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Floral volatiles of Genus Brassica

Order: Brassicales
Family: Brassicaceae
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Bedoukain RussellIPM

Volatile(s):

Brassica napus ssp. oleifera Linnaeus
 
Robertson GW  1993 
 
        10Ald 
        1me2me-disulfane 
        1me3me-trisulfane 
        2Ald 
        2me-3-buten-2-ol 
        2me-4Ald 
        2me-5Hy 
        2me-delta2-4Ald 
        2-phenylacetaldehyde 
        3-2Kt 
        3Ald 
        3-carene 
        3me-4-2Kt 
        3me-5-2Kt 
        3me-5Hy 
        3me-E1,2-5Hy 
        4-2Kt 
        4Ald 
        4me-delta3-5-2Kt 
        5-2Kt 
        5-3Kt 
        5Ald 
        5Hy 
        6Ald 
        7Ald 
        8Ald 
        9Ald 
        acetic acid 
        acetoin 
        alpha-pinene 
        alpha-thujene 
        benzaldehyde 
        butan-2-ol 
        cyclohexanone 
        delta1-8Hy 
        diacetyl 
        ethyl alcohol 
        formaldehyde 
        hexane 
        isoprene 
        isovaleraldehyde 
        limonene 
        linalool 
        me-2me-butanoate 
        methanol 
        methyl isobutyrate 
        methyleneethanamine 
        myrcene 
        pentan-2-ol 
        pivalic acid 
        trans-beta-ocimene 
        Z3-6OH 
 
Brassica napus ssp. oleifera Linnaeus
 
Evans KA  1992 
 
        2-phenylacetaldehyde 
        2-phenylethanol 
        alpha-cedrene 
        alpha-pinene 
        benzaldehyde 
        beta-caryophyllene 
        beta-elemene 
        beta-pinene 
        E,E-alpha-farnesene 
        eucalyptol 
        limonene 
        linalool 
        myrcene 
        p-anisaldehyde 
        perillene 
        sabinene 
        trans-beta-ocimene 
        Z3-6Ac 
        Z3-6OH 
 
Brassica napus Linnaeus
 
Evans KA  1992 
 
        2-phenylacetaldehyde 
        2-phenylethanol 
        alpha-cedrene 
        alpha-pinene 
        benzaldehyde 
        beta-caryophyllene 
        beta-elemene 
        beta-pinene 
        E,E-alpha-farnesene 
        eucalyptol 
        limonene 
        linalool 
        myrcene 
        p-anisaldehyde 
        perillene 
        sabinene 
        trans-beta-ocimene 
        Z3-6Ac 
        Z3-6OH 
 
Brassica napus Linnaeus
 
Blight MM  1997 
 
        2-phenylacetaldehyde 
        2-phenylethanol 
        9-2Kt 
        alpha-pinene 
        alpha-terpinene 
        benzaldehyde 
        delta1-11Hy 
        delta1-12Hy 
        E,E-alpha-farnesene 
        eucalyptol 
        limonene 
        linalool 
        methyl salicylate 
        p-cymene 
        phenylmethanol 
 
Brassica napus Linnaeus
 
Jakobsen HB  1994 
 
        10Hy 
        11Hy 
        12Hy 
        13Hy 
        14Hy 
        3-carene 
        9Hy 
        alpha-pinene 
        alpha-thujene 
        beta-pinene 
        E,E-alpha-farnesene 
        eucalyptol 
        limonene 
        linalool 
        myrcene 
        sabinene 
 
Brassica rapa Linnaeus
 
Omura H  1999 
 
        1H-indole 
        2-phenylacetaldehyde 
        2-phenylacetonitrile 
        2-phenylethanol 
        benzaldehyde 
        phenylmethanol 
 
Brassica campestris chinesis Linnaeus
 
Han B  2001 
 
        2,5-hexanediol 
        3-carene 
        9OH 
        allyl isothiocyanate 
        alpha-caryophyllene 
        alpha-pinene 
        alpha-terpinene 
        beta-caryophyllene 
        E2-6OH 
        E4-6OH 
        geraniol 
        linalool 
        myrcene 
        R-limonene 
        trans-beta-ocimene 
        Z3-6Ac 
        Z3-6OH 
        Z3-hexenyl isovalerate 
        Z3-hexenyl propionate 
 
Reference(s):

Blight, M.M., Métayer, M., Pham-Delegue, M.-H., Pickett, J.A., Marion-Poll, F., and Wadhams, L.J. 1997. Identification of floral volatiles involved in recognition of oilseed rape flowers, Brassica napus by honeybees, Apis mellifera. J. Chem. Ecol. 23:1715-1727.
 
Evans, K.A., and Allen-Williams, L.J. 1992. Electroantennogram responses of the cabbage seed weevil, Ceutorhynchus assimilis, to oilseed rape, Brassica napus ssp. oleifera, volatiles. J. Chem. Ecol. 18:1641-1659.
 
Han, B., Zhang, Z., and Fang, Y. 2001. Electrophysiology and behavior feedback of diamondback moth, Plutella xylostella, to volatile secondary metabolites emitted by chinese cabbage. Chinese Sci. Bull. 46:2086-2088.
 
Jakobsen, H.B., Friis, P., Nielsen, J.K., and Olsen, C.A. 1994. Emission of volatiles from flowers and leaves of Brassica napus in situ. Phytochem. 37:695-699.
 
Omura, H., Honda, K., and Hayash, N. 1999. Chemical and chromatic bases for preferential visiting by the cabbage butterfly, Pieris rapae, to rape flowers. J. Chem. Ecol. 25:1895-1906.
 
Robertson, G.W., Griffiths, D.W., Smith, W.M., and Butcher, R.D. 1993a. The application of thermal desorption-gas chromatography-mass spectrometry to the analyses of flower volatiles from five varieties of oilseed rape (Brassica napus spp. oleifera). Phytochem. Analysis. 4:152-157.
 

 
Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
Ⓒ 2003-2024 The Pherobase - Extensive Database of Pheromones and Semiochemicals. Ashraf M. El-Sayed.
Page created on 22-April-2024