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Nächste Überarbeitung 		Vorhergehende Überarbeitung
oenothera_biennis_l [2014/07/09 13:36]
andreas 		oenothera_biennis_l [2024/05/17 09:37] (aktuell)
andreas
Zeile 2: Zeile 2:
  
 Erect biennial, native to North America, naturalized in Eurasia, New Zealand, South Africa, South America, 0.50-2.50 high; inflorescence erect, flowers yellow, with 8 stamens, opening in the evening. Erect biennial, native to North America, naturalized in Eurasia, New Zealand, South Africa, South America, 0.50-2.50 high; inflorescence erect, flowers yellow, with 8 stamens, opening in the evening.
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 "In addition to the fleshy tap roots, the leaves, flowers and seeds are also edible. The roots are boiled like salsify or parsnips in broth; occasionally also sliced ​​and dressed with oil and vinegar. The roots are harvested in autumn of the first year (rosette stage) until spring. In modern kitchen, the petals are sometimes used as edible decoration." [[http://de.wikipedia.org/wiki/Gemeine_Nachtkerze]] "In addition to the fleshy tap roots, the leaves, flowers and seeds are also edible. The roots are boiled like salsify or parsnips in broth; occasionally also sliced ​​and dressed with oil and vinegar. The roots are harvested in autumn of the first year (rosette stage) until spring. In modern kitchen, the petals are sometimes used as edible decoration." [[http://de.wikipedia.org/wiki/Gemeine_Nachtkerze]]
  
 +{{linalool.jpg}}
 +
 +The main constitutent of floral volatiles was linalool. \\
 +[Pollination Biology of Oenothera (Onagraceae). The Interplay between Floral UV‐Absorbancy Patterns and Floral Volatiles as Signals to Nocturnal Insects. Kawaano, S., Odaki, M., Yamaoka, R., Oda‐Tanabe, M., Takeuchi, M., & Kawano, N., Plant Species Biology, Vol.10(1), 1995, 31-38]
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 +----
  
 The seed oil is used for the treatment of eczema internally and externally (ointment), but: The seed oil is used for the treatment of eczema internally and externally (ointment), but:
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 "Evening primrose (Oenothera spp.) seed contains ca. 15% protein, 24% oil, and 43% cellulose plus lignin. The protein is unusually rich in sulphur-containing amino acids and in tryptophan. The component fatty acids of the oil are 65–80% linoleic and 7–14% of γ-linolenic, but no α-linolenic acid. The 1.5–2% unsaponifiable matter has a composition very similar to that of cottonseed oil. The sterol fraction contains 90% β-sitosterol and the 4-methyl sterol fraction contains 48% citrostadienol; γ-tocopherol dominates its class, with some α- but no other tocopherols." [Evening primrose (Oenothera spp.) oil and seed. B. J. F. Hudson, Journal of the American Oil Chemists’ Society, Vol.61 (3), 1984, 540-543] "Evening primrose (Oenothera spp.) seed contains ca. 15% protein, 24% oil, and 43% cellulose plus lignin. The protein is unusually rich in sulphur-containing amino acids and in tryptophan. The component fatty acids of the oil are 65–80% linoleic and 7–14% of γ-linolenic, but no α-linolenic acid. The 1.5–2% unsaponifiable matter has a composition very similar to that of cottonseed oil. The sterol fraction contains 90% β-sitosterol and the 4-methyl sterol fraction contains 48% citrostadienol; γ-tocopherol dominates its class, with some α- but no other tocopherols." [Evening primrose (Oenothera spp.) oil and seed. B. J. F. Hudson, Journal of the American Oil Chemists’ Society, Vol.61 (3), 1984, 540-543]
  
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 "The yields obtained are very similar to those resulting from the conventional extraction process using hexane as solvent (26.0 wt.%); however, the quality of oil extracted by supercritical fluid is higher (acidity, 11.0; unsaponifiables, 1.8). The fatty acid composition of the borage seed oil extracted by SFE is particularly rich in unsaturated fatty acids, especially the γ-linolenic acid (21.7%). For these reasons, the borage seed oil extracted using carbon dioxide could be competitive with the conventional process, since it simplifies considerably the oil refinement stages and completely eliminates the solvent distillation stage, which are the most costly processing stages in terms of energy consumption." [Quality of borage seed oil extracted by liquid and supercritical carbon dioxide. A Molero Gómez, E Martı́nez de la Ossa, Chemical Engineering Journal, Vol.88 (1–3), 2002, 103–109] "The yields obtained are very similar to those resulting from the conventional extraction process using hexane as solvent (26.0 wt.%); however, the quality of oil extracted by supercritical fluid is higher (acidity, 11.0; unsaponifiables, 1.8). The fatty acid composition of the borage seed oil extracted by SFE is particularly rich in unsaturated fatty acids, especially the γ-linolenic acid (21.7%). For these reasons, the borage seed oil extracted using carbon dioxide could be competitive with the conventional process, since it simplifies considerably the oil refinement stages and completely eliminates the solvent distillation stage, which are the most costly processing stages in terms of energy consumption." [Quality of borage seed oil extracted by liquid and supercritical carbon dioxide. A Molero Gómez, E Martı́nez de la Ossa, Chemical Engineering Journal, Vol.88 (1–3), 2002, 103–109]
  
- +{{:20140709_ob.jpg|}} \\ 
-{{:20140709_ob.jpg|}}+Oenothera biennis flowers, [[https://creativecommons.org/licenses/by-sa/3.0/de/|CC BY-SA 3.0]], Author: Andreas Kraska
oenothera_biennis_l.1404905801.txt.gz · Zuletzt geändert: 2014/07/09 13:36 von andreas

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