| Beide Seiten der vorigen RevisionVorhergehende Überarbeitung | |
| abies_sibirica_ledeb [2026/02/25 21:01] – andreas | abies_sibirica_ledeb [2026/02/25 21:12] (aktuell) – andreas |
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| [Ochocka, J. Renata, et al. "Determination of enantiomers of terpenic hydrocarbons in essential oils obtained from species of pinus and abies." Pharmaceutical biology 40.5 (2002): 395-399] [[https://www.tandfonline.com/doi/pdf/10.1076/phbi.40.5.395.8452|PDF]] | [Ochocka, J. Renata, et al. "Determination of enantiomers of terpenic hydrocarbons in essential oils obtained from species of pinus and abies." Pharmaceutical biology 40.5 (2002): 395-399] [[https://www.tandfonline.com/doi/pdf/10.1076/phbi.40.5.395.8452|PDF]] |
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| "Participants who breathed air containing the essential oil showed prolonged heartbeat intervals and increased theta activity as measured by electroencephalography in the recovery period after the VDT task, but not during the task. The volatile constituents emitted from the essential oil of A. sibirica through the odorant delivery system for 40 min were α-pinene (80.4 µg), santene (3.1 µg), tricyclene (2.4 µg), camphene (24.2 µg), β-pinene (2.6 µg), myrcene (1.0 µg), δ-3-carene (14.4 µg), limonene (3.8 µg), and [[https://de.wikipedia.org/wiki/Essigs%C3%A4urebornylester|bornyl acetate]] (1.0 µg)." \\ | "Participants who breathed air containing the essential oil showed prolonged heartbeat intervals and increased theta activity as measured by electroencephalography in the recovery period after the VDT task, but not during the task. The volatile constituents emitted from the essential oil of A. sibirica through the odorant delivery system for 40 min were α-pinene (80.4 µg), santene (3.1 µg), tricyclene (2.4 µg), camphene (24.2 µg), β-pinene (2.6 µg), myrcene (1.0 µg), δ-3-carene (14.4 µg), limonene (3.8 µg), and [[https://www.thegoodscentscompany.com/data/rw1106081.html|bornyl acetate]] (1.0 µg)." \\ |
| [The essential oil of Abies sibirica (Pinaceae) reduces arousal levels after visual display terminal work., Matsubara, E., Fukagawa, M., Okamoto, T., Ohnuki, K., Shimizu, K., Kondo, R., Flavour and Fragrance Journal, 26(3), 2011, 204-210] | [The essential oil of Abies sibirica (Pinaceae) reduces arousal levels after visual display terminal work., Matsubara, E., Fukagawa, M., Okamoto, T., Ohnuki, K., Shimizu, K., Kondo, R., Flavour and Fragrance Journal, 26(3), 2011, 204-210] |
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| |{{:alpha_pinene.jpg| α-pinene }} \\ α-pinene |{{:camphen.jpg| camphene }} \\ camphene |{{:bornylacetate.jpg| bornyl acetate }} \\ bornyl acetate | | |{{:alpha_pinene.jpg| α-pinene }} \\ α-pinene |{{:camphen.jpg| camphene }} \\ camphene |{{:bornylacetate.jpg| bornyl acetate }} \\ bornyl acetate | |
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| The essential oil isolated from Abies sibirica needles contained bornylacetate (34.2%), camphene (17.4%), α-terpinene (6.7%), α-pinene (5.9%), limonene (5.5%) and borneol (2.9%) as major constituents. "The contents of the constituents in various fractions changed during production of the essential oil depending on the distillation time... the biological activity of A. sibirica essential oil depended largely on the contents of the major constituents such as bornylacetate and camphene." \\ | The essential oil isolated from Abies sibirica needles contained bornyl acetate (34.2%), camphene (17.4%), α-terpinene (6.7%), α-pinene (5.9%), limonene (5.5%) and borneol (2.9%) as major constituents. "The contents of the constituents in various fractions changed during production of the essential oil depending on the distillation time... the biological activity of A. sibirica essential oil depended largely on the contents of the major constituents such as bornylacetate and camphene." \\ |
| [Biological Activity of Abies Sibirica Essential Oil and its Major Constituents for Several Enzymes In Vitro., Polyakov, N.A., Dubinskaya, V.A., Efremov, A.A., Efremov, E.A., Pharmaceutical Chemistry Journal, 48(7), 2014, 456-460] | [Biological Activity of Abies Sibirica Essential Oil and its Major Constituents for Several Enzymes In Vitro., Polyakov, N.A., Dubinskaya, V.A., Efremov, A.A., Efremov, E.A., Pharmaceutical Chemistry Journal, 48(7), 2014, 456-460] |
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