Identification, introduction, ecology and ethnobotany
Khadije Talebi ghadikolai; Hossein Moradi; Razieh Azimi Etergale
Abstract
Background and purpose: The Peganum hamala L. medicinal plant belongs to the Nitrariaceae family and is a native species of the Peganum genus in Iran. P. hamala possesses a wide range of unique biological and medicinal properties due to its valuable secondary metabolites like flavonoids, alkaloids, anthraquinones, ...
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Background and purpose: The Peganum hamala L. medicinal plant belongs to the Nitrariaceae family and is a native species of the Peganum genus in Iran. P. hamala possesses a wide range of unique biological and medicinal properties due to its valuable secondary metabolites like flavonoids, alkaloids, anthraquinones, and volatile oil compounds. Despite the widespread distribution of P. hamala in northern Iran, limited studies were conducted on this plant species adapted to arid and semi-arid ecological conditions. Therefore, in this regard, one of the goals of this research is to evaluate the ecological impact and the effect of fixed latitude and different geographical longitudes of the growing place along with the rhizosphere on some structural and yield traits of P. hamala under nine altitude gradients located in Mazandaran.Methodology: To investigate the effect of ecological factors on the structural traits (wet and dry weight of vegetative organs, fresh and dry weight of root, dry matter percentage of vegetative organs, dry matter percentage of root, arch, plant height, plant canopy area, diameter and length of root, and maximum length of stem and crown) and yield traits (fruit diameter, fruit yield, fruit weight, seed weight, average number of seeds, number of fruits, and percentage of seeds in the fruit) of P. hamala, samples of whole plants in the seeding stage were collected from nine different altitude gradients in regions of Khatirkoh (700 and 1000 m), Chahardangeh (1300, 1500, 1700, and 1900 m), and Gadook (2100, 2300, and 2500 m), with three replications along with the substrate soil in a completely random design.Results: Based on the results of the analysis, yield traits show a positive correlation with atmospheric Based on the analysis, yield traits are positively correlated with atmospheric factors. Furthermore, among the structural traits, stem vegetative traits are positively correlated with precipitation, evaporation, and radiation at the probability level of 5%. They also have a negative correlation with relative humidity at 1%. The increase in height above sea level causes an increase in humidity and a decrease in temperature in the Gadook and Khatirkoh areas. In contrast, it causes decreased humidity and temperature in the Chahardangeh area. Also, crop yield decreases with increasing altitude in all three regions. The maximum yield of the product is observed at 2100 m and 1500 m altitudes. The increase is due to increased silty materials, moisture, EC, and pH. The altitude slope shows a positive correlation with grain yield at 1%. In each region, as height above sea level increases, the root length and diameter increase and decrease, respectively. Stem and root vegetative traits show a negative correlation with seed traits. Also, canopy level with plant height and maximum plant stem arch were positively correlated with plant yield at the 1% probability level. In general, based on the results, by increasing the height gradient from sea level, decreasing the temperature, and increasing the humidity and nutrients of the soil, there is a decrease in vegetative growth and an increase in crop yield. According to the performance feature regression model, as elevation increased, the amount of sand and clay, organic matter, and evaporation increased. This led to an increase in yield with a 60% determination factor. According to the regression model used, the effect of soil factors is higher than weather and climate. Therefore, climate factors change for this plant at a fixed latitude.Conclusion: According to the results of examining the structural and yield traits of the collected P. hamala ecotypes, yield traits increase with the increase in altitude gradient, the amount of sand and clay, organic substances, evaporation, and decrease in temperature. On the other hand, vegetative traits decrease. Therefore, the Gadook region population is introduced as the superior ecotype with maximum yield traits among these studied regions in Mazandaran province.
Phytochemistry (extraction, identification and measurement of active components)
Fatemeh Mahdi-Navasi; B. Abaszadeh; Vahid Abdossi; Razieh Azimi; Marjan Dyanat
Abstract
Bachground and objective: Satureja mutica Fisch & C.A. Mey is a perennial plant that can be cultivated under irrigation conditions and in rainfed drylands. It has anti-flatulent, appetizing, sexual enhancement, anti-fungal and anti-bacterial effects. Drying increases product ...
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Bachground and objective: Satureja mutica Fisch & C.A. Mey is a perennial plant that can be cultivated under irrigation conditions and in rainfed drylands. It has anti-flatulent, appetizing, sexual enhancement, anti-fungal and anti-bacterial effects. Drying increases product shelf life by stopping enzymes, pathogens, and microorganisms. The factors that affect essential oils and their content are temperature, drying time, and the type of plant. Microwaves for drying are one of the newer methods. Their advantages include shortening drying time, maintaining quality, reducing energy consumption, preserving dried plants' color, and improving effective ingredients.Methodology: The flowering shoots were collected from the Research Institute of Forests and Rangelands research farm in 2019. Plants in the insectarium were exposed to UV-B light treatment through UV-B lamps. The plants were turned over every half hour. Irradiation agents were selected based on the preliminary test, including durations of 0, 2.5, 5, and 10 hours. After irradiation, the samples were stored in sealed bags under two conditions: refrigerator at 4°C and room temperature. The storage time was 0, 120, and 240 hours. Therefore, the sources of variation include irradiation duration in four levels (0, 2.5, 5, and 10 hours), storage conditions in two conditions (room temperature 25-27°C and fridge with a temperature of 4°C), and storage duration factor in three levels (0, 120 and 240 hours).202 grams of fresh samples (equivalent to 80 grams of dry matter) and 80 grams of dried samples in other treatments were extracted by water distillation in 3 repetitions for 2 hours. The obtained essential oils were stored in sealed bottles inside the refrigerator at 4 °C until injected into GC and GC/MS devices for quantitative and qualitative analysis. Carbohydrate, phenol, and free radical inhibition (by the DPPH method) were measured. Data were analyzed using SPSS version 18, and the means were compared with the LSD test at P ≥ 0.05.Results: Variance analysis of essential oil percentage showed that UV-B factor, storage condition (SC), storage time (ST) at the 1% level, and SC ST interaction at the 5% level had a significant effect. Due to the increase in irradiation duration, the percentage of essential oil extracted from the plant increased. This percentage increased to 0.42% in the control and 0.71% in the 10-hour treatment. Based on a mean comparison, the amount of essential oil in the shade increased from 0.48% to 0.54%. Mean comparison of the effect of storage conditions (SC) on storage time (ST) revealed that the highest percentage was related to the shade storage treatment for 240 hours with 0.61%. The mean comparison of the interaction effect of the three treatments showed that the percentage of thymol was the highest at 45% in the conditions without irradiation refrigerator×without storage. The results of the simple correlation of the traits demonstrated that thymol had a significant negative relationship with α-thujone, α-terpenine, and carvacrol. Carvacrol showed a significant negative correlation with major compounds, paracymene and thymol. It was observed that the highest antioxidant activity was obtained from 10 hours of UV-B radiation. A mean comparison of the effect of UV-B rays on the amount of phenol indicated that its amount increased in the 2.5-hour treatment compared to the other treatments. The highest antioxidant percentage could be achieved after 10 hours of irradiation in the refrigerator for 240 hours.Conclusion: The conversion of compounds occurs by irradiation of UV-B rays in the drying stages, and the amount of paracymene and thymol is reduced, and the amount of carvacrol is increased. Therefore, in S. mutica, which has thymol and carvacrol compounds, drying treatments aiming to increase the specific composition can be very effective. Also, the amount of thymol and carvacrol in dried plants may decrease compared to fresh plants. The increase in antioxidant activity in the treatment of 10 hours of UV-B radiation confirms the viability of plant cells and their efforts to prevent environmental stress through the increase of antioxidant enzymes.
Improvement and breeding
Najmeh Hadi; Razieh Azimi; Mahdi Yahyazadeh; Maryam Mackizadeh; S. Fekri Qomi; Simin Mohit
Abstract
Background and objectives: Chamomile (Matricaria chamomilla L.) is a valuable medicinal plant with many applications in the food, pharmaceutical, and cosmetic health industries. Chamomile's biological properties are attributed to its essential oil (EO) compounds, especially chamazulene and a-bisabolol ...
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Background and objectives: Chamomile (Matricaria chamomilla L.) is a valuable medicinal plant with many applications in the food, pharmaceutical, and cosmetic health industries. Chamomile's biological properties are attributed to its essential oil (EO) compounds, especially chamazulene and a-bisabolol oxide A, and flavonoids, esp. apigenin and luteolin. Evaluation of wild plant populations belonging to different geographical regions in situ (study on wild samples) and ex-situ (study on wild samples under agricultural conditions) is a crucial step in plant breeding and selection of promising genotypes. On the other hand, cultivation and domestication of wild plants under agricultural conditions improve plant yield and prevent unnecessary harvesting and extinction of the plant. In the present study, the quantitative and qualitative EO diversity of some wild chamomile was investigated.Methodology: Flowers and seeds of 15 wild chamomile populations were collected from Iran's natural habitats, including 12 populations from Khuzistan province (Kh1-12), 2 populations from Fars province (F1-2), and 1 population from Bushehr province (F3) in 2021 (February-May). Flowers were used for essential oil extraction, and seeds were planted in a randomized complete block design (treatment = genotype) with three replications. The research farm located at Alborz Research Station, affiliated with the Research Institute of Forests and Rangelands, Alborz province, was considered a cultivation site without adding fertilizer to the soil. The seeds were sown directly in the field with a 15 cm distance between the planting lines and 15 cm between the plants on the lines (April 2021). Drip irrigation was used, and weeding was done mechanically. Flowers with less than 5 cm of peduncles were harvested manually at the 70% full bloom stage. The shade-dried flower EOs were extracted by water distillation (Clevenger) for 3 hours, and their quantitative and qualitative analysis was done using GC and GC/MS.Results: The results showed that sesquiterpene hydrocarbons, oxygenated sesquiterpenes, and diacetylenes made the highest EO compounds percentage in both wild and cultivated samples. Chamazulene (from sesquiterpene hydrocarbons) and a-bisabolol oxide A (from oxygenated sesquiterpenes), as two important chamomile EO compounds, showed an increase from wild to cultivated samples. Among the wild samples, the highest chamazulene (5.3%) and a-bisabolol oxide A (21.5%) contents were assigned to the populations Kh8 and Kh4, respectively. In the cultivated samples, the highest amount of these compounds (11.1 and 32.3%, respectively) was obtained in the populations Kh7 and F2, respectively. In general, the main EO compounds (%) in the wild and cultivated populations included α-bisabolone oxide A (wild: 31.3 (F1) to 64.5 (Kh3) and cultivated: 29.8 (F2) to 56 (Kh3)), α-bisabolol oxide A (wild: 5.8 (Kh5) to 21.5 (Kh4) and cultivated: 10.3 (Kh3) to 32.3 (F2)), E-β-farnesene (wild: 6.1 (Kh3) to 23.3 (Kh8) and cultivated: 6.9 (Kh1) to 15.6 (F3)), Z-spiroether (wild: 0 (F1) to 16.1 (Kh1) and cultivated: 9.1 (Kh7) to 15.1 (Kh13)), and chamazulene (wild: 1.6 (F1) to 5.3 (Kh8) and cultivated: 4.7 (Kh6) to 11.1 (Kh7)). Also, the EO% was obtained more in the cultivated samples (0.9 (Kh5) to 1.4% (Kh13)) than in the wild ones (0.1 (Kh6) to 0.5% (Kh10).Conclusion: The results of this research showed that by cultivating wild populations under agricultural conditions and water and crop management, it is possible to have essential oil in the desired quantity and quality compared to wild ones. It should be noted that the results of repeating population cultivation under the same conditions in the following years will be reported in proportion to the data output.
Phytochemistry (extraction, identification and measurement of active components)
M. Jafari Ghoshchi; B. Abbaszadeh; M. Ourei; R. Azimi; A. Faramarzi
Abstract
In this study, to investigate the effects of gamma ray to dry plant materials, conditions, and storage duration of the plants on the percentage and essential oil composition and some physiological traits of Satureja spicigera (C. Koch) Boiss., plant top shoots were collected at the flowering stage. Gamma ...
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In this study, to investigate the effects of gamma ray to dry plant materials, conditions, and storage duration of the plants on the percentage and essential oil composition and some physiological traits of Satureja spicigera (C. Koch) Boiss., plant top shoots were collected at the flowering stage. Gamma ray irradiation was performed in the Atomic Energy Organization at five levels of 0, 2.5, 5, 7.5, and 10 kGy (kilo gray). Storage was carried out under two refrigerator (4°C) and room air temperature conditions at three storage duration levels of 0, 120, and 240 hours. The experiment was conducted as a factorial in a completely randomized design with three replications. Essential oil of flowering shoots was extracted by water distillation method and analyzed by GC and GC/MS quantitatively and qualitatively. According to the obtained results, gamma radiation affected the essential oil percentage and amount of p-cymene, thymol, carvacrol, phenols, flavonoids, and antioxidant activity significantly at the level of 1%. Storage duration had a significant effect on the essential oil percentage and amount of p-cymene, thymol, and carvacrol. Storage conditions showed a significant effect on the total phenols and flavonoids content and antioxidant activity of ethanol extract of S. spicigera. Means comparison of gamma radiation effects showed that the highest percentage of essential oil with 1.12% and 1.03% was obtained in the control and 5 kGy treatments, respectively. The highest amount of thymol (13.57%) and carvacrol (34.73%) was observed in the 10 kGy and control treatments, respectively. With 2.5 kGy gamma irradiation, the amount of phenolic compounds and antioxidant activity respectively increased by 1.4 and 1.76 times compared to the control. Of course, by keeping the plant in the refrigerator, the amount of thymol was reduced. The highest percentage of essential oil was related to the storage for 120 hours. The use of high intensity gamma radiation is suitable to achieve high thymol essential oil. The use of low radiation can also be useful for drying S. spicigera to obtain extracts containing more phenolic compounds. However, gamma radiation is not appropriate for plant materials drying to obtain essential oils of this species.