| Beide Seiten der vorigen RevisionVorhergehende Überarbeitung | |
| commiphora_erythraea_ehrenb._engl [2021/06/03 08:01] – andreas | commiphora_erythraea_ehrenb._engl [2025/12/22 17:00] (aktuell) – andreas |
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| Small tree, native to Somalia. | Small tree, native to Somalia. |
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| The term 'opopanax' traditionally refers to the medicinal gum resin from plants of the genus Opopanax like Opopanax chironium (L.) W.D.J.Koch (Hercules' all-heal; syn. Ferula opopanax Spreng.; Pastinaca opopanax L.) used in herbal medicine rather than perfumery. To distinguish bisabol myrrh resin 'opopanax' from the true opopanax, it is often alternatively spelled opoponax, and sometimes referred to as the opopanax of perfumery or perfumery's opopanax. [[https://en.wikipedia.org/wiki/Opopanax_(perfumery)|Opopanax (perfumery)]] | The term 'opopanax' traditionally refers to the medicinal gum resin from plants of the genus Opopanax like Opopanax chironium (L.) W.D.J.Koch (Hercules' all-heal; syn. Ferula opopanax Spreng.; Pastinaca opopanax L.) used in herbal medicine rather than perfumery. To distinguish bisabol myrrh resin 'opopanax' from the true opopanax, it is often alternatively spelled opoponax, and sometimes referred to as the opopanax of perfumery or perfumery's opopanax. [[https://en.wikipedia.org/wiki/Opopanax_(perfumery)|Wikipedia: Opopanax (perfumery)]] |
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| "A number of oleo-gum-resins called bdelliums are produced in Arabia and Somalia from various species of | "A number of oleo-gum-resins called bdelliums are produced in Arabia and Somalia from various species of |
| C.erythraea and C. kataf, the main sources of opopanax, are abundant in many parts of southern Arabia, Somalia, eastern Ethiopia and Kenya." \\ | C.erythraea and C. kataf, the main sources of opopanax, are abundant in many parts of southern Arabia, Somalia, eastern Ethiopia and Kenya." \\ |
| Opopanax resin oil has been found to contain α-bisabolene, β-bisabolene, and γ-bisabolene, α-bergamotene, γ-cadinene, δ-cadinene, ar-curcumene and α-santalene, but the results are not consistent. (Z)-α-bisabolene remotely recalls the typical odour of opopanax. \\ | Opopanax resin oil has been found to contain α-bisabolene, β-bisabolene, and γ-bisabolene, α-bergamotene, γ-cadinene, δ-cadinene, ar-curcumene and α-santalene, but the results are not consistent. (Z)-α-bisabolene remotely recalls the typical odour of opopanax. \\ |
| [Myrrh-commiphora chemistry., Hanuš, L.O., Řezanka, T., Dembitsky, V.M., Moussaieff, A., Biomedical papers, 149(1), 2005, 3-28; and literature cited therein] [[http://jonnsaromatherapy.com/pdf/GC-MS_Commiphora_various_2005.pdf]] | [Myrrh-commiphora chemistry., Hanuš, L.O., Řezanka, T., Dembitsky, V.M., Moussaieff, A., Biomedical papers, 149(1), 2005, 3-28; and literature cited therein] [[http://jonnsaromatherapy.com/pdf/GC-MS_Commiphora_various_2005.pdf|PDF]] |
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| "Opoponax odour is sweetly aromatic, with a tenacious animalic, woody root-like note, not found in Myrrh." Main components of Opoponax oil were E-β-ocimene (26.2%), α-santalene (20.1%), E α-bergamotene (5.2%), and (Z/E)-α-bisabolene (14.2%). \\ | "Opoponax odour is sweetly aromatic, with a tenacious animalic, woody root-like note, not found in Myrrh." Main components of Opoponax oil were E-β-ocimene (26.2%), α-santalene (20.1%), E α-bergamotene (5.2%), and (Z/E)-α-bisabolene (14.2%). \\ |
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| „In all the oils and extracts, furanodienone [1(10),4-furanogermacradien-6-one] resulted the most abundant compound along with 1,10(15)-furanogermacra-dien-6-one, 3-methoxy-furanogermacra-1E,10(15)-dien-6-one, 2- methoxy-furanogermacra-1(10)E-en-6-one, 1,2-epoxy- furanogermacr-10(15)-en-6-one, dihydropyrocurzerenone, agarsenone, myrrhone, curzerenone, furanoeudesma-1,4-dien-6-one and alismol. Agarsenone showed to be unstable in chlorinated solvents, giving rise in short time, to mirrhone, and, by autoxidation, to agarsenolides…“ \\ | „In all the oils and extracts, furanodienone [1(10),4-furanogermacradien-6-one] resulted the most abundant compound along with 1,10(15)-furanogermacra-dien-6-one, 3-methoxy-furanogermacra-1E,10(15)-dien-6-one, 2- methoxy-furanogermacra-1(10)E-en-6-one, 1,2-epoxy- furanogermacr-10(15)-en-6-one, dihydropyrocurzerenone, agarsenone, myrrhone, curzerenone, furanoeudesma-1,4-dien-6-one and alismol. Agarsenone showed to be unstable in chlorinated solvents, giving rise in short time, to mirrhone, and, by autoxidation, to agarsenolides…“ \\ |
| [Marcotullio, Maria Carla, Ornelio Rosati, and Daniela Lanari. "Phytochemistry of Commiphora erythraea: A Review." Natural Product Communications 13.9 (2018): 1934578X1801300925] \\ | [Marcotullio, Maria Carla, Ornelio Rosati, and Daniela Lanari. "Phytochemistry of Commiphora erythraea: A Review." Natural Product Communications 13.9 (2018): 1934578X1801300925] [[https://journals.sagepub.com/doi/pdf/10.1177/1934578X1801300925|PDF]] |
| [[https://journals.sagepub.com/doi/pdf/10.1177/1934578X1801300925]] | |
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