Agriculture and horticulture
Farhad Bagheri fard sharabiani; Esmaeil Chamani; Mousa Torabi Giglou; Alireza Ghanbari; Younes Pourbeyrami hir
Abstract
Background and objectives: The beneficial effects of the chamomile plant have been attributed to its essential oil, so any factor that affects the quantity of its essential oil will be of interest to researchers. To investigate the effect of plant growth regulators salicylic ...
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Background and objectives: The beneficial effects of the chamomile plant have been attributed to its essential oil, so any factor that affects the quantity of its essential oil will be of interest to researchers. To investigate the effect of plant growth regulators salicylic acid and methyl jasmonate on the production of secondary metabolites in chamomile plants, this experiment was conducted under the native in vitro conditions of Sharbian City.Methodology: To conduct this research, chamomile seeds were collected from Sharbian (N ʺ52 58 37 and E ʺ06 ʹ11 ˚), East Azerbaijan province. After transfer, the seeds were sterilized for 15 minutes in a detergent. Their surfaces were disinfected with 70% alcohol for 45 seconds and then with sodium hypochlorite for 30 minutes. After surface disinfection, they were washed twice with distilled water. The basic culture medium in this study was the MS culture medium. All cultures were placed in the growth chamber at a temperature of 24±2°C and 16 hours of light and 8 hours of darkness. A factorial experiment was performed in a complete random design with three replications. Test treatments included salicylic acid (SA) and methyl jasmonate (MeJA) at five levels (0, 50, 100, 200, 400 μM). Minguez-Mosquera and Perez-Galvez methods were applied to determine photosynthetic pigment amounts. The amount of phenolic compounds in the plant extract was measured with a slight modification based on the Slinkard and Singleton method with the Folin-Ciocalteau reagent. The data related to this research were analyzed using SAS V.9.g.1 statistical software. The comparison of treatment averages was done with Duncan's test at 5% and 1%. Graphs were drawn using Microsoft Excel software.Results: The analysis of variance showed that the interaction effect of the applied treatments on the traits of stem weight, root weight, stem length, and root length is significant at the 1% probability level. In addition, it is significant on the number of stems at the 5% probability level. The comparison of the averages showed that the highest amount of stem weight was obtained in the interaction effect of (50 µM) SA and (200 µM) MeJA, and the lowest amount of stem weight was obtained in the interaction effect of (400 µM) SA and (400 µM) MeJA treatment. The comparison of the means shows a significant difference in this trait. The highest amount of root weight was obtained in the interaction effect of (100 µM) SA and (100 µM) MeJA, and the lowest amount of root weight was obtained in the interaction of (400 µM) SA and (400 µM) MeJA treatment. Came. A comparison of the averages showed that the highest number of stems was obtained in the interaction of (100 µM) SA and (50 µM) MeJA, and the lowest number of stems was obtained in the interaction of (400 µM) SA and (200 µM) MeJA. The comparison of the means showed the significance of the stem and root length traits. The highest value of these two traits was due to the interaction of (50 µM) SA and (100 µM) MeJA treatments, and the lowest value of stem length was in the combination of (400 µM) SA and (µM) treatments. 400) MeJA and root length were measured from the combination of SA (400 µM) and MeJA (200 µM) treatments. In the biochemical traits, variance analysis of the data showed that the effect of SA levels on the amount of chlorophyll a, b, carotenoid, total chlorophyll, phenol, and flavonoid in all three wavelengths was significant at the 1% probability level.Conclusion: In this experiment, it was shown that metabolite production depends not only on enzyme activity but also on stimulant concentration. Increasing the stimulus more than usual not only increases metabolism but also reduces or stops the production of metabolites through the reduction of enzyme activity (probably through the reduction of the corresponding gene expression).
Improvement and breeding
- -; Masomeh Moradi; Mousa Torabi Giglou; Mahsa Ahadzadeh
Abstract
Background and objectives: Basil (Ocimum basilicum L.) is a plant from the Mint family and the genus Ocimum, which has many species, among which O. basilicum is the most useful economic species, and like other plants of the Mint family, it is a source of cyclic compounds and ...
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Background and objectives: Basil (Ocimum basilicum L.) is a plant from the Mint family and the genus Ocimum, which has many species, among which O. basilicum is the most useful economic species, and like other plants of the Mint family, it is a source of cyclic compounds and essential oil. It is also known as a rich source of phenolic compounds (especially rosmarinic acid and caffeic acid) and flavonoids. The plant's vegetative body contains essential oils. Linalool, methyl chavicol, citral, euginol, cineol, geraniol, camphor, and methyl cinnamate are important components of basil essential oil. As the most critical abiotic stress, drought stress plays a crucial role in reducing the yield of medicinal plants. It causes numerous morpho-physiological and biochemical changes in the plant. The performance of the effective substance is influenced by the plant's economic performance and environmental conditions, including drought stress. Stress effects are different at different stages of growth and development.Methodology: To investigate the effect of ascorbic acid on native O.basilicum the native population "Shahre-ray," under drought stress conditions, a factorial experiment in the form of a randomized complete block design was performed in four replications on the research farm of Horticulture Department of Mohaghegh Ardabili University in 2017. Treatments included drought stress (complete irrigation and cessation of irrigation at the beginning of reproductive growth and cessation of irrigation at 50% flowering) and ascorbic acid foliar application at four concentrations of 0.0, 0.5, 1, and 2 mM. This experiment was field operated in May 2016. Before the experiment, the bed preparation operation included plowing, disking, and leveling the ground. The plots of one meter in length and width were created. The seeds were planted in three lines with 15 cm plant spacing. 3-4 cm of rotted manure was used to cover the seeds. After determining the soil texture by the hydrometric method, the mentioned treatments were applied to stress. On the first day, irrigation was a flood, and after germination, irrigation was reduced. All traits were measured in the Physiology Laboratory after the Horticulture Science Department of the Faculty of Agricultural Sciences analyzed the data with SAS software. Also, the treatment averages were compared with Duncan's multi-range test at a probability level of 5%. Results: The results showed that with increasing drought stress intensity, total plant height, stem length, number of leaves, and plant dry weight decreased by 36.08%, 39.75%, 51.26%, and 53.80% compared to the control treatment, respectively. If ascorbic acid spraying could improve these values, the highest root length was obtained under severe stress conditions (beginning of flowering) and treatment with ascorbic acid (15.83 cm), which showed an increase of about 31.91% compared to the control treatment. Drought stress conditions increased proline and essential oil components. Chlorophyll content also decreased under severe stress. Also, by applying drought stress, in all studied traits, the highest amount of ascorbic acid treatment (concentrations of 0.5 and 1 mM) increased, and higher concentrations decreased the content of studied traits. By analyzing the essential oil of plant samples, the main compounds obtained from basil essential oil included geraniol, methyl chavicol, alphapinene, caryophyllene, citral, coupon, carvacrol, neral, linalool, and limonene. In most compounds, essential oil compounds and components were enhanced by increasing drought stress and spraying. The highest amount of essential oil in the stress condition up to the 50% flowering stage and sprayed with 2 mM ascorbic acid was obtained for methyl chavicol compound (33.76%).Conclusion: Applying ascorbic acid increased basil growth under drought stress and created resistance in the plant. Therefore, due to the lack of water resources and the great need of plants for water, it is possible to create resistance to stress in plants by spraying non-toxic and essential elements on them.