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brugmansia_suaveolens_humb._bonpl._ex_willd._bercht._j.presl [2016/05/03 18:52]
andreas
brugmansia_suaveolens_humb._bonpl._ex_willd._bercht._j.presl [2021/01/30 11:42] (aktuell)
andreas
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 Brugmansia suaveolens (Humb. & Bonpl. ex Willd.) Bercht. & J.Presl - syn.Datura suaveolens Humb. & Bonpl. ex Willd. - Solanaceae \\ Brugmansia suaveolens (Humb. & Bonpl. ex Willd.) Bercht. & J.Presl - syn.Datura suaveolens Humb. & Bonpl. ex Willd. - Solanaceae \\
-white angel's-trumpet, **Duftende Engelstrompete**+white angel's trumpet, **Duftende Engelstrompete**
  
-Shrub or small tree, up to 35m high, native to Brazil; leaves are oval, to 25 cm long; flowers sweetly fragrant, about 24–32 cm long. [[https://en.wikipedia.org/wiki/Brugmansia_suaveolens]]+Shrub or small tree, up to 3-5m high, native to Brazil, cultivated as ornamental; leaves oval, 15-30cm long; flowers drooping, sweetly fragrant, 20-30cm long, white, yellowish, or yellowish-pink\\ 
 +[[https://en.wikipedia.org/wiki/Brugmansia_suaveolens]] \\ 
 +[[http://www.missouribotanicalgarden.org/PlantFinder/PlantFinderDetails.aspx?kempercode=a491]]
  
-The maximum quantity of volatiles is generated by the flowers of B.suaveolens during nighttime, with a peak at around 9 p.m.:\\+Main constituents of the collected flower scent (223µg/6h) were 1.8-cineole (25.5%), methyl benzoate (18.7%), geraniol (17.9%), and α-terpineol (10.6%). Minor components were benzaldehyde (1.8%), benzyl alcohol (1.4%), sabinene (1.6%), myrcene (6.1%), limonene (3.3%), (Z)-β-ocimene (0.1%), (E)-β-ocimene (0.7%), linalool (1.0%), citronellal (0.5%), neral (0.2%), geranial (1.1%), geranyl acetate (0.1%), citronellol (0.6%), nerol (0.3%), and nerolidol (3.8%). \\ 
 +[Knudsen, Jette T., and Lars Tollsten. "Trends in floral scent chemistry in pollination syndromes: floral scent composition in moth‐pollinated taxa." Botanical Journal of the Linnean Society 113.3 (1993): 263-284] 
 + 
 +| {{1.8cineole.jpg| 1.8-cineole}} \\ 1.8-cineole| {{:benzoate.jpg|}} \\ methyl benzoate (R=Me) | {{geraniol.jpg| geraniol }} \\ geraniol | {{:citral.jpg}} \\ citral: geranial, neral| {{:indole.jpg| indole}} \\ indole | 
 + 
 +The maximum quantity of volatiles is generated by the flowers of B.suaveolens during nighttime, with a peak at around 9 p.m. (some compounds showed also their highest proportion, like geraniol 5.2%, geranial 1.9%, indole 1.8%, farnesol 1.1%, farnesal 0.5%, benzyl benzoate 0.7%, and benzyl salicylate 0.7%):\\
 "At that time, the flower smell used to be particularly rich, deep, and very intensive. As it can be appreciated from Table 3, the flower volatile composition varied from hour to hour. Principal component analysis (PCA), applied to the study of B. suaveolens volatiles, permits the differentiation of two groups of flower scent compositions, one typical for the day and another, for nighttime (Fig. 4). The major components of B. suaveolens flower scent were 1,8-cineol, trans-β-ocimene, β-myrcene, sabinene, citronellal, α-terpineol, benzyl alcohol, and methyl salicylate. Flowers generated less volatiles during the morning and up to 3 p.m., but in the afternoon, after sunset and mostly at night, their release  "At that time, the flower smell used to be particularly rich, deep, and very intensive. As it can be appreciated from Table 3, the flower volatile composition varied from hour to hour. Principal component analysis (PCA), applied to the study of B. suaveolens volatiles, permits the differentiation of two groups of flower scent compositions, one typical for the day and another, for nighttime (Fig. 4). The major components of B. suaveolens flower scent were 1,8-cineol, trans-β-ocimene, β-myrcene, sabinene, citronellal, α-terpineol, benzyl alcohol, and methyl salicylate. Flowers generated less volatiles during the morning and up to 3 p.m., but in the afternoon, after sunset and mostly at night, their release 
 turned to be extremely intensive. Some of the compounds, e.g., indole, benzyl benzoate, benzyl salicylate, and farnesal, were generated at detectable level only during the night, and decreased dramatically with daylight.  turned to be extremely intensive. Some of the compounds, e.g., indole, benzyl benzoate, benzyl salicylate, and farnesal, were generated at detectable level only during the night, and decreased dramatically with daylight. 
Zeile 11: Zeile 18:
 [Sampling flower scent for chromatographic analysis, Elena E. Stashenko, Jairo Ren Martnez, J. Sep. Sci. 2008, 31, 2022 – 2031] [Sampling flower scent for chromatographic analysis, Elena E. Stashenko, Jairo Ren Martnez, J. Sep. Sci. 2008, 31, 2022 – 2031]
  
-"The floral essential oils of Brugmansia suaveolens, from Monteverde, Costa Rica, were collected at three different times of the day by hydrodistillation and the oils analyzed by gas chromatography-mass spectrometry (GC-MS). The floral essential oil showed a dramatic change in composition between the freshly opened night (white) blossoms and the rose-colored senescent blossoms the following day. The white blossoms were dominated by 1,8-cineole (72.1%), (E)-nerolidol (11.7%), α-terpineol (5.3%), and phenethyl alcohol (3.2%), notably different from headspace analyses of B. suaveolens reported previously. The floral essential oil from "rose-colored" senescent blossoms of B. suaveolens showed dramatic decreases in 1,8-cineole (2.0%), (E)-nerolidol (1.9%), and phenethyl alcohol (not detected), with concomitant increases in heptanal (10.2%), nonanal (17.4%), terpinen-4-ol (10.5%), and [[http://www.thegoodscentscompany.com/data/rw1041871.html|megastigmatrienones]] (35.5%)." \\+"The floral essential oils of Brugmansia suaveolens, from Monteverde, Costa Rica, were collected at three different times of the day by hydrodistillation and the oils analyzed by gas chromatography-mass spectrometry (GC-MS). The floral essential oil showed a dramatic change in composition between the freshly opened night (white) blossoms and the rose-colored senescent blossoms the following day. The white blossoms were dominated by 1,8-cineole (72.1%), (E)-nerolidol (11.7%), α-terpineol (5.3%), and phenethyl alcohol (3.2%), notably different from headspace analyses of B. suaveolens reported previously. The floral essential oil from "rose-colored" senescent blossoms of B. suaveolens showed dramatic decreases in 1,8-cineole (2.0%), (E)-nerolidol (1.9%), and phenethyl alcohol (not detected), with concomitant increases in heptanal (10.2%), nonanal (17.4%), terpinen-4-ol (10.5%), and megastigmatrienones (35.5%)." \\
 [Composition of the floral essential oil of //Brugmansia suaveolens//. Anthony, S. J., Zuchowski, W., Setzer, W. N., Records of Natural Products, Vol.3(2), 2009, 76-81] [[http://www.acgpubs.org/RNP/2009/Volume%203/Issue%201/9_RNP-0812-62.pdf?origin=publication_detail]] [Composition of the floral essential oil of //Brugmansia suaveolens//. Anthony, S. J., Zuchowski, W., Setzer, W. N., Records of Natural Products, Vol.3(2), 2009, 76-81] [[http://www.acgpubs.org/RNP/2009/Volume%203/Issue%201/9_RNP-0812-62.pdf?origin=publication_detail]]
  
-{{:brugmansia_suaveolens.jpg?800}} \\+{{:brugmansia_suaveolens.jpg}} \\
 Brugmansia suaveolens flowering, [[https://creativecommons.org/licenses/by-sa/3.0/de/|CC BY-SA 3.0]], Author: Andreas Kraska Brugmansia suaveolens flowering, [[https://creativecommons.org/licenses/by-sa/3.0/de/|CC BY-SA 3.0]], Author: Andreas Kraska
brugmansia_suaveolens_humb._bonpl._ex_willd._bercht._j.presl.1462294345.txt.gz · Zuletzt geändert: 2016/05/03 18:52 von andreas