گیاه دارویی

Oenothera biennis L., known as evening primrose, has a unique place in medical science and nutrition science due to the particular arrangement of fatty acids in the glycerol molecule and rare gamma-linolenic fatty acid. Soil and water salinity is one of the main obstacles to producing agricultural and horticultural products in arid and semi-arid areas. Salicylic acid plays an active role in the plant's response to various abiotic stresses, including salinity, and research on this plant hormone is important in the production of agricultural products. This research was conducted as a factorial experiment in a completely randomized design with two factors and three replications in greenhouse conditions during the crop year 2021-2022. The first factor included four levels of sodium chloride salt at zero, 50, 100, and 150 mM, and the second factor included two levels of zero and 2 mM salicylic acid. For each experimental unit, 5 plants (five pots) were randomly selected and the number of branches, plant height, wet weight of aerial parts, wet weight of roots, dry weight of aerial parts, and leaf area were measured. Also, the traits of proline amount, total protein, relative water content of leaves, and pigments of chlorophyll and carotenoid were measured for each experimental unit. Variance analysis showed that the application of salinity stress treatments had a significant effect on all traits at the 1% level; on the other hand, the application of the salicylic acid treatment on plant wet weight and chlorophyll b had a significant effect at the 1% level, and for the trait of chlorophyll a did not have a significant effect, but in other traits, it had a significant effect at the level of 5%. It was also observed that there was no significant interaction effect only in the trait of carotenoid amount, and for the traits of proline and chlorophyll a, this effect was significant at the 1% level, as well as for the traits of plant height, plant wet and dry weight, root wet weight, leaf area, number of branches, relative water content, protein, chlorophyll b and total chlorophyll, the interaction effect of salicylic acid and salinity were significant at 5% level. The results of the mean comparison showed that the increase in salinity stress levels decreased all agricultural traits and most physiological traits, which was insignificant up to the level of 50 mM and significantly above the level of 100 mM. Also, salicylic acid caused a significant increase in most traits. The evening primrose plant had moderate resistance to salinity and the application of salicylic acid treatment improved the agronomic and physiological characteristics of evening primrose up to the stress level of 50 mM (6.5 dS/m) and at the stress level of 100 mM (1.9 dS/m), the application of 2 mM salicylic acid moderated the effects of salinity stress in the plant, but at a stress level of 150 mM (13 dS/m), the agronomic and physiological characteristics of the plant decreased significantly, and the application of salicylic acid treatment caused a more decrease. Based on this, 2 mM salicylic acid is recommended to help improve the performance of the evening primrose plant up to the salinity stress level of 9 ds/m.

Gotu Kola (Centella asiatica L.) has been listed in threatened species in Iran. It has been used for treatment of a wide number of health disorders. The herb was used for wound healing, anticarcinogenic, mental illness and revitalizing the nerves and brain cells. In vitro culture and micropropagation are basic tools for conserving this medicinal plant. The purpose of this study is to achieve a suitable protocol for propagation of this plant in in vitro. In the first experiment, interaction of different concentrations of BAP (0, 0.5, 1, 1.5, 2.5, 3.5 mgl-1) and NAA (0, 0.25, 0.5, 1, 2 mgl-1) were examined on leaf explants. The results of the callogenesis experiment showed that MS medium with 1.5 mgl-1 BAP and 0.5 mgl-1 NAA, produced the best callus. In the next step, the interaction of BAP at 0, 1, 2, 3 mgl-1 and IBA at 0, 0.5, 1 mgl-1 was investigated in proliferation of node explants. Rooting of amplified explants was investigated by using two types of auxin IBA and NAA. The results of the micropropagation experiment indicated that MS medium of 2 mgl-1 BAP and 1 mgl-1 IBA was determined the most suitable medium for micropropagation. In the comparison of the effect of auxin treatments in MS medium on rooting, MS medium supplemented with IBA 1 and 2 mgl-1 were chosen as the best rooting treatment.

Zataria multiflora</em> Boiss. is an important medicinal plant species in the Lamiaceae family, native to Iran and some neighboring countries. Water scarcity is a significant limiting factor for crop growth and production. Reduced efficiency of chemical fertilizer uptake under drought conditions and their adverse environmental effects necessitates using sustainable agricultural practices. Mycorrhizal fungi, through their symbiotic with plants, provide essential nutrients to plants and mitigate the adverse effects of biotic and abiotic stresses on plants. This study investigates the influence of mycorrhizal symbiosis under drought stress and non-stress conditions on morpho-physiological characteristics of eight Z. multiflora</em> ecotypes.

This study was conducted on eight Z. multiflora</em> ecotypes collected from Safashahr, Neyriz, Khanekhore, and Fasa (located in Fars province), Faridan, Baharestan, Kalat Ghazi (located in Isfahan province), and Qasreghand (located in Sistan and Baluchestan province). Two-year-old plants of these ecotypes were subjected to two levels of drought stress, consisting of 50% and 90% soil field capacity, representing drought stress and non-drought stress conditions, respectively. Mycorrhizal fungi were applied at two levels (with and without) in a factorial experiment based on the completely randomized design with three replications, conducted in a greenhouse of the Agriculture Faculty, Shahrekord University, Iran. Drought stress was applied through reduced watering, and arbuscular mycorrhizal fungi were inoculated in holes at a depth of 4-5 cm around the roots in the pots. The symbiosis was confirmed through root staining. Morpho-physiological traits, including plant length, width, crown area, leaf area, dry plant yield, and chlorophyll "a" and "b" content, were measured. After variance analysis, the means were compared using the LSD test. Pearson correlation coefficients were used to determine trait correlations, and stepwise regression was employed to identify traits affecting dry plant yield.

The results of the analysis of variance showed that ecotype, drought stress, and mycorrhizal application had highly significant effects on plant length, plant width, crown area, leaf area, dry plant yield, and chlorophyll "a" and "b" content. The significance of the two- and three-way interaction effects of ecotypes with drought stress and mycorrhizal application in all studied traits indicates the different responses of ecotypes to drought stress and mycorrhizal fungus application. Comparing the means of the two drought stress levels indicated a significant reduction in all traits under stress conditions. Mycorrhizal application in non-stress conditions significantly increased the traits. Using mycorrhizal fungi under drought stress conditions compensated for part of the reduction caused by drought stress in the traits, resulting in an increase ranging from 14% (plant width) to 210% (dry plant yield) compared to drought stress conditions. The comparison of ecotypes in each combination of stress levels and mycorrhizal application levels suggests that plant length and width, crown area, leaf area, and plant dry yield increased. The intensity of response or change in these ecotypes to drought stress and mycorrhizal application varies. The correlation coefficients and stepwise regression results indicate the critical role of leaf area and plant length in dry plant yield under both non-drought and drought stress conditions.

In this restudy, high variability was observed in the evaluated traits such as plant length and width, canopy area, leaf area, plant dry yield, and chlorophyll "a" and "b" levels in the Z. multiflora</em> ecotypes. On the other hand, the different reactions of these ecotypes to drought stress indicate the high genetic potential of this native plant in Iran. Therefore, it can be used to select superior genotypes. Considering the increasing and significant effect of most of the characteristics studied, including yield due to the application of mycorrhizal fungus, this fungus can be used in producing Z. multiflora</em> under standard cultivation conditions and drought stress.

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 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.                       

An 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 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.

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.

 The medicinal plant Ocimum basilicum</em> L. is one of the most important medicinal plants. It is native to tropical regions from Central Africa to Southeast Asia and has antimicrobial, antioxidant, analgesic, and anti-inflammatory properties. Drought stress is one of the most important abiotic factors that can severely affect plant growth and yield. This study aimed to investigate the effect of mycorrhizal fungus on some physiological and biochemical properties of the medicinal plant O. basilicum</em> L. under drought stress.

 This experiment was conducted in the research greenhouse of Islamic Azad University, Kermanshah branch in 2022. The experiment was performed as a factorial experiment in a Random completely blocked design with two factors (mycorrhiza fungus) in three levels including control (without inoculation with fungus), G. etunicatum</em> and G. mosseae</em>, water drought stress at three levels (without stress, 75 and 50% of field capacity) were performed in four replications. The traits measured in the experiment include, the number of leaves, relative water content, ion leakage, photosynthetic pigments, proline, carbohydrate, antioxidant activity, phenol content and clonization percentage.

 The results of analysis of variance analysis showed that the effect of mycorrhizal fungus on all the traits measured in the experiment was significant, and also, the effect of drought stress on all the investigated traits was significant except for the amount of phenol and total chlorophyll. The interaction effect of two factors, mycorrhizal fungus and different levels of drought stress, on the characteristics of ion leakage and carotenoid content was significant. Mean comparisons of data showed that the highest number of leaves  (70.5) was observed in the treatment of G. mosseae</em> fungus, and the lowest number of leaves (58) was in the treatment without fungus. The highest relative water content of leaves (79.059%) was in non-stress conditions, which had a significant difference with the stress conditions of 75 and 50% of crop capacity. The highest electrolyte leakage percentage (33.02%) in the stress condition was 50% of the field capacity in the control treatment, which was not significantly different in the same condition as the G. etunicatum</em> fungus treatment. Inoculation with mycorrhizal fungus increased the content of total chlorophyll so that the highest amount of total chlorophyll (0.96 mg/g of fresh weight) was obtained in the treatment of G. mosseae</em>, which was not significantly different from G. etunicatum</em> and also inoculation with mycorrhizal fungi increased the content of chlorophyll a and b by 91.8%. Inoculation with mycorrhizal fungus increased the proline content by 25.33%, too. The highest antioxidant activity (21.13%) was obtained in treating G. mosseae</em>fungus. The lowest amount of essential oil was observed in the 50% of the field capacity treatment, 25.96% less than the control treatment. Drought stress decreased the percentage of root colonization in G. mosseae</em> by 55.77% and in G. etunicatum</em> by 57.93%.

Mycorrhizal fungus improved the morphological and physiological characteristics in green basil plant.symbiosis with G. mosseae</em> fungus under drought stress conditions with increasing proline and antioxidant activity, improved physiological traits and resistance to drought stress in green basil plant.

Madder (Rubia tinctorum L.) is a perennial and herbaceous plant. Madder's root is known as its most important economic part, and it is rich in anthraquinone derivatives. Madder is a plant with medicinal, nutritional, color and health benefits. Recent pharmaceutical studies have shown that the anthraquinones of the madder root have selective inhibitory effects on cancer cells. In this research, according to the water and soil limitations of the tested area, the use of biodegradable calcium carbonate and phosphate fertilizers to produce madder was suggested. So, considering climate change and water shortage as severe risks to sustainable development, the cheapness of madder production and its multiple uses, the planting and production of this plant are mainly used in semi-arid areas. 
In field conditions in Ardakan, Yazd, this research was tested in factorial form in a randomized complete block design with two factors and four replications. Calcium carbonate agent was supplied at five levels of 0, 20, 50, 100 and 150 kg hˉ1 and phosphate from triple superphosphate fertilizer at four levels of 0, 50, 100 and 150 kg hˉ1. In each four-by-four-meter plot, four rows of seeds were planted, two side rows and two plants from the sides of the remaining lines were removed as marginal effects, and the rest of the plants were considered statistical populations. Irrigation water's electrical conductivity was measured during the growth period, and its average was 11.6 ds mˉ2. The plots were irrigated immediately after planting the seeds. Four days later, irrigation was done again. In the fall of the second and third years, soil was again given to the plants along with the desired treatments. Madder plants were harvested in the third winter year. Root fresh-weight biomass was weighed immediately after harvesting. After drying the roots at 104 °C, the dry weight of the roots was measured. A spectrophotometer also determined the content of anthraquinone and hydrogen peroxide in the roots.
The results of bivariate analysis of variance of the data showed that the simple and reciprocal effect of different calcium carbonate and phosphate treatments on functional indicators of biomass, root fresh weight, root dry weight, anthraquinone content and root hydrogen peroxide in this research was significant at P≥ 0.05. The comparison of averages showed that the highest values of biomass, root wet weight, root dry weight, anthraquinone and hydrogen peroxide were observed in the combined treatment of 20 kg h-1 of calcium carbonate and 100 kg h-1 of phosphate, compared to the control. The lowest value of performance indicators investigated in this research was observed in the combined treatment of 150 kg h-1 of calcium carbonate and 150 kg h-1 of phosphate, compared to the control. The simultaneous use of these two fertilizers had a complementary effect on each other. This was because the application of 20 and 50 kg h-1of calcium carbonate and 100kg h-1 of phosphate had an increasing impact on the anthraquinone and hydrogen peroxide content in madder roots. The comparison of the averages showed that in the combined treatment of 20 kg h-1of calcium carbonate and 100 kg h-1of phosphate, compared to the control, the highest wet weight of the root increased by 71%, the highest dry weight of the root increased by 91%, and the highest anthraquinone content increased by 142% was observed. The comparison of the averages showed that in the combined treatment of 50 kg h-1 of calcium carbonate and 100 kg h-1 of phosphate, compared to the control, the highest biomass index was observed, with an increase of 79%.
The results showed that the functional indices of root fresh weight, root dry weight, anthraquinone content and biomass of madder increased significantly under the combined treatment of 20 kg h-1 of calcium carbonate and 100 kg h-1 of phosphate. It is suggested that madder be cultivated using calcium carbonate and phosphate fertilizers to increase the anthraquinone compounds under the influence of biodegradable and inexpensive external environmental stimuli in regions similar to the climatic conditions studied in this research.

In different ecosystems, factors such as altitude, rainfall, temperature, lighting, humidity, and soil nutrients are essential variables that affect the metabolism and accumulation of secondary metabolites. Therefore, it is vital to know the factors affecting the active substances of medicinal plants. Therefore, researchers try to increase the production of effective substances by different methods. We can mention the research conducted in the field of the effect of ecological factors on the essential oil compounds of different populations of Nepeta crispa, Salvia sharifii, Satureja rechingeri and Stachys pilifera. This study investigated the relationship between climatic, topographical, and edaphic parameters as necessary factors that influence the morphological traits and essential oil compounds of the medicinal endemic species Dracocephalum ghahremanii Jamzad.

Three habitats of D. ghahremanii were selected in Semnan province with different environmental conditions, and 15 plots of 4 m2 were established by systematic random method. In each plot, the plant height, canopy diameter, cover, biomass and leaf area of the studied species were measured. Flowering branches were collected from natural habitats with three replications, and essential oils were extracted using a hydrodistillation method using a Clevenger apparatus. GC-FID and GC/MS identified the essential oil compounds. Five soil samples were randomly taken from inside the plots in each habitat, and some soil physicochemical parameters, including pH, EC, OM, N, P, K, lime and soil texture, were measured. Analysis of variance and comparison of data mean was done using SPSS software. The most important environmental factors affecting morphological traits and essential oil compounds were determined using the correlation analysis method in SPSS software and the principal component analysis (PCA) method in Minitab software. The conservation status of this species was determined using the IUCN method and based on the criteria of EOO and AOO using GeoCAT software, as well as data related to population size and habitat quality.

 Comparing the average morphological traits of D. ghahremanii showed that the highest and lowest values of morphological traits are related to the Tash region with an altitude of 3043 meters and Tang Kavard with an altitude of 2032 meters, respectively. Variance analysis of morphological traits also showed a significant difference between the plants of the three regions in terms of leaf area at the level of 1% and in terms of plant height, canopy diameter, canopy cover and biomass at the level of 5%. The analysis of D. ghahremanii essential oil showed that its chemical composition differs in three regions. In Tang Kavard region, (E)-β-Farnesene, trans-Cadina-1(6),4-diene and (E)-Caryophyllene, in Dibaj region,(E)-β-Farnesene, trans-Cadina-1(6),4-diene and Caryophyllene oxide, and Tash region, Caryophyllene oxide, α-Vetivone and Carvone hydrate were identified as dominant compounds. Analysis of the variance of common essential oil compounds of this species also showed a significant difference between the averages of these compounds at 0.1%. Physicochemical parameters of D. ghahremanii habitats had significant differences. Variance analysis of the values of these parameters showed that there is a significant difference between the three regions in terms of OM, N, P, K, lime, sand and silt at the level of 0.1%, pH at the level of 1% and EC and clay at the level of 5%. Correlation between the characteristics of this species with some environmental factors showed that altitude, annual precipitation, annual temperature, minimum temperature of the coldest month, maximum temperature of the hottest month, lime, OM, N, P, sand and silt have the most significant correlation with morphological characteristics and essential oil compounds. Considering that the area occupied by this species in the studied populations (AOO) is 0.750 km2 and its presence area in the province (EOO) is 691.046 km2, its conservation status in Iran was determined as Critically Endangered (CR).

As a general conclusion, the increase in altitude has increased the functional characteristics (morphology and phytochemistry) of D. ghahremanii. Despite the relative similarity of the dominant compounds in the essential oil of this species, the composition of the essential oil (percentage of major and minor components) was different in the three investigated regions. Among the environmental parameters, altitude, annual precipitation, OM, N, P, K and silt were the most critical factors affecting the morphological traits and the percentage of oxygenated terpenes, which can indicate the importance of high altitude habitats in terms of essential oil content and compounds with higher antioxidant properties for this plant. Based on these findings, the maximum temperature of the hottest month, the minimum temperature of the coldest month, and the absolute minimum temperature of lime and sand were the most important parameters affecting the percentage of hydrocarbon terpenes. These results can be significant for extracting D. ghahremanii essential oil from natural habitats or commercially cultivating this plant to extract the secondary compounds in its essential oil.

Nowadays, due to the revelation of the harmful effects of chemical drugs for most users, the desire to use medicinal plants has increased significantly. Basil (Ocimum basilicum L.) is one of the most important medicinal plants of great interest in various pharmaceutical industries due to its valuable and vital secondary metabolites, such as essential oil. However, salinity is considered a major constraint for its productivity. Soil and irrigation water salinity is a major constraint for crop production. In salinity-rich soils, the osmotic pressure increases, and the plant must burn more vital energy to absorb water. Increasing the salinity tolerance of plants for sustainable food production, especially in arid and semi-arid regions, can reduce the need for irrigation and, thus, production costs. Since using calcium nanoparticles increases nutrient utilization efficiency, reducing soil toxicity, minimizing the adverse effects of over-fertilization and reducing the frequency of fertilizer application, the present study investigates the effect of calcium nanoparticles on physiologic and biochemical properties of basil medicinal plant under salinity stress.  The plants were treated with calcium nanoparticles in five levels by spraying with concentrations of 0, 0.25, 0.5, 1 and 1.5 g/l and salt concentrations of 0.75 and 150 mM along with Hoagland solution in a completely randomized design in a greenhouse environment with three replications. Some growth characteristics such as height, number of leaves, leaf area, fresh and dry weight, amount of chlorophyll a, chlorophyll b, total chlorophyll and carotenoid content of the plant were measured. Some biochemical characteristics such as flavonoid, soluble sugar, anthocyanin content and antioxidant enzymes such as catalase and peroxidase were also measured. The least significant difference (LST) test was used to compare the means in SAS software. The results of ANOVA showed a significant effect of calcium nanoparticles on most morphological traits. Also, different salinity levels alone significantly affected the studied traits (p<0.01). Following the reduction of the osmotic potential of the soil solution due to salinity stress, water absorption decreases and as a result of stomata closing, the photosynthesis and respiration decrease. The mean comparison of the simple effect of calcium nanoparticles on chlorophyll pigments showed that with increasing the nanoparticle level, chlorophyll content increased, and as a result, photosynthesis improved. The simple effect of different salinity levels on some traits (phenol, soluble sugar, peroxidase enzyme and anthocyanin) showed that increasing the salinity level caused an increase in these traits. So, at the concentration of 150 mM salinity, phenol content with 8.02 mg of gallic acid per g of dry weight showed the highest amount compared to the control sample of 10.5 mg. Also, the soluble sugar content was the highest at this salinity concentration, with 139.9 mg/g dry weight, compared to the control, with 110.9 mg/g dry weight. The interaction effect of calcium nanoparticles and salinity on basil's morphological characteristics and carotenoid content was insignificant. However, it was significant in the chlorophyll content, the amount of flavonoids and catalase (p<0.01). In fact, with nano fertilizers, the plant can absorb more nutrients, and while reducing the leaching of elements, the yield of the product increases. The results of this study suggest that the physiological and biochemical characteristics of Basil were affected by salinity stress, and the interaction of nano calcium with salinity stress reduced the effects of salinity stress. Therefore, spraying the nano-fertilizer in an appropriate concentration is suggested to improve the yield of basil in salinity stress conditions.

Cumin (Cuminum cyminum L.) is one of the oldest aromatic plants in the world, known medicinally as the second domesticated medicinal plant in Iran. Drought stress, as oxidative stress, affects plant biochemical, physiological, and morphological responses. One of the ways to increase plants' resistance to environmental stress is to use plant growth regulators such as brassinosteroids and melatonin. These hormones increase plant performance in both stress and non-stress conditions. Plant growth regulators, by affecting plant metabolites, stimulating phytohormone biosynthesis, enhancing nutrient absorption, improving defense mechanisms, stimulating root growth, and improving gas exchange, contribute to plants' quantitative and qualitative performance in stress and non-stress conditions. Although some research shows that the use of plant growth regulators such as brassinosteroid and melatonin, which are of natural origin and compatible with the environment, has a significant effect on reducing adverse effects caused by environmental stresses; however, the combined use of these plant hormones is less reported. Therefore, in this research, the influence of the foliar application of brassinosteroid and melatonin on some physiological traits, including amount of malondialdehyde, hydrogen peroxide, electrolyte leakage, activity of antioxidant enzymes, accumulation of carbohydrates and proline, malondialdehyde, hydrogen peroxide as well as quantitative and qualitative yield of cumin was examined under water deficit conditions.

This research was conducted in the research greenhouse of the Faculty of Agriculture, Shahid Bahonar University, Kerman, Iran. A factorial experiment in a randomized complete block design with six replications was carried out in 2022. The experimental treatments included different levels of drought stress (100 % and 50 % field capacity; F.C.), melatonin (0 and 100 μM), and brassinosteroid (0 and 0.75 μM).

The results showed that water deficit increased the amount of malondialdehyde, hydrogen peroxide, electrolyte leakage, activity of antioxidant enzymes (peroxidase (POD), catalase (CAT), and ascorbate peroxidase (APX) and superoxide dismutase (SOD)), as well as raised the accumulation of carbohydrates and proline in cumin plants. Indeed, brassinosteroids and melatonin significantly increased antioxidant enzyme activities and the concentrations of osmolytes. It also decreased the levels of malondialdehyde, hydrogen peroxide as well and electrolyte leakage in drought-stressed plants. Drought stress resulted in reduced cumin grain yield. In contrast, under these conditions, the percentage of cumin seed essential oil was increased. Foliar application of brassinosteroid and melatonin in stress and non-stress conditions improved cumin yield.

Overall, it was concluded that the use of brassinosteroid and melatonin increased the resistance of cumin plants against drought stress by increasing the activity of antioxidant enzymes, increasing the accumulation of compatible osmolytes such as proline and carbohydrate, and maintaining the stability of the membrane and ultimately enhancing the yield of cumin seeds. The application of melatonin and brassinosteroid also affected the quality of the product and increased the percentage of cumin essential oil; however, the positive effects of brassinosteroid and melatonin were greater than those of brassinosteroid or melatonin applied separately.

Borage (Borago officinalis L.) is a valuable annual medicinal herb suitable for cultivation in many countries, including Iran. Borage is considered as a native of both Europe and Asia. Several species around the world fall under the denomination of “borage”. The presence of the γ-linolenic acid in the seeds of borage makes borage distinctively important mainly for the nutraceutical and pharmaceutical research. γ-Linolenic acid is an omega -6 polyunsaturated fatty acid which cannot be synthesized in the body and hence falls into the category of essential fatty acids (Evesh et al., 2019).
 Chemical fertilizer is an indispensable abiotic factor in agricultural production, especially nitrogen fertilizer. However, in order to improve the yield, people fertilize a lot, which not only wastes resources, but also brings a series of serious problems to the environment, such as greenhouse gas emissions, soil fertility degradation and water resources pollution. Therefore, developing new fertilizers, improving crop nutrient utilization efficiency, replacing chemical fertilizers and reducing environmental pollution is an important direction of agricultural sustainable developme (Zhang et al ., 2020).
Biochar is a carbon rich product formed by pyrolysis of agricultural and forestry wastes under limited air availability. It is generally alkaline in nature, with the characteristics of rich carbon content, large specific surface area and strong adsorption. Biochar addition can reduce soil bulk density and increase porosity, pH, water holding capacity and nutrient content. Additionally, the unique physical properties of biochar can also promote the colonization and growth of some specific microorganisms, which may participate in the mineralization of biochar and promote nutrient cycling. Therefore, biochar has been widely used on improving soil quality and increasing crop productivity. Biochar has a positive effect on root structure and nutrient absorption of plant. Several studies have shown biochar can significantly increase the root length, root biomass, root surface area and specific root length. The study also found that biochar significantly increased the number of plant root tips, the most active part of root, and then increased the ability of plants to absorb nutrients from soil (Zhang et al, 2020).
 
In order to evaluate the effect of damask rose waste (DRW), walnut green skin waste (WGW) and cow manure biochars on biochemical, physiological and yield characteristics of European borage, an experiment was carried out based on a completely randomized design at the greenhouse conditions in Faculty of Agriculture, Shahid Bahonar University of Kerman. The experimental treatments contain: without of biochar (control), biochars of cow manure (0.75%, 1.25%, 2.5% and 5% w/w), walnut green skin biochar (WGW) (0.75%, 1.25%, 2.5% and 5% w/w) and damask rose waste biochar (DRW) (0.75, 1.25, 2.5 and 5% w/w). The physicochemical properties of the biochars and soil were analyzed. Five seeds were planted in three-kilogram pots at a depth of 1.5 to 2 cm. The greenhouse was maintained at an average temperature of 25 °C during the day and 20 °C at night, with a relative humidity level of 60%. Upon concluding the experiment, various biochemical, physiological, and functional characteristics of European borage were assessed and measured.
 
The results showed that DRW (60%) and WGW (13%) biochars had the highest and lowest amount of stable organic carbon, respectively. The investigated treatments significantly (p≤ 0.01) affected the biochemical, physiological and performance traits of European borage. Application of DRW and manure biochars caused a significant (p ≤ 0.01) increase in yield and photosynthetic pigments of European borage compared to the control. Applying WGW biochar at the level of 2.5% increased the shoot dry weight of the plant by 119% compared to the control treatment. Application of 1.25% of cow manure biochar also increased the shoot dry weight by 29.7%. WGW biochar applying not only had no positive effect on the growth and yield of the European borage, but also lead the decreasing growth and prevent flower production of borage. The highest CAT activity related to applying 2.5% of DRW biochar and 1.25% of manure biochar. Application of WGW in concentration of 0.75% significantly increased the proline contents. Using biochar improves soil fertility.
 
In general, applying DRW biochar in concentration of 2.5% and cow manure biochar in concentration of 1.25% were the most suitable treatments.

Water deficit is one of the most fundamental problems of agricultural systems throughout the world, which influences both yield and quality of the products. Applying compounds such as salicylic acid (SA) can improve plant resistance against environmental stresses. The present study was conducted to evaluate the impact of drought stress and SA application on quantitative and qualitative traits of holy basil (Ocimum sanctum), based on a factorial experiment in the form of a completely randomized design in three replications. The experimental treatments included drought stress at three levels (100, 70, and 50% FC) and foliar application of salicylic acid at three levels (0, 0.75, and 1.5 mM). Obtained results showed that water deficit caused a decrease in plant growth factors, RWC, and the amount of photosynthetic pigments, while foliar application of salicylic acid increased the above-mentioned parameters. Drought stress and foliar application of salicylic acid increased proline content, total content of phenolic compounds, flavonoid compounds and DPPH free radicals inhibition. In addition, the percentage of essential oils increased under drought stress. Also, plants that were sprayed with salicylic acid, showed a significant increase in essential oil percentage compared to the control. By reducing irrigation water, the percentage of eugenol in essential oil was decreased, but foliar spraying with a high concentration of salicylic acid increased the percentage of this compound. The experimental treatments also had a significant effect on the percentage of 1, 8-cineole and estragole compounds. Therefore, the application of a proper amount of SA can be considered a practical and simple strategy for increasing the quality and quantity of holy basil in arid and semi-arid areas.

Water stress is one of the most important abiotic stresses limiting growth and plant yield under dryland conditions, which affects the morphological and physiological characteristics of plants. To evaluate morphological characteristics, yield, mucilage, and seed oil of Lallemantia iberica (M.B.) Fisch. & C.A. Mey. ecotypes [Kerman (Kerman province), Naein (Isfahan province), Sanandaj (Kurdistan province), Mashhad (Razavi-Khorasan province), and Malekan (East-Azerbaijan province)] under dryland conditions, an experiment was conducted as a randomized complete block design with three replications in the medicinal plants research farm of Yasouj Agricultural Research Center and Natural Resources in the 2016-2017 crop year. The results showed that ecotype significantly affected morphological traits, seed yield, mucilage yield, and oil yield. The highest seed yield was obtained from Kurdistan (529 kg ha-1) and Mashhad (515 kg ha-1) ecotypes. The highest and lowest oil yield was related to Kurdistan (211 kg ha-1) and Kerman (189 kg ha-1) ecotypes, respectively. Mashhad (22.7 kg ha-1) and Malekan (18.2 kg ha-1) ecotypes had the highest and lowest seed mucilage yield, respectively. Although there was no significant difference between the oil and seed mucilage percentage of the ecotypes, the highest (41.3%) and lowest (39.9%) oil content was found in Kerman and Kurdistan ecotypes and the highest (4.4%) and lowest (3.7%) mucilage percentage belonged to Mashhad and Kurdistan ones, respectively. Overall, the results showed that Kurdistan and Mashhad ecotypes are suitable for cultivation under dryland conditions of Yasouj due to higher yield of seeds, mucilage, and seed oil.

Due to the similarity in appearance and properties of some medicinal plants, it is necessary to identify them more precisely by various methods. Accordingly, in the present study, Satureja rechingeri Jamzad and S. khuzistanica Jamzad were investigated and compared based on morphological, phytochemical, and molecular characteristics. S. rechingeri and S. khuzistanica seeds were collected from Ilam and Lorestan provinces, respectively, and after scientific identification, they were planted in the research greenhouse of the Research Institute of Forests and Rangelands. The seedlings were then transferred to the experimental farm of the mentioned institute based on a t-test (n=3). Several important morphological traits including inflorescence length, inflorescence stem internode length, length and calyx diameter, calyx three-large and two-short teeth length, length and corolla diameter, stamen length, stigma length, length and vegetative organ leaf width, length and leaflet width, stem diameter, plant height, number of main and sub-branches, largest and smallest canopy diameter, and length and reproductive organ leaf width were measured at full flowering stage in the third year of planting. The essential oils (EOs) were extracted from the plants floral branches in the third year of planting through water distillation. The EOs yield was calculated and their compounds were identified using ultra-fast gas chromatography (GC-FID). DNA barcoding and ITS marker were used for molecular studies on these two savory species. The results showed that these two species did not differ significantly (P<0.01) for all the morphological traits examined. 13 common compounds were identified in these two species EO. S. rechingeri and S. khuzistanica EOs contained 88.6% and 89.5% carvacrol, respectively. The EO yeild was obtained 3.3% for S. rechingeri and 3.04% for S. khuzistanica. These two species showed 100% nucleotide similarity with each other and were closely related to S. bachtiarica (98%). On this basis, it is probable that these two species are not only independent species, but can also be different accessions of the same species.

Ethnobotany uses the general knowledge of people about the use of plants for different purposes, including home treatment of diseases by plants in different cultures and ethnicities. Golestan is considered as one of the important provinces of Iran for extracting botanical knowledge of natives. The Turkmen is one of the ethnicities of this province that has been able to make good use of nature capacity. The present study was conducted to collect and classify the medicinal plants used by the natives of the Turkmen villages in Eastern Golestan province in 2018. For this purpose, we visited 30 villages and interviewed 90 natives who used medicinal plants to treat people diseases. The results showed that about 54 plant species have a special place in the ethnobotanical knowledge of the region natives studied among which Silybum marianum L. with 78, Urtica dioical L. with 65, and Calendula persica C.A.Mey. with 62 had the highest use report (UR), respectively. S. marianum with 0.86, U. dioical with 0.72, and C. persica with 0.68 showed the highest relative frequency of citation (RFC). The highest number of species belonged to Asteraceae and Lamiaceae families, respectively. The most consumption of medicinal plants was attributed to the gastrointestinal and cardiovascular diseases. The neurological, respiratory, and blood sugar diseases showed the highest amount of informant consensus index frequency (ICF).

 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.

 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).

 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.

 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.

The Lippia genus which has over than 200 species and Lippia citriodora L. is medicinally important. In order to evaluate the quantitative and qualitative characteristics and elements of Lippia citriodora L. under the influence of plant growth promoting rhizobacteria (PGPR), vermicompost and biochar, a factorial experiment was conducted in a randomized complete block design with 3 replications in the Research Institute of Forests and Rangelands, Alborz Research Station in field conditions, was implemented in 2017 on one-year seedlings. The  first factor included factors: vermi-compost at three levels (0, 6 and 12 ton/ha), the second factors was biochar  at three levels (0, 5 and 10 ton/ha) and the thirs factor was plant growth promoting rhizobacteria at two levels (non-inoculation and inoculation with combination of Azotobacter chroococcum strain 5, Azospirillum lipoferum strain OF and Pseudomonas putida). Comparison of means demonstrated that the highest essential oil percentage (0.86 %) was acquired from control treatment and the highest essential oil yield with 3.74 kg/ha was observed in treatment 12 ton/ha vermicompost, 10 ton/ha biochar and inoculation with plant growth promoting rhizobacteria. The highest Fe (377.06 ppm) was observed in 12 ton/ha vermicompost, 10 ton/ha biochar and non-inoculation. Generally, application of 6 ton per hectare vermicompost, 10 ton per hectare biochar and PGPRs on Lippia citriodora can improve yield and qualitative traits of the plant through increasing growth, developing root and better absorbing water and nutrients from soil.

Ascorbic acid and melatonin as the biostimulants affect the biosynthesis of phytohormones, facilitate and increase the nutrients uptake, enhance the defense mechanisms, stimulate the root growth, and finally, increase the quality and quantity of the product by affecting the plant metabolites. This study was conducted in a randomized complete block design with three replications to investigate the effects of foliar application of melatonin and ascorbic acid on the grain yield and mucilage content of Plantago ovata Forssk. in the research greenhouse of Bardsir Faculty of Agriculture, Shahid Bahonar University of Kerman in 2020. The experimental treatments included the foliar application of distilled water (control), melatonin 100 μM, ascorbic acid 100 μM, and melatonin 100 μM + ascorbic acid 100 μM. The foliar application treatments continued from the time of complete establishment of seedlings (3-4 leaves) to the physiological maturity stage of seeds (four times every two weeks). The results showed that the foliar application of melatonin and ascorbic acid (single and combined application) enhanced the number of tillers per plant, number of spikes per plant, spike length, number of seeds per spike, and 1000-seed weight significantly. The highest grain yield was obtained from the foliar application of melatonin (59.98 g.m-2) and melatonin + ascorbic acid (61.85 g.m-2) without statistically significant differences with each other. The ascorbic acid foliar application also significantly increased the grain yield by 6.61% compared to the control. The foliar application of ascorbic acid, melatonin, and melatonin + ascorbic acid increased the mucilage content by 12.29, 19.89, and 23.80%, respectively compared to the control. The application of melatonin alone or in combination with the ascorbic acid, without statistically significant differences with each other, had the greatest positive effect on increasing the mucilage percentage. The mucilage yield was obtained 10.03, 13.47, 14.94, and 15.64 g.m-2 in the control, ascorbic acid, melatonin, and melatonin + ascorbic acid treatments, respectively. Based on the results, it can be concluded that the foliar application of melatonin and ascorbic acid could improve the quantitative and qualitative yield of P. ovata, and among the treatments their combined application was more effective.

The ecological, economic, and social benefits of agroforestry operations over the integrated agriculture are well-recognized, but failure to use the fertilizers and low profitability of the agroforestry systems may be a reason for the low acceptance of these systems by farmers. In this study, a factorial split-split plot experiment was conducted in a randomized complete block design with three replications to investigate the effects of bio-, organic, and chemical fertilizers on the improvement of yield, qualitative traits, and the greater profitability of this system. The medicinal species at two levels, fertilizer at five levels, and tree species at two levels were considered as the main-, sub-, and sub-sub plots, respectively. The tree species including cherry (Prunus avium L.) and walnut (Juglans regia L.) were selected for the agroforestry system and the medicinal species including coriander (Coriandrum sativum L.) and flixweed (Descurainia sophia (L.) Schur) were cultivated understorey of this system. Four fertilizer treatments including the organic manure (3 kg.m-2)+humic acid organic fertilizer (AgriPlus) (0.5 kg.100 l-1 of water.100 m-2), Mycomix endomycorrhizal biofertilizer (100 g.m-2), Bioazospir bacterial fertilizer (200 g.100 kg of seed), and chemical fertilizer based on the soil analysis (75 kg of urea, 150 kg of triple superphosphate, and 150 kg of potassium sulfate at the beginning of sowing+100 kg of potassium sulfate 30 days after sowing and another 100 kg two months after sowing per hectare) were examined with the control (without fertilizer). The results showed that the plant height and 1000-seed weight at the 5% probability level and the plant fresh and dry weight, number of seeds per spike, seed yield per plant and hectare, and percentage of protein, nitrogen, phosphorus, and potassium per seeds at the 1% probability level were significantly affected by the fertilizer treatments in flixweed. In coriander, the plant height, leaves and stems fresh yield, number of seeds per umbel and plant, biological and economic yield, and percentage and essential oil yield were significantly affected by the fertilizer treatments at the 1% probability level, too. In flixweed, the organic fertilizer, bioazospir, mycorrhiza, and chemical fertilizer caused the highest amount of studied traits, respectively and the control treatment caused the lowest one. In coriander, the mycorrhizal fertilizer, organic fertilizer, bioazospir, and chemical fertilizer resulted in the highest amount of studied traits, respectively and the control treatment caused the lowest one. Also, both medicinal plants showed much better performance in the combined cultivation with the cherry tree. Among the various combinations in the cultivation, the combined cultivation of coriander with cherry tree was selected as the best one.

To investigate the effects of hydrogel on growth, yield, and some secondary metabolites of roselle (Hibiscus sabdariffa L.) under drought stress conditions, an experiment was conducted in a farm located in the south of Dalgan city, Sistan and Baluchestan province in the 2017-2018 crop year. This research was carried out as a split plot experiment in a randomized complete block design with three replications. The experimental treatments included drought stress as main plot at four levels (irrigation at FC (field capacity), 85% of FC, 70% of FC, and 55% of FC), and hydrogel consumption as sub plot at three levels (A200 hydrogel consumption, silicate hydrogel consumption, and no hydrogel consumption). The quantitative traits including plant height, number of sub-branches per plant, number of flower per plant, plant fresh and dry weight, sepal fresh and dry yield, and harvest index and qualitative traits including content of anthocyanin and sepal phenolic compounds were measured. The results showed that the highest amount of quantitative traits was obtained from full irrigation treatment with the consumption of A200 hydrogel. But there was no significant difference between this treatment and the treatments of full irrigation with silicate hydrogel consumption and full irrigation without hydrogel. Also, no significant difference was observed between the above three treatments and the treatments of both types of hydrogels application in 85% and 70% of FC. The qualitative traits increased with increasing the stress intensity. The hydrogel consumption in comparison with not consuming it led to a decrease in the amount of anthocyanin and sepal phenolic compounds due to the modification of stress conditions by hydrogel.