifolium, in this review, total phenol and flavonoid contents and IC50 values in different cultivars were ranged from 17.63-33.20 mg/g DW, 12.62-53.17 mg quercetin/g, and 54-228 μg/ml respectively. The highest phenolic content was in cultivar “Poya3” (33.20 mg/g DW), whereas the cultivar “Sahand2” (17.63 mg/g DW) contained the lowest value. Also, in terms of total flavonoid content, cultivars “Marmar” and “Sahand 2” had the highest and the lowest flavonoids with 53.17 and 12.62 mg quercetin per gram, respectively.
Conclusion
The results of the present study indicate a significant difference between different cultivars in terms of the total amount of phenolic, flavonoid and antioxidant compounds that the existence of such diversity can be the role of cultivar and genetics in the production of these compounds. According to the results of this study, chrysanthemum cultivars with desirable levels of phenolic and flavonoid compounds can be used as a source of natural antioxidants as an alternative to synthetic antioxidants. In this study, Sana, Paridokht and Ashraf cultivars appeared superior to the existing genotypes in terms of phytochemical and antibacterial traits. The results of this study can be used to select the correct parents for purposeful crosses in subsequent chrysanthemum breeding programs in order to improve the phytochemical traits of existing cultivars.