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rosmarinus_officinalis_l [2016/05/30 00:02]
andreas |
rosmarinus_officinalis_l [2016/10/17 16:11]
andreas |
| [Chemical Composition of the Essential Oils Obtained From Some Spices Widely Used in Mediterranean Region. Manuel Viuda-Martos, Yolanda Ruíz-Navajas, Juana Fernández-López, José Angel Pérez-Álvarez, Acta Chim. Slov. 921 2007, 54, 921-926] | [Chemical Composition of the Essential Oils Obtained From Some Spices Widely Used in Mediterranean Region. Manuel Viuda-Martos, Yolanda Ruíz-Navajas, Juana Fernández-López, José Angel Pérez-Álvarez, Acta Chim. Slov. 921 2007, 54, 921-926] |
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| | {{1.8cineole.jpg| 1.8-cineole}} \\ 1.8-cineole | {{alpha_pinene.jpg| α-pinene}} \\ α-pinene | {{camphor.jpg| camphor}} \\ camphor | {{camphen.jpg| camphene}} \\ camphene | | | {{1.8cineole.jpg| 1.8-cineole}} \\ 1.8-cineole | {{alpha_pinene.jpg| α-pinene}} \\ α-pinene | {{camphor.jpg| camphor}} \\ camphor | {{camphen.jpg| camphene}} \\ camphene | {{rotundone.jpg| rotundone}} \\ rotundone | |
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| "... range of enantiomeric excesses for (+/-)-methyl jasmonate varying from 13 to 95% depending on the Jasminum specie considered. In contrast, (-)-methyl jasmonate always occurred as a pure enantiomer in all Rosmarinus officinalis samples studied. This implies those Jasminum species in which the enantiomeric purity of (-)-methyl jasmonate is high enough and any R. officinalis sample might be used as natural sources of pure (-)-methyl jasmonate." \\ | "... range of enantiomeric excesses for (+/-)-methyl jasmonate varying from 13 to 95% depending on the Jasminum specie considered. In contrast, (-)-methyl jasmonate always occurred as a pure enantiomer in all Rosmarinus officinalis samples studied. This implies those Jasminum species in which the enantiomeric purity of (-)-methyl jasmonate is high enough and any R. officinalis sample might be used as natural sources of pure (-)-methyl jasmonate." \\ |
| [Enantiomeric purity of (+/-)‐methyl jasmonate in fresh leaf samples and commercial fragrances., Ruiz del Castillo, M.L., Blanch, G.P., Journal of separation science, 30(13), 2007, 2117-2122] | [Enantiomeric purity of (+/-)‐methyl jasmonate in fresh leaf samples and commercial fragrances., Ruiz del Castillo, M.L., Blanch, G.P., Journal of separation science, 30(13), 2007, 2117-2122] |
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| | Rotundone (86 μg/kg, peppery) is present well above its aroma detection threshold (8 ng/L in water) and apparently important to the flavour of rosemary. \\ |
| | [Wood, C., Siebert, T. E., Parker, M., Capone, D. L., Elsey, G. M., Pollnitz, A. P., Herderich, M. J. (2008). Spice up your life–The Rotundone story. Expression of Multideisciplinary flavour science, Proceedings of the 12th Weurman Symposium.] [[https://home.zhaw.ch/yere/pdf/Teil121%20-%20Expression%20of%20Multidisciplinary.pdf]] |
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| "Rosemary leaves oil was isolated by hydrodistillation. 49 components were identified in Lalehzar oil and 31 components were identified in Kerman oil. The hydrodistillation of Lalehzar oil was found to be rich in α-pinene (43.9%), 1,8-cineole (11.1%), camphene (8.6%), β-myrcene (3.9%), borneol (3.4%), camphor (2.4%) and verbenol (2.3%). 31 components were identified in hydrodistillation of Kerman oil and main component as follow: α-pinene (46.1%), 1,8-cineole (11.1%), camphene (9.6%), camphor (5.3%), sabinene (4.6%), β-myrcene (3.9%), borneol (3.4%), bornyl acetate (2.8%), verbenone (2.3%) and linalool (2.1%)." \\ | "Rosemary leaves oil was isolated by hydrodistillation. 49 components were identified in Lalehzar oil and 31 components were identified in Kerman oil. The hydrodistillation of Lalehzar oil was found to be rich in α-pinene (43.9%), 1,8-cineole (11.1%), camphene (8.6%), β-myrcene (3.9%), borneol (3.4%), camphor (2.4%) and verbenol (2.3%). 31 components were identified in hydrodistillation of Kerman oil and main component as follow: α-pinene (46.1%), 1,8-cineole (11.1%), camphene (9.6%), camphor (5.3%), sabinene (4.6%), β-myrcene (3.9%), borneol (3.4%), bornyl acetate (2.8%), verbenone (2.3%) and linalool (2.1%)." \\ |
