Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung Nächste Überarbeitung Beide Seiten der Revision | ||
prunus_armeniaca_l [2015/01/05 16:57] andreas |
prunus_armeniaca_l [2017/06/05 11:34] andreas |
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- | Rosaceae - apricot, Armenian plum, **Aprikose**, | + | Prunus armeniaca L. - Rosaceae - apricot, Armenian plum, **Aprikose**, |
Deciduous tree, up to 6m tall; leaves heart-shaped, | Deciduous tree, up to 6m tall; leaves heart-shaped, | ||
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"The esters were clearly the dominant constituents in the headspace sample. The major esters identified were | "The esters were clearly the dominant constituents in the headspace sample. The major esters identified were | ||
- | butyl butanoate (29.66%), butyl hexanoate (24.54%), hexyl butanoate (11.78%), ethyl hexanoate (4.70%), hexyl hexanoate (4.12% ), hexyl 2-methylbutanoate (3.50%), butyl 2-methylbutanoate (2.76%), ethyl butanoate (2.00%), pentyl butanoate ( I & % ) , and butyl propanoate (1.30%)...\\ | + | butyl butanoate (29.66%), butyl hexanoate (24.54%), hexyl butanoate (11.78%), ethyl hexanoate (4.70%), hexyl hexanoate (4.12% ), hexyl 2-methylbutanoate (3.50%), butyl 2-methylbutanoate (2.76%), ethyl butanoate (2.00%), pentyl butanoate (1,8%) , and butyl propanoate (1.30%)...\\ |
- | Based on their odor threshold and their amount present in the headspace, the following compounds probably contribute to the intact apricot odor: ethyl butanoate, ethyl 2-methylbutanoate, | + | Based on their odor threshold and their amount present in the headspace, the following compounds probably contribute to the intact apricot odor: ethyl butanoate, ethyl 2-methylbutanoate, |
[Volatile constituents of apricot (Prunus armeniaca). Takeoka, G. R., Flath, R. A., Mon, T. R., Teranishi, R., Guentert, M., Journal of Agricultural and Food Chemistry, Vol.38(2), 1990, 471-477] | [Volatile constituents of apricot (Prunus armeniaca). Takeoka, G. R., Flath, R. A., Mon, T. R., Teranishi, R., Guentert, M., Journal of Agricultural and Food Chemistry, Vol.38(2), 1990, 471-477] | ||
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[Composition of apricot aroma: correlations between sensory and instrumental data. Guichard, E., Schlich, P., & Issanchou, S., Journal of Food Science, Vol.55(3), 1990, 735-738] | [Composition of apricot aroma: correlations between sensory and instrumental data. Guichard, E., Schlich, P., & Issanchou, S., Journal of Food Science, Vol.55(3), 1990, 735-738] | ||
- | " | + | " |
- | [Aroma characterization of various apricot varieties using headspace–solid phase microextraction combined with gas chromatography–mass spectrometry and gas chromatography–olfactometry. Guillot, S., Peytavi, L., Bureau, S., Boulanger, R., Lepoutre, J. P., Crouzet, J., & Schorr-Galindo, | + | [Aroma characterization of various apricot varieties using headspace-solid phase microextraction combined with gas chromatography-mass spectrometry and gas chromatography-olfactometry. Guillot, S., Peytavi, L., Bureau, S., Boulanger, R., Lepoutre, J. P., Crouzet, J., & Schorr-Galindo, |
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"An aroma extract dilution analysis applied on an aroma distillate prepared from fresh apricots revealed (R)-γ-decalactone, | "An aroma extract dilution analysis applied on an aroma distillate prepared from fresh apricots revealed (R)-γ-decalactone, | ||
[Characterization of the key aroma compounds in apricots (Prunus armeniaca) by application of the molecular sensory science concept. Greger, V., Schieberle, P., Journal of agricultural and food chemistry, Vol.55(13), 2007, 5221-5228] | [Characterization of the key aroma compounds in apricots (Prunus armeniaca) by application of the molecular sensory science concept. Greger, V., Schieberle, P., Journal of agricultural and food chemistry, Vol.55(13), 2007, 5221-5228] | ||
- | {{http://upload.wikimedia.org/wikipedia/ | + | (R)-(+)-γ-decalactone was the predominant enantiomer (94-100%) in the headspace aroma of 14 apricot fruit cultivars, but (R)-(+)-γ-dodecalactone (although enantiomerically pure) was detected in only five cultivars. γ-Nonalactone and γ-undecalactone were absent. Enantiomeric composition of γ-decalactone and γ-dodecalactone did not change during ripening. \\ |
+ | [Ravid, Uzi, et al. „Authenticity assessment of natural fruit flavour compounds in foods and beverages by auto‐HS-SPME stereoselective GC-MS.“ Flavour and fragrance journal 25.1 (2010): 20-27] | ||
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+ | {{prunus_armeniaca.jpg? | ||
+ | Zorn, J., Oskamp, D.L., Vervolg op de Afbeeldingen der artseny-gewassen met derzelver Nederduitsche en Latynsche beschryvingen, | ||
+ | [[http://plantgenera.org/species.php? |