Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung Letzte Überarbeitung Beide Seiten der Revision | ||
mentha_aquatica_l [2014/10/21 18:43] andreas |
mentha_aquatica_l [2018/08/03 12:58] andreas |
||
---|---|---|---|
Zeile 6: | Zeile 6: | ||
[[http:// | [[http:// | ||
- | "The composition of the essential oils from two populations of Mentha aquatica ssp. aquatica collected in two different habitats in Migliarino-San Rossore-Massaci-uccoli Regional Park (Italy) has been determined by GC and GC/MS. The oils were found to be rich in menthofuran (38.4–55.9%) and 1,8-cineole (11.9–16.3%)." | + | "The composition of the essential oils from two populations of Mentha aquatica ssp. aquatica collected in two different habitats in Migliarino-San Rossore-Massaci-uccoli Regional Park (Italy) has been determined by GC and GC/MS. The oils were found to be rich in menthofuran (38.4-55.9%) and 1,8-cineole (11.9-16.3%)." |
[Variability of essential oil composition of Mentha aquatica ssp. aquatica collected in two different habitats of North Tuscany, Italy. Guido, S., Alessandra, B., Guido, F., Luigi, C. P., Emilio, T. P., Journal of Essential Oil Research, Vol.9(4), 1997, 455-457] | [Variability of essential oil composition of Mentha aquatica ssp. aquatica collected in two different habitats of North Tuscany, Italy. Guido, S., Alessandra, B., Guido, F., Luigi, C. P., Emilio, T. P., Journal of Essential Oil Research, Vol.9(4), 1997, 455-457] | ||
- | " | + | |{{: |
+ | |||
+ | " | ||
[Compounds from //Mentha aquatica// with affinity to the GABA-benzodiazepine receptor. Jäger, A. K., Almqvist, J. P., Vangsøe, S. A., Stafford, G. I., Adsersen, A., Van Staden, J., South African Journal of Botany, Vol.73(4), 2007, 518-521] | [Compounds from //Mentha aquatica// with affinity to the GABA-benzodiazepine receptor. Jäger, A. K., Almqvist, J. P., Vangsøe, S. A., Stafford, G. I., Adsersen, A., Van Staden, J., South African Journal of Botany, Vol.73(4), 2007, 518-521] | ||
Zeile 18: | Zeile 20: | ||
In the attracting blend of terpenoids produced by M. aquatica, (+)-pulegone was found to be the major compound in undamaged leaves and a potent attractant to C. herbacea in olfactometer bioassays. Volatiles emitted from plants can stimulate the behavioral or antennal responses of herbivores. As a response to herbivore feeding, M. aquatica activates genes for terpenoid biosynthesis, | In the attracting blend of terpenoids produced by M. aquatica, (+)-pulegone was found to be the major compound in undamaged leaves and a potent attractant to C. herbacea in olfactometer bioassays. Volatiles emitted from plants can stimulate the behavioral or antennal responses of herbivores. As a response to herbivore feeding, M. aquatica activates genes for terpenoid biosynthesis, | ||
[Zebelo, S. A., Bertea, C. M., Bossi, S., Occhipinti, A., Gnavi, G., Maffei, M. E. (2011). Chrysolina herbacea modulates terpenoid biosynthesis of Mentha aquatica L. PloS one, 6(3), e17195] [[http:// | [Zebelo, S. A., Bertea, C. M., Bossi, S., Occhipinti, A., Gnavi, G., Maffei, M. E. (2011). Chrysolina herbacea modulates terpenoid biosynthesis of Mentha aquatica L. PloS one, 6(3), e17195] [[http:// | ||
+ | |||
+ | |||
+ | {{http:// | ||
+ | Mentha aquatica; author: Rolf Marschner (2006), | ||
+ | [[http:// |