R. Kalvandi; M. Mirza; M. Atri; M. Hesamzadeh Hejazi; Z. Jamzad; K. Safikhani
Abstract
Thymus eriocalyx (Ronniger) Jalas belongs to the family Lamiaceae. Among different species of Thymus, distributed in the world, 18 species are growing in Iran, of which four species are endemic. To study the variation of essential oils among population individuals of this species in Iran D.S.S. (Determination ...
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Thymus eriocalyx (Ronniger) Jalas belongs to the family Lamiaceae. Among different species of Thymus, distributed in the world, 18 species are growing in Iran, of which four species are endemic. To study the variation of essential oils among population individuals of this species in Iran D.S.S. (Determination of special station) method was used. In this study, the aerial parts of 5 individuals of Thymus eriocalyx were collected from 10 special stations, at full flowering stage for chemical investigation and were dried at room temperature. The essential oil was extracted by hydrodistilation method using a Clevenger-type apparatus. The chemical composition of essential oils was analyzed by GC-FID and GC-MS. Results showed that the highest average yield of essential oil in three replications based on dry weight belonged to the first individual of Te2 population (4.09%), while the lowest was recorded for the second individual of Te10 population (0.21%). Totally, thirty one compounds were identified in the essential oil of 10 studied population individuals. In this study, it is noteworthy that the individuals of a population showed variation among themselves in terms of chemical compositions. Among existing chemical compounds in the essential oil of 50 individuals, the following compounds revealed the variation widely: p-cymene (0.1-20.1%), 1,8-cineole (0.4-29.4%), γ-terpinene (0.1-8.7%), linalool (0.1-82.3%), camphor (0.1-15%), borneol (1.6-22.7%), geraniol (0.1-74.6%), thymol (0.1-57.7%), geranyl acetate (0.1-49.6%), caryophyllene oxide (0.2-9.1%), limonene (0.2-24%) and α-terpineol (0.1-36.2%). The results of the analysis of chemical data using MVSP Software by UPGMA and PCO methods led to the identification of 9 chemotypes as follows of which 7 chemotypes were introduced as new chemotypes: 1-geraniol/geranyl acetate, 2-geraniol, 3- linalool/geraniol/geranyl acetate, 4-linalool,5-α-terpineol/1,8-cineole, 6-geranyl acetate, 7-geraniol/thymol/borneol/1,8-cineole, 8-thymol/limonene and 9-thymol/p-cymene/borneol.
R. Kalvandi; S.M. Hesamzadeh Hejazi; M. Mirza; M. Atri; Z. Jamzad; K. Safikhani; M. Ahmadian
Abstract
In order to evaluate several ecological factors, morphological traits, essential oil productivity and ploidy levels of Thymus eriocalyx (Ronniger) Jalas with uses of DSS method ten natural habitats were selected in Lorestan, Markazi, Hamadan, Kermanshah and Kurdestan provinces in Iran. To ...
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In order to evaluate several ecological factors, morphological traits, essential oil productivity and ploidy levels of Thymus eriocalyx (Ronniger) Jalas with uses of DSS method ten natural habitats were selected in Lorestan, Markazi, Hamadan, Kermanshah and Kurdestan provinces in Iran. To study and evaluate morphological characters, five complete plant samples and flowering branches were collected from each locality at flowering stage for essential oil extraction in spring season of 2008. Ecological data of ten localities were also recorded. Vegetative and reproductive traits and essential oil quantity of each population were studied. Seeds were also collected in the seed production season to study seed characters, chromosome counting and ploidy level. At least 10 mitotic cells of each population were studied to determine chromosome numbers and ploidy levels. All populations were classified in 4 groups. Results revealed that specimens from "Te9 population" had the highest average length and width of inflorescence leaf, inflorescence leaf length to width ratio, stem leaf length to width ratio, petiole length, calyx tube length, corolla length and the highest average length and width of bracteole. The results of chromosome counting showed that specimens of Te1, Te2, Te3, Te4, Te5, Te6 and Te8 populations were diploid (2n=2x=30) and specimens of Te7, Te9 and Te10 populations were tetraploid (2n=4x=60). The highest essential oil production belonged to Te5 population (3.04%).
R. Kalvandi; M. Mirza; K. Safikhani; M. Naderi
Abstract
Rhabdosciadium aucheri Boiss., belonging to Apiaceae family, is an endemic species in flora of Iran that grows in Hamadan, Lorestan, Chaharmahale Bakhteyari, Kohkeyloye va Boyrahmad and Tehran. Aerial parts of Rhabdosciadium aucheri Boiss were collected at full flowering stage on July, 2010 from Iran: ...
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Rhabdosciadium aucheri Boiss., belonging to Apiaceae family, is an endemic species in flora of Iran that grows in Hamadan, Lorestan, Chaharmahale Bakhteyari, Kohkeyloye va Boyrahmad and Tehran. Aerial parts of Rhabdosciadium aucheri Boiss were collected at full flowering stage on July, 2010 from Iran: Hamadan, Asadabad at an altitude of 2330 m. Then, 100 g of air-dried aerial parts of plant was subjected to hydrodistillation. The essential oil yield was 0.67% based on the dry weight of plant. The oil was analyzed by GC and GC/Mass. Totally, eighteen constituents were identified. β-sesquiphellandrene (49.9%), epi-α-bisabolol (11.9%), intermedeol (8.20%), germacrene D (7.6%) and β-bisabolene (4.9%) were identified as the major constituents. This research was carried out for the first time in the world.
R. Kalvandi; K. Safikhani; Gh. Najafi; P. Babakhanlo
Volume 23, Issue 3 , November 2007, , Pages 350-374
Abstract
Collection and Determination of Medicinal Plants in Hamedan province have been carried out since 1995 for five years in the center of national resources and animal affairs of Hamedan province. Medicinal plants of different regions were collected by using field study and information of experienced people ...
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Collection and Determination of Medicinal Plants in Hamedan province have been carried out since 1995 for five years in the center of national resources and animal affairs of Hamedan province. Medicinal plants of different regions were collected by using field study and information of experienced people traditional medicine. Some informations including scientific name, family name, Persian name, local name, botany specifications, distribution area in the province, herbarium number, habitat, the height from sea level, utilized organ, manner of usage, liables to use in traditional and local medicine, and chemical composition in species, etc. were recorded for each medicinal plant. By the end of project, totally 6000 herbaceous species were collected from different regions of the province, which 315 medicinal plants were identified and related to 71 families and 209 genus. These numbers included species which were self-grown (wild) in natural resource boards of province and 159 species have traditional usage in the province and 156 species are out of traditional and indigenous use but they are called medicinal plants in drug resources.
