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Plant Compounds of Aniba rosaeodora var. amazonica , the Bois-de-Rose

Kingdom:  Plantae
Class:  Magnoliopsida
Order:  Laurales
Family:  Lauraceae
Genus:  Aniba
Author:  Ducke
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Bedoukain RussellIPM

Compounds:

Buccellato  1988 
 
        alpha-pinene  0.5 ¦Relative ratio of the component¦   Brazil  oil 
        alpha-terpineol  5.94 ¦Relative ratio of the component¦      
        beta-caryophyllene  0.2 ¦Relative ratio of the component¦      
        beta-pinene  0.5 ¦Relative ratio of the component¦      
        cadinene  0.35 ¦Relative ratio of the component¦      
        camphene  0.01 ¦Relative ratio of the component¦      
        cis-linalool oxide  1.06 ¦Relative ratio of the component¦      
        geranial  0.8 ¦Relative ratio of the component¦      
        geraniol  1.8 ¦Relative ratio of the component¦      
        limonene  1.5 ¦Relative ratio of the component¦      
        linalool  77.5 ¦Relative ratio of the component¦      
        myrcene  0.1 ¦Relative ratio of the component¦      
        neral  0.6 ¦Relative ratio of the component¦      
        sulcatone  0.4 ¦Relative ratio of the component¦      
        terpinen-4-ol  0.37 ¦Relative ratio of the component¦      
        trans-linalool oxide  0.71 ¦Relative ratio of the component¦      
 
Kubeczka  1982 
 
        alpha-pinene  0.15 ¦Relative ratio of the component¦     oil 
        alpha-terpineol  3.54 ¦Relative ratio of the component¦      
        beta-caryophyllene  0.03 ¦Relative ratio of the component¦      
        beta-phellandrene  0.61 ¦Relative ratio of the component¦      
        beta-pinene  0.52 ¦Relative ratio of the component¦      
        camphene  0.03 ¦Relative ratio of the component¦      
        cis-linalool oxide  1.5 ¦Relative ratio of the component¦      
        eucalyptol  1 ¦Relative ratio of the component¦      
        geranyl acetate  0.14 ¦Relative ratio of the component¦      
        limonene  0.6 ¦Relative ratio of the component¦      
        linalool  85.29 ¦Relative ratio of the component¦      
        myrcene  0.04 ¦Relative ratio of the component¦      
        terpinen-4-ol  0.37 ¦Relative ratio of the component¦      
        trans-linalool oxide  1.31 ¦Relative ratio of the component¦      
 
Ohashi  1997 
 
        benzyl benzoate  0.7 ¦Relative ratio of the component¦   Curuá Una River, Pará State, Brazil  oil, 1 
        beta-pinene  0.02 ¦Relative ratio of the component¦      
        caryophyllene oxide  0.88 ¦Relative ratio of the component¦      
        cis-beta-ocimene  0.03 ¦Relative ratio of the component¦      
        cis-linalool oxide  1.5 ¦Relative ratio of the component¦      
        cyclosativene  2.05 ¦Relative ratio of the component¦      
        epoxydihydrolinalool  0.19 ¦Relative ratio of the component¦      
        eremophilene  5.25 ¦Relative ratio of the component¦      
        eucalyptol  0.04 ¦Relative ratio of the component¦      
        gamma-selinene  0.3 ¦Relative ratio of the component¦      
        hotrienol  0.47 ¦Relative ratio of the component¦      
        limonene  0.13 ¦Relative ratio of the component¦      
        linalool  75.5 ¦Relative ratio of the component¦      
        linalool oxide  1.27 ¦Relative ratio of the component¦      
        myrcene  0.08 ¦Relative ratio of the component¦      
        p-cymene  0.02 ¦Relative ratio of the component¦      
        spathulenol  0.48 ¦Relative ratio of the component¦      
        terpinen-4-ol  0.35 ¦Relative ratio of the component¦      
        trans-beta-ocimene  0.04 ¦Relative ratio of the component¦      
        trans-pyranoid linalool oxide  0.02 ¦Relative ratio of the component¦      
 
Ohashi  1997 
 
        benzyl benzoate  0.42 ¦Relative ratio of the component¦   Curuá Una River, Pará State, Brazil  oil, 2 
        beta-pinene  0.05 ¦Relative ratio of the component¦      
        camphor  0.06 ¦Relative ratio of the component¦      
        caryophyllene oxide  0.13 ¦Relative ratio of the component¦      
        cis-beta-ocimene  0.12 ¦Relative ratio of the component¦      
        cis-linalool oxide  1.34 ¦Relative ratio of the component¦      
        cyclosativene  0.5 ¦Relative ratio of the component¦      
        epoxydihydrolinalool  0.19 ¦Relative ratio of the component¦      
        eremophilene  0.6 ¦Relative ratio of the component¦      
        gamma-selinene  0.28 ¦Relative ratio of the component¦      
        hotrienol  0.15 ¦Relative ratio of the component¦      
        limonene  0.33 ¦Relative ratio of the component¦      
        linalool  89.5 ¦Relative ratio of the component¦      
        linalool oxide  1.25 ¦Relative ratio of the component¦      
        myrcene  0.05 ¦Relative ratio of the component¦      
        p-cymene  0.02 ¦Relative ratio of the component¦      
        spathulenol  0.01 ¦Relative ratio of the component¦      
        terpinen-4-ol  0.18 ¦Relative ratio of the component¦      
        trans-beta-ocimene  0.05 ¦Relative ratio of the component¦      
        trans-pyranoid linalool oxide  0.15 ¦Relative ratio of the component¦      
 
Ohashi  1997 
 
        benzyl benzoate  0.32 ¦Relative ratio of the component¦   Curuá Una River, Pará State, Brazil  oil, 3 
        beta-pinene  0.42 ¦Relative ratio of the component¦      
        camphor  0.05 ¦Relative ratio of the component¦      
        caryophyllene oxide  0.2 ¦Relative ratio of the component¦      
        cis-beta-ocimene  0.14 ¦Relative ratio of the component¦      
        cis-linalool oxide  3.45 ¦Relative ratio of the component¦      
        cyclosativene  0.12 ¦Relative ratio of the component¦      
        epoxydihydrolinalool  0.35 ¦Relative ratio of the component¦      
        eremophilene  1.15 ¦Relative ratio of the component¦      
        eucalyptol  0.62 ¦Relative ratio of the component¦      
        gamma-selinene  0.38 ¦Relative ratio of the component¦      
        hotrienol  0.13 ¦Relative ratio of the component¦      
        limonene  0.5 ¦Relative ratio of the component¦      
        linalool  77.5 ¦Relative ratio of the component¦      
        linalool oxide  3.15 ¦Relative ratio of the component¦      
        myrcene  0.25 ¦Relative ratio of the component¦      
        p-cymen-8-ol me-ether  0.08 ¦Relative ratio of the component¦      
        spathulenol  0.58 ¦Relative ratio of the component¦      
        terpinen-4-ol  0.24 ¦Relative ratio of the component¦      
        trans-beta-ocimene  0.03 ¦Relative ratio of the component¦      
        trans-pyranoid linalool oxide  0.26 ¦Relative ratio of the component¦      
 
Reference(s):

Buccellato, F. 1988. Bois de rose oil: a glimpse into the past. Perfum. Flavor. 13(4):35-36.
 
Kubeczka, K.-H., and Formácek, V. 1982. Essential oils analysis by capillary gas chromatography and carbon-13 NMR spectroscopy. :219-226. John Wiley & Sons, Chichester, UK.
 
Ohashi, S.T., Rosa, L.S., Santana, J.A., and Green, C.L. 1997. Brazilian rosewood oil: sustainable production and oil quality management. Perfum. Flavor. 22(2):1-5.
 
Ohashi, S.T., Rosa, L.S., Santana, J.A., and Green, C.L. 1997. Brazilian rosewood oil: sustainable production and oil quality management. Perfum. Flavor. 22(5):1-5.
 
 
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