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Trigonella L. is one of the important genera of the family Fabaceae, many species of which have nutritional and medicinal properties. In this investigation, morphological characters related to habit and pollen grain of three Trigonella species i.e., T. disperma, T. subenervis and T. aphanoneura were studied. Oils from the aerial parts of two species were investigated by GC and GC/MS methods and compared with T. disperma, which had been studied in advance. T. subenervis represented oils rich in spathulenol (15.1%). It also contained a small amount of germacrene D (0.6%). T. aphanoneura also represented oils rich in spathulenol (10.4%). The amount of four compounds in this species was ≤1%, and n-octyl acetate was the lowest component in quantity. According what we found out, phytochemical and morphological data could clarify the relationships among the Trigonellaspecies better than pollen morphological data

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Secondary metabolites have great pharmaceutical value in medicine. This study evaluates the effect of alti-tude on the amount and variety of secondary metabolites in lavender plant from two sites located in Mazandaran prov-ince. Sampling was performed in a randomized design with three replications. After the plants were dried, essential oil was extracted by distillation. Isolation and identification of constituents of the oil were performed by gas chromato-graphy and gas chromatography connected to mass spectroscopy. The results of this research led to the identification of 22 (99.96% of the total constituents) and 24 (97.01% of the total constituents) constituents in Baladeh and Behshahr sa-mples, respectively. Characteristics constituents included Andoyorneol (22.36%), 1, 8 cineole (20.7%), camphor (8.69%), α-Cadinol (7.60%), Caryophyllene oxide (5.09%) and Propanol (18.4%) in Behshahr population samples and Borneol (26.78%), 1, 8 cineole (20.19%), camphor (9.59%), α-Cadinol (5.80%), caryophyllene oxide (4.99%) and pr-opanol (3.41%) in Baladeh population samples. The differences in the output and combination of the essential oils in-dicated that the environmental as well as genetic factors can affect the production and amounts of the chemical comp-ounds in medical plants. Therefore, medicinal plants should be cultured in proper areas based on the aim of cultivation and the desired type of active materials.

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Thyme plants are considered to be one of the most widely consumed herbs well-known for their essential oils and secondary metabolites. In order to evaluate the effects of temperature on antioxidant activity, total phenolics, agronomic traits and essential oil of two thyme species (i.e. Thymus vulgaris and Thymus caramanicus), a greenhouse experiment was conducted in 2015 with split plot in a completely randomized design with three replications. The results of this experiment showed significant differences between the two species and different temperatures in terms of the tr-aits measured. The essential oil percentage, antioxidant activity, total phenolics and plant height of Thymus carama-nicus proved to be more than those in Thymus vulgaris. The comparison of mean interaction effect for essential oil pe-rcentage showed that the value of this trait in Thymus caramanicus specimens treated with a temperature of 30°C was more than other treatments. The IC50 rates of Thymus vulgaris and Thymus caramanicus ranged from 24.37 to 54.43 µg/ml in different conditions and total phenolics ranged from 36.63 to 89.37 mg GAEg-1. In addition, the highest anti-oxidant activity, essential oil percentage and phenolic compounds were observed at a temperature of 30°C for both species.

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The Moldavian dragonhead (Dracocephalum moldavica L., Lamiaceae) is an annual medicinal plant with beneficial nutritional sources that plays important roles in human and animal feed. Nanoparticles and cold atmospheric plasma increase biochemical compounds in plants. In this study, the effects of copper nanoparticles and cold atmospheric plasma on biochemical indices of the medicinal plant Dracocephalum moldavica were investigated. Moldavian dragonhead plants were subjected to four doses of copper nanoparticles (0, 25, 50 and 75 mgl^-1) and cold atmospheric plasma at three durations (zero, 20 and 30 s). The results showed that cold atmospheric plasma significantly increases the essential oil percentage, while it decreases the amount of flavonoid content and activity of catalase and peroxidase enzymes. Cold atmospheric plasma (20 s) showed significant positive impact on essential oil content, while different time duration (20 and 30 s) did not show a significant impact on other traits. Lower doses of copper nanoparticles (25 and 50 mgl^-1) showed positive impacts on measured traits, while 75 mgl^-1 dose negatively affected the measured traits and functioned as a heavy metal. The cold atmospheric plasma and copper nanoparticles interactions indicated that cold atmospheric plasma had an incremental effect on the improvement of measured traits and increased the effect of copper nanoparticles. In conclusion, the results showed that copper nanoparticles with 25 mgl^-1 dose along with cold atmospheric plasma with 20 s duration had significant positive effects on the improvement of biochemical indices of Dracocephalum moldavica.