cajuput leaf oil vietnam | |||
# | % | Leftshift | Components |
---|---|---|---|
49 | trace | bulnesol | |
37 | 0.4 | cadina-1,4-diene | |
35 | trace | delta- | cadinene |
34 | trace | gamma- | cadinene |
47 | trace | alpha- | cadinol |
44 | trace | T- | cadinol |
38 | trace | calamenene | |
2 | trace | camphene | |
5 | trace | delta-3- | carene |
23 | 2.5 | beta- | caryophyllene |
41 | 0.3 | caryophyllene oxide | |
10 | 41.1 | 1,8- | cineole |
20 | trace | alpha- | copaene |
27 | 0.5 | gamma- | curcumene |
15 | 6.8 | para- | cymene |
17 | 0.2 | para- | cymenene |
22 | 0.3 | beta- | elemene |
18 | trace | delta- | elemene |
25 | trace | gamma- | elemene |
42 | trace | elemol | |
48 | 0.7 | beta- | eudesmol |
45 | 0.6 | gamma- | eudesmol |
31 | 0.3 | alpha- | farnesene |
39 | 0.4 | geraniol | |
29 | 0.3 | beta- | guaiene |
43 | 1.2 | guaiol | |
28 | 1.6 | alpha- | humulene |
9 | 4.1 | limonene | |
21 | 3.6 | linalool | |
40 | trace | alpha- | maaliene |
46 | trace | alpha- | muurolol |
6 | 0.1 | myrcene | |
14 | trace | (E)-beta- | ocimene |
12 | trace | (Z)-beta- | ocimene |
7 | 0.5 | alpha- | phellandrene |
11 | 0.2 | beta- | phellandrene |
36 | trace | beta-sesqui | phellandrene |
1 | 3.2 | alpha- | pinene |
3 | 0.8 | beta- | pinene |
4 | trace | sabinene | |
33 | 1.5 | alpha- | selinene |
32 | 1.5 | beta- | selinene |
24 | 1.5 | terpinen-4-ol | |
8 | 0.6 | alpha- | terpinene |
13 | 4.6 | gamma- | terpinene |
30 | 8.7 | alpha- | terpineol |
16 | 5.9 | terpinolene | |
26 | trace | thujopsene | |
19 | 0.3 | alpha- | ylangene |
O. Motl, J. Hodacova and K. Ubik, Composition of Vietnamese cajuput essential oil. Flav. Fragr. J., 5, 39-42 (1990). P&F 25, No. 1, 33, (2000) | |||
campomanesia aurea leaf oil brazil | |||
# | % | Leftshift | Components |
21 | 1.00 | dehydroaromadendrane | |
25 | 13.60 | bicyclogermacrene | |
52 | 1.90 | epi-alpha- | bisabolol |
51 | 4.2 | alpha- | bisabolol |
9 | 1.20 | borneol | |
27 | 0.40 | gamma- | cadinene |
29 | 2.10 | delta- | cadinene |
44 | 1.10 | T- | cadinol |
48 | 0.50 | alpha- | cadinol |
30 | 1.50 | alpha- | calacorene |
28 | 1.90 | (Z)- | calamenene |
49 | 3.00 | calamenenol | |
50 | 0.70 | calamenenol | |
17 | 0.30 | beta- | caryophyllene |
16 | 6.20 | iso | caryophyllene |
33 | 1.90 | caryophyllene alcohol | |
35 | 29.00 | caryophyllene oxide | |
38 | 0.90 | copaen-4-alpha-ol | |
14 | 1.40 | alpha- | copaene |
42 | 0.60 | 1-epi- | cubenol |
15 | 0.90 | beta- | elemene |
18 | 1.10 | gamma- | elemene |
47 | 2.40 | beta- | eudesmol |
41 | 0.30 | 10-epi-gamma- | eudesmol |
43 | 1.50 | gamma- | eudesmol |
8 | 0.50 | alpha- | fenchol |
12 | 0.40 | geranial | |
36 | 4.10 | globulol | |
37 | 1.80 | epi- | globulol |
19 | 0.70 | beta- | gurjunene |
20 | 1.30 | alpha- | humulene |
39 | 4.00 | humulene oxide I | |
40 | 1.70 | humulene oxide II | |
32 | 1.00 | ledol | |
3 | 0.50 | limonene | |
5 | 0.60 | para- | mentha-2,4(8)-diene |
22 | 5.00 | gamma- | muurolene |
26 | 0.60 | alpha- | muurolene |
46 | 0.60 | alpha- | muurolol |
31 | 0.80 | (E)- | nerolidol |
53 | 6.70 | (E)- | nerolidol acetate |
4 | 3.30 | (E)-beta- | ocimene |
1 | 16.50 | alpha- | pinene |
2 | 6.10 | beta- | pinene |
23 | 5.20 | beta- | selinene |
24 | 0.40 | alpha- | selinene |
34 | 4.90 | spathulenol | |
10 | 0.50 | terpinen-4-ol | |
11 | 1.40 | alpha- | terpineol |
6 | 0.40 | terpinolene | |
13 | 0.70 | alpha- | ylangene |
cananga odorata flower oil CO2 extract | |||
# | % | Leftshift | Components |
45 | 1.46 | alpha- | amorphene |
28 | 0.17 | (E)- | anethole |
62 | 0.02 | (Z)- | asarone |
4 | 0.59 | benzaldehyde | |
18 | 6.15 | benzyl acetate | |
12 | 0.04 | benzyl alcohol | |
64 | 11.97 | benzyl benzoate | |
71 | 0.04 | benzyl cinnamate | |
67 | 3.66 | benzyl salicylate | |
52 | 0.02 | bisabolene | |
59 | 0.61 | alpha- | bisabolol |
47 | 0.13 | 3- | buten-2-yl benzoate |
53 | 0.19 | delta- | cadinene |
54 | 0.01 | gamma- | cadinene |
42 | 3.96 | beta- | caryophyllene |
43 | 0.21 | alpha- | cedrene |
60 | 0.02 | cedrol | |
9 | 2.73 | 1,8- | cineole |
30 | 0.02 | cinnamic alcohol | |
26 | 0.21 | cinnamic aldehyde | |
41 | 2.28 | cinnamyl acetate | |
37 | 0.93 | alpha- | copaene |
14 | 0.53 | para- | cresol |
8 | 2.00 | para- | cresyl methyl ether |
40 | 0.60 | beta- | cubebene |
23 | 0.10 | 1,4- | dimethoxybenzene |
21 | 0.04 | 3,4- | dimethoxytoluene |
69 | 0.02 | eicosane | |
38 | 0.02 | delta- | elemene |
55 | 0.02 | elemol | |
19 | 0.02 | ethyl benzoate | |
34 | 0.03 | eugenol | |
44 | 0.54 | iso | eugenol |
51 | 14.63 | (E,E)-alpha- | farnesene |
63 | 1.39 | (E,E)- | farnesol |
66 | 2.00 | farnesyl acetate | |
35 | 1.00 | geranyl acetate | |
49 | 20.03 | germacrene D | |
72 | 0.04 | hexacosane | |
70 | 0.23 | hexadecanoic acid | |
1 | 0.11 | 3- | hexen-1-ol |
7 | 0.01 | 3- | hexen-1-yl acetate |
57 | 0.01 | (Z)-3- | hexen-1-yl benzoate |
46 | 0.99 | alpha- | humulene |
31 | 0.13 | indole | |
11 | 0.04 | limonene | |
16 | 16.47 | linalool | |
20 | 0.01 | 2- | methoxy-4-methyl phenol |
29 | 0.04 | methyl 2-methoxybenzoate | |
33 | 0.02 | methyl anthranilate | |
25 | 0.07 | 4- | methyl benzaldoxime |
15 | 2.42 | methyl benzoate | |
48 | 0.14 | methyl eugenol | |
22 | 0.04 | methyl salicylate | |
2 | 0.18 | 2- | methyl-3-butenol |
56 | 0.03 | alpha- | muurolene |
50 | 0.02 | gamma- | muurolene |
61 | 0.06 | alpha- | muurolol |
6 | 0.05 | myrcene | |
58 | 0.02 | nerolidol | |
13 | 0.02 | (E)-beta- | ocimene |
24 | 0.16 | 2- | phenethyl acetate |
68 | 0.02 | 2- | phenethyl benzoate |
10 | 0.03 | phenyl acetaldehyde | |
27 | 0.10 | 2- | phenyl-1-nitroethane |
3 | 0.19 | alpha- | pinene |
5 | 0.07 | beta- | pinene |
32 | 0.02 | 4-(2- | propenyl) phenol |
65 | 0.01 | tetradecanal | |
39 | 0.53 | tetradecane | |
36 | 0.02 | alpha- | ylangene |
E. E. Stashenko, W. Torres and J. R. Martinez Morales, A study of the compositional variation of the essential oil of ylang ylang (Cananga odorata Hook. fil. et Thomson, forma genuina) during flower development. J. High Resol. Chromatogr., 18, 101-104 (1995). P&F 24, No. 4, 31, (1999) | |||
cananga odorata leaf oil | |||
# | % | Leftshift | Components |
21 | 0.4 | alpha- | amorphene |
25 | 0.6 | bicyclogermacrene | |
27 | 3.0 | delta- | cadinene |
26 | 0.8 | gamma- | cadinene |
30 | 0.8 | alpha- | cadinol |
29 | 0.9 | T- | cadinol |
20 | 26.3 | beta- | caryophyllene |
28 | 0.6 | caryophyllene oxide | |
9 | trace | 1,8- | cineole |
17 | 2.9 | alpha- | copaene |
18 | 0.7 | beta- | cubebene |
19 | 1.4 | beta- | elemene |
15 | 1.1 | delta- | elemene |
23 | 11.7 | germacrene D | |
4 | 10.2 | hexanol | |
1 | 2.0 | (E)-2- | hexenal |
3 | 0.2 | (E)-2- | hexen-1-ol |
2 | 3.1 | (Z)-3- | hexen-1-ol |
22 | 6.3 | alpha- | humulene |
8 | 0.4 | limonene | |
12 | 1.9 | linalool | |
24 | 1.1 | alpha- | muurolene |
7 | 0.6 | myrcene | |
10 | trace | (E)-beta- | ocimene |
5 | 14.0 | alpha- | pinene |
6 | 4.5 | beta- | pinene |
13 | trace | terpinen-4-ol | |
14 | 0.3 | alpha- | terpineol |
11 | trace | terpinolene | |
16 | 0.3 | alpha- | ylangene |
F. Fekam Boyom, P. H. Amvam Zollo, C. Menut, G. Lamaty and J. M. Bessière, Aromatic plants of tropical Central Africa. Part XXVII. Comparative study of the volatile constituents of five Annonaceae species growing in Cameroon. Flav. Fragr. J., 11, 333-338 (1996). P&F 24, No. 4, 31, (1999) | |||
cedrela odorata wood oil | |||
# | % | Leftshift | Components |
17 | 0.57 | allo- | aromadendrene |
23 | 0.50 | bicyclogermacrene | |
33 | 0.53 | beta- | bisabolol |
27 | 0.04 | brachyl oxide | |
12 | 1.30 | cadina-1,4-diene | |
13 | 0.16 | alpha- | cadinene |
9 | 11.70 | delta- | cadinene |
10 | 0.20 | gamma- | cadinene |
26 | 0.12 | alpha- | calacorene |
24 | 0.70 | calamenene | |
14 | 3.40 | calarene | |
15 | 1.20 | caryophyllene | |
4 | 15.60 | alpha- | copaene |
1 | 8.00 | alpha- | cubebene |
6 | 3.20 | beta- | cubebene |
30 | 0.96 | cubenol | |
31 | 1.40 | epi- | cubenol |
8 | 6.80 | beta- | curcumene |
7 | 0.10 | beta- | elemene |
2 | 0.44 | delta- | elemene |
16 | 0.12 | gamma- | elemene |
18 | 1.80 | beta- | farnesene |
25 | 0.05 | geranyl acetone | |
21 | 2.60 | germacrene D | |
5 | 0.45 | alpha- | gurjunene |
19 | 2.10 | alpha- | humulene |
20 | 0.55 | ledene | |
22 | 1.00 | alpha- | muurolene |
29 | 8.00 | (E)- | nerolidol |
28 | 0.09 | palustrol | |
11 | 1.00 | sesqui | phellandrene + ar-curcumene |
32 | 0.08 | spathulenol | |
3 | 0.38 | alpha- | ylangene |
E. J. Brunke, E. J. Hammerschmidt and F. H. Koster, Essential Oil of Cedrela odorata L. (Meliaceae) from Brazil-Revised List of Constituents. in Progress in Essential Oil Research. E. J. Brunke, ed. pp. 117-122, Walter de Gruyter, Berlin (1986). P&F 12, No. 3, 58, (1987) | |||
cedrus libanensis wood oil | |||
# | % | Leftshift | Components |
35 | 0.80 | atlantone | |
38 | 2.80 | (E)-alpha- | atlantone |
34 | 0.60 | (E)-gamma- | atlantone |
37 | 0.30 | (Z)-alpha- | atlantone |
36 | 0.60 | (Z)-beta- | atlantone |
33 | 0.40 | (Z)-gamma- | atlantone |
22 | 0.40 | (Z)-alpha- | bisabolene |
27 | >0.10 | alpha- | calacorene |
1 | >0.10 | camphene | |
14 | >0.10 | camphor | |
3 | >0.10 | delta-3- | carene |
17 | 0.20 | alpha- | cedrene |
21 | 1.40 | chamigrene | |
7 | >0.10 | para- | cymene |
24 | 0.80 | alpha- | dehydro-ar-himachalene |
26 | 1.40 | gamma- | dehydro-ar-himachalene |
28 | 0.60 | oxido | himachalene |
9 | >0.10 | fenchone | |
32 | 0.10 | guaiazulene | |
10 | >0.10 | alpha- | gurjunene |
13 | >0.10 | beta- | gurjunene |
18 | 14.20 | alpha- | himachalene |
20 | 31.30 | beta- | himachalene |
19 | 6.90 | gamma- | himachalene |
30 | 0.50 | himachalene oxide | |
29 | 2.20 | beta- | himachalene oxide |
5 | >0.10 | limonene | |
31 | 0.80 | longiborneol | |
16 | 0.50 | longifolene | |
11 | 0.10 | alpha- | longipinene |
39 | 5.60 | manool | |
2 | >0.10 | 4- | methyl-3-penten-2-one |
23 | 0.80 | occidentalol acetate | |
15 | 0.10 | sativene | |
4 | >0.10 | alpha- | terpinene |
6 | >0.10 | gamma- | terpinene |
8 | >0.10 | terpinolene | |
25 | 0.40 | beta- | vetivenene |
12 | >0.10 | alpha- | ylangene |
J. of Ess. Oil Res. 12, No. 6, 763, (2000) | |||
cistus ladaniferus oil morocco | |||
# | % | Leftshift | Components |
40 | 0.80 | alpha- | amorphene |
47 | 0.97 | allo- | aromadendrene |
23 | 1.45 | borneol | |
35 | 2.40 | bornyl acetate | |
52 | 3.00 | delta- | cadinene |
59 | 1.32 | alpha- | cadinol |
58 | 0.81 | T- | cadinol |
53 | 0.31 | alpha- | calacorene |
54 | 0.37 | beta- | calacorene |
21 | 0.74 | camphene hydrate | |
12 | trace | camphenilone | |
17 | 0.78 | alpha- | campholenic aldehyde |
20 | 2.92 | camphor | |
36 | 0.21 | carvacrol | |
31 | 1.22 | cis- | carveol |
33 | 0.31 | carvone | |
45 | trace | beta- | caryophyllene |
7 | trace | 1,8- | cineole |
41 | 0.79 | alpha- | copaene |
38 | 0.30 | alpha- | cubebene |
42 | 0.19 | beta- | cubebene |
57 | 1.71 | cubenol | |
32 | 0.77 | cuminaldehyde | |
25 | 0.19 | para- | cymen-8-ol |
4 | 0.30 | ortho- | cymene |
13 | 0.43 | para- | cymene |
16 | 0.57 | 2,6- | dimethyl cyclohexanol |
2 | trace | 3,5- | dimethyl phenol |
30 | trace | alpha- | fenchyl acetate |
34 | 0.35 | geraniol | |
44 | 0.42 | alpha- | gurjunene |
46 | 0.19 | beta- | gurjunene |
43 | trace | iso | italicene |
50 | 0.45 | ledene | |
55 | 0.42 | ledol | |
5 | trace | limonene | |
11 | 0.15 | (Z)-para- | menth-2-en-1-ol |
51 | 0.62 | alpha- | muurolene |
48 | 0.18 | gamma- | muurolene |
28 | trace | myrtanol | |
27 | 1.35 | myrtenal | |
6 | 0.25 | beta- | phellandrene |
37 | 0.06 | phenyl propionic acid | |
1 | 0.37 | alpha- | pinene |
15 | 0.23 | alpha- | pinene oxide |
19 | 2.47 | trans- | pinocarveol |
22 | 1.11 | pinocarvone | |
18 | 0.16 | (E)- | rose oxide |
24 | 0.70 | terpinen-4-ol | |
3 | trace | alpha- | terpinene |
9 | 0.35 | gamma- | terpinene |
26 | 0.30 | alpha- | terpineol |
14 | 0.43 | terpinolene | |
10 | 0.35 | 3,5,5- | trimethyl cyclohex-2-en-1-one |
8 | 0.75 | 2,2,6- | trimethyl cyclohexanone |
49 | 0.16 | valencene | |
29 | 0.19 | verbenone | |
56 | 12.81 | viridiflorol | |
39 | 0.80 | alpha- | ylangene |
N. Mrabet, S. Zrira, M. M. Ismaili-Alaoui, H. Lahloa and B. Benjilali, Essential oils and resin gum from Moroccan Cistus, “Cistus ladaniferus L." Rivista Ital. EPPOS, (Numero Speciale), 622-630 (1997). P&F 24, No. 4, 31, (1999) | |||
geranium oil bourbon | |||
# | % | Leftshift | Components |
0.18 | furopelargone B | ||
1.42 | citronellyl tiglate | ||
0.43 | beta- | bourbonene | |
0.39 | beta- | caryophyllene | |
21.56 | citronellol | ||
0.14 | citronellyl acetate | ||
0.31 | citronellyl butyrate | ||
4.81 | citronellyl formate | ||
0.12 | alpha- | copaene | |
0.05 | para- | cymene | |
6.01 | 10-epi-gamma- | eudesmol | |
25.47 | geraniol | ||
0.23 | geranyl acetate | ||
0.22 | geranyl butyrate | ||
2.15 | geranyl formate | ||
0.13 | geranyl propionate | ||
1.25 | geranyl tiglate | ||
0.09 | germacrene D | ||
0.08 | guaia-6,9-diene | ||
0.07 | (E)-2- | hexenal | |
0.80 | (Z)-3- | hexen-1-ol | |
0.42 | alpha- | humulene | |
0.43 | limonene | ||
13.07 | linalool | ||
0.13 | (E)- | linalool oxide | |
0.23 | (Z)- | linalool oxide | |
6.79 | iso | menthone | |
0.13 | menthone | ||
2.27 | myrcene | ||
1.09 | neral | ||
0.88 | (E)-beta- | ocimene | |
0.59 | (Z)-beta- | ocimene | |
0.12 | alpha- | phellandrene | |
0.77 | 2- | phenethyl tiglate | |
0.24 | alpha- | pinene | |
0.29 | piperitone | ||
0.31 | (Z)- | rose oxide | |
0.13 | (E)- | rose oxide | |
0.21 | sabinene | ||
0.79 | alpha- | terpineol | |
0.08 | terpinolene | ||
0.05 | alpha- | ylangene | |
geranium petiole oil india | |||
# | % | Leftshift | Components |
28 | 0.08 | beta- | bourbonene |
36 | 0.15 | gamma- | cadinene |
37 | 0.06 | calamenene | |
30 | 0.11 | beta- | caryophyllene |
16 | 30.87 | citronellol + nerol | |
23 | 1.27 | citronellyl acetate | |
20 | 1.85 | citronellyl formate | |
31 | 0.05 | citronellyl propionate | |
45 | 3.93 | citronellyl tiglate | |
25 | 0.10 | alpha- | cubebene |
4 | 0.06 | para- | cymene |
42 | 7.88 | 10-epi-gamma- | eudesmol |
44 | 0.23 | beta- | eudesmol |
40 | 0.06 | furopelargone B | |
19 | 3.31 | geranial | |
18 | 24.16 | geraniol | |
26 | 0.48 | geranyl acetate | |
38 | 0.08 | geranyl butyrate | |
21 | 1.76 | geranyl formate | |
48 | 0.19 | geranyl heptanoate | |
47 | 0.22 | geranyl hexanoate | |
41 | 0.22 | geranyl isovalerate | |
32 | 0.06 | geranyl propionate | |
46 | 4.05 | geranyl tiglate | |
43 | 0.37 | geranyl valerate | |
33 | 0.30 | alpha- | humulene |
5 | 0.11 | limonene | |
9 | 2.04 | linalool | |
8 | 0.07 | (E)- | linalool oxide furanoid |
7 | 0.12 | (Z)- | linalool oxide furanoid |
13 | 1.27 | menthone | |
14 | 0.72 | iso | menthone |
35 | 0.34 | alpha- | muurolene |
3 | 0.09 | myrcene | |
24 | 0.15 | neryl acetate | |
6 | 0.13 | (E)-beta- | ocimene |
22 | 0.09 | 2- | phenethyl acetate |
11 | 0.10 | 2- | phenethyl alcohol |
29 | 0.14 | 2- | phenethyl butyrate |
39 | 1.45 | 2- | phenethyl tiglate |
1 | 0.13 | alpha- | pinene |
17 | 0.08 | piperitone | |
12 | 0.08 | (E)- | rose oxide |
10 | 0.10 | (Z)- | rose oxide |
2 | 0.07 | sabinene | |
34 | 0.12 | alpha- | selinene |
15 | 0.29 | alpha- | terpineol |
27 | 0.05 | alpha- | ylangene |
G. R. Mallavarapu, B. R. Rajeswara Rao, P. N. Kaul and S. Ramesh, Contribution of the essential oils of leaf, petiole and stem of scented geranium to the odour of geranium oil. J. Medicin. Arom. Plant Sci., 19, 1020-1023 (1997). P&F 24, No. 1, 53, (1999) | |||
geranium stem oil india | |||
# | % | Leftshift | Components |
35 | 0.15 | beta- | bourbonene |
43 | 0.35 | calamenene | |
37 | 0.07 | beta- | caryophyllene |
22 | 25.87 | citronellol + nerol | |
30 | 2.81 | citronellyl acetate | |
26 | 4.92 | citronellyl formate | |
38 | 0.09 | citronellyl propionate | |
51 | 1.88 | citronellyl tiglate | |
34 | 0.29 | alpha- | copaene |
31 | 0.29 | alpha- | cubebene |
9 | 0.08 | para- | cymene |
48 | 2.46 | 10-epi-gamma- | eudesmol |
50 | 0.39 | beta- | eudesmol |
46 | 0.31 | furopelargone B | |
25 | 3.41 | geranial | |
24 | 9.51 | geraniol | |
32 | 0.29 | geranyl acetate | |
44 | 0.07 | geranyl butyrate | |
28 | 2.31 | geranyl formate | |
54 | 0.21 | geranyl heptanoate | |
53 | 0.10 | geranyl hexanoate | |
47 | 0.08 | geranyl isovalerate | |
55 | 0.54 | geranyl octanoate | |
52 | 1.84 | geranyl tiglate | |
49 | 0.11 | geranyl valerate | |
39 | 0.09 | guaia-6,9-diene | |
1 | 0.05 | (E)-2- | hexenal |
2 | 0.32 | (Z)-3- | hexen-1-ol |
40 | 0.30 | alpha- | humulene |
10 | 0.13 | limonene | |
14 | 13.25 | linalool | |
13 | 0.98 | (E)- | linalool oxide furanoid |
12 | 0.13 | (Z)- | linalool oxide furanoid |
18 | 1.32 | menthone | |
19 | 7.33 | iso | menthone |
42 | 0.08 | alpha- | muurolene |
6 | 0.76 | myrcene | |
27 | 0.10 | neryl formate | |
11 | 0.16 | (E)-beta- | ocimene |
7 | 0.09 | alpha- | phellandrene |
29 | 0.25 | 2- | phenethyl acetate |
16 | 0.26 | 2- | phenethyl alcohol |
36 | 0.10 | 2- | phenethyl butyrate |
45 | 1.09 | 2- | phenethyl tiglate |
3 | 0.10 | alpha- | pinene |
5 | 0.09 | beta- | pinene |
23 | 0.10 | piperitone | |
17 | 0.11 | (E)- | rose oxide |
15 | 0.16 | (Z)- | rose oxide |
4 | 0.15 | sabinene | |
41 | 0.09 | alpha- | selinene |
20 | 0.12 | terpinen-4-ol | |
8 | 0.11 | alpha- | terpinene |
21 | 2.42 | alpha- | terpineol |
33 | 0.23 | alpha- | ylangene |
G. R. Mallavarapu, B. R. Rajeswara Rao, P. N. Kaul and S. Ramesh, Contribution of the essential oils of leaf, petiole and stem of scented geranium to the odour of geranium oil. J. Medicin. Arom. Plant Sci., 19, 1020-1023 (1997). P&F 24, No. 1, 53, (1999) | |||
juniperus communis branch oil | |||
# | % | Leftshift | Components |
35 | 0.20 | alpha- | bisabolol |
18 | 0.15 | bornyl acetate | |
30 | 2.60 | delta- | cadinene |
3 | 0.20 | camphene | |
8 | 0.60 | delta-3- | carene |
31 | 0.20 | caryophyllene oxide | |
33 | 0.10 | cedranone | |
34 | 0.40 | cedranone | |
24 | 3.00 | beta- | cedrene + beta-caryophyllene |
23 | 2.70 | alpha- | cedrene + unknown |
32 | 2.60 | cedrol | |
21 | 0.30 | alpha- | copaene |
20 | 0.50 | alpha- | cubebene |
29 | 5.20 | cuparene | |
10 | 0.90 | para- | cymene |
14 | 0.15 | alpha-para- | dimethyl styrene |
28 | 0.70 | germacrene D | |
26 | 1.00 | alpha- | humulene |
11 | 2.00 | limonene | |
22 | 0.50 | iso | longifolene |
6 | 1.80 | myrcene | |
12 | <0.10 | (E)-beta- | ocimene |
7 | 0.30 | alpha- | phellandrene |
2 | 18.70 | alpha- | pinene |
5 | 1.20 | beta- | pinene |
4 | 5.00 | sabinene | |
16 | 2.00 | terpinen-4-ol | |
9 | 1.10 | alpha- | terpinene |
13 | 1.80 | gamma- | terpinene |
17 | 0.20 | alpha- | terpineol |
15 | 1.00 | terpinolene | |
19 | 0.10 | alpha- | terpinyl acetate |
1 | 1.30 | alpha- | thujene |
25 | 25.30 | thujopsene | |
27 | 1.20 | alpha- | ylangene |
J. P. Bats, J. J. Moulines, G. Bourgeois, C. Vacchiano, D. Coutiere and J. F. Armudo, Chemical composition of an industrial essential oil from Juniper branches (Junipmus communis L.). Proceedings 11th Intl, Congress of Essential Oils, Fragances and Flavors, Edits., S. C. Bhattacharyya, N. Sen and K. L. Sethi, vol. 4,37-41, Oxford and IBTT Publ. Co., New Delhi ( 1989). P&F 19, No. 1, 31, (1994) | |||
laurus nobilis leaf oil turkey | |||
# | % | Leftshift | Components |
84 | 0.10 | (E)- | anethole |
139 | 0.20 | anhydrooplopanone | |
16 | trace | benzaldehyde | |
123 | 0.10 | bicyclogermacrene | |
129 | 0.20 | alpha- | bisabolene |
55 | 0.30 | borneol | |
83 | 0.70 | bornyl acetate | |
101 | 0.10 | bourbonene | |
23 | <0.10 | iso | butyl 2-methyl butyrate |
9 | trace | iso | butyl isobutyrate |
152 | 0.10 | cadalene | |
128 | trace | cadina-1,4-diene | |
125 | 0.30 | gamma- | cadinene |
126 | 0.40 | delta- | cadinene |
146 | trace | T- | cadinol |
150 | 0.10 | alpha- | cadinol |
130 | 0.10 | alpha- | calacorene |
133 | 0.10 | beta- | calacorene |
127 | 0.10 | calamenene | |
15 | 0.70 | camphene | |
47 | <0.10 | alpha- | campholenic aldehyde |
25 | <0.10 | delta-3- | carene |
89 | 0.10 | carvacrol | |
71 | 0.20 | trans- | carveol |
74 | 0.10 | cis- | carveol |
78 | 0.10 | carvone | |
95 | 0.10 | cis- | carvyl acetate |
145 | 0.60 | 3(15),7(14)- | caryophylladien-6-ol |
106 | 0.40 | beta- | caryophyllene |
136 | 0.90 | caryophyllene oxide | |
29 | 21.80 | 1,8- | cineole |
92 | 0.40 | 1,8- | cineole-2-yl acetate |
108 | 0.70 | cinnamyl acetate | |
100 | <0.10 | alpha- | copaene |
77 | 0.10 | cuminaldehyde | |
105 | <0.10 | cuminyl acetate | |
87 | 0.10 | cuminyl alcohol | |
60 | 0.20 | para- | cymen-8-ol |
27 | 1.50 | para- | cymene |
38 | <0.10 | para- | cymenene |
114 | 0.30 | (E)-3- | decen-1-yl acetate |
154 | 0.20 | dehydrocostus lactone | |
75 | <0.10 | 2,3- | dimethoxytoluene |
96 | trace | 2- | dodecanone |
102 | 0.60 | beta- | elemene |
131 | 0.30 | elemicin | |
147 | 0.30 | (E)-iso | elemicin |
21 | 0.20 | 1,8- | epoxy-2-para-menthene |
155 | 0.10 | eremanthin | |
2 | trace | ethyl 2-methyl butyrate | |
3 | trace | ethyl isovalerate | |
149 | 0.30 | alpha- | eudesmol |
148 | 1.10 | beta- | eudesmol |
142 | <0.10 | 10-epi-gamma- | eudesmol |
144 | trace | gamma- | eudesmol |
94 | 2.90 | eugenol | |
111 | 0.20 | (E)-iso | eugenol |
118 | <0.10 | (Z,E)-alpha- | farnesene |
153 | <0.10 | farnesyl acetone | |
14 | <0.10 | alpha- | fenchene |
110 | trace | geranyl acetone | |
115 | 0.10 | germacrene D | |
109 | <0.10 | guaia-6,9-diene | |
107 | 0.10 | alpha- | guaiene |
104 | <0.10 | alpha- | gurjunene |
22 | trace | 2,4- | heptadienal |
1 | <0.10 | hexanal | |
7 | <0.10 | hexanol | |
4 | <0.10 | (E)-2- | hexenal |
6 | trace | (E)-2- | hexen-1-ol |
5 | 0.10 | (E)-3- | hexen-1-ol |
41 | 0.10 | hotrienol | |
113 | 0.10 | alpha- | humulene |
140 | 0.10 | humulene oxide | |
151 | 0.30 | intermedeol | |
51 | 0.10 | ipsdienol | |
141 | 0.20 | laevo- | junenol |
138 | 0.30 | ledol | |
28 | 1.50 | limonene | |
39 | 2.00 | linalool | |
36 | <0.10 | (E)- | linalool oxide furanoid |
35 | <0.10 | (Z)- | linalool oxide furanoid |
49 | 0.20 | (Z)-para- | menth-2-en-1-ol |
46 | 0.20 | (E)-para- | menth-2-en-1-ol |
91 | 0.10 | para- | mentha-1,4-dien-7-ol |
57 | 0.20 | para- | mentha-1,5-dien-8-ol |
64 | 0.20 | para- | mentha-1(7),2-dien-8-ol |
61 | 0.30 | (E)-para- | mentha-1(7),8-dien-2-ol |
73 | 0.30 | (Z)-para- | mentha-1(7),8-dien-2-ol |
48 | 0.10 | (Z)-para- | mentha-2,8-dien-1-ol |
45 | 0.10 | (E)-para- | mentha-2,8-dien-1-ol |
42 | <0.10 | para- | menthatriene |
67 | <0.10 | methyl chavicol | |
103 | 3.50 | methyl eugenol | |
120 | 0.40 | (E)- | methyl isoeugenol |
65 | trace | methyl salicylate | |
19 | <0.10 | 6- | methyl-5-hepten-2-one |
121 | 0.10 | gamma- | muurolene |
124 | trace | alpha- | muurolene |
20 | 0.60 | myrcene | |
68 | 0.40 | myrtenal | |
72 | 0.10 | nerol | |
52 | 0.10 | nerol oxide | |
132 | 0.10 | (E)- | nerolidol |
99 | <0.10 | neryl acetate | |
31 | trace | 2- | nonanone |
30 | <0.10 | (E)-beta- | ocimene |
134 | trace | palustrol | |
81 | 0.10 | phellandral | |
24 | 0.20 | alpha- | phellandrene |
97 | 0.10 | 3- | phenyl propyl acetate |
12 | 4.60 | alpha- | pinene |
18 | 4.00 | beta- | pinene |
50 | 0.10 | trans- | pinocarveol |
54 | 0.20 | pinocarvone | |
88 | 0.10 | pinocarvyl acetate | |
34 | <0.10 | pinol | |
43 | 0.10 | iso | pinol |
66 | <0.10 | (Z)- | piperitol |
69 | 0.10 | (E)- | piperitol |
79 | trace | piperitone | |
8 | trace | iso | propyl 2-methyl butyrate |
62 | trace | 4-iso | propyl-2-cyclohexenone |
53 | 0.10 | sabinaketone | |
17 | 5.30 | sabinene | |
33 | <0.10 | (E)- | sabinene hydrate |
40 | trace | (Z)- | sabinene hydrate |
76 | trace | sabinol | |
86 | 0.10 | sabinyl acetate | |
112 | trace | selina-4(15),5-diene | |
119 | 0.30 | beta- | selinene |
122 | 0.30 | alpha- | selinene |
116 | trace | gamma- | selinene |
135 | 0.80 | spathulenol | |
59 | 4.30 | terpinen-4-ol | |
26 | 1.30 | alpha- | terpinene |
32 | 1.80 | gamma- | terpinene |
63 | 3.10 | alpha- | terpineol |
56 | 0.60 | delta- | terpineol |
37 | 0.70 | terpinolene | |
90 | 0.90 | delta- | terpinyl acetate |
93 | 9.80 | alpha- | terpinyl acetate |
13 | 0.10 | 2,4(10)- | thujadiene |
80 | 0.50 | 4- | thujen-2-alpha-yl acetate |
11 | 0.60 | alpha- | thujene |
44 | trace | beta- | thujone |
82 | trace | thymol | |
10 | <0.10 | tricyclene | |
117 | 0.10 | 2- | tridecanone |
58 | trace | umbellulone | |
85 | 0.20 | 2- | undecanone |
143 | 0.20 | valerianol | |
70 | <0.10 | verbenone | |
137 | 0.30 | viridiflorol | |
98 | 0.10 | alpha- | ylangene |
J. of Ess. Oil Res. 13, No. 2, 95, (2001) | |||
lavandula latifolia herb oil spain | |||
In 1996, Guillen et a!. analyzed an oil of spike lavender produced from plants cultivated in northeastern Spain. The components identified in this oil on using GC and GC/ MS as the analytical procedures were as follows: | |||
# | % | Leftshift | Components |
40 | 0.11 | bergamotene | |
39 | 0.13 | bergamotene | |
43 | 0.22 | bergamotene | |
50 | 0.24 | beta- | bisabolene |
56 | 0.23 | alpha- | bisabolol |
55 | 0.02 | alpha- | bisabolol oxide |
17 | 1.13 | borneol | |
30 | 0.10 | bornyl acetate | |
26 | 0.11 | bornyl formate | |
35 | 0.17 | iso | bornyl isovalerate |
37 | 0.19 | beta- | bourbonene |
42 | 0.01 | beta- | cadinene |
51 | 0.12 | gamma- | cadinene |
54 | 0.08 | T- | cadinol |
5 | 0.56 | camphene | |
15 | 13.60 | camphor | |
41 | 0.47 | beta- | caryophyllene |
52 | 1.59 | caryophyllene oxide | |
10 | 31.31 | 1,8- | cineole |
38 | 0.02 | beta- | cubebene |
49 | 0.01 | ar- | curcumene |
19 | 0.07 | epoxylinalool | |
45 | 0.03 | farnesene | |
47 | 0.06 | farnesene | |
46 | 0.11 | farnesene | |
53 | 0.03 | farnesol | |
48 | 0.08 | germacrene A | |
25 | 0.05 | hexen-1-yl butyrate | |
27 | 0.42 | hexyl 2-methyl butyrate | |
24 | 0.37 | hexyl butyrate | |
33 | 0.03 | hexyl hexanoate | |
23 | 0.15 | hexyl isobutyrate | |
32 | 0.10 | hexyl tiglate | |
28 | 0.19 | hexyl valerate | |
44 | 0.30 | alpha- | humulene |
14 | 36.94 | linalool | |
13 | 0.05 | (E)- | linalool oxide |
12 | 0.77 | (Z)- | linalool oxide |
29 | 0.10 | linalyl acetate | |
34 | 0.03 | linalyl butyrate | |
7 | 0.15 | myrcene | |
31 | 0.02 | neryl acetate | |
3 | 1.11 | alpha- | pinene |
4 | 1.48 | beta- | pinene |
16 | 0.04 | pinocamphone | |
6 | 0.47 | sabinene | |
11 | 0.61 | (Z)- | sabinene hydrate |
18 | 0.19 | terpinen-4-ol | |
8 | 0.33 | alpha- | terpinene |
21 | 0.79 | alpha- | terpineol |
9 | 0.69 | terpinolene | |
2 | 0.02 | alpha- | thujene |
1 | 0.05 | tricyclene | |
20 | 0.24 | 1,1,3- | trimethyl-2-oxobicyclo(2.2.2)octan-5-one |
22 | 0.12 | verbenone | |
36 | 0.02 | alpha- | ylangene |
M. D. Guillen, N. Cabo and J. Burillo, Characterization of the essential oils of some cultivated aromatic plants of industrial interest. J. Sci. Food Agric., 70, 359-363 (1996). P&F 26, No. 3, 66, (2001) | |||
leptospermum scoparium branch/leaf oil new zealand | |||
Porter and Wilkins (1998) reported the results of a GC and CC/MS analysis of manuka oil produced in New Zealand. The components identified in this somewhat uncommon oil were found to be: | |||
# | % | Leftshift | Components |
30 | 0.33 | alpha- | amorphene |
29 | 3.81 | gamma- | amorphene |
11 | 0.05 | iso | amyl 2-methyl butyrate |
12 | 0.13 | iso | amyl isovalerate |
17 | 0.09 | iso | amyl tiglate |
25 | 2.09 | aromadendrene | |
28 | 0.80 | allo- | aromadendrene |
38 | 5.94 | cadina-1,4-diene | |
26 | 4.88 | cadina-3,5-diene | |
36 | 6.02 | gamma- | cadinene |
35 | 14.42 | calamenene | |
24 | 2.63 | beta- | caryophyllene |
41 | 0.25 | caryophyllene oxide | |
6 | 0.22 | 1,8- | cineole |
21 | 5.86 | alpha- | copaene |
27 | 0.37 | beta- | copaene |
19 | 3.95 | alpha- | cubebene |
5 | 0.16 | para- | cymene |
22 | 0.55 | beta- | elemene |
34 | 0.84 | alpha- | farnesene |
37 | 4.91 | flavesone | |
23 | 1.02 | alpha- | gurjunene |
43 | 0.23 | ledol | |
45 | 15.54 | leptospermone | |
44 | 4.62 | iso | leptospermone |
7 | 0.10 | limonene | |
10 | 0.10 | linalool | |
13 | 0.05 | 2- | methyl butyl isovalerate |
33 | 0.77 | alpha- | muurolene |
4 | 0.24 | myrcene | |
39 | 0.24 | (E)- | nerolidol |
2 | 1.31 | alpha- | pinene |
3 | 0.12 | beta- | pinene |
14 | 0.24 | iso | prenyl isovalerate |
18 | 0.03 | iso | prenyl tiglate |
31 | 3.67 | beta- | selinene |
32 | 4.35 | alpha- | selinene + viridiflorene |
40 | 0.52 | spathulenol | |
15 | 0.04 | terpinen-4-ol | |
8 | 0.16 | gamma- | terpinene |
16 | 0.09 | alpha- | terpineol |
9 | 0.05 | terpinolene | |
1 | 0.03 | alpha- | thujene |
42 | 0.46 | viridiflorol | |
20 | 0.32 | alpha- | ylangene |
N. G. Porter, P. E. Smale, M. A. Nelson, A. J. Hay, J. W. van Klink and C. M. Dean, Variability in essential oil chemistry and plant morphology within a Leptospermum population. New Zealand J. Bot., 36, 125-133 (1998). P&F 26, No. 2, 22, (2001) | |||
mikania cordata (burm. f.) b.l. robinson var. cordata leaf oil france | |||
# | % | Leftshift | Components |
24 | 0.40 | aromadendrene | |
29 | 0.80 | bicyclogermacrene | |
33 | 0.50 | (Z)-gamma- | bisabolene |
19 | 0.80 | beta- | bourbonene |
47 | 0.60 | cadinadienol | |
34 | 1.10 | gamma- | cadinene |
37 | 2.60 | delta- | cadinene |
44 | 0.10 | T- | cadinol |
46 | 1.60 | alpha- | cadinol |
36 | 0.20 | (Z)- | calamenene |
45 | 0.10 | (Z)- | calamenenol |
22 | 11.80 | beta- | caryophyllene |
41 | 0.90 | caryophyllene oxide | |
18 | 2.00 | alpha- | copaene |
23 | 0.40 | beta- | copaene |
11 | 0.10 | cryptone | |
15 | 0.10 | alpha- | cubebene |
35 | 0.20 | cubebol | |
30 | 0.10 | 1-epi- | cubenol |
16 | 0.60 | cyclosativene | |
7 | 0.40 | para- | cymene |
21 | 2.10 | beta- | elemene |
14 | 0.50 | delta- | elemene |
28 | 0.50 | (Z,E)-alpha- | farnesene |
32 | 1.30 | germacrene A | |
38 | 1.40 | germacrene B | |
27 | 21.60 | germacrene D | |
40 | 0.30 | germacrene D-4-ol | |
25 | 6.10 | alpha- | humulene |
42 | 2.70 | humulene oxide II | |
9 | 1.10 | limonene | |
10 | 0.50 | linalool | |
26 | 1.10 | gamma- | muurolene |
31 | 1.10 | alpha- | muurolene |
39 | 0.70 | (E)- | nerolidol |
5 | 0.90 | 2- | pentyl furan |
8 | 0.80 | beta- | phellandrene |
6 | 0.10 | phenyl acetaldehyde | |
2 | 9.60 | alpha- | pinene |
4 | 5.20 | beta- | pinene |
3 | 1.30 | sabinene | |
20 | 1.40 | sativene | |
12 | 0.50 | terpinen-4-ol | |
13 | 0.50 | alpha- | terpineol |
1 | 1.30 | alpha- | thujene |
43 | 0.10 | widdrol | |
17 | 0.90 | alpha- | ylangene |
J. of Ess. Oil Res. 13, No. 1, 31, (2001) | |||
persea americana fruit oil cuba | |||
# | % | Leftshift | Components |
10 | trace | benzothiazole | |
18 | 3.00 | (E)-alpha- | bergamotene |
22 | 2.30 | bicyclogermacrene | |
24 | 15.90 | beta- | bisabolene |
25 | 5.00 | delta- | cadinene |
17 | 6.40 | beta- | caryophyllene |
13 | 9.40 | alpha- | copaene |
14 | 3.20 | beta- | cubebene |
11 | 1.40 | cyclosativene | |
5 | trace | para- | cymene |
9 | 9.40 | (E,Z)-2,4- | decadienal |
27 | 3.20 | 1,10- | di-epi-cubenol |
31 | 8.90 | 1- | eicosene |
15 | trace | beta- | elemene |
1 | trace | ethyl acetate | |
23 | 1.40 | (E,E)-alpha- | farnesene |
19 | 2.20 | (E)-beta- | farnesene |
20 | 9.50 | germacrene D | |
21 | trace | (E)- | ionone |
6 | 2.80 | limonene | |
7 | trace | linalool | |
4 | 2.30 | myrcene | |
26 | 90.00 | (E)- | nerolidol |
29 | 3.80 | (E)- | nerolidol acetate |
30 | 2.40 | pimaradiene | |
2 | 5.20 | alpha- | pinene |
3 | 30.40 | beta- | pinene |
8 | 3.20 | terpinen-4-ol | |
28 | 2.80 | 2,4- | tetradecadienal |
16 | 1.60 | 1- | tetradecene |
12 | trace | alpha- | ylangene |
(ug/kg) J. of Ess. Oil Res. 12, No. 3, 377, (2000) | |||
phlomis fruticosa l. flower oil greece | |||
# | % | Leftshift | Components |
24 | 0.40 | beta- | bisabolene |
25 | 12.60 | gamma- | bisabolene |
32 | 3.50 | beta- | bisabolol |
13 | 2.60 | beta- | bourbonene |
26 | 1.80 | delta- | cadinene |
31 | 1.10 | alpha- | cadinol |
16 | 8.70 | beta- | caryophyllene |
28 | 1.90 | caryophyllene oxide | |
29 | 1.00 | epi- | cedrol |
12 | 1.20 | alpha- | copaene |
10 | 1.90 | alpha- | cubebene |
14 | 0.80 | beta- | cubebene |
23 | 0.30 | cuparene | |
8 | 0.30 | decanal | |
15 | 0.30 | beta- | elemene |
9 | 0.20 | delta- | elemene |
19 | 1.20 | (E)-beta- | farnesene |
17 | 0.80 | (Z)-beta- | farnesene |
27 | 0.90 | germacrene B | |
20 | 17.80 | germacrene D | |
36 | 0.60 | heneicosane | |
35 | 3.60 | hexadecanoic acid | |
18 | 1.20 | alpha- | humulene |
4 | 0.40 | limonene | |
6 | 0.70 | linalool | |
22 | 0.30 | alpha- | muurolene |
30 | 1.00 | epi-alpha- | muurolol |
34 | 0.30 | nonadecane | |
7 | 0.50 | nonanal | |
5 | 0.30 | (Z)-beta- | ocimene |
2 | 8.90 | alpha- | pinene |
3 | 0.20 | beta- | pinene |
1 | 0.40 | alpha- | thujene |
37 | 2.30 | tricosane | |
33 | 3.10 | 6,10,14- | trimethyl-2-pentadecanone |
11 | 1.70 | alpha- | ylangene |
21 | 0.80 | zingiberene | |
J. of Ess. Oil Res. 12, No. 3, 355, (2000) | |||
phoebe porosa mez. oil brazil | |||
# | % | Leftshift | Components |
31 | 0.66 | 1,10- | aristolene |
35 | 0.11 | aromadendrene | |
39 | 2.67 | allo- | aromadendrene |
33 | 2.54 | (E)-alpha- | bergamotene |
28 | 0.51 | (Z)-alpha- | bergamotene |
70 | 3.33 | alpha- | bisabolol |
69 | 2.50 | beta- | bisabolol |
15 | 0.01 | borneol | |
49 | 0.11 | cadina-1(10),4-diene | |
48 | 3.28 | delta- | cadinene |
46 | 1.20 | gamma- | cadinene |
50 | 1.06 | alpha- | calacorene |
59 | 1.20 | alpha- | calacorene epoxide |
47 | 1.47 | calamenene | |
3 | 0.03 | camphene | |
8 | 0.20 | delta-3- | carene |
30 | 1.15 | beta- | caryophyllene |
54 | 1.09 | beta- | caryophyllene oxide |
29 | 0.11 | alpha- | cedrene |
11 | 0.45 | 1,8- | cineole |
25 | 6.25 | alpha- | copaene |
21 | 0.42 | alpha- | cubebene |
41 | 2.49 | beta- | curcumene |
23 | 0.33 | cyclosativene | |
9 | 0.38 | para- | cymene |
27 | 0.44 | beta- | elemene |
20 | 0.06 | delta- | elemene |
51 | 0.59 | elemol | |
60 | 8.78 | eremoligenol | |
61 | 2.55 | eremophil-9,10-en-11-ol | |
58 | 2.12 | 10-epi-gamma- | eudesmol |
68 | 2.36 | 7-epi-delta- | eudesmol |
67 | 2.37 | alpha- | eudesmol |
65 | 6.86 | beta- | eudesmol |
62 | 0.12 | gamma- | eudesmol |
37 | 1.28 | (E)-beta- | farnesene |
34 | 0.63 | (Z)-beta- | farnesene + alpha-amorphene |
18 | 0.15 | geraniol | |
22 | 0.05 | geranyl acetate | |
36 | 0.23 | guaia-3,7-diene | |
32 | 0.50 | gamma- | gurjunene |
63 | 3.25 | hinesol | |
38 | 1.36 | alpha- | humulene |
56 | 1.08 | humulene oxide I | |
57 | 0.70 | ledol | |
10 | 0.10 | limonene | |
14 | 0.11 | linalool | |
45 | 0.10 | alpha- | muurolene |
40 | 0.22 | gamma- | muurolene |
6 | 0.04 | myrcene | |
52 | 0.74 | (E)- | nerolidol |
7 | 0.08 | alpha- | phellandrene |
2 | 1.29 | alpha- | pinene |
5 | 0.34 | beta- | pinene |
4 | 0.03 | sabinene | |
19 | 0.70 | safrole | |
43 | 1.07 | alpha- | selinene |
42 | 1.15 | beta- | selinene |
53 | 0.66 | spathulenol | |
16 | 0.29 | terpinen-4-ol | |
12 | 0.03 | gamma- | terpinene |
17 | 0.07 | alpha- | terpineol |
13 | 0.01 | terpinolene | |
1 | 0.04 | alpha- | thujene |
26 | 1.95 | sesqui | thujene |
64 | 0.78 | torreyol | |
66 | 7.55 | valerianol | |
44 | 0.77 | viridiflorene | |
55 | 1.19 | viridiflorol | |
24 | 0.44 | alpha- | ylangene |
T. Reynolds and G. Kite, Volatile constituents of Phoebe pomsa Mez. J. Essent. Oil Res., 7, 415-418 (1995). P&F 20, No. 6, 35, (1995) | |||
piper cernum vell. var. cernum yuncker leaf oil brazil | |||
# | % | Leftshift | Components |
19 | 1.60 | alpha- | agarofuran |
26 | 0.20 | bulnesol | |
18 | 1.30 | delta- | cadinene |
24 | 2.40 | alpha- | cadinol |
2 | 5.30 | camphene | |
6 | 0.40 | delta-3- | carene |
14 | 2.30 | beta- | caryophyllene |
12 | 0.20 | alpha- | copaene |
10 | 0.30 | alpha- | cubebene |
17 | 32.30 | (Z)- | dihydroagarofuran |
13 | 0.60 | beta- | elemene |
9 | 0.20 | delta- | elemene |
20 | 6.70 | beta- | elemol |
21 | 7.10 | 10-epi-gamma- | eudesmol |
23 | 1.60 | beta- | eudesmol |
22 | 1.00 | gamma- | eudesmol |
15 | 0.90 | alpha- | humulene |
7 | 0.70 | limonene | |
8 | 0.30 | para- | mentha-1,3,8-triene |
16 | 2.90 | gamma- | muurolene |
5 | 0.50 | myrcene | |
1 | 10.20 | alpha- | pinene |
4 | 7.40 | beta- | pinene |
3 | 3.50 | sabinene | |
25 | 2.10 | valerianol | |
11 | 0.90 | alpha- | ylangene |
J. of Ess. Oil Res. 12, No. 4, 443, (2000) | |||
piper cubeba fruit oil | |||
# | % | Leftshift | Components |
29 | 1.67 | allo- | aromadendrene |
52 | 1.39 | (E)- | asarone |
48 | 0.37 | bisabolol | |
37 | trace | delta- | cadinene |
39 | trace | calamenene | |
15 | 0.04 | camphor | |
20 | trace | carvone | |
27 | 1.69 | beta- | caryophyllene |
25 | 4.01 | alpha- | copaene |
23 | 1.65 | alpha- | cubebene |
26 | 4.39 | beta- | cubebene |
38 | 15.18 | cubebol | |
49 | 0.56 | cubenol | |
19 | 0.01 | cuminaldehyde | |
31 | trace | gamma- | curcumene |
7 | 0.59 | para- | cymene |
47 | 0.16 | dillapiole | |
22 | 0.10 | delta- | elemene |
41 | trace | elemicin | |
50 | 0.39 | (E)-iso | elemicin |
40 | 0.32 | elemol | |
36 | trace | alpha- | farnesene |
53 | trace | farnesol | |
32 | 2.89 | germacrene D | |
44 | 0.77 | germacrene D-4-ol | |
46 | 1.76 | globulol | |
51 | 0.06 | guaiol | |
28 | 0.45 | alpha- | humulene |
42 | 0.20 | ledol | |
8 | 4.41 | limonene | |
14 | 3.22 | linalool | |
33 | trace | methyl isoeugenol | |
35 | 0.62 | alpha- | muurolene |
30 | 4.20 | gamma- | muurolene |
3 | 1.15 | myrcene | |
34 | trace | myristicin | |
18 | trace | myrtenol | |
43 | 1.45 | (E)- | nerolidol |
9 | 0.07 | (E)-beta- | ocimene |
5 | 0.81 | (Z)-beta- | ocimene |
4 | 0.58 | alpha- | phellandrene |
6 | 0.76 | beta- | phellandrene |
1 | 5.44 | alpha- | pinene |
2 | 28.09 | sabinene | |
13 | trace | (E)- | sabinene hydrate |
11 | 2.73 | (Z)- | sabinene hydrate |
21 | 0.08 | safrole | |
45 | trace | spathulenol | |
16 | 2.69 | terpinen-4-ol | |
10 | 1.14 | gamma- | terpinene |
17 | 0.30 | alpha- | terpineol |
12 | 0.31 | terpinolene | |
24 | 0.07 | alpha- | ylangene |
N. B. Shankaracharya, L. Jaganmohan Reo, S. Nagalakshmi and J. Puranaik, Studies on the chemical composition of cubeb (Piper cubeba Linn.). PAFAI J., 17(1), 33-39 (1995). P&F 26, No. 4, 68, (2001) | |||
salvia officinalis seed oil tunisia | |||
GC Analyses of Salvia Seeds as Valuable Essential Oil Source Mouna Ben Taârit, Kamel Msaada, Karim Hosni, and Brahim Marzouk1 1Laboratoire des Substances Bioactives, Centre de Biotechnologie, Technopôle de Borj-Cédria, BP 901, 2050 Hammam-Lif, Tunisia 2Laboratoire des Substances Naturelles, Institut National de Recherche et d’Analyse Physico-Chimique (INRAP), Sidi Thabet, 2020 Ariana, Tunisia | |||
# | % | Leftshift | Components |
147 | 0.47 | alpha- | amorphene |
146 | 1.43 | allo- | aromadendrene |
162 | 0.18 | aromadendrene | |
175 | 1.29 | bicyclogermacrene | |
174 | 0.72 | beta- | bisabolene |
116 | 3.54 | borneol | |
159 | 0.16 | bornyl acetate | |
151 | 0.08 | gamma- | cadinene |
151 | 0.53 | delta- | cadinene |
218 | 0.15 | T- | cadinol |
0.41 | alpha- | cadinol | |
153 | 13.08 | camphor | |
115 | 0.03 | delta-3- | carene |
129 | 0.83 | carvacrol | |
161 | 0.19 | beta- | caryophyllene |
157 | 0.16 | caryophyllene oxide | |
103 | 6.66 | 1,8- | cineole |
149 | 0.01 | alpha- | copaene |
149 | 0.34 | epi- | cubebol |
118 | 0.17 | para- | cymen-8-ol |
102 | 1.52 | para- | cymene |
138 | 0.06 | beta- | damascenone |
138 | 0.16 | beta- | elemene |
133 | 0.07 | delta- | elemene |
0.47 | beta- | eudesmol | |
135 | 0.83 | eugenol | |
150 | 0.24 | (E,E)-alpha- | farnesene |
114 | 1.01 | geigerene | |
185 | 0.33 | geraniol | |
185 | 0.08 | germacrene B | |
172 | 1.18 | germacrene D | |
878 | 1.29 | hexanol | |
145 | 3.71 | alpha- | humulene |
160 | 0.25 | humulene oxide II | |
155 | 0.68 | linalool | |
107 | 0.13 | (Z)- | linalool oxide |
123 | 0.08 | linalyl acetate | |
2.22 | 13-epi- | manool | |
140 | 0.18 | methyl eugenol | |
119 | 0.28 | myrtanol | |
119 | 0.55 | myrtenal | |
156 | 1.41 | (E)- | nerolidol |
138 | 0.14 | (Z)-allo- | ocimene |
939 | 1.26 | alpha- | pinene |
106 | 0.19 | (Z)- | sabinene hydrate |
121 | 0.18 | (Z)- | sabinol |
157 | 0.08 | spathulenol | |
117 | 0.09 | terpinen-4-ol | |
170 | 0.91 | alpha- | terpineol |
118 | 2.42 | delta- | terpineol |
170 | 1.81 | alpha- | terpinyl acetate |
103 | 3.08 | alpha- | thujene |
110 | 14.77 | alpha- | thujone |
111 | 4.30 | beta- | thujone |
129 | 0.37 | thymol | |
101 | 0.23 | tricyclene | |
110 | 0.48 | undecane | |
159 | 2.66 | viridiflorol | |
149 | 0.04 | alpha- | ylangene |
Overall, it emerges that tricyclene and camphor were biochemical markers of the essential oil of S. verbenaca seeds. Being rich in camphor, seeds could be used as antimicrobial agent. Another point that should be highlighted is that S. officinalis seeds had the same a-thujone chemotype as leaves, whereas these two organs showed some quantitative differences leading to the safe use of seeds essential oil in food industry. From a qualitative standpoint, seeds of S. sclarea seemed to have the same enzymatic trend as flowers characterized by the prevalence of linalool. It is noteworthy to mention that linalool-producing seeds as S. sclarea were suitable for flavouring purposes and constitute potential anti-inflammatory agents. | |||
salvia plebeia oil | |||
Chemical Composition of Salvia plebeian R.Br. Essential Oil and its Larvicidal Activity against Aedes aegypti L Shanliang Zhu, Xin Chao Liu, Zhi Long Liu* and Xiaofeng Xu | |||
# | % | Leftshift | Components |
106 | 0.21 | acetophenone | |
144 | 1.22 | aromadendrene | |
117 | 0.55 | borneol | |
128 | 0.50 | bornyl acetate | |
167 | 5.28 | cadalene | |
151 | 5.30 | gamma- | cadinene |
164 | 10.21 | T- | cadinol |
165 | 5.08 | alpha- | cadinol |
154 | 2.75 | alpha- | calacorene |
152 | 9.63 | calamenene | |
114 | 0.08 | camphor | |
140 | 0.91 | (Z)- | caryophyllene |
142 | 0.88 | caryophyllene | |
158 | 15.54 | caryophyllene oxide | |
103 | 0.18 | 1,8- | cineole |
137 | 5.70 | copaene | |
134 | 2.88 | alpha- | cubebene |
138 | 0.62 | beta- | cubebene |
153 | 0.88 | cubenene | |
136 | 0.11 | cyclosativene | |
154 | 1.16 | elemol | |
163 | 14.04 | gamma- | eudesmol |
135 | 0.78 | eugenol | |
108 | 0.16 | fenchone | |
156 | 0.27 | germacrene B | |
156 | 5.14 | ledol | |
109 | 0.48 | linalool | |
107 | 0.19 | (Z)- | linalool oxide |
147 | 1.84 | gamma- | muurolene |
150 | 5.19 | alpha- | muurolene |
991 | 0.11 | myrcene | |
157 | 0.21 | spathulenol | |
137 | 0.24 | ylangene | |
salvia sclarea seed oil tunisia | |||
GC Analyses of Salvia Seeds as Valuable Essential Oil Source Mouna Ben Taârit, Kamel Msaada, Karim Hosni, and Brahim Marzouk1 1Laboratoire des Substances Bioactives, Centre de Biotechnologie, Technopôle de Borj-Cédria, BP 901, 2050 Hammam-Lif, Tunisia 2Laboratoire des Substances Naturelles, Institut National de Recherche et d’Analyse Physico-Chimique (INRAP), Sidi Thabet, 2020 Ariana, Tunisia | |||
# | % | Leftshift | Components |
146 | 0.06 | allo- | aromadendrene |
149 | 4.29 | bicyclogermacrene | |
153 | 0.35 | beta- | bourbonene |
177 | 0.24 | delta- | cadinene |
164 | 0.52 | T- | cadinol |
164 | 0.88 | alpha- | cadinol |
154 | 0.10 | alpha- | calacorene |
129 | 1.93 | carvacrol | |
141 | 0.24 | beta- | caryophyllene |
200 | 3.18 | caryophyllene oxide | |
121 | 0.12 | 1,8- | cineole |
137 | 4.08 | alpha- | copaene |
134 | 2.86 | alpha- | cubebene |
154 | 0.72 | beta- | cubebene |
190 | 0.24 | epi- | cubenol |
102 | 0.12 | para- | cymene |
147 | 0.85 | delta- | elemene |
1.72 | beta- | eudesmol | |
125 | 2.79 | geraniol | |
138 | 1.94 | geranyl acetate | |
155 | 1.29 | germacrene B | |
147 | 5.88 | germacrene D | |
852 | 0.03 | (E)-2- | hexenal |
145 | 0.08 | alpha- | humulene |
159 | 1.55 | humulene oxide I | |
103 | 0.17 | limonene | |
109 | 24.25 | linalool | |
123 | 6.90 | linalyl acetate | |
0.59 | 13-epi- | manool | |
122 | 0.98 | nerol | |
173 | 0.36 | neryl acetate | |
138 | 1.46 | (Z)-allo- | ocimene |
103 | 0.03 | beta- | phellandrene |
939 | 0.27 | alpha- | pinene |
214 | 0.03 | spathulenol | |
161 | 0.37 | terpinen-4-ol | |
118 | 0.20 | alpha- | terpineol |
118 | 0.20 | delta- | terpineol |
135 | 0.29 | alpha- | terpinyl acetate |
930 | 7.48 | alpha- | thujene |
219 | 0.10 | thymol | |
927 | 0.08 | tricyclene | |
110 | 0.75 | undecane | |
137 | 0.24 | alpha- | ylangene |
Overall, it emerges that tricyclene and camphor were biochemical markers of the essential oil of S. verbenaca seeds. Being rich in camphor, seeds could be used as antimicrobial agent. Another point that should be highlighted is that S. officinalis seeds had the same a-thujone chemotype as leaves, whereas these two organs showed some quantitative differences leading to the safe use of seeds essential oil in food industry. From a qualitative standpoint, seeds of S. sclarea seemed to have the same enzymatic trend as flowers characterized by the prevalence of linalool. It is noteworthy to mention that linalool-producing seeds as S. sclarea were suitable for flavouring purposes and constitute potential anti-inflammatory agents. | |||
santolina chamaecyparissus oil | |||
Giner et al. (1993) used GC and GC/MS to determine the effect of season and vegetative growth stage of S. chamaecyparisus on the composition of the oil. Although these authors did not use a typical artemisia ketone-rich chemotype, their results showed that the composition of the oil is definitly affected by the date of plant harvesting. A summery of this somewhat incomplete data can be seen in Table VI. Note: this page will only include the June harvest. | |||
# | % | Leftshift | Components |
26 | 0.91 | allo- | aromadendrene |
11 | 2.49 | artemisyl ketone | |
19 | 4.78 | borneol | |
23 | 1.65 | bornyl + isobornyl acetates | |
33 | 0.41 | delta- | cadinene |
2 | trace | camphene | |
17 | 4.67 | camphor | |
29 | 0.18 | iso | caryophyllene |
24 | 0.13 | alpha- | copaene |
27 | 0.66 | alpha- | cubebene |
22 | 1.83 | cuminaldehyde | |
30 | 0.22 | ar- | curcumene |
9 | 5.80 | para- | cymene + 1,8-cineole |
13 | 2.14 | alpha-para- | dimethyl styrene |
14 | 1.13 | fenchone | |
32 | 0.73 | germacrene B | |
28 | 0.86 | beta- | gurjunene |
7 | 0.59 | limonene | |
31 | 0.21 | alpha- | muurolene |
4 | 0.19 | myrcene | |
18 | 3.82 | myrtenal | |
8 | 0.16 | beta- | phellandrene |
5 | 5.00 | alpha- | phellendrene + delta-3-carene |
1 | 0.23 | alpha- | pinene |
3 | 1.59 | beta- | pinene + sabinene |
16 | 1.48 | (Z)- | sabinene hydrate |
20 | 0.91 | terpinen-4-ol | |
6 | 0.65 | alpha- | terpinene |
10 | 1.35 | gamma- | terpinene |
21 | 0.65 | alpha- | terpineol |
12 | 1.05 | terpinolene | |
15 | 0.15 | thujone | |
34 | 10.66 | unknown sesqui alcohol 1 | |
35 | 5.18 | unknown sesqui alcohol 2 | |
36 | 3.08 | unknown sesqui alcohol 3 | |
25 | trace | alpha- | ylangene |
R. M. Giner, S. Manez and J. L. Rios, Seasonal variations in the essential oil of Santolina chamaecyparisus L. Sci. Pharm., 61, 169-173 (1993). P&F 22, No. 5, 71, (1997) | |||
thevetia peruviana (pers.) k. schum. flower oil brazil | |||
# | % | Leftshift | Components |
7 | 5.30 | benzofuran | |
18 | 2.80 | bicyclogermacrene | |
19 | 2.30 | delta- | cadinene |
20 | 0.20 | alpha- | cadinol |
5 | 10.60 | 1,8- | cineole |
15 | 2.20 | alpha- | copaene |
16 | 0.50 | beta- | elemene |
21 | 0.10 | (E,E)- | farnesol |
26 | 0.30 | heneicosane | |
31 | 0.60 | heptacosane | |
30 | 0.10 | hexacosane | |
17 | 17.20 | (E)-beta- | ionone |
4 | 0.30 | limonene | |
10 | 1.20 | 2- | methyl benzaldehyde |
24 | 0.20 | methyl hexadecanoate | |
22 | 3.10 | myristic acid | |
25 | 22.90 | palmitic acid | |
29 | 0.60 | pentacosane | |
23 | 0.20 | pentadecanoic acid | |
11 | 0.70 | 3- | phenyl-2-propenal |
1 | 0.50 | alpha- | pinene |
2 | 1.70 | sabinene | |
9 | 0.60 | (E)- | sabinene hydrate |
12 | 6.50 | terpinen-4-ol | |
3 | 1.20 | alpha- | terpinene |
6 | 2.00 | gamma- | terpinene |
13 | 2.00 | alpha- | terpineol |
8 | 0.50 | terpinolene | |
28 | 0.10 | tetracosane | |
27 | 1.30 | tricosane | |
14 | 0.30 | alpha- | ylangene |
J. of Ess. Oil Res. 12, No. 3, 322, (2000) | |||
thymus vulgaris oil CO2 extract | |||
Oszagyan et al. (1996) analyzed the composition od supercritical fluid CO2 extract of thyme (ex. T. vulgaris) and compared it to a steam-distilled oil. The quantitative data was obtained in a GD-FID, whereas the identity od each component was determined by GC/MS. A comparison between the two analyses is shown in Table VII. Note, only the CO2 extract will be shown here. | |||
# | % | Leftshift | Components |
16 | 0.02 | borneol | |
22 | 0.37 | bornyl acetate | |
30 | 0.24 | gamma- | cadinene |
3 | 0.04 | camphene | |
24 | 3.17 | carvacrol | |
27 | 1.64 | beta- | caryophyllene |
10 | 0.16 | 1,8- | cineole |
26 | 0.22 | alpha- | copaene |
8 | 2.55 | para- | cymene |
21 | 0.04 | geraniol | |
32 | 0.27 | heptadecane | |
34 | 0.16 | heptadecanoic acid | |
31 | 0.10 | hexadecane | |
28 | 0.09 | alpha- | humulene |
9 | 0.09 | limonene | |
13 | 1.63 | linalool | |
20 | 0.54 | methyl carvacrol | |
19 | 0.32 | methyl thymol | |
5 | 0.17 | myrcene | |
33 | 5.98 | palmitic acid | |
6 | 0.09 | alpha- | phellandrene |
2 | 0.01 | alpha- | pinene |
4 | 0.35 | beta- | pinene |
14 | 0.02 | pinocarveol | |
35 | 8.30 | stearic acid | |
17 | 1.04 | terpinen-4-ol | |
7 | 0.07 | alpha- | terpinene |
11 | 0.67 | gamma- | terpinene |
18 | 0.20 | alpha- | terpineol |
15 | 0.22 | beta- | terpineol |
12 | 0.09 | terpinolene | |
1 | 0.03 | alpha- | thujene |
23 | 36.59 | thymol | |
29 | 0.01 | valencene | |
25 | trace | alpha- | ylangene |
H. J. Bestmann, J. Ederand O. Vostrowky, Extraktion von Thymian mit flusigem CO2 in Labormasstab. Zeit. Lebersmitt. Unters Forsch., 180, 491-493 (1985). P&F 20, No. 3, 67, (1995) | |||
valeriana officinalis rhizome oil | |||
# | % | Leftshift | Components |
36 | 0.2-0.8 | beta- | bisabolene |
58 | 0.5-1.5 | epi-alpha- | bisabolol |
16 | 0.1-0.6 | borneol | |
15 | trace-0.1 | iso | borneol |
25 | 2.3-33.5 | bornyl acetate | |
43 | 0.5-1.2 | bornyl isovalerate | |
46 | 0.1-0.3 | delta- | cadinene |
3 | 0.1-6.4 | camphene | |
14 | trace-0.1 | camphor | |
21 | trace-0.1 | trans- | carveol |
20 | 0.1-0.2 | cis- | carveol |
8 | trace-0.2 | 1,8- | cineole |
31 | trace-0.1 | citronellyl acetate | |
51 | 0.2-2.1 | citronellyl isovalerate | |
33 | trace-0.2 | alpha- | copaene |
57 | 0.4-3.9 | cryptofauronol | |
70 | trace-2.9 | cryptofauronyl acetate | |
22 | trace-0.1 | cuminaldehyde | |
40 | 0.7-2.1 | ar- | curcumene |
7 | 0.1-1.5 | para- | cymene |
34 | 0.2-1.4 | 2,6- | dimethoxy-para-cymene |
62 | 0.1-0.4 | drimenol | |
35 | 0.1-0.4 | beta- | elemene |
30 | 0.2-2.9 | delta- | elemene |
42 | 0.1-0.4 | gamma- | elemene |
75 | trace-0.6 | ethyl palmitate | |
38 | 0.5-7.6 | eudesma-2,6,8-triene | |
53 | 0.6-6.9 | beta- | eudesmol |
29 | trace-0.1 | eugenol | |
61 | 0.1-0.4 | eugenyl isovalerate | |
67 | 0.1-1.1 | iso | eugenyl isovalerate |
48 | 0.4-0.6 | faurinone | |
41 | 0.2-1.4 | germacrene D | |
44 | trace-1.0 | beta- | gurjunene |
37 | 0.1-0.9 | alpha- | humulene |
39 | 0.1-0.7 | beta- | ionone |
45 | 0.2-3.8 | kessane | |
38 | 0.1-3.5 | kessanyl acetate | |
73 | 0.1-0.7 | kessoglycyl monoacetate | |
63 | 0.1-12.6 | alpha- | kessyl acetate |
52 | 0.5-2.1 | ledol | |
10 | 0.1-1.2 | limonene | |
13 | trace | linalool | |
50 | 0.1-1.6 | maaliol | |
24 | 0.1-0.2 | methyl carvacrol | |
71 | 0.1-0.9 | methyl palmitate | |
23 | trace-0.4 | methyl thymol | |
65 | 0.1-0.2 | methyl valerenate | |
6 | trace-0.1 | myrcene | |
19 | 0.1-4.0 | myrtenol | |
28 | trace-9.1 | myrtenyl acetate | |
56 | 0.1-0.2 | myrtenyl hexanoate | |
49 | 1.6-10.5 | myrtenyl isovalerate | |
26 | trace-0.8 | nojigiku acetate | |
47 | 0.5-3.2 | pacifigorgiol | |
72 | 0.1-1.9 | palmitic acid | |
9 | trace-2.4 | beta- | phellandrene |
2 | 0.1-0.2 | alpha- | pinene |
5 | trace-0.9 | beta- | pinene |
4 | trace-0.1 | sabinene | |
17 | 0.1-0.6 | terpinen-4-ol | |
11 | trace-0.2 | gamma- | terpinene |
18 | trace-0.1 | alpha- | terpineol |
12 | trace-0.1 | terpinolene | |
27 | 0.1 | thymol | |
1 | trace-0.1 | tricyclene | |
55 | 0.5-8.2 | valeranone | |
66 | 0.1-1.5 | (E)- | valeren-1-yl acetate |
64 | 0.2-0.8 | (Z)- | valeren-1-yl acetate |
76 | trace-1.6 | (E)- | valeren-1-yl isovalerate |
74 | trace-0.7 | (Z)- | valeren-1-yl isovalerate |
59 | 0.4-12.4 | valerenal | |
69 | 0.3-2.8 | valerenic acid | |
60 | 0.3-1.2 | (Z+E)- | valerenol |
54 | 1.5-14.2 | valerianol | |
32 | 0.1-0.4 | alpha- | ylangene |
R. Bos and H. J. Woerdenbag, Analytical aspects of the essential oil, valerenic acid derivatives and valepotriates in Valeriana officinalis roots and rhizomes. In: Proceedings, International Symposium on breeding research and medicinal and aromatic plants. Edits., F. Pank, p. 355-358, Beiträge zur Zuchtungsforschung, Quedlinburg, Germany (1996). P&F 24, No. 3, 47, (1999) | |||
ylang ylang flower oil | |||
# | % | Leftshift | Components |
51 | 0.13 | alpha- | amorphene |
29 | 0.35 | (E)- | anethole |
5 | 0.94 | benzaldehyde | |
20 | 11.63 | benzyl acetate | |
11 | 2.20 | benzyl alcohol | |
63 | 6.19 | benzyl benzoate | |
33 | 0.04 | benzyl butyrate | |
65 | 1.37 | benzyl salicylate | |
58 | 0.07 | alpha- | bisabolol |
47 | 0.71 | 3- | buten-2-yl benzoate |
36 | 0.08 | butyl benzoate | |
53 | 0.16 | delta- | cadinene |
54 | 0.12 | gamma- | cadinene |
60 | 0.12 | cadinol | |
61 | 0.12 | alpha- | cadinol |
42 | 1.69 | beta- | caryophyllene |
57 | 0.07 | caryophyllene oxide | |
12 | 0.09 | 1,8- | cineole |
43 | 2.09 | (E)- | cinnamyl acetate |
30 | 0.26 | (E)- | cinnamyl alcohol |
38 | 0.13 | alpha- | copaene |
17 | 0.09 | para- | cresol |
10 | 0.34 | para- | cresyl methyl ether |
45 | 0.58 | beta- | cubebene |
26 | 0.13 | 1,4- | dimethoxybenzene |
25 | 0.17 | 3,4- | dimethoxytoluene |
21 | 1.46 | ethyl benzoate | |
44 | 0.37 | (Z)-iso | eugenol |
52 | 2.34 | (E,E)-alpha- | farnesene |
62 | 0.84 | (E,E)- | farnesol |
64 | 0.61 | (E,E)- | farnesyl acetate |
37 | 1.96 | geranyl acetate | |
49 | 5.55 | germacrene D | |
3 | 0.28 | (E)-2- | hexen-1-ol |
9 | 0.16 | (Z)-3- | hexen-1-yl acetate |
55 | 0.19 | (Z)-3- | hexen-1-yl benzoate |
46 | 0.74 | alpha- | humulene |
13 | 0.07 | limonene | |
18 | 35.49 | linalool | |
22 | 0.07 | 2- | methoxy-4-methyl phenol |
15 | 0.17 | 2- | methoxyphenol |
39 | 0.11 | 4- | methoxyphenyl methyl acetate |
31 | 0.05 | methyl 2-methoxybenzoate | |
35 | 0.06 | methyl 4-methoxybenzoate | |
32 | 0.08 | methyl anthranilate | |
16 | 6.50 | methyl benzoate | |
48 | 0.86 | methyl eugenol | |
23 | 0.29 | methyl salicylate | |
2 | 0.06 | 3- | methyl-2-butenol |
4 | 0.33 | 3- | methyl-2-butenyl acetate |
1 | 0.07 | 2- | methyl-3-butenol |
50 | 0.14 | gamma- | muurolene |
59 | 0.11 | alpha- | muurolol |
8 | 0.16 | myrcene | |
27 | 0.27 | nerol | |
56 | 0.13 | (E)- | nerolidol |
14 | 0.14 | (E)-beta- | ocimene |
28 | 0.20 | 2- | phenyl-1-nitroethane |
6 | 1.87 | alpha- | pinene |
7 | 0.66 | beta- | pinene |
34 | 0.08 | 4-(2- | propenyl) phenol |
24 | 0.14 | alpha- | terpineol |
41 | 5.51 | tetradecane | |
40 | 0.16 | alpha- | ylangene |
E. E. Stashenko, W. Torres and J. R. Martinez Morales, A study of the compositional variation of the essential oil of ylang ylang (Cananga odorata Hook. fil. et Thomson, forma genuina) during flower development. J. High Resol. Chromatogr., 18, 101-104 (1995). P&F 24, No. 4, 31, (1999) |