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murraya_exotica_l [2016/01/23 11:45]
andreas 		murraya_exotica_l [2023/10/06 10:38] (aktuell)
andreas
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 Murraya exotica L. - syn.Murraya paniculata (L.) Jack; Chalcas paniculata L.; Chalcas exotica (L.) Millsp. - Rutaceae \\ Murraya exotica L. - syn.Murraya paniculata (L.) Jack; Chalcas paniculata L.; Chalcas exotica (L.) Millsp. - Rutaceae \\
-orange jessamine, mock orange, chinese box, **Orangenraute**+orange jessamine, mock orange, chinese box, **(Jasmin-) Orangenraute**
  
-Evergreen shrub or tree, native to Southeast Asia (Indonesia); leaves ovate to elliptic, margin entire; flowers small, white, scentedOften grown as an ornamental for its terminal clusters of fragrant flowers.+Evergreen shrub or tree, up to 12m tall, native to Southeast Asia (Indonesia); often grown as an ornamental for its clusters of fragrant flowers; older branchlets grayish white to pale yellowish gray; leaves 2-5-foliolate, leaflets ovate to elliptic, margin entire; inflorescences terminal or terminal and axillary; flowers frgrantpetals white, narrowly elliptic to oblanceolate, to 2cm; fruit orange to vermilion, narrowly ellipsoid, 1-2cm [[http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=200012464]] 
  
-"The principal constituents of the leaf oil were β-cyclocitral (22.9%), methyl salicylate (22.4%), trans-nerolidol (11.7%), α-cubebene (7.9%), (−)-cubenol (6.8%), β-cubebene (5.8%) and isogermacrene (5.7%). The most abundant constituent of the fruit essential oil was β-caryophyllene (43.4%). Other major components were (−)-zingiberene (18.9%), germacrene D (8.3%), α-copaene (5.5%) and α-humulene (5.1%)." \\+"The principal constituents of the //leaf oil// were β-cyclocitral (22.9%), methyl salicylate (22.4%), trans-nerolidol (11.7%), α-cubebene (7.9%), (−)-cubenol (6.8%), β-cubebene (5.8%) and isogermacrene (5.7%). The most abundant constituent of the fruit essential oil was β-caryophyllene (43.4%). Other major components were (−)-zingiberene (18.9%), germacrene D (8.3%), α-copaene (5.5%) and α-humulene (5.1%)." \\
 [Olawore, N. O., Ogunwande, I. A., Ekundayo, O. and Adeleke, K. A. (2005), Chemical composition of the leaf and fruit essential oils of Murraya paniculata (L.) Jack. (Syn. Murraya exotica Linn.). Flavour Fragr. J., 20: 54–56. doi: 10.1002/ffj.1365] [Olawore, N. O., Ogunwande, I. A., Ekundayo, O. and Adeleke, K. A. (2005), Chemical composition of the leaf and fruit essential oils of Murraya paniculata (L.) Jack. (Syn. Murraya exotica Linn.). Flavour Fragr. J., 20: 54–56. doi: 10.1002/ffj.1365]
  
-"The major components in the [flower CO2extract were phenyl ethyl alcohol (3.3%), indole (1.2%), E-nerolidol (7.6%), benzyl benzoate (7.0%), phenyl ethyl benzoate (9.2%), manool (29.4%), etc.\\+The major component of the //flower CO2 extract// was manool (29.4%). Further onstituents were phenyl ethyl benzoate (9.2%), E-nerolidol (7.6%), benzyl benzoate (7.0%), phenyl ethyl alcohol (3.3%), and indole (1.2%). \\
 [Prasant Kumar Rout, Y. Ramachandra Rao, Satyanarayan Naik, Liquid CO2 extraction of Murraya paniculata Linn. flowers, Industrial Crops and Products, Volume 32, Issue 3, November 2010, Pages 338-342] \\ [Prasant Kumar Rout, Y. Ramachandra Rao, Satyanarayan Naik, Liquid CO2 extraction of Murraya paniculata Linn. flowers, Industrial Crops and Products, Volume 32, Issue 3, November 2010, Pages 338-342] \\
 [[http://dx.doi.org/10.1016/j.indcrop.2010.05.011]] [[http://dx.doi.org/10.1016/j.indcrop.2010.05.011]]
  
-HS-SPME analysis of floral volatiles emitted by living M.paniculata flowers showed germacrene-D (39.6%) as main constituent, accompanied by caryophyllene (7.4%), bicyclogermacrene (6.9%), E- and Z-β-farnesene (5.9%), (E,E)-α-farnesene (5.8%), β-elemene, δ-cadinene (2.1%) and linalool (2%). Indole (6.6%), (Z)-jasmone (0.3%) and methyl-, ethyl- and benzyl salicylate as well as ethyl-, benzyl- and phenethyl benzoat contribute to the odor of the flowers. \\ +HS-SPME analysis of //floral volatiles// emitted by living M.paniculata flowers showed germacrene-D (39.6%) as main constituent, accompanied by caryophyllene (7.4%), bicyclogermacrene (6.9%), E- and Z-β-farnesene (5.9%), (E,E)-α-farnesene (5.8%), β-elemene, δ-cadinene (2.1%) and linalool (2%). Indole (6.6%), (Z)-jasmone (0.3%) and methyl-, ethyl- and benzyl salicylate as well as ethyl-, benzyl- and phenethyl benzoate contribute to the odor of the flowers. \\
 [Analysis of floral volatiles by using headspace-solid phase microextraction: a review., Rout, P.K., Rao, Y.R., Naik, S.N., Asian J. Chem., Vol.24, 2012, 945-956] [Analysis of floral volatiles by using headspace-solid phase microextraction: a review., Rout, P.K., Rao, Y.R., Naik, S.N., Asian J. Chem., Vol.24, 2012, 945-956]
  
-{{http://flora.huh.harvard.edu/FloraIllustration/foc11/FOCI%2011_Page_142.jpg}} \\ +{{:murraya_paniculata.jpg?600}} \\ 
-picture source: [[http://www.efloras.org/object_page.aspx?object_id=109665&flora_id=2]]+Hooker, W.J., Exotic Flora, vol.2 t.134 (1825) \\ 
 +[[http://plantgenera.org/species.php?id_species=683651]] 
 + 
 +{{:murraya_exotica.jpg}} \\ 
 +Murraya paniculata flower, author Andrés Montesinos, [[https://commons.wikimedia.org/wiki/File:Flor-Murraya_manipulata.JPG|wikimedia commons]] (PD)
murraya_exotica_l.1453545953.txt.gz · Zuletzt geändert: 2016/01/23 11:45 von andreas

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