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.
F. Askari; M. Mirza; M. Golipour; S. Fekri Qomi
Abstract
The genus Achillea has 19 species of herbaceous, perennial and aromatic plant in Iran. This genus of compositae family has complex characteristics. Chamazolene is a major component of essential oil of inflorescence and leaf, reported to be used in food, cosmetic, and pharmaceutical industries. A. millefolium ...
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The genus Achillea has 19 species of herbaceous, perennial and aromatic plant in Iran. This genus of compositae family has complex characteristics. Chamazolene is a major component of essential oil of inflorescence and leaf, reported to be used in food, cosmetic, and pharmaceutical industries. A. millefolium L. subsp. elbursensis is an endemic subspecies of Iran and no studies have been conducted on the cultivation of this species; therefore a preliminary study was conducted on the cultivation and its effect on secondary metabolites. For this purpose, the seeds of Achillea were collected from Dizine area in October 2016. The seeds of Achillea were cultivated in a greenhouse at the beginning of March and seedlings were transplanted to the farm in late April 2017.At flowering stage in August, aerial parts were collected in two consecutive years to obtain the essential oils. To compare the essential oil of cultivated samples with habitat samples, the aerial parts of Achillea were collected from Dizin at the flowering stage in August 2017. The plant parts including leaf and inflorescence were dried in laboratory and were crushed to particles. The essential oils were obtained by hydrodistillation and were analyzed by GC-FID and GC/MS. The color of A. millefolium essential oils was dark blue. The yields of A. millefolium essential oils of leaf and inflorescence (w/w dried weight) from habitat samples were 0.11% and 0.53%, respectively, and from cultivated samples were 0.28% and 0.50% in 2017 and 0.26% and 1.30% in 2018, respectively. Chamazulene was the major constituent of leaf (5.7%) and inflorescence (52.5%) oils in the habitat samples. The content of this compound in cultivated samples was 50.6% and 67.1% in the first year, and 59.6% and 71.3% in the second year, respectively. Another major constituents were caryophyllene alcohol, caryophyllene oxide, camphor, borneol and b-eudesmol. Chamazulene as major compound of the oil, found in all aerial parts of cultivated samples, while, it was found only in the inflorescence of wild sample.
A. Zarezadeh; F. Sefidkon; S.R. Tabaei Aghdaei; A. Mirhosseini; M.R. Arabzadeh; M.R. Mirjalili
Abstract
Essential oils of Satureja spp. contain valuable components, such as thymol and carvacrol. This research was carried due to evaluate essential oil quality and quantity of different accessions of Satureja species in cultivated condition., Seeds of 35 accessions of 10 Satureja species were collected from ...
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Essential oils of Satureja spp. contain valuable components, such as thymol and carvacrol. This research was carried due to evaluate essential oil quality and quantity of different accessions of Satureja species in cultivated condition., Seeds of 35 accessions of 10 Satureja species were collected from natural habitats and the seedlings were planted, using a randomized complete block design with for three replications at Medicinal Plants Research Station, Yazd, Iran. Aerial parts of plants were collected during four consecutive years, air dried in shadow and essential oils were extracted with hydrodistillation clevenger method. Essential oil compounds were identified by Gas chromatography (GC) and chromatography-mass spectroscopy (GC/MS). Analysis of variance showed significant differences at 1% between accessions for percentage of essential oil and essential oil yield per hectare. According to the results, accessions 15 (Satureja rechingeri) from Ilam province with 5.8% and 113.9 kg/ha essential oils, and 64% carvacrol and 12.2% thymol; accession 107 (S. spicigera) from Gillan province with 2.4% and 75.5 kg/ha essential oils, and 9.2% carvacrol and 43.4% thymol; accession 24 (S. rechingeri) from Ilam province with 4.2% and 63.8 kg/ha essential oils, and 75.4% carvacrol and 6.2% thymol; and SKM (S. bachtiarica ) from Yazd province with 2.6% and 51.5 kg/ha, essential oils, and 66% carvacrol and 0.5% thymol, respectively, showed the highest essential oil production in Yazd, Iran.
S.A. Hossaini
Abstract
Hops (Humulus lupulus L.) is a perennial plant and belongs to Cannabinaceae family, cultivated in many parts of the world for medicinal and industrial uses. It’s native to Golestan Province. This survey was carried out during 2000-2003 to achieve the best method for cultivation of H. lupulus in ...
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Hops (Humulus lupulus L.) is a perennial plant and belongs to Cannabinaceae family, cultivated in many parts of the world for medicinal and industrial uses. It’s native to Golestan Province. This survey was carried out during 2000-2003 to achieve the best method for cultivation of H. lupulus in Gorgan. In this research, four methods of cultivation (seeding, cutting, underbrush, and layering) were performed in a randomized complete blocks design with four replications. Results showed significant differences with regard to the plant's establishment between the methods of underbrush, layering and seeding with cutting (p < 0/01). Significant differences were also observed with regard to the yield of Humulus lupulus under different cultivation methods as underbrush and layering methods respectively with a yield of 1610 and 1338 kgha-1 showed higher yield than that of seeding and cutting methods with 687 and 28.5 kgha-1 respectively (p < 0/01). Totally, underbrush method is recommended for Gorgan region due to the suitable establishment and high yield in comparison with three other methods.
H. Naghdi Badi; A. Haghiry; M. Makkizadeh; M. Ahvazi; K. Baghalian
Abstract
The introduction of new species is one method of agricultural development in each region. In this order, seeds of exotic medicinal species were imported from foreign research centers and a research program has been conducted in the field of Medicinal Plants Institute- ACECR in karaj-Iran along 1999-2004. ...
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The introduction of new species is one method of agricultural development in each region. In this order, seeds of exotic medicinal species were imported from foreign research centers and a research program has been conducted in the field of Medicinal Plants Institute- ACECR in karaj-Iran along 1999-2004. The possibility of production was evaluated via study of their phonological stages f cultivated plants. Of course, selection of species was on the base of parameters such as medicinal properties and their active constituents, which sited in scientific references. The seeds of plants which need to indirect cultivation were planted in greenhouse at February and then seedlings transplanted to field in spring. The other seeds were planted directly in spring at the field. The results showed that 33 exotic species had good performance in direct of their growth & development characters which can be indicated to production potential of these species at karaj ecological conditions. In this study, it is determined that some of medicinal species which are valuable in herbal medicine have high performance for studied conditions such as Echinacea purpurea, Thymus vulgaris, Lavandula angustifolia, Saponaria officinalis, Valeriana officinalis, Tanacetum parthenium, Chrisanthemum cinerarifolium and so on.
M. Najafpour Navaei
Abstract
Dracocephalum kotschy is an aromatic and medicinal plant, which can be found in the mountainous parts of Iran. It is a considerable plant for its high amount of essential oil. The aim of this research is, finding a suitable method for growing the seed and keeping it in a cultivation condition. Treatment ...
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Dracocephalum kotschy is an aromatic and medicinal plant, which can be found in the mountainous parts of Iran. It is a considerable plant for its high amount of essential oil. The aim of this research is, finding a suitable method for growing the seed and keeping it in a cultivation condition. Treatment which used included, H2 SO4 and temperature (0-15 and 50 ˚C).The results showed that treatment with- 15 °C and 10 minutes is the most suitable one and about 82% seeds survival in the field.
