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nardostachys_jatamansi_d.don_dc [2017/09/26 00:02]
andreas |
nardostachys_jatamansi_d.don_dc [2017/12/04 01:02]
andreas |
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| Probably the plant of the "nard oil" of the bible. [[http://en.wikipedia.org/wiki/Nardostachys_jatamansi]] \\ | Probably the plant of the "nard oil" of the bible. [[http://en.wikipedia.org/wiki/Nardostachys_jatamansi]] \\ |
| From greek "nárdos" = fragrant. [[http://de.wikipedia.org/wiki/Indische_Narde]] \\ | From greek "nárdos" = fragrant. [[http://de.wikipedia.org/wiki/Indische_Narde]] \\ |
| Tomentose to pilose plant, 16-60 cm tall, native to the Himalayas, India, Pakistan, Afghanistan and China. | |
| | "Nardostachys jatamansi (D. Don) D.C. of the family Valerianaceae is a small herbaceous Himalayan species found between 3000 and 5000 m asl. Nayar and Shastry (1988), the CAMP report (1997) and Airi et al. (2000) identify N. jatamansi as a critically endangered species of Northwest Himalaya. It is a perennial, dwarf, hairy, rhizomatous herb forming a group or cluster of several individuals with thick rootstock covered with fibres. It has a long juvenile phase (vegetative growth phase) of 3-4 years followed by a short reproductive phase. Propagation is clonal during the vegetative growth phase and seed germination is very low (10-20%) in nature." \\ |
| | [Nautiyal, B. P., et al. "Population studies for the evaluation of germplasm and threat status of the alpine medicinal herb, Nardostachys jatamansi." Plant Genetic Resources Newsletter (2003): 34-39] |
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| "β-Maaliene, 9-aristolene, calarene and patchouli alcohol were identified as the major volatile constituents of N. chinensis, whereas aromadendrene, cube-11-ene, epi-α-selinene, spirojatamol and valeranone were identified as those of N. grandiflora. Using the peaks of β-maaliene and 9-aristolene in GC profiles as the marker, two Nardostachys species were clearly distinguished among the samples examined." \\ | "β-Maaliene, 9-aristolene, calarene and patchouli alcohol were identified as the major volatile constituents of N. chinensis, whereas aromadendrene, cube-11-ene, epi-α-selinene, spirojatamol and valeranone were identified as those of N. grandiflora. Using the peaks of β-maaliene and 9-aristolene in GC profiles as the marker, two Nardostachys species were clearly distinguished among the samples examined." \\ |
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| SPME-GC-MS analyses of an hexane extract of spikenard showed the main components calarene (82.3%), aristolene (8.3%), and valerena-4,7(11)-diene (3.9%). \\ | SPME-GC-MS analyses of an hexane extract of spikenard showed the main components calarene (82.3%), aristolene (8.3%), and valerena-4,7(11)-diene (3.9%). \\ |
| [Takemoto, Hiroaki, et al. "Sedative effects of vapor inhalation of agarwood oil and spikenard extract and identification of their active components." Journal of natural medicines 62.1 (2008): 41-46.] [[http://borraikrisana.com/fulltext.pdf]] | [Takemoto, Hiroaki, et al. "Sedative effects of vapor inhalation of agarwood oil and spikenard extract and identification of their active components." Journal of natural medicines 62.1 (2008): 41-46] [[http://borraikrisana.com/fulltext.pdf]] |
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| Sleep time of pentobarbital-treated mice was prolonged by about 2.7 times with [[http://webbook.nist.gov/cgi/cbook.cgi?ID=C351222667|valerena-4,7(11)-diene]] isolated from spikenard, an effect similar to that of chlorpromazine administered orally. \\ | Sleep time of pentobarbital-treated mice was prolonged by about 2.7 times with [[http://webbook.nist.gov/cgi/cbook.cgi?ID=C351222667|valerena-4,7(11)-diene]] isolated from spikenard, an effect similar to that of chlorpromazine administered orally. \\ |
| [Takemoto, Hiroaki, Toru Yagura, and Michiho Ito. "Evaluation of volatile components from spikenard: valerena-4,7(11)-diene is a highly active sedative compound." Journal of natural medicines 63.4 (2009): 380-385] | [Takemoto, Hiroaki, Toru Yagura, and Michiho Ito. "Evaluation of volatile components from spikenard: valerena-4,7(11)-diene is a highly active sedative compound." Journal of natural medicines 63.4 (2009): 380-385] |
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| "The essential oil was extracted by hydrodistillation from the N. jatamansi roots, collected from local market. The yield of oil was 0.245%. The gas chromatography coupled with mass spectrometric analysis revealed the presence of 26 compounds, out of which 10 principal components were, identified. It was recorded that ledene oxide[II] (13.021%), and sesquiterpine alcohol patchouli alcohol (9.582%) were major component of the oil. [-]-spathulenol (2.672%), globulol (1.876%), 4-[3,3-dimethyl-but-1-ynyl]-4-hydroxy-2,6,6-trimethylcyclohex-2-enone (1.849%), magastigma-4,6[E], 8[Z]-triene (1.015%), aristolene(0.997%), β-vatirenene (0.932%), were present in considerable quantity." \\ | |{{:calarene.jpg| calarene }} \\ calarene | {{:valerena4711diene.jpg| valerena-4,7(11)-diene }} \\ valerena-4,7(11)-diene |{{patchoulol.jpg}} \\ (−)-patchoulol | |
| [Essays, UK. (November 2013). Volatile Constituents Antibacterial And Antioxidant Activities Biology Essay. Retrieved from http://www.ukessays.com/essays/biology/volatile-constituents-antibacterial-and-antioxidant-activities-biology-essay.php?cref=1] | |
| | "The essential oil was extracted by hydrodistillation from the N. jatamansi roots, collected from local market. The yield of oil was 0.245%. The gas chromatography coupled with mass spectrometric analysis revealed the presence of 26 compounds, out of which 10 principal components were, identified. It was recorded that ledene oxide[II] (13.021%), and sesquiterpine alcohol patchouli alcohol (9.582%) were major component of the oil. [-]-spathulenol (2.672%), globulol (1.876%), 4-[3,3-dimethyl-but-1-ynyl]-4-hydroxy-2,6,6-trimethylcyclohex-2-enone (1.849%), megastigma-4,6[E],8[Z]-triene (1.015%), aristolene(0.997%), β-vatirenene (0.932%), were present in considerable quantity." \\ |
| | [Essays, UK. (November 2013). Volatile Constituents Antibacterial And Antioxidant Activities Biology Essay.] Retrieved from [[http://www.ukessays.com/essays/biology/volatile-constituents-antibacterial-and-antioxidant-activities-biology-essay.php?cref=1]] |
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| | The main components of the hydrodistilled essential oil from Nardostachys jatamansi roots (yield of 1.07% v/w, based on dry weight) were calerene (25.9%), patchoulol (10.6%), α-gurjunene (7.5%), aristolone (7.1%), β-maaliene (6.5%), and spathulenol (4.3%). Minor components included the typical valerian odour-determining isovaleric acid (1.5%), 3-methylvaleric acid (2.3%), and valeric acid (0.4%) together with e.g. 1.8-cineole (3.6%), β-ionone (1.0%), and α-bulnesene (1.4%). \\ |
| | [Liu, Xin Chao, and Zhi Long Liu. "Evaluation of insecticidal activity of Nardostachys jatamansi essential oil against some grain storage insects." Journal of Entomology and Zoology Studies 2.4 (2014): 335-340] [[http://www.entomoljournal.com/vol2Issue4/pdf/78.1.pdf]] |
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| {{:nardostachys_grandiflora.jpg?600}} \\ | {{:nardostachys_grandiflora.jpg?600}} \\ |
| Curtis’s Botanical Magazine, vol. 107 [ser.,3 nr.37], t.6564 (1881) [W.H.Fitch] \\ | Nardostachys jatamansi, Curtis’s Botanical Magazine, vol. 107 [ser.,3 nr.37], t.6564 (1881) [W.H.Fitch] \\ |
| [[http://www.plantillustrations.org/species.php?id_species=691793]] | [[http://www.plantillustrations.org/species.php?id_species=691793]] |
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| {{http://images.mobot.org/efloras/FloraIllustration/foci19/foci19-515.jpg?800}} \\ | {{http://images.mobot.org/efloras/FloraIllustration/foci19/foci19-515.jpg?800}} \\ |
| nardostachys jatamansi in: [[http://www.efloras.org/object_page.aspx?object_id=119651&flora_id=2|Flora of China]] | Nardostachys jatamansi, [[http://www.efloras.org/object_page.aspx?object_id=119651&flora_id=2|Flora of China]] |
