abies balsamea needle oil canada | |||
# | % | Leftshift | Components |
---|---|---|---|
24 | 0.31-2.07 | borneol | |
19 | 4.89-16.22 | bornyl acetate | |
25 | 0.02-0.21 | delta- | cadinene |
5 | 3.49-9.72 | camphene | |
18 | 0.04-0.56 | camphor | |
8 | 0.00-27.27 | delta-3- | carene |
20 | 0.00-0.27 | alpha- | cedrene |
15 | 0.03-0.16 | para- | cymene |
22 | 0.06-0.60 | alpha- | humulene |
12 | 1.83-15.63 | limonene | |
10 | 0.71-2.28 | myrcene | |
17 | 0.00-0.69 | 1- | octen-1-yl acetate |
9 | 0.03-0.19 | alpha- | phellandrene |
13 | 4.39-12.64 | beta- | phellandrene |
4 | 6.18-14.29 | alpha- | pinene |
6 | 28.10-56.10 | beta- | pinene |
7 | 0.02-0.23 | sabinene | |
1 | 0.30-1.41 | santene | |
21 | 0.06-0.29 | terpinen-4-ol | |
11 | 0.02-0.11 | alpha- | terpinene |
14 | 0.06-0.31 | gamma- | terpinene |
23 | 0.56-4.48 | alpha- | terpineol |
16 | 0.17-1.68 | terpinolene | |
3 | 0.00-0.21 | alpha- | thujene |
26 | 0.00-2.89 | thymol | |
2 | 0.56-1.69 | tricyclene | |
J. M. Regimbal and G. Collin, Essential Oil Analysis of Balsam Fir Abies balsamea (L.) Mill. J. Essent. Oil Res., 6, 229-238 (1994). P&F 20, No. 5, 95, (1995) | |||
achillea millefolium oil greece | |||
# | % | Leftshift | Components |
20 | 0.50 | artemisyl alcohol | |
16 | trace | artemisyl ketone | |
1 | 0.40 | artemisia triene | |
33 | 49.30 | ascaridole | |
55 | 0.10 | alpha- | bisabolol |
29 | 2.00 | iso | borneol |
50 | trace | delta- | cadinene |
49 | trace | gamma- | cadinene |
54 | 0.10 | alpha- | cadinol |
53 | 0.10 | T- | cadinol |
5 | 0.90 | camphene | |
26 | 8.10 | camphor | |
11 | trace | delta-3- | carene |
37 | trace | carvacrol | |
43 | 0.40 | beta- | caryophyllene |
52 | 0.20 | caryophyllene oxide | |
28 | 0.20 | (Z)- | chrysanthenol |
36 | trace | chrysanthenyl acetate | |
14 | 10.50 | 1,8- | cineole |
40 | trace | alpha- | copaene |
41 | 0.10 | beta- | cubebene |
46 | trace | ar- | curcumene |
13 | 7.40 | para- | cymene |
42 | trace | beta- | elemene |
44 | trace | (E)-beta- | farnesene |
35 | 0.30 | geranial | |
47 | trace | germacrene D | |
45 | trace | alpha- | humulene |
39 | 0.80 | (Z)- | jasmone |
27 | 0.10 | lavandulol | |
15 | 0.10 | limonene | |
22 | 0.50 | linalool | |
48 | trace | alpha- | muurolene |
9 | trace | myrcene | |
51 | trace | (E)- | nerolidol |
6 | trace | 1- | octen-3-ol |
10 | trace | alpha- | phellandrene |
4 | 0.40 | alpha- | pinene |
8 | 0.30 | beta- | pinene |
7 | 0.40 | sabinene | |
19 | 0.40 | (E)- | sabinene hydrate |
25 | 0.50 | (Z)- | sabinene hydrate |
30 | 1.10 | terpinen-4-ol | |
12 | 7.00 | alpha- | terpinene |
18 | 0.30 | gamma- | terpinene |
31 | 0.50 | alpha- | terpineol |
21 | 0.30 | terpinolene | |
3 | trace | alpha- | thujene |
23 | 1.50 | alpha- | thujone |
24 | 0.20 | beta- | thujone |
34 | 1.40 | thujyl isobutyrate | |
38 | 0.10 | thymol | |
2 | trace | tricyclene | |
32 | 0.20 | verbenone | |
17 | 1.70 | yomogi alcohol | |
P. Chatzopoulou, S. T. Katsiotis and A. Baerheim Svendsen, An ascaridole containing essential oil of the Achilles millefolium L. complex growing wild in Northen Greece, J. Essent. Oil Res., 4, 457-459 (1992). P&F 22, No. 3, 57, (1997) | |||
anethum graveolens herb oil cuba | |||
# | % | Leftshift | Components |
16 | 14.50 | carvone | |
19 | trace | alpha- | cubebene |
8 | 14.38 | para- | cymene |
15 | 0.99 | (E)- | dihydrocarvone |
12 | 0.29 | (Z)- | dihydrocarvone |
11 | 14.85 | dill ether | |
21 | 0.31 | dillapiole | |
10 | 0.18 | alpha-para- | dimethyl styrene |
20 | trace | elemicin | |
14 | 0.34 | 3,9- | epoxy-para-cymene |
6 | 11.92 | limonene | |
4 | 1.56 | myrcene | |
22 | 0.20 | myristicin | |
5 | 24.88 | alpha- | phellandrene |
7 | 8.21 | beta- | phellandrene |
3 | 3.17 | alpha- | pinene |
17 | 0.40 | iso | piperitenone |
13 | 0.50 | sabinol | |
9 | 0.34 | alpha- | terpinene |
2 | 1.06 | alpha- | thujene |
18 | 0.16 | thymol | |
1 | trace | toluene | |
J. A. Pino, E. Roncal, A. Rosado and I. Goire, Herb oil of dill (Anethum graveolens L.) grown in Cuba. J. Essent. Oil Res., 7, 219-220 (1995). P&F 25, No. 6, 32, (2000) | |||
anethum graveolens herb oil reunion | |||
# | % | Leftshift | Components |
31 | 0.10 | bornyl acetate | |
35 | 0.08 | gamma- | cadinene |
5 | trace | camphene | |
23 | 0.10 | camphor | |
10 | trace | delta-3- | carene |
29 | 0.40 | carvone | |
30 | 0.10 | carvotan acetone | |
12 | 3.80 | para- | cymene |
26 | trace | (Z)- | dihydrocarvone |
34 | 0.10 | dihydrolimonen-10-ol | |
24 | 20.80 | dill ether | |
36 | 0.20 | docosene | |
33 | 0.10 | eugenol | |
13 | 10.90 | limonene | |
19 | trace | linalool | |
22 | 0.10 | (E)-para- | menth-2-en-1-ol |
21 | 0.10 | (Z)-para- | menth-2-en-1-ol |
8 | 0.60 | myrcene | |
18 | 0.10 | nonanal | |
15 | trace | (E)-beta- | ocimene |
14 | trace | (Z)-beta- | ocimene |
2 | trace | octane | |
9 | 56.50 | alpha- | phellandrene |
4 | 1.70 | alpha- | pinene |
7 | trace | beta- | pinene |
25 | 0.10 | (E)- | piperitol |
28 | 0.10 | (Z)- | piperitol |
6 | 0.10 | sabinene | |
11 | trace | alpha- | terpinene |
16 | trace | gamma- | terpinene |
27 | 0.20 | alpha- | terpineol |
17 | 0.20 | terpinolene | |
3 | 0.30 | alpha- | thujene |
32 | trace | thymol | |
1 | 0.20 | toluene | |
20 | trace | undecane | |
R. R. Vera and J. Chane-Ming, Chemical composition of essential oil of dill (Anethum graveolens L.) growing in Reunion Island. J. Essent. Oil Res., 10, 539-542 (1998). P&F 25, No. 6, 32, (2000) | |||
artemisia annua herb oil france | |||
# | % | Leftshift | Components |
30 | 0.00-11.05 | artemisyl alcohol | |
21 | 11.91-55.02 | artemisyl ketone | |
25 | 0.00-0.07 | artemisyl acetate | |
14 | 0.00-0.15 | 2-oxa | bicyclo(2.2.2)oct-6-ene |
49 | 0.16-1.28 | bicyclogermacrene | |
45 | 0.00-0.16 | borneol | |
4 | 0.00-0.29 | bornylene | |
10 | 0.00-0.14 | butyl isovalerate | |
51 | 0.00-1.05 | delta- | cadinene |
6 | 1.20-7.28 | camphene | |
27 | 0.00-0.66 | alpha- | campholenic aldehyde |
29 | 1.58-11.52 | camphor | |
59 | 0.10-1.10 | carvacrol | |
36 | 1.63-10.87 | beta- | caryophyllene |
54 | 0.10-1.64 | caryophyllene oxide | |
53 | 0.04-0.39 | iso | caryophyllene oxide |
57 | 0.00-trace | cedrol | |
16 | 5.07-11.65 | 1,8- | cineole |
28 | 0.00-1.33 | alpha- | copaene |
33 | 0.09-2.17 | beta- | cubebene |
19 | trace-1.23 | para- | cymene |
52 | 0.08-0.67 | 6,6- | dimethyl(3.1.1)bicyclohept-2-en-2-methanol |
50 | 0.00-0.41 | (E)-(3,3- | dimethyl) cyclohexylidene acetaldehyde |
5 | 0.00-0.17 | ethyl 2-methyl butyrate | |
44 | 0.00-1.00 | (E)-beta- | farnesene |
43 | 0.00-1.10 | (Z)-beta- | farnesene |
47 | 1.99-18.54 | germacrene D | |
48 | 2.24-14.73 | alpha- | guaiene |
31 | 0.00-trace | (Z)-3- | hexen-1-yl butyrate |
41 | trace-0.97 | alpha- | himachalene |
42 | 0.00-0.74 | alpha- | humulene |
15 | 0.09-0.57 | limonene | |
9 | 0.00-trace | 3- | methyl bicyclo(3.1.2)oct-2-ene |
22 | 0.00-0.31 | 3- | methyl-3-buten-1-yl isovalerate |
12 | 0.00-3.34 | myrcene | |
38 | trace-0.42 | myrtenal | |
56 | 0.00-0.82 | nootkatone | |
18 | 0.00-0.27 | (E)-beta- | ocimene |
11 | 0.00-trace | alpha- | phellandrene |
2 | 4.20-15.66 | alpha- | pinene |
7 | 0.93-3.35 | beta- | pinene |
32 | 0.00-0.32 | pinocamphone | |
40 | 0.35-1.81 | trans- | pinocarveol |
35 | 0.24-2.19 | pinocarvone | |
8 | 0.43-2.80 | sabinene | |
26 | 0.00-0.43 | (E)- | sabinene hydrate |
34 | 0.11-0.83 | (Z)- | sabinene hydrate |
23 | trace-0.22 | santolina alcohol | |
55 | 0.00-0.49 | spathulenol | |
37 | 0.13-0.38 | terpinen-4-ol | |
13 | 0.00-0.18 | alpha- | terpinene |
17 | 0.07-0.34 | gamma- | terpinene |
46 | 0.00-0.65 | alpha- | terpineol |
20 | 0.00-0.33 | terpinolene | |
39 | 0.00-2.16 | 3- | thujen-2-ol |
3 | 0.00-0.90 | alpha- | thujene |
58 | 0.00-0.83 | thymol | |
1 | 0.01-0.35 | tricyclene | |
24 | 0.06-0.64 | yomogi alcohol | |
J. C. Chalchat, R. P. Garry and J. Lamy, Influence of harvest time on yield and compostion of Artemisia annua oil produced in France. J. Essent. Oil Res., 6, 261-268 (1994). P&F 20, No. 2, 49, (1995) | |||
artemisia herba-alba herb oil morocco | |||
# | % | Leftshift | Components |
13 | 0.1 | artemisyl alcohol | |
9 | 0.7 | borneol | |
16 | 0.1 | bornyl acetate | |
27 | trace | delta- | cadinene |
28 | trace | gamma- | cadinene |
3 | 1.8 | camphene | |
21 | 10.3 | camphor | |
12 | trace | carvacrol | |
23 | 0.8 | beta- | caryophyllene |
22 | 4.2 | chrysanthenone | |
17 | trace | chrysanthenyl acetate | |
14 | 14.0 | 1,8- | cineole |
4 | 0.1 | para- | cymene |
26 | 1.7 | beta- | elemene |
24 | 3.1 | alpha- | guaiene |
25 | trace | alpha- | humulene |
10 | trace | myrtenol | |
18 | trace | myrtenyl acetate | |
1 | 1.5 | alpha- | pinene |
2 | 0.8 | beta- | pinene |
5 | 0.2 | alpha- | terpinene |
7 | 1.5 | gamma- | terpinene |
8 | 5.3 | alpha- | terpineol |
15 | 0.1 | alpha- | terpinyl acetate |
6 | 0.1 | alpha- | thujene |
19 | 23.9 | alpha- | thujone |
20 | 20.1 | beta- | thujone |
11 | trace | thymol | |
A. Ouyabya, R. Negre, J. Viano, Y. F. Lozano and E. M. Gaydou, Essential oils from Moroccan Artemisia negrei, A. mesatlantica and A. herba-alba, Lebensmitt. Wiss u Technol., 23, 528-530 (1990). P&F 19, No. 5, 83, (1994) | |||
artemisia variabilis flower oil italy | |||
# | % | Leftshift | Components |
38 | 0.40 | acenaphthalene | |
24 | 0.70 | bicyclogermacrene | |
33 | 1.00 | alpha- | bisabolol |
26 | trace | delta- | cadinene |
37 | 0.90 | alpha- | cadinol |
2 | trace | camphene | |
16 | trace | camphor | |
8 | 0.10 | 1,8- | cineole |
27 | trace | ar- | curcumene |
30 | 0.10 | 1H- | cyclobutano(de)naphthalene |
12 | 0.40 | para- | cymene |
39 | 77.30 | 1,2- | dihydroacenaphthlene |
28 | 0.50 | 1,4- | dimethyl naphthalene |
25 | 0.10 | geranyl acetate | |
23 | 0.30 | germacrene D | |
34 | 0.20 | globulol | |
20 | trace | beta- | guaiene |
15 | trace | (Z)-3- | hexen-1-yl isovalerate |
21 | 0.10 | alpha- | humulene |
40 | 0.10 | 2- | hydroxy-4,6-dimethoxyacetophenone |
7 | 1.00 | limonene | |
17 | trace | linalool | |
29 | trace | methyl eugenol | |
5 | 0.20 | myrcene | |
19 | trace | myrtenal | |
31 | 0.30 | (E)- | nerolidol |
9 | 5.50 | (Z)-beta- | ocimene |
14 | trace | allo- | ocimene |
11 | 1.30 | (E)-beta- | ocimene |
1 | 0.80 | alpha- | pinene |
3 | 3.60 | beta- | pinene |
4 | 0.10 | sabinene | |
35 | 1.00 | spathulenol | |
18 | 0.10 | terpinen-4-ol | |
6 | 0.10 | alpha- | terpinene |
10 | 3.20 | gamma- | terpinene |
22 | 0.20 | alpha- | terpineol |
13 | trace | terpinolene | |
36 | 0.80 | thymol | |
32 | 0.20 | viridiflorol | |
J. of Ess. Oil Res. 13, No. 2, 91, (2001) | |||
boldea fragrans leaf oil italy | |||
# | % | Leftshift | Components |
35 | 38.63 | ascaridole | |
5 | 0.38 | camphene | |
24 | 0.06 | camphor | |
9 | 0.25 | delta-3- | carene |
39 | 0.01 | carvacrol | |
40 | 0.08 | trans- | carvyl acetate |
10 | 0.92 | 1,4- | cineole |
14 | 38.63 | 1,8- | cineole |
33 | 0.18 | cuminaldehyde | |
12 | 9.51 | para- | cymene |
4 | 0.02 | alpha- | fenchene |
15 | 0.01 | fenchone | |
32 | 0.06 | alpha- | fenchyl acetate |
20 | 0.40 | alpha- | fenchyl alcohol |
34 | 0.09 | geraniol | |
1 | 0.06 | 2- | heptanone |
42 | 0.32 | ledol | |
13 | 0.07 | limonene | |
18 | trace | linalool | |
7 | 0.02 | myrcene | |
28 | trace | myrtenal | |
30 | 0.36 | myrtenol | |
31 | 0.07 | nerol | |
19 | trace | 2- | nonanol |
16 | 0.10 | 2- | nonanone |
8 | 0.04 | alpha- | phellandrene |
3 | 0.02 | alpha- | pinene |
22 | 1.20 | trans- | pinocarveol |
29 | 0.78 | sabinaketone | |
6 | 0.04 | sabinene | |
38 | 4.28 | sabinyl acetate | |
26 | 1.37 | terpinen-4-ol | |
17 | 0.03 | terpinen-4-yl acetate | |
11 | 0.04 | alpha- | terpinene |
27 | 0.25 | alpha- | terpineol |
25 | 0.13 | beta- | terpineol |
2 | 0.06 | alpha- | thujene |
21 | trace | beta- | thujone |
37 | 0.07 | thymol | |
41 | 0.03 | thymyl acetate | |
23 | trace | (Z)- | verbenol |
36 | 0.14 | cis- | verbenyl acetate |
E. Miraldi, S. Ferri, G. G. Franchi and G. Giorgi, Peumus boldus essential oil: New constituents and comparison of oils from leaves of different origin. Fitoterapia, 67, 227-230 (1996). P&F 23, No. 2, 47, (1998) | |||
chenopodium ambrosioides oil | |||
# | % | Leftshift | Components |
15 | 4.1 | aristolenol | |
2 | 0.2 | camphene | |
17 | 4.2 | carvacrol | |
12 | 2.0 | para- | cymen-8-ol |
6 | 18.0 | para- | cymene |
11 | 4.0 | dihydropinocarvone | |
7 | 6.0 | limonene | |
9 | 0.6 | linalool | |
14 | 2.8 | methyl thymol | |
5 | 0.7 | myrcene | |
1 | 10.0 | alpha- | pinene |
4 | 0.3 | beta- | pinene |
10 | 3.9 | pinocarveol | |
3 | 0.2 | sabinene | |
8 | 0.1 | gamma- | terpinene |
13 | 1.9 | alpha- | terpineol |
16 | 2.0 | thymol | |
chenopodium ambrosioldes var. anthelminthicum oil america | |||
# | % | Leftshift | Components |
21 | 1.98 | ascaridole | |
5 | 0.14 | camphene | |
8 | 0.03 | delta-3- | carene |
23 | 0.04 | carvacrol | |
19 | 1.06 | trans- | carveol |
20 | 0.25 | cis- | carveol |
18 | 2.28 | carvone | |
15 | 8.09 | para- | cymene |
17 | 0.09 | (E)- | dihydrocarvone |
1 | 0.01 | dimethyl sulfide | |
4 | 0.02 | alpha- | fenchene |
12 | 42.32 | limonene | |
16 | 0.09 | (E)- | limonene oxide |
9 | 0.01 | myrcene | |
10 | 0.01 | alpha- | phellandrene |
13 | 0.09 | beta- | phellandrene |
3 | 0.82 | alpha- | pinene |
6 | 0.18 | beta- | pinene |
7 | 0.01 | sabinene | |
11 | 17.54 | alpha- | terpinene |
14 | 0.58 | gamma- | terpinene |
22 | 0.02 | thymol | |
2 | 0.22 | tricyclene | |
A. O. Tucker and M. J. Maciarello, Some toxic culinary herbs in North America. In: Food Flavors, Formation, Analysis and Packaging Influences. Edits., E. T. Contis, C-T. Ho, C. J. Mussinan, T. H. Parliament, F. Shahidi and A. M. Spanier, 401-414, Elsevier, Amsterdam (1998). P&F 24, No. 6, 45, (1999) | |||
chenopodium ambrosioldes var. anthelminthicum oil spain | |||
# | % | Leftshift | Components |
3 | 41.1 | ascaridole | |
5 | 0.5 | carvacrol | |
7 | 1.5 | trans- | carveol |
6 | 0.2 | carvone | |
2 | 0.2 | para- | cymene |
8 | 9.5 | dihydrocarveol | |
14 | 0.5 | 1,4- | epoxy-para-menthane diol |
1 | 29.2 | limonene | |
12 | 1.3 | para- | menth-8-ene-1,2-diol |
9 | 10.0 | para- | mentha-1(7),8-dien-3-ol |
11 | 0.6 | (E)-para- | mentha-2,8-dien-1-ol |
10 | 1.0 | (Z)-para- | mentha-2,8-dien-1-ol |
13 | 0.5 | para- | mentha-2,8-dien-1,4-diol |
4 | 1.0 | thymol | |
J. dePascual T., I. S. Bellido, C. Torres and M. A. Pérez, Essential oil from Chenopodium ambrosioides. Rivista Ital., EPPOS, 62, 123-125 (1980). P&F 24, No. 6, 45, (1999) | |||
cistus oil | |||
# | % | Leftshift | Components |
6 | 0.1 | acetophenone | |
141 | 0.2 | 6- | acetoxy-11-nor-drim-7-en-9-one |
72 | 0.2 | 7- | acetyl-2,2,6-trimethyl bicyclo(4.2.0)octane |
119 | 0.1 | 6- | acetyl-5,8,8-trimethyl bicyclo(3.2.1)octan-2,3-dione |
149 | 0.2 | 13-nor- | ambreinolide |
148 | 0.1 | 8-epi-13-nor- | ambreinolide |
78 | 0.2 | alpha- | ambrinol |
137 | 1.4 | ambrox | |
144 | 0.1 | 6-oxo-iso | ambrox |
81 | 0.9 | aromadendr-1-ene | |
135 | 0.3 | aromadendr-1(10)-en-9-one | |
91 | 1.4 | 1,5-(Z)- | aromadendr-9-ene |
132 | 0.1 | 1,10-seco- | aromadendran-1,10-dione |
130 | 0.1 | 5-epi-1,10-seco- | aromadendran-1,10-dione |
86 | 1.5 | allo- | aromadendrene |
b3 | 0.4 | benzoic acid | |
27 | 2.0 | borneol | |
55 | 1.7 | bornyl acetate | |
b21 | 0.9 | 3-iso | butenyl-5-methyl-5-vinyl butyrolactone |
126 | 0.5 | cadalene | |
98 | 0.4 | delta- | cadinene |
125 | 0.6 | alpha- | cadinol |
100 | 0.6 | alpha- | calacorene |
99 | 0.6 | (E)- | calamenene |
90 | 0.5 | (Z)- | calamenene |
b9 | 1.4 | gamma- | campholenic acid |
15 | 0.3 | alpha- | campholenic aldehyde |
10 | 0.3 | gamma- | campholenic aldehyde |
b7 | 0.3 | alpha- | campholytic acid |
b4 | 0.2 | gamma- | campholytic acid |
b5 | 2.4 | camphonanic acid | |
b12 | 2.1 | alpha- | camphoneic acid |
18 | 0.1 | camphor | |
60 | 0.8 | carvacrol | |
48 | 0.2 | carvenone | |
41 | 0.2 | trans- | carveol |
43 | 0.1 | cis- | carveol |
46 | 0.5 | carvone | |
138 | 0.1 | sesqui | chamaenol |
117 | 1.8 | copaborneol | |
127 | 0.6 | copabornyl acetate | |
74 | 1.1 | alpha- | copaene |
82 | 0.7 | cubeb-11-ene | |
113 | 4.1 | cubeban-11-ol | |
121 | 0.4 | 1-epi- | cubenol |
44 | 0.1 | cuminaldehyde | |
b11 | 1.0 | beta- | cyclogeranic acid |
b8 | 0.9 | gamma- | cyclogeranic acid |
53 | 0.3 | para- | cymen-7-ol |
3 | 0.4 | para- | cymene |
b13 | 0.7 | davanic acid | |
39 | 0.2 | decanal | |
b20 | 3.8 | decanoic acid | |
106 | 0.2 | 1,2- | dehydroglobulol |
118 | 0.3 | 3,4- | dehydroglobulol |
110 | 0.2 | 1-epi-3,4- | dehydroviridiflorol |
104 | 1.4 | 1,2- | dehydroviridiflorol |
146 | 0.2 | 14,15- | di-nor-8,13-epoxylabd-12-ene |
79 | 0.1 | dihydro-beta-ionene | |
94 | 0.2 | dihydroactinidiolide | |
37 | 0.5 | neo | dihydrocarveol |
b15 | 6.5 | dihydrocinnamic acid | |
b24 | 1.7 | dimethyl (Z)-2-hexyl-3-methyl butendioic acid | |
49 | 0.2 | 2,4- | dimethyl acetophenone |
9 | 1.0 | alpha-para- | dimethyl styrene |
97 | 0.2 | 4,7- | dimethyl tetral-1-one |
b14 | 1.2 | 2,6- | dimethyl-5-oxoheptanoic acid |
77 | 0.2 | dodecanal | |
70 | 0.1 | 11-nor- | drim-7-ene |
139 | 0.1 | drim-8-en-7-one | |
69 | 0.2 | 11-nor- | drim-8-ene |
101 | 0.3 | 11-nor- | driman-8-ol |
102 | 0.2 | beta- | elemol |
35 | 1.3 | elsholtzia ketone | |
136 | 0.2 | 5,11- | epoxycadin-1(10)-en-9-ol |
108 | 0.8 | 5,11- | epoxycadin-1(10)-ene |
8 | 0.8 | 6,8- | epoxymenth-1-ene |
64 | 0.1 | ethyl dihydrocinnamate | |
124 | 0.4 | beta- | eudesmol |
122 | 0.2 | gamma- | eudesmol |
65 | 1.6 | eugenol | |
45 | 0.2 | alpha- | fenchyl acetate |
76 | 0.1 | 1-( | fur-2-yl methyl)-2-formyl pyrrole |
b19 | 2.4 | geranic acid | |
51 | 0.2 | geraniol | |
80 | 0.1 | geranyl acetone | |
109 | 0.5 | gleenol | |
111 | 0.2 | globulol | |
b2 | 0.5 | heptanoic acid | |
b1 | 0.7 | hexanoic acid | |
133 | 0.1 | (Z)-3- | hexen-1-yl dihydrocinnamate |
134 | 0.3 | hexyl dihydrocinnamate | |
59 | 0.1 | (2E,4E)-6- | hydroxy-2,6-dimethyl hepta-2,4-dienal |
32 | trace | 2- | hydroxy-3-methyl benzaldehyde |
66 | 0.2 | 2- | hydroxy-4-isopropenyl toluene |
68 | 0.2 | (E)-5- | hydroxy-para-mentha-1(6),8-dien-2-one |
71 | 0.3 | (Z)-5- | hydroxy-para-mentha-1(6),8-dien-2-one |
140 | 0.1 | 10- | hydroxycalamene-8,9-epoxide |
131 | 0.1 | 9- | hydroxyladanifer-10-one(9(10(1))-abeo-9-hydroxyaromadendran-10-one) |
50 | 0.4 | 2- | hydroxypinan-3-one |
87 | 0.2 | (E)-beta- | ionone |
142 | 0.6 | 15-nor- | labd-1(17)-ene |
153 | 0.4 | labd-7-en-15-ol | |
145 | 0.5 | 15-nor- | labd-7-ene |
b31 | 6.3 | labd-7-enoic acid | |
154 | 0.3 | labd-8-en-15-ol | |
143 | 0.5 | 15-nor- | labd-8-ene |
b32 | 4.0 | labd-8-enoic acid | |
152 | 0.4 | labd-8(17)-en-15-ol | |
b30 | 5.1 | labd-8(17)-enoic acid | |
147 | 0.7 | 15-nor- | labdan-8-ol |
b23 | 2.5 | lauric acid | |
92 | 9.3 | ledene | |
73 | 0.2 | iso | ledene |
116 | 1.3 | ledol | |
12 | 0.2 | linalool | |
7 | 0.4 | (E)- | linalool oxide furanoid |
11 | 0.2 | (Z)- | linalool oxide furanoid |
b28 | 1.0 | linoleic acid | |
150 | 0.3 | manoyl oxide | |
151 | 0.3 | 13-epi- | manoyl oxide |
85 | 0.1 | massoia lactone | |
40 | 0.3 | (Z)-para- | menth-4(8)-en-2-ol |
62 | 0.1 | 2- | methoxy-6-methyl acetophenone |
29 | 0.3 | para- | methyl acetophenone |
52 | 1.0 | methyl dihydrocinnamate | |
75 | 0.4 | methyl eugenol | |
1 | 0.2 | 5- | methyl furfural |
2 | 0.1 | 6- | methyl-5-hepten-2-one |
120 | 0.3 | muurola-4,10(14)-dien-1-ol | |
123 | 0.3 | alpha- | muurolol |
b25 | 2.7 | myristic acid | |
33 | 0.9 | myrtenal | |
b18 | 6.0 | myrtenic acid | |
36 | 1.5 | myrtenol | |
58 | 1.1 | naginata ketone | |
22 | 0.2 | nerol oxide | |
103 | 0.2 | (E)- | nerolidol |
13 | 0.1 | nonanal | |
b10 | 1.6 | nonanoic acid | |
17 | 0.7 | (E)-3- | nonen-2-one |
b6 | 3.7 | octanoic acid | |
b27 | 1.2 | oleic acid | |
115 | 0.1 | beta- | oplopenone |
b26 | 5.1 | palmitic acid | |
105 | 1.2 | palustrol | |
129 | 0.1 | pentadecanal | |
42 | 0.1 | 3- | phenyl propanol |
23 | 1.5 | pinocamphone | |
28 | 0.7 | iso | pinocamphone |
19 | 1.8 | trans- | pinocarveol |
24 | 0.3 | pinocarvone | |
63 | 0.4 | trans- | pinocarvyl acetate |
47 | 0.8 | piperitone | |
25 | 0.1 | propiophenone | |
128 | 0.2 | 4-iso | propyl-6-methyl tetral-1-one |
16 | 0.1 | (E)- | rose oxide |
14 | 0.2 | (Z)- | rose oxide |
20 | 0.1 | (E)- | sabinol |
b29 | 0.8 | stearic acid | |
21 | 0.2 | (E)- | tagetone |
26 | 0.2 | (Z)- | tagetone |
31 | 0.8 | terpinen-4-ol | |
34 | 0.5 | alpha- | terpineol |
114 | 0.1 | tetradecanal | |
89 | 0.6 | 1,1,5,6- | tetramethyl-1,2-dihydronaphthalene |
95 | 0.2 | 1,1,5,6- | tetramethyl-1,2,3,4-tetrahydronaphthalene |
54 | 0.2 | thymol | |
107 | 0.2 | 6-para- | tolyl heptan-2-one |
88 | 0.1 | tridecanal | |
b16 | 0.7 | 1,5,5- | trimethyl bicyclo(4.1.0)heptan-7-carboxylic acid A |
b17 | 1.9 | 1,5,5- | trimethyl bicyclo(4.1.0)heptan-7-carboxylic acid B |
5 | 0.3 | 2,2,6- | trimethyl cyclohex-2-enone |
4 | 1.3 | 2,2,6- | trimethyl cyclohexanone |
93 | 0.2 | 1-(1,2,2- | trimethyl cyclopent-1-yl) pentan-1,4-dione |
96 | 0.2 | 6,6,10- | trimethyl decan-2-one |
30 | 0.5 | 2,2,5- | trimethyl oxepan-4-one |
67 | 0.2 | 1,1,6- | trimethyl-1,2-dihydronaphthalene |
83 | 0.1 | 4,4,7a- | trimethyl-1,4,5,6,7,7a-hexahydro-2H-inden-2-one |
84 | 0.1 | tuberolactone | |
61 | 0.2 | undecanal | |
b22 | 0.3 | undecanoic acid | |
38 | 0.3 | verbenone | |
112 | 4.3 | viridiflorol | |
56 | 0.2 | vitispirane A | |
57 | 0.1 | vitispirane B | |
P. Weyerstahl, H. Marschall, M. Weirauch, K. Thefeld and H. Surburg, Constituents of commercial labdanum oil. Flav. Fragr. J., 13, 295-318 (1998). P&F 24, No. 4, 31, (1999) | |||
citrus aurantium peel oil | |||
# | % | Leftshift | Components |
43 | 0.10 | delta- | cadinene |
42 | trace | gamma- | cadinene |
28 | 0.02 | carvacrol | |
20 | 0.05 | carveol | |
22 | 0.03 | carvone | |
38 | 0.03 | beta- | caryophyllene |
15 | 0.01 | citronellal | |
21 | 0.07 | citronellol | |
36 | 0.05 | alpha- | copaene |
33 | trace | alpha- | cubebene |
40 | 0.36 | beta- | cubebene |
6 | 0.52 | para- | cymene |
19 | 0.10 | decanal | |
34 | 0.03 | decanoic acid | |
37 | trace | beta- | elemene |
31 | 0.01 | delta- | elemene |
41 | 0.04 | gamma- | elemene |
44 | trace | elemol | |
25 | trace | geranial | |
35 | trace | geranyl acetate | |
39 | 0.02 | alpha- | humulene |
7 | 86.36 | limonene | |
13 | 1.91 | linalool | |
10 | 0.16 | (E)- | linalool oxide furanoid |
11 | 0.08 | (Z)- | linalool oxide furanoid |
5 | 1.83 | myrcene | |
16 | trace | naphthalene | |
23 | 0.04 | nerol | |
45 | 0.02 | nerolidol | |
32 | 0.03 | neryl acetate | |
8 | 0.24 | (E)-beta- | ocimene |
26 | 0.01 | perillaldehyde | |
29 | 0.01 | perillyl alcohol | |
2 | 1.17 | alpha- | pinene |
4 | 0.63 | beta- | pinene |
24 | 0.02 | iso | piperitenone |
3 | 0.07 | sabinene | |
17 | 0.20 | terpinen-4-ol | |
9 | 4.25 | gamma- | terpinene |
18 | 0.24 | alpha- | terpineol |
14 | 0.02 | beta- | terpineol |
12 | 0.21 | terpinolene | |
1 | 0.22 | alpha- | thujene |
27 | 0.12 | thymol | |
30 | trace | undecanal | |
M-B. Huang, D-X. Zhang, C-T. Yan and S-B. Yang, Identification and determination of the constituents of essential oil extracted from Fructus Citri aurantii by GC and GC/MS. Sepu, 8, 321-325 (1990). P&F 25, No. 2, 46, (2000) | |||
citrus junos sieb var. tanaka peel oil | |||
# | % | Leftshift | Components |
22 | 0.80-1.52 | bicycloelemene | |
25 | trace | trans- | carveol |
26 | trace | cis- | carveol |
21 | 0.01-0.02 | carvone | |
15 | 0.13-0.17 | beta- | caryophyllene |
5 | 6.15-8.25 | 1,8- | cineole |
24 | trace | ar- | curcumene |
7 | 0.21-0.40 | para- | cymene |
12 | trace | decanal | |
19 | trace | dodecanal | |
11 | 0.01-0.02 | delta- | elemene |
17 | 1.21-1.96 | beta- | farnesene |
27 | trace | juniper camphor | |
4 | 60.41-71.29 | limonene | |
13 | 1.64-2.00 | linalool | |
14 | trace | linalyl acetate | |
3 | 1.41-1.43 | myrcene | |
10 | trace | nonanal | |
9 | trace | octanal | |
23 | 0.01-0.02 | perillaldehyde | |
1 | 0.95-1.11 | alpha- | pinene |
2 | 0.32-0.35 | beta- | pinene |
20 | trace | piperitone | |
16 | trace-0.02 | terpinen-4-ol | |
6 | 7.59-7.78 | gamma- | terpinene |
18 | 0.10-0.25 | alpha- | terpineol |
8 | 0.23-0.51 | terpinolene | |
28 | 0.12-0.21 | thymol | |
M. Sawamura, T. Kuriyama, Z-F. Li and H. Kusunose, Composition of peel oil components of yuzu (Citrus junos Tanaka) extracted by supercritical carbon dioxide and those of traditional ones. Nippon Shokuhin Kogyo Gaikkaishi, 36, 34-38 (1989). P&F 24, No. 6, 45, (1999) | |||
citrus junos sieb var. tanaka peel oil CO2 extract | |||
# | % | Leftshift | Components |
22 | 0.90-1.65 | bicycloelemene | |
25 | trace-0.01 | trans- | carveol |
26 | trace-0.01 | cis- | carveol |
21 | 0.01 | carvone | |
15 | 0.02-0.19 | beta- | caryophyllene |
5 | 3.70-5.80 | 1,8- | cineole |
24 | trace | ar- | curcumene |
7 | 0.11-0.48 | para- | cymene |
12 | trace-0.03 | decanal | |
19 | trace-0.02 | dodecanal | |
11 | 0.01-0.02 | delta- | elemene |
17 | 1.41-3.49 | beta- | farnesene |
27 | trace-0.05 | juniper camphor | |
4 | 61.91-75.74 | limonene | |
13 | 1.19-7.94 | linalool | |
14 | trace | linalyl acetate | |
3 | 1.05-1.63 | myrcene | |
10 | trace-0.04 | nonanal | |
9 | trace | octanal | |
23 | trace-0.05 | perillaldehyde | |
1 | 0.64-0.90 | alpha- | pinene |
2 | 0.28-0.37 | beta- | pinene |
20 | trace-0.07 | piperitone | |
16 | 0.01-0.33 | terpinen-4-ol | |
6 | 7.43-10.49 | gamma- | terpinene |
18 | 0.16-0.84 | alpha- | terpineol |
8 | 0.17-0.34 | terpinolene | |
28 | 0.24-1.10 | thymol | |
M. Sawamura, T. Kuriyama, Z-F. Li and H. Kusunose, Composition of peel oil components of yuzu (Citrus junos Tanaka) extracted by supercritical carbon dioxide and those of traditional ones. Nippon Shokuhin Kogyo Gaikkaishi, 36, 34-38 (1989). P&F 24, No. 6, 45, (1999) | |||
citrus unshiu peel oil | |||
# | % | Leftshift | Components |
54 | trace | bornyl acetate | |
23 | 0.01 | 2- | butanol |
20 | 0.86 | delta- | cadinene |
65 | trace | carvacrol | |
32 | trace | trans- | carveol |
34 | trace | cis- | carveol |
49 | trace | carvone | |
12 | 0.07 | caryophyllene | |
71 | trace | 1,8- | cineole |
44 | 0.03 | citronellal | |
31 | 0.02 | citronellol | |
37 | 0.03 | citronellyl acetate | |
11 | 0.06 | alpha- | copaene |
46 | trace | cuminaldehyde | |
33 | trace | para- | cymen-8-ol |
8 | 0.22 | para- | cymene |
40 | 0.08 | decanal | |
43 | trace | (E)-2- | decenal |
38 | 0.01 | decyl acetate | |
48 | trace | dihydrocarvone | |
42 | 0.03 | dodecanal | |
62 | trace | dodecyl acetate | |
13 | trace | beta- | elemene |
10 | trace | delta- | elemene |
36 | 0.01 | beta- | elemol |
22 | 0.02 | ethanol | |
51 | trace | ethyl propionate | |
18 | 0.53 | (E,E)-alpha- | farnesene |
57 | 0.11 | geranyl acetate | |
60 | trace | geranyl propionate | |
15 | 0.46 | germacrene D | |
52 | trace | heptyl acetate | |
14 | 0.10 | alpha- | humulene |
72 | trace | indole | |
29 | 0.01 | limonen-4-ol | |
6 | 88.39 | limonene | |
70 | trace | (E)-1,2- | limonene epoxide |
69 | trace | (Z)-1,2- | limonene epoxide |
27 | 0.82 | linalool | |
67 | trace | (E)- | linalool oxide |
68 | trace | (Z)- | linalool oxide |
59 | trace | para- | menth-1-en-9-yl acetate |
61 | 0.03 | para- | menth-1,8(10)-dien-9-yl acetate |
35 | 0.01 | para- | mentha-1,8(10)-dien-9-ol |
47 | trace | methyl heptenone | |
4 | 1.00 | myrcene | |
56 | 0.03 | neryl acetate | |
39 | trace | nonanal | |
55 | 0.01 | nonyl acetate | |
50 | 0.03 | nootkatone | |
19 | trace | octanal | |
53 | 0.03 | octyl acetate | |
26 | trace | pentanol | |
25 | 0.01 | 2- | pentanol |
24 | trace | 3- | pentanol |
45 | trace | perillaldehyde | |
63 | 0.01 | perillyl acetate | |
66 | trace | phenol | |
1 | 0.64 | alpha- | pinene |
2 | 0.16 | beta- | pinene |
3 | 0.24 | sabinene | |
17 | trace | alpha- | selinene |
16 | trace | beta- | selinene |
28 | 0.03 | terpinen-4-ol | |
5 | 0.41 | alpha- | terpinene |
7 | 4.80 | gamma- | terpinene |
30 | 0.21 | alpha- | terpineol |
9 | 0.13 | terpinolene | |
64 | trace | thymol | |
41 | 0.01 | undecanal | |
21 | trace | undecane | |
58 | trace | undecyl acetate | |
I. Yajima, T. Yanai, M. Nakamum, H. Sakakibara and K. Hayashi, Composition of the Volatiles of Peel Oil and Juice from Citrus unshiu, Agric. BioI. Chem., 43, 259-264 (1979). P&F 12, No. 3, 58, (1987) | |||
citrus x latifolia oil expressed | |||
# | % | Leftshift | Components |
33 | 0.8 | alpha- | bergamotene |
52 | trace | (E)-alpha- | bisabolene |
48 | 0.8 | beta- | bisabolene |
68 | trace | alpha- | bisabolol |
25 | trace | borneol | |
32 | trace | bornyl acetate | |
69 | 0.1 | alpha- | cadinol |
3 | 0.1 | camphene | |
6 | trace | delta-3- | carene |
35 | 0.3 | beta- | caryophyllene |
73 | trace | cinnamic alcohol | |
22 | 0.1 | citronellal | |
40 | trace | citronellyl acetate | |
19 | trace | alpha- | cubebene |
27 | trace | beta- | cubebene |
15 | 0.1 | para- | cymene |
24 | 0.1 | decanal | |
72 | trace | decanoic acid | |
61 | trace | (E)-2- | dodecen-1-ol |
34 | 0.1 | beta- | elemene |
21 | 0.1 | delta- | elemene |
37 | trace | gamma- | elemene |
67 | trace | gamma- | eudesmol |
50 | 0.2 | (E,E)-alpha- | farnesene |
41 | 0.1 | (E)-beta- | farnesene |
71 | trace | (E,E)- | farnesyl acetate |
49 | 2.3 | geranial | |
58 | trace | geraniol | |
51 | 1.0 | geranyl acetate | |
45 | trace | geranyl formate | |
56 | 0.1 | germacrene B | |
46 | 0.1 | germacrene D | |
70 | trace | heptadecanal | |
65 | 0.1 | hexadecanal | |
42 | trace | alpha- | humulene |
10 | 52.2 | limonene | |
26 | 0.2 | linalool | |
30 | trace | linalyl acetate | |
59 | trace | para- | mentha-1,8-dien-10-yl acetate |
38 | trace | (E)-para- | mentha-2,8-dien-1-ol |
7 | 1.3 | myrcene | |
43 | 1.2 | neral | |
62 | trace | (E)- | nerolidol |
47 | 1.4 | neryl acetate | |
18 | trace | nonanal | |
31 | 0.1 | nonyl acetate | |
14 | trace | (E)-beta- | ocimene |
12 | trace | (Z)-beta- | ocimene |
74 | trace | octadecanal | |
17 | trace | octanal | |
29 | trace | octanol | |
23 | trace | pentadecane | |
54 | trace | perillaldehyde | |
60 | trace | perillyl acetate | |
8 | trace | alpha- | phellandrene |
11 | trace | beta- | phellandrene |
53 | trace | beta-sesqui | phellandrene |
2 | 3.2 | alpha- | pinene |
4 | 13.0 | beta- | pinene |
57 | trace | iso | piperitenone |
5 | 2.0 | sabinene | |
20 | 0.1 | (E)- | sabinene hydrate |
28 | 0.1 | (Z)- | sabinene hydrate |
39 | trace | beta- | santalene |
64 | trace | spathulenol | |
9 | 0.3 | alpha- | terpinene |
13 | 17.0 | gamma- | terpinene |
44 | 0.4 | alpha- | terpineol |
16 | 0.7 | terpinolene | |
55 | trace | tetradecanal | |
1 | trace | alpha- | thujene |
66 | trace | thymol | |
36 | trace | undecanal | |
75 | trace | undecanoic acid | |
63 | trace | viridiflorol | |
S. M. Njoroge, H. Ueda, H. Kusunose and M. Sawamura, Japanese sour citrus fruits Part IV. Volatile compounds of Naaoshichi and Tahiti lime essential oils. Flav. Fragr. J., 11, 25-29 (1996). P&F 24, No. 2, 35, (1999) | |||
crithmum maritimum oil | |||
# | % | Leftshift | Components |
53 | <0.10 | (E)-alpha- | bergamotol |
26 | <0.10 | bornyl formate | |
5 | <0.10 | delta-3- | carene |
54 | 0.10 | carvacrol | |
45 | <0.10 | trans- | carveol |
57 | <0.10 | caryophylla-2(12),6(13)-dien-5a-ol | |
46 | <0.10 | para- | cymen-8-ol |
12 | 5.30 | para- | cymene |
44 | <0.10 | beta- | damascenone |
32 | 0.10 | (E)-2- | decenal |
41 | <0.10 | neo | dihydrocarveol |
58 | <0.10 | dillapiole | |
16 | <0.10 | alpha-para- | dimethyl styrene |
55 | 0.10 | elemicin | |
40 | 0.10 | (Z)-1,2- | epoxyterpinen-4-ol |
19 | <0.10 | 4,8- | epoxyterpinolene |
36 | <0.10 | limonen-4-ol | |
8 | 24.20 | limonene | |
17 | <0.10 | (Z)-1,2- | limonene epoxide |
21 | <0.10 | linalool | |
24 | 0.70 | (E)-para- | menth-2-en-1-ol |
31 | 0.40 | (Z)-para- | menth-2-en-1-ol |
50 | <0.10 | (Z)-para- | menth-3-en-1,2-diol |
48 | <0.10 | para- | mentha-1,4-dien-7-ol |
33 | <0.10 | (E)-para- | mentha-2,8-dien-1-ol |
52 | 0.20 | para- | methoxypropiophenone |
29 | <0.10 | methyl carvacrol | |
34 | 3.40 | methyl chavicol | |
47 | <0.10 | methyl eugenol | |
25 | 0.30 | methyl isothymol | |
27 | 0.30 | methyl thymol | |
30 | <0.10 | 2- | methyl-6-methylene-3,7-octadien-2-ol |
6 | 1.60 | myrcene | |
56 | <0.10 | myristicin | |
37 | 0.10 | myrtenyl acetate | |
15 | <0.10 | nonanal | |
20 | 0.10 | (E)-2- | nonenal |
10 | 0.30 | (Z)-beta- | ocimene |
14 | <0.10 | octanal | |
23 | <0.10 | octanol | |
9 | 0.30 | beta- | phellandrene |
59 | <0.10 | phytol | |
1 | 0.70 | alpha- | pinene |
3 | 0.20 | beta- | pinene |
35 | 0.20 | (E)- | piperitol |
43 | 0.40 | (Z)- | piperitol |
42 | <0.10 | piperitone | |
4 | 26.90 | sabinene | |
18 | 0.90 | (E)- | sabinene hydrate |
22 | 0.60 | (Z)- | sabinene hydrate |
49 | 0.30 | spathulenol | |
28 | 9.00 | terpinen-4-ol | |
7 | 1.40 | alpha- | terpinene |
11 | 19.30 | gamma- | terpinene |
38 | 0.40 | alpha- | terpineol |
13 | 0.70 | terpinolene | |
39 | <0.10 | alpha- | terpinyl acetate |
2 | 0.30 | alpha- | thujene |
51 | <0.10 | thymol | |
J. of Ess. Oil Res. 12, No. 4, 424, (2000) | |||
croton cajucara benth. leaf oil brazil | |||
# | % | Leftshift | Components |
33 | 0.30 | aromadendrene | |
35 | 0.40 | allo- | aromadendrene |
38 | 2.20 | bicyclogermacrene | |
48 | 0.40 | alpha- | bisabolol |
14 | trace | borneol | |
22 | trace | bornyl acetate | |
29 | 2.00 | beta- | bourbonene |
40 | 0.20 | alpha- | bulnesene |
41 | 1.20 | gamma- | cadinene |
3 | 0.10 | camphene | |
31 | 6.90 | beta- | caryophyllene |
45 | 1.80 | caryophyllene oxide | |
8 | 1.10 | 1,8- | cineole + limonene |
28 | 0.50 | alpha- | copaene |
25 | trace | alpha- | cubebene |
7 | 0.20 | para- | cymene |
30 | 0.70 | beta- | elemene |
23 | 0.30 | delta- | elemene |
19 | 0.20 | geraniol | |
26 | trace | geranyl acetate | |
42 | 2.10 | germacrene B | |
37 | 4.00 | germacrene D | |
32 | 1.30 | beta- | gurjunene |
16 | trace | (Z)-3- | hexen-1-yl butyrate |
34 | 1.40 | alpha- | humulene |
13 | 41.20 | linalool | |
12 | trace | (E)- | linalool oxide furanoid |
11 | trace | (Z)- | linalool oxide furanoid |
20 | 0.30 | linalyl acetate | |
27 | 0.90 | longicyclene | |
36 | 0.20 | (Z)- | muurola-4(14),5-diene |
39 | 1.20 | alpha- | muurolene |
47 | 1.10 | epi-alpha- | muurolol |
6 | trace | myrcene | |
18 | trace | nerol | |
43 | 12.60 | (E)- | nerolidol |
24 | trace | neryl acetate | |
9 | 0.40 | (Z)-beta- | ocimene |
2 | 0.60 | alpha- | pinene |
5 | 0.10 | beta- | pinene |
4 | 0.20 | sabinene | |
44 | 2.00 | spathulenol | |
15 | 0.20 | terpinen-4-ol | |
10 | trace | gamma- | terpinene |
17 | 0.60 | alpha- | terpineol |
1 | trace | alpha- | thujene |
21 | 0.10 | thymol | |
46 | 0.60 | viridiflorol | |
J. of Ess. Oil Res. 12, No. 6, 705, (2000) | |||
croton eluteria bark oil | |||
# | % | Leftshift | Components |
80 | 0.01 | amyl benzoate | |
33 | 0.28 | allo- | aromadendrene |
129 | trace | alpha- | bisabolol |
126 | trace | beta- | bisabolol |
101 | 0.94 | borneol | |
55 | 0.22 | cadalene | |
46 | 0.42 | delta- | cadinene |
44 | 0.17 | gamma- | cadinene |
123 | 1.00 | T- | cadinol |
47 | 0.96 | alpha- | calacorene |
49 | 0.24 | beta- | calacorene |
45 | 0.11 | calamenene | |
4 | 0.40 | camphene | |
63 | 0.02 | camphor | |
10 | 0.21 | delta-2- | carene |
113 | 0.02 | carvacrol | |
110 | trace | carvenone | |
108 | 0.08 | trans- | carveol |
67 | 0.03 | carvone | |
68 | 0.21 | carvotan acetone | |
32 | 0.25 | beta- | caryophyllene |
87 | 0.67 | caryophyllene oxide + dihydro-ar-bisabolol | |
86 | 0.32 | cascarilla epoxide | |
89 | 0.08 | cascarilla furan | |
133 | 1.34 | cascarilla hydroxyketone | |
92 | 0.01 | cascarilla hydroxyketone | |
93 | 0.02 | cascarilla lactone | |
27 | 4.62 | cascarilladiene | |
90 | 1.28 | cascarilladienone | |
137 | 0.74 | cascarillone | |
121 | 1.78 | beta- | cedren-10-ol |
28 | 1.11 | beta- | cedrene isomer |
118 | 0.07 | cedrol | |
43 | 0.20 | alpha- | chamigrene |
36 | 0.11 | beta- | chamigrene |
60 | 0.28 | 1,8- | cineole |
48 | 0.09 | compound k | |
50 | 0.23 | compound l | |
51 | 0.07 | compound m | |
52 | 0.14 | compound n | |
53 | 0.01 | compound o | |
54 | 0.07 | compound p | |
74 | 0.02 | compound q | |
77 | 0.73 | compound r | |
127 | 0.38 | compound t | |
128 | 0.18 | compound u | |
135 | 0.06 | compound v | |
138 | 4.30 | compound w | |
25 | 0.39 | alpha- | copaene |
23 | 0.04 | alpha- | cubebene |
37 | 0.21 | beta- | cubebene |
66 | 0.05 | cuminaldehyde | |
42 | 2.45 | cuparene + alpha-muurolene | |
134 | 1.88 | cuparophenol | |
35 | 0.39 | ar- | curcumene |
24 | 0.53 | cyclosativene | |
102 | 0.28 | para- | cymen-8-ol |
11 | 9.91 | para- | cymene |
65 | 0.06 | 2- | decanone |
131 | 0.86 | dictyopterol 1A | |
132 | 0.43 | dictyopterol 1B | |
130 | 0.51 | 3,4- | dihydro-6-methyl-4-isopropyl-1(2H)-naphthalenone |
79 | trace | 2,5- | dimethoxy-meta-cymene |
20 | 0.01 | 2,5- | dimethoxytoluene (fennelone) |
16 | 0.16 | alpha-para- | dimethyl styrene |
119 | 1.28 | 6,7- | dimethyl undeca-5,9-dien-2-ol |
34 | 0.73 | 1,11-oxido | calamenene |
26 | 1.63 | beta- | elemene |
41 | 0.31 | gamma- | elemene |
114 | 0.56 | elemicin | |
115 | 0.51 | beta- | elemol |
124 | 3.03 | beta- | eudesmol |
31 | 0.07 | (E)-beta- | farnesene |
97 | 0.01 | alpha- | fenchyl alcohol |
136 | 0.35 | geran-9-yl-alpha-terpineol | |
81 | 2.18 | geranyl acetone | |
29 | 0.07 | germacrene D | |
120 | trace | guaiol | |
57 | trace | 2- | heptanol |
56 | 0.01 | 2- | heptanone |
1 | trace | 2,4- | hexadien-1-al |
88 | 0.28 | humulene epoxide isomer | |
125 | 0.71 | intermedeol | |
12 | 0.94 | limonene + 1,8-cineole | |
96 | 5.12 | linalool | |
94 | 0.09 | linalool oxide | |
69 | 0.02 | linalyl acetate | |
39 | 0.01 | beta- | maaliene |
98 | 0.04 | para- | menth-2-en-1-ol |
111 | trace | para- | mentha-1,3-dien-7-al |
64 | 0.02 | para- | methyl acetophenone |
8 | 0.02 | ortho- | methyl anisole |
82 | 0.05 | 3- | methyl but-2-enyl benzoate |
22 | 0.02 | methyl carvacrol | |
76 | 0.05 | methyl cascarillate | |
19 | 0.01 | methyl chavicol | |
78 | 0.22 | methyl eugenol | |
58 | 0.03 | 6- | methyl heptan-2-one |
21 | 0.02 | methyl thymol | |
59 | 0.02 | 6- | methyl-5-hepten-2-one |
18 | 0.09 | 5- | methyl-5-hexyl furan |
7 | 0.64 | myrcene | |
105 | 0.17 | myrtenol | |
116 | 0.05 | nerolidol | |
95 | 0.02 | 2- | nonanol |
61 | 0.18 | 2- | nonanone |
14 | 0.01 | (E)-beta- | ocimene |
13 | 0.01 | (Z)-beta- | ocimene |
70 | 0.05 | phellandral | |
9 | 0.13 | alpha- | phellandrene |
3 | 2.59 | alpha- | pinene |
6 | 0.35 | beta- | pinene |
99 | 0.17 | pinocarveol | |
107 | 0.10 | piperitol | |
84 | 0.03 | prenyl benzoate | |
91 | 0.09 | 4-iso | propyl-6-methyl tetral-1-one |
5 | 0.09 | sabinene | |
109 | trace | sabinol | |
38 | 0.58 | beta- | selinene |
117 | 0.70 | spathulenol | |
103 | 1.70 | terpinen-4-ol | |
73 | trace | terpinen-4-yl acetate | |
15 | 0.60 | gamma- | terpinene |
104 | 1.10 | alpha- | terpineol |
100 | trace | beta- | terpineol |
17 | 0.07 | terpinolene | |
75 | 0.16 | alpha- | terpinyl acetate |
2 | 2.11 | alpha- | thujene |
62 | 0.14 | alpha- | thujone |
30 | 0.23 | thujopsene | |
112 | trace | thymol | |
122 | 0.77 | torilenol | |
85 | trace | 2- | tridecanone |
83 | 0.15 | (Z)-5- | tridecen-2-one |
71 | 0.29 | 5,8- | undecadien-2-one + (Z)-5-undecen-2-one |
72 | 0.31 | 2- | undecanone |
40 | 0.18 | valencene | |
106 | 0.11 | verbenone | |
M. L. Hagedorn and S. M. Brown, The constituents of Cascarilla oil (Croton eluteria Bennett) Flav. Fragr. J., 6, 193-204 (1991). P&F 18, No. 6, 53, (1993) | |||
croton flavens l. (welensali) leaf oil curacao | |||
# | % | Leftshift | Components |
47 | 0.30 | allo- | aromadendrene |
24 | 1.20 | borneol | |
32 | 0.20 | bornyl acetate | |
28 | 0.50 | bornyl formate | |
39 | 0.30 | beta- | bourbonene |
51 | 1.20 | delta- | cadinene |
4 | 1.70 | camphene | |
22 | 0.30 | camphene hydrate | |
19 | trace | alpha- | campholenal |
20 | trace | camphor | |
44 | 9.30 | iso | caryophyllene |
11 | 0.10 | 1,8- | cineole |
38 | 0.60 | alpha- | copaene |
36 | 0.20 | alpha- | cubebene |
48 | 7.90 | ar- | curcumene |
10 | 1.70 | para- | cymene |
42 | 0.50 | cyperene | |
27 | 0.10 | 2- | decanone |
43 | 0.20 | 2,6- | dimethoxy-para-cymene |
40 | trace | 2- | dodecanone |
41 | 0.80 | beta- | elemene |
35 | 0.30 | delta- | elemene |
49 | 0.30 | germacrene D | |
45 | 0.80 | alpha- | gurjunene |
46 | 1.50 | alpha- | humulene |
12 | 1.30 | limonene | |
18 | 0.40 | linalool | |
16 | trace | (E)- | linalool oxide furanoid |
15 | trace | (Z)- | linalool oxide furanoid |
37 | 0.20 | longicyclene | |
8 | trace | 4- | methyl anisole |
30 | 0.10 | methyl carvacrol | |
29 | trace | methyl thymol | |
7 | 0.60 | myrcene | |
52 | 0.40 | (E)- | nerolidol |
13 | 0.20 | (Z)-beta- | ocimene |
9 | 1.50 | alpha- | phellandrene |
3 | 16.00 | alpha- | pinene |
6 | 0.70 | beta- | pinene |
21 | .020 | trans- | pinocarveol |
23 | 0.10 | pinocarvone | |
5 | 0.20 | sabinene | |
53 | 4.50 | spathulenol | |
25 | 0.10 | terpinen-4-ol | |
14 | 0.20 | gamma- | terpinene |
26 | 0.10 | alpha- | terpineol |
17 | trace | terpinolene | |
2 | 0.30 | alpha- | thujene |
34 | trace | thymol | |
1 | 0.20 | tricyclene | |
50 | 0.30 | 2- | tridecanone |
33 | 0.50 | 2- | undecanone |
31 | 0.60 | trans- | verbenyl acetate |
J. of Ess. Oil Res. 12, No. 6, 667, (2000) | |||
daucus carota ssp. gummifer hook. fil. seed oil spain | |||
# | % | Leftshift | Components |
34 | trace-1.38 | alpha- | acoradiene |
21 | trace-0.35 | borneol | |
39 | 0.07-0.16 | gamma- | cadinene |
43 | 0.10-0.90 | alpha- | cadinol |
3 | 0.04-0.08 | camphene | |
31 | 0.44-1.39 | beta- | caryophyllene |
41 | 0.18-1.01 | caryophyllene oxide | |
30 | trace-0.32 | alpha- | copaene |
11 | 0.06-2.48 | para- | cymene |
44 | 0.74-1.37 | eudesm-11-en-4-ol | |
38 | 0.04-0.30 | (E)-beta- | farnesene |
25 | 0.14-0.32 | geranial | |
24 | 0.61-2.33 | geraniol | |
29 | 51.74-76.95 | geranyl acetate | |
35 | trace-0.16 | beta- | gurjunene |
32 | 0.24-0.61 | alpha- | humulene |
33 | trace-0.50 | beta- | ionone |
12 | 0.70-1.18 | limonene | |
18 | 3.97-5.18 | linalool | |
17 | 0.05-0.13 | (E)- | linalool oxide furanoid |
16 | 0.20-1.07 | (Z)- | linalool oxide furanoid |
8 | 0.02-0.03 | para- | mentha-1(7),3,8-triene |
4 | trace-0.02 | 6- | methyl-5-hepten-2-one |
42 | trace-1.37 | T- | muurolol |
7 | 0.52-0.81 | myrcene | |
40 | 0.04-0.09 | nerolidol | |
28 | 0.08-0.73 | neryl acetate | |
14 | trace-0.10 | (E)-beta- | ocimene |
13 | trace | (Z)-beta- | ocimene |
9 | trace-0.02 | alpha- | phellandrene |
2 | 0.50-1.73 | alpha- | pinene |
6 | 0.16-1.66 | beta- | pinene |
5 | 4.42-11.13 | sabinene | |
20 | 0.03-0.62 | (E)- | sabinene hydrate |
19 | 0.02-0.23 | (Z)- | sabinene hydrate |
37 | 0.16-0.66 | alpha- | selinene |
36 | 0.25-1.99 | beta- | selinene |
22 | 0.93-8.17 | terpinen-4-ol | |
10 | trace-0.29 | alpha- | terpinene |
15 | 0.02-0.52 | gamma- | terpinene |
23 | 0.16-0.69 | alpha- | terpineol |
27 | 0.03-0.08 | alpha- | terpinyl acetate |
1 | 0.03-0.12 | alpha- | thujene |
26 | trace-0.35 | thymol | |
M. Gil Pinilla, M. J. Pérez-Alonso and A. Velasco-Negueruela, Volatile constituents from fruits of Daucus carota L. gummifer Hook. fil. J. Essent. Oil Res., 7, 433-435 (1995). P&F 24, No. 6, 45, (1999) | |||
eucalyptus camaldulensis leaf oil jerusalem | |||
# | % | Leftshift | Components |
19 | 0.80 | allo- | aromadendrene |
23 | 3.80 | borneol | |
27 | 0.60 | delta- | cadinene |
39 | 0.90 | alpha- | cadinol |
32 | 4.50 | caryophyllene oxide | |
9 | 3.70 | 1,8- | cineole + beta-phellandrene |
20 | 6.90 | cryptone | |
28 | 3.90 | cuminaldehyde | |
30 | 0.60 | para- | cymen-8-ol |
11 | 24.20 | para- | cymene |
21 | 0.10 | deshydroaromadendrene | |
33 | 0.80 | eicosane + humulene epoxide | |
16 | 0.20 | alpha- | fenchol |
34 | 0.20 | globulol | |
35 | 0.10 | epi- | globulol |
8 | 1.10 | limonene | |
14 | 1.30 | linalool | |
15 | 1.50 | (Z)-para- | menth-2-en-1-ol |
18 | 1.80 | (E)-para- | menth-2-en-1-ol |
13 | 0.30 | menthone | |
6 | 0.40 | myrcene | |
31 | 0.30 | nonadecane | |
29 | 0.10 | octadecane | |
24 | 3.80 | phellandral | |
5 | 0.40 | alpha- | phellandrene |
1 | 0.70 | alpha- | pinene |
3 | 0.60 | beta- | pinene |
26 | 0.10 | piperitol | |
25 | 1.30 | piperitone | |
4 | 0.20 | sabinene | |
36 | 17.50 | spathulenol | |
37 | 0.20 | iso | spathulenol |
17 | 4.40 | terpinen-4-ol | |
7 | 0.60 | alpha- | terpinene |
10 | 1.30 | gamma- | terpinene |
22 | 0.70 | alpha- | terpineol |
12 | 0.40 | terpinolene | |
2 | 1.30 | alpha- | thujene |
38 | 0.40 | thymol | |
J. of Ess. Oil Res. 13, No. 2, 105, (2001) | |||
eucalyptus delegatensis r. baker leaf oil ethiopia | |||
# | % | Leftshift | Components |
13 | 4.10 | iso | borneol |
2 | 0.70 | camphene | |
12 | 0.40 | alpha- | campholenic aldehyde |
16 | 0.40 | carvacrol | |
7 | 26.40 | 1,8- | cineole |
11 | 0.80 | alpha- | fenchyl alcohol |
5 | 5.00 | limonene | |
10 | 0.60 | linalool | |
6 | 0.30 | (Z)-beta- | ocimene |
4 | 0.40 | alpha- | phellandrene |
1 | 28.30 | alpha- | pinene |
3 | 0.50 | beta- | pinene |
8 | 18.00 | gamma- | terpinene |
14 | 8.30 | alpha- | terpineol |
9 | 1.60 | terpinolene | |
15 | 0.40 | thymol | |
J. of Ess. Oil Res. 12, No. 4, 467, (2000) | |||
eucalyptus globulus bud oil | |||
# | % | Leftshift | Components |
11 | 0.05 | iso | amyl isovalerate |
18 | 16.57 | aromadendrene | |
20 | 1.88 | allo- | aromadendrene |
15 | 1.57 | beta- | bourbonene |
19 | 0.34 | bulnesene | |
31 | 0.10 | delta- | cadinene |
30 | 0.26 | gamma- | cadinene |
34 | 0.08 | trans- | carveol |
7 | 36.95 | 1,8- | cineole |
13 | 0.10 | alpha- | copaene |
21 | 0.11 | cryptone | |
12 | 0.27 | alpha- | cubebene |
35 | 0.37 | para- | cymen-7-ol |
9 | 8.04 | para- | cymene |
41 | 0.18 | beta- | eudesmol |
37 | trace | gamma- | eudesmol |
39 | 3.05 | globulol | |
38 | 0.12 | epi- | globulol |
28 | 0.29 | alpha- | guaiene |
14 | trace | alpha- | gurjunene |
17 | trace | beta- | gurjunene |
22 | trace | gamma- | gurjunene |
23 | trace | alpha- | humulene |
43 | 0.04 | 5-epi-neo | intermedeol |
25 | 0.10 | ledene | |
6 | 3.10 | limonene | |
33 | 0.10 | cis-para- | mentha-1(7),5-dien-2-ol |
5 | 0.07 | myrcene | |
32 | trace | nerol | |
36 | 0.07 | palustrol | |
4 | 0.01 | alpha- | phellandrene |
2 | 0.30 | beta- | pinene |
16 | 0.10 | pinocarvone | |
27 | trace | piperitone | |
3 | 0.54 | sabinene | |
29 | 0.29 | alpha- | selinene |
8 | trace | gamma- | terpinene |
26 | 4.66 | alpha- | terpineol |
10 | trace | terpinolene | |
1 | 11.95 | alpha- | thujene |
42 | 0.14 | thymol | |
24 | 0.36 | viridiflorene | |
40 | 0.53 | viridiflorol | |
J-C. Chalchat, J. L. Cabard, M. S. Gorunovic, V. Djermanovic and V. Bulatovic, Chemical composition of Eucalyptus globulus oils from the Montenegro coast and east coast of spain. J. Essent. Oil Res., 7, 147-152 (1995). P&F 26, No. 2, 22, (2001) | |||
eucalyptus globulus fruit oil | |||
# | % | Leftshift | Components |
13 | 0.46 | iso | amyl isovalerate |
21 | 23.33 | aromadendrene | |
23 | 3.32 | allo- | aromadendrene |
17 | 2.40 | beta- | bourbonene |
22 | 0.44 | bulnesene | |
41 | 0.62 | delta- | cadinene |
40 | trace | gamma- | cadinene |
58 | 0.20 | alpha- | cadinol |
55 | 0.28 | T- | cadinol |
18 | trace | carvenone | |
27 | 0.16 | carvotan acetone | |
7 | 15.31 | 1,8- | cineole |
15 | 0.08 | alpha- | copaene |
24 | 0.13 | cryptone | |
14 | 0.34 | alpha- | cubebene |
19 | trace | beta- | cubebene |
44 | trace | para- | cymen-7-ol |
11 | 6.44 | para- | cymene |
52 | 0.84 | beta- | eudesmol |
47 | 0.55 | gamma- | eudesmol |
36 | trace | germacrene D | |
50 | 14.98 | globulol | |
49 | 3.10 | epi- | globulol |
34 | 0.39 | alpha- | guaiene |
16 | trace | alpha- | gurjunene |
20 | 0.47 | beta- | gurjunene |
26 | 0.20 | gamma- | gurjunene |
28 | trace | alpha- | humulene |
59 | 0.22 | 5-epi-neo | intermedeol |
31 | 3.63 | ledene | |
46 | trace | ledol | |
6 | 1.10 | limonene | |
43 | trace | cis-para- | mentha-1(7),5-dien-2-ol |
38 | trace | gamma- | muurolene |
54 | 0.12 | T- | muurolol |
4 | 0.21 | myrcene | |
42 | 0.10 | nerol | |
10 | trace | (E)-beta- | ocimene |
45 | 0.16 | palustrol | |
3 | 2.11 | alpha- | phellandrene |
8 | 0.50 | beta- | phellandrene |
48 | trace | 2- | phenethyl 2-methyl butyrate |
1 | 3.61 | alpha- | pinene |
2 | 0.10 | beta- | pinene |
25 | trace | trans- | pinocarveol |
33 | trace | piperitone | |
35 | 0.30 | alpha- | selinene |
37 | trace | delta- | selinene |
39 | trace | gamma- | selinene |
53 | 0.20 | spathulenol | |
57 | trace | iso | spathulenol |
5 | 0.22 | alpha- | terpinene |
9 | 0.18 | gamma- | terpinene |
32 | 2.27 | alpha- | terpineol |
12 | 0.20 | terpinolene | |
56 | 0.28 | thymol | |
29 | trace | beta- | vetivene |
30 | 0.66 | viridiflorene | |
51 | 2.17 | viridiflorol | |
J-C. Chalchat, J. L. Cabard, M. S. Gorunovic, V. Djermanovic and V. Bulatovic, Chemical composition of Eucalyptus globulus oils from the Montenegro coast and east coast of spain. J. Essent. Oil Res., 7, 147-152 (1995). P&F 26, No. 2, 22, (2001) | |||
eucalyptus globulus oil rwanda | |||
Also in 1997, Chalchat et al. (1997) examined the com position of a lab-distilled oil of E. globulus leaves produced from trees found in Rwanda using CC/MS. The composition of the oil was found to be as follows: | |||
# | % | Leftshift | Components |
26 | 0.10 | allo- | aromadendrene |
4 | 0.04 | camphene | |
31 | 0.03 | trans- | carveol |
24 | 0.03 | beta- | caryophyllene |
11 | 71.20 | 1,8- | cineole |
19 | 0.03 | alpha- | cubebene |
32 | 0.07 | para- | cymen-8-ol |
15 | 8.23 | para- | cymene |
18 | 0.05 | alpha-para- | dimethyl styrene |
39 | 0.05 | alpha- | eudesmol |
40 | 0.11 | beta- | eudesmol |
37 | 0.01 | gamma- | eudesmol |
3 | 0.01 | alpha- | fenchene |
35 | 0.11 | globulol | |
34 | 0.04 | epi- | globulol |
20 | 0.02 | alpha- | gurjunene |
23 | 0.06 | beta- | gurjunene |
12 | 0.13 | (E)-2- | hexenal |
17 | 0.18 | (Z)-3- | hexen-1-ol |
10 | 3.10 | limonene | |
22 | trace | linalool | |
30 | 0.05 | (E)-para- | mentha-1(7),8-dien-2-ol |
33 | 0.03 | (Z)-para- | mentha-1(7),8-dien-2-ol |
8 | 0.09 | myrcene | |
13 | 0.02 | (Z)-beta- | ocimene |
7 | 0.01 | alpha- | phellandrene |
1 | 6.23 | alpha- | pinene |
5 | 0.19 | beta- | pinene |
27 | 0.20 | trans- | pinocarveol |
21 | 0.04 | pinocarvone | |
6 | 0.02 | sabinene | |
25 | 1.46 | terpinen-4-ol | |
9 | 0.02 | alpha- | terpinene |
14 | 3.20 | gamma- | terpinene |
28 | 0.11 | alpha- | terpineol |
16 | 0.06 | terpinolene | |
29 | 3.10 | alpha- | terpinyl acetate |
2 | 0.03 | alpha- | thujene |
38 | trace | thymol | |
36 | 0.03 | viridiflorol | |
J-C. Chalchat, A. Muhayimana, J. B. Habimana and J. L. Chabard, Aromatic plants of Rwanda II. Chemical composition of essential oils of ten Eucalpytus species growing in Ruhande Arboretum Butare, Rwanda. J. Essent. Oil Res., 9, 159-165 (1995). P&F 26, No. 2, 22, (2001) | |||
guava leaf oil cuba | |||
# | % | Leftshift | Components |
11 | trace | acetophenone | |
35 | 0.20 | alpha- | acoradiene |
48 | trace | beta- | acorenol |
34 | trace | allo- | aromadendrene |
3 | 0.20 | benzaldehyde | |
41 | 0.40 | beta- | bisabolene |
42 | 0.20 | (Z)-gamma- | bisabolene |
52 | 3.20 | beta- | bisabolol |
53 | 3.20 | alpha- | bisabolol |
43 | 0.10 | alpha- | calacorene |
17 | trace | camphor | |
25 | trace | carvacrol | |
30 | 21.60 | beta- | caryophyllene |
45 | trace | caryophyllene alcohol | |
46 | 8.20 | caryophyllene oxide | |
49 | 7.90 | cedr-8(15)-en-9-alpha-ol | |
29 | 0.20 | alpha- | cedrene |
31 | trace | beta- | cedrene |
27 | 0.20 | alpha- | copaene |
37 | 1.40 | ar- | curcumene |
7 | trace | para- | cymene |
36 | trace | drima-7,9(11)-diene | |
26 | trace | delta- | elemene |
32 | trace | (Z)-beta- | farnesene |
54 | 0.20 | (E,E)- | farnesol |
55 | trace | (Z,E)- | farnesyl acetate |
1 | 0.10 | (Z)-3- | hexen-1-ol |
2 | trace | (Z)-2- | hexen-1-ol |
20 | trace | (Z)-3- | hexen-1-yl acetate |
28 | trace | (Z)-3- | hexen-1-yl hexanoate |
33 | 3.10 | alpha- | humulene |
47 | 0.20 | humulene oxide II | |
8 | trace | limonene | |
16 | trace | linalool | |
15 | trace | (E)- | linalool oxide furanoid |
14 | trace | (Z)- | linalool oxide furanoid |
22 | trace | 2- | methyl-2-nonen-4-one |
5 | trace | 6- | methyl-5-hepten-2-ol |
4 | trace | 6- | methyl-5-hepten-2-one |
50 | 0.50 | alpha- | muurolol |
6 | trace | myrcene | |
23 | trace | myrtenyl acetate | |
44 | 19.20 | (E)- | nerolidol |
9 | trace | (Z)-beta- | ocimene |
18 | trace | allo- | ocimene |
10 | trace | (E)-beta- | ocimene |
13 | trace | octanol | |
56 | trace | phytol | |
51 | 13.40 | selin-11-en-4alpha-ol | |
39 | 8.30 | alpha- | selinene |
19 | trace | terpinen-4-ol | |
12 | trace | gamma- | terpinene |
21 | trace | alpha- | terpineol |
24 | 0.10 | thymol | |
38 | 8.80 | viridiflorene | |
40 | 0.70 | zingiberene | |
J. of Ess. Oil Res. 13, No. 1, 61, (2001) | |||
helichrysum arenarium l. moench oil hungary | |||
# | % | Leftshift | Components |
5 | 3.20 | anethole | |
7 | 0.30 | para- | anisaldehyde |
21 | 1.50 | beta- | asarone |
16 | 0.70 | delta- | cadinene |
11 | 3.60 | carvacrol | |
4 | 1.10 | carvone | |
18 | 0.30 | caryophylla-2(12),6-dien-5-ol | |
9 | 0.60 | beta- | caryophyllene |
6 | 0.20 | copaene | |
15 | 9.80 | decanoic acid | |
19 | 11.90 | dodecanoic acid | |
13 | 0.40 | eugenol | |
22 | 1.40 | globulol | |
17 | 0.10 | alpha- | gurjunene |
12 | 0.50 | alpha- | humulene |
1 | 1.70 | linalool | |
23 | 28.50 | methyl palmitate | |
14 | 0.10 | gamma- | muurolene |
20 | 1.30 | alpha- | muurolol |
8 | 6.90 | nonanoic acid | |
3 | 6.00 | octanoic acid | |
2 | 1.80 | alpha- | terpineol |
10 | 0.60 | thymol | |
J. of Ess. Oil Res. 12, No. 6, 728, (2000) | |||
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 angustifolia herb oil france | |||
# | % | Leftshift | Components |
50 | trace | (E)-alpha- | bergamotene |
29 | 2.76 | borneol + linalool oxide pyranoid | |
38 | 0.06 | bornyl acetate | |
7 | 0.18 | butyl isobutyrate | |
59 | trace | cadalene | |
53 | 0.56 | gamma- | cadinene |
58 | 0.99 | T- | cadinol |
4 | 0.13 | camphene | |
26 | 0.59 | camphor | |
10 | trace | delta-3- | carene |
49 | 1.08 | beta- | caryophyllene |
56 | 3.74 | caryophyllene oxide | |
48 | 0.05 | alpha- | cedrene |
12 | 3.32 | 1,8- | cineole |
43 | 0.22 | citronellyl acetate | |
46 | trace | alpha- | copaene |
11 | 0.33 | para- | cymene |
19 | trace | para- | cymenene |
42 | trace | delta- | elemene |
51 | 0.97 | (Z)-beta- | farnesene |
60 | trace | (Z,E)- | farnesol |
36 | trace | geraniol | |
45 | 1.95 | geranyl acetate | |
52 | 0.14 | germacrene D | |
57 | 0.10 | hexadecane | |
9 | 1.96 | hexyl acetate | |
32 | 0.25 | hexyl butyrate | |
28 | 0.12 | hexyl isobutyrate + pinocarvone | |
40 | 5.46 | lavandulyl acetate | |
13 | 0.59 | limonene | |
22 | 20.98 | linalool | |
20 | 1.98 | (E)- | linalool oxide furanoid |
18 | 2.44 | (Z)- | linalool oxide furanoid |
37 | 26.54 | linalyl acetate | |
41 | 0.12 | linalyl propionate | |
35 | trace | methyl thymol | |
8 | 1.08 | myrcene | |
34 | 1.02 | nerol + citronellol + carvone | |
55 | 0.08 | (E)- | nerolidol |
54 | trace | (Z)- | nerolidol |
44 | 1.02 | neryl acetate | |
15 | 1.15 | (E)-beta- | ocimene |
14 | 0.86 | (Z)-beta- | ocimene |
61 | trace | octadecane | |
25 | 0.09 | 3- | octen-1-yl acetate |
23 | 1.34 | 1- | octen-3-yl acetate |
33 | 0.12 | octyl acetate | |
3 | 0.14 | alpha- | pinene |
6 | 0.51 | beta- | pinene + 6-methyl-5-hepten-2-one |
24 | 0.07 | cis- | pinene hydrate |
27 | 0.16 | trans- | pinocarveol |
5 | 0.05 | sabinene | |
17 | 0.11 | (E)- | sabinene hydrate |
30 | 1.52 | terpinen-4-ol | |
16 | 0.07 | gamma- | terpinene |
31 | 4.34 | alpha- | terpineol |
21 | 0.29 | terpinolene | |
47 | trace | tetradecane | |
2 | trace | alpha- | thujene |
39 | trace | thymol | |
1 | trace | tricyclene | |
P. R. Venskutonis, A. Dapkevicies and M. Baranauskiene, Composition of the essential oil of lavender (Lavandula angustifolia Mill.) from Lithuania. J. Essent. Oil Res., 9, 107-110 (1997). P&F 26, No. 4, 55, (2000) | |||
lippia aff. gracillis h.b.k. leaf oil brazil | |||
# | % | Leftshift | Components |
17 | 0.50 | aromadendrene | |
20 | 1.60 | bicyclogermacrene | |
10 | 0.50 | borneol | |
21 | 0.10 | delta- | cadinene |
14 | 38.40 | carvacrol | |
16 | 5.00 | beta- | caryophyllene |
23 | 0.80 | caryophyllene oxide | |
6 | 2.10 | 1,8- | cineole |
5 | 14.50 | para- | cymene |
18 | 0.50 | alpha- | humulene |
19 | 1.40 | 3- | hydroxymethyl carvacrol |
7 | 0.40 | limonene | |
9 | 1.20 | linalool | |
12 | 6.00 | methyl thymol | |
3 | 2.30 | myrcene | |
2 | 0.60 | alpha- | pinene |
22 | 0.80 | spathulenol | |
11 | 0.80 | terpinen-4-ol | |
4 | 1.90 | alpha- | terpinene |
8 | 10.60 | gamma- | terpinene |
1 | 1.30 | alpha- | thujene |
13 | 8.00 | thymol | |
15 | 0.40 | thymyl acetate | |
J. of Ess. Oil Res. 12, No. 3, 295, (2000) | |||
lippia citriodora oil | |||
# | % | Leftshift | Components |
46 | 0.5 | allo- | aromadendrene |
28 | 0.4 | bornyl butyrate | |
43 | 0.8 | beta- | bourbonene |
48 | 0.1 | delta- | cadinene |
50 | 0.6 | gamma- | cadinene |
59 | 0.9 | T- | cadinol |
41 | 0.1 | carvacrol | |
32 | 0.4 | trans- | carveol |
40 | 0.8 | carvone | |
45 | 0.4 | beta- | caryophyllene |
52 | trace | iso | caryophyllene |
55 | 5.5 | caryophyllene oxide | |
58 | 1.0 | iso | caryophyllene oxide |
53 | 0.4 | alpha- | cedrene |
14 | 12.4 | 1,8- | cineole |
42 | 0.6 | alpha- | copaene |
47 | 0.6 | beta- | cubebene |
51 | trace | cuparene | |
49 | 4.6 | ar- | curcumene |
7 | 0.2 | para- | cymene |
36 | 0.6 | fenchone | |
26 | 9.9 | geranial | |
35 | 0.7 | geranic acid | |
33 | 0.5 | geraniol | |
29 | 1.6 | geranyl acetate | |
30 | 0.9 | geranyl isobutyrate | |
31 | 0.3 | geranyl propionate | |
44 | 0.1 | alpha- | gurjunene |
13 | 0.4 | (Z)-3- | hexen-1-yl butyrate |
12 | 0.3 | hexyl 2-methyl butyrate | |
4 | 3.7 | limonene | |
19 | 1.3 | linalool | |
18 | 0.1 | (E)- | linalool oxide furanoid |
17 | trace | (Z)- | linalool oxide furanoid |
54 | 0.2 | longifolene | |
24 | 0.7 | methyl geranate | |
9 | 7.4 | 6- | methyl-5-hepten-2-one |
56 | 0.5 | alpha- | muurolol |
37 | 0.2 | myrtenal | |
23 | 6.9 | neral | |
57 | 1.2 | nerolidol | |
27 | 0.6 | neryl acetate | |
10 | 0.3 | 3- | octanol |
11 | 0.7 | 1- | octen-3-ol |
5 | trace | alpha- | phellandrene |
1 | 1.4 | alpha- | pinene |
2 | 0.3 | beta- | pinene |
39 | 0.7 | trans- | pinocarveol |
21 | 0.7 | iso | pulegol |
15 | trace | rose oxide | |
3 | 0.2 | sabinene | |
38 | 0.6 | (E)- | sabinene hydrate |
20 | 0.3 | (Z)- | sabinene hydrate |
60 | 5.2 | spathulenol | |
22 | 1.0 | terpinen-4-ol | |
6 | 1.0 | gamma- | terpinene |
25 | 2.3 | alpha- | terpineol |
8 | trace | terpinolene | |
16 | 0.3 | alpha- | thujone |
34 | 0.3 | thymol | |
61 | 0.1 | viridiflorol | |
J. Bellakhdar, A.IL. Idrissi, S. Canigueral, J. Iglesias and R.Vila, Analysis de L'huile essentielle dela verveine odorante (Lippia citriodora H, B, and K). Plant. Medicin Phytother., 26, 269-273 (1993). P&F 23, No. 5, 55, (1998) | |||
lippia graveolens oil mexico | |||
# | % | Leftshift | Components |
15 | 0.84 | aromadendrene | |
19 | 0.20 | beta- | bisabolene |
26 | 0.09 | borneol | |
20 | 0.08 | delta- | cadinene |
21 | 0.16 | gamma- | cadinene |
22 | 0.06 | calamenene | |
3 | 0.34 | camphene | |
31 | 16.50 | carvacrol | |
14 | 3.40 | beta- | caryophyllene |
28 | 0.33 | caryophyllene oxide | |
23 | 1.84 | 1,8- | cineole |
13 | 0.06 | alpha- | copaene |
9 | 8.12 | para- | cymene |
12 | 0.08 | alpha-para- | dimethyl styrene |
18 | 0.34 | eremophilene | |
16 | 2.10 | alpha- | humulene |
29 | 0.12 | humulene oxide | |
8 | 0.70 | limonene | |
24 | 0.41 | linalool | |
17 | 0.12 | gamma- | muurolene |
5 | 1.10 | myrcene | |
6 | 0.56 | alpha- | phellandrene |
2 | 0.56 | alpha- | pinene |
4 | 0.16 | beta- | pinene |
25 | 0.33 | terpinen-4-ol | |
7 | 0.34 | alpha- | terpinene |
10 | 0.54 | gamma- | terpinene |
27 | 0.48 | alpha- | terpineol + methyl thymol |
11 | 0.08 | terpinolene | |
1 | 0.08 | alpha- | thujene |
30 | 46.30 | thymol | |
J. Pino, A. Rosado, R. Baluja and P. Borges, Analysis of the Essential oil of Mexican Oregano (Lippia graveolens HBK). Nahrung, 3, 289-295 (1989). P&F 21, No. 3, 55, (1996) | |||
lutea petiolare (dc) m. pimen. oil iran | |||
# | % | Leftshift | Components |
1 | 0.50 | camphene | |
4 | 36.20 | delta-3- | carene |
9 | 0.20 | trans- | carveol |
5 | 0.10 | para- | cymene |
8 | 0.20 | myrtenal | |
6 | 1.80 | (E)-beta- | ocimene |
3 | 0.60 | beta- | pinene |
2 | 57.80 | sabinene | |
7 | 0.10 | gamma- | terpinene |
10 | 0.10 | thymol | |
J. of Ess. Oil Res. 13, No. 1, 49, (2001) | |||
mandarin oil | |||
# | % | Leftshift | Components |
1 | 0.91 | alpha- | thujene |
2 | 2.29 | alpha- | pinene |
3 | 0.05 | camphene | |
4 | 1.88 | beta- | pinene |
5 | 1.73 | myrcene | |
6 | 0.02 | delta-2- | carene |
7 | 0.48 | alpha- | phellandrene |
8 | 4.25 | para- | cymene |
9 | 66.41 | limonene | |
10 | 0.03 | (E)-beta- | ocimene |
11 | 0.01 | (Z)-beta- | ocimene |
12 | 19.17 | gamma- | terpinene |
13 | 1.38 | terpinolene | |
14 | trace | para- | mentha-1,3,8-triene |
15 | 0.01 | gamma- | terpineol |
16 | trace | (Z)-para- | menth-2-en-1-ol |
17 | 0.13 | linalool | |
18 | trace | (Z)- | sabinene hydrate |
19 | trace | (Z)-beta- | terpineol |
20 | trace | iso | pulegol |
21 | trace | (E)-beta- | terpineol |
22 | 0.04 | terpinen-4-ol | |
23 | 0.12 | alpha- | terpineol |
24 | trace | citronellol | |
25 | 0.02 | hexanol | |
26 | 0.12 | 3- | octanol |
27 | 0.03 | decanol | |
28 | 0.02 | benzaldehyde | |
29 | trace | 3- | methyl benzaldehyde |
30 | trace | nonanal | |
31 | trace | geranial | |
32 | trace | perillaldehyde | |
33 | 0.10 | terpinen-4-yl acetate | |
34 | 0.50 | methyl N-methyl anthranilate | |
35 | trace | thymol | |
36 | 0.08 | beta- | caryophyllene |
37 | trace | alpha- | humulene |
38 | trace | beta- | selinene |
39 | 0.30 | alpha- | farnesene |
40 | trace | delta- | cadinene |
G. Della Porta, E. Reverchon, D. Chouchi and D. Barth, Mandarin and lime peel oil processing by supercritical CO2 desorption:deterpenation and high molecular weight compounds elimination. J. Essent. Oil Res., 9, 519-522 (1997). P&F 26, No. 1, 36, (2001) | |||
mandarin oil avana | |||
# | % | Leftshift | Components |
3 | 0.01 | camphene | |
30 | 0.06 | beta- | caryophyllene |
16 | 0.04 | citronellal | |
26 | 0.11 | decanal | |
32 | 0.04 | farnesene | |
22 | 0.07 | geranial | |
21 | 0.03 | geraniol | |
31 | 0.03 | alpha- | humulene |
10 | 73.58 | limonene | |
15 | 0.19 | linalool | |
29 | 0.48 | methyl N-methyl anthranilate | |
6 | 1.73 | myrcene | |
20 | trace | neral | |
19 | 0.04 | nerol | |
25 | 0.01 | nonanal | |
28 | trace | nonanol | |
12 | 0.02 | (E)-beta- | ocimene |
11 | trace | (Z)-beta- | ocimene |
24 | 0.08 | octanal | |
27 | 0.02 | octanol | |
7 | 0.06 | alpha- | phellandrene |
9 | 0.39 | beta- | phellandrene |
2 | 1.79 | alpha- | pinene |
5 | 1.36 | beta- | pinene |
4 | 0.22 | sabinene | |
33 | 0.14 | alpha- | sinensal |
17 | 0.20 | terpinen-4-ol | |
8 | 0.40 | alpha- | terpinene |
13 | 16.68 | gamma- | terpinene |
18 | 0.38 | alpha- | terpineol |
14 | 0.78 | terpinolene | |
1 | 0.66 | alpha- | thujene |
23 | 0.11 | thymol | |
G. Ruberto, D. Bondi, P. Rapisarda, A. Renda and A. Starrantino, Essential oil of cami, a new Citrus hybrid, J. Agric. Food Chem., 45, 3206-3210 (1997). P&F 26, No. 1, 36, (2001) | |||
mandarin oil avana | |||
# | % | Leftshift | Components |
1 | 0.64 | alpha- | thujene |
2 | 1.78 | alpha- | pinene |
3 | 0.02 | camphene | |
4 | 0.17 | sabinene | |
5 | 1.41 | beta- | pinene |
6 | 0.06 | octanal | |
7 | 1.71 | myrcene | |
8 | 0.07 | alpha- | phellandrene |
9 | trace | delta-3- | carene |
10 | 0.24 | alpha- | terpinene |
11 | 0.52 | beta- | phellandrene |
12 | 0.23 | para- | cymene |
13 | 72.71 | limonene | |
14 | trace | (Z)-beta- | ocimene |
15 | 0.02 | (E)-beta- | ocimene |
16 | 17.17 | gamma- | terpinene |
17 | 0.03 | octanol | |
18 | 0.82 | terpinolene | |
19 | 0.02 | nonanal | |
20 | 0.16 | linalool | |
21 | 0.02 | citronellal | |
22 | 0.27 | terpinen-4-ol | |
23 | 0.37 | alpha- | terpineol |
24 | 0.11 | decanal | |
25 | 0.07 | nerol | |
26 | trace | neral | |
27 | 0.03 | geraniol | |
28 | 0.08 | geranial | |
29 | 0.02 | thymol | |
30 | 0.46 | methyl N-methyl anthranilate | |
31 | 0.06 | beta- | caryophyllene |
32 | 0.02 | alpha- | humulene |
33 | 0.05 | (E,E)-alpha- | farnesene |
mandarin oil italy | |||
# | % | Leftshift | Components |
28 | 0.02 | benzaldehyde | |
40 | trace | delta- | cadinene |
3 | 0.05 | camphene | |
6 | 0.02 | delta-2- | carene |
36 | 0.08 | beta- | caryophyllene |
24 | trace | citronellol | |
8 | 4.25 | para- | cymene |
27 | 0.03 | decanol | |
39 | 0.30 | alpha- | farnesene |
31 | trace | geranial | |
25 | 0.02 | hexanol | |
37 | trace | alpha- | humulene |
9 | 66.41 | limonene | |
17 | 0.13 | linalool | |
16 | trace | (Z)-para- | menth-2-en-1-ol |
14 | trace | para- | mentha-1,3,8-triene |
29 | trace | 3- | methyl benzaldehyde |
34 | 0.50 | methyl N-methyl anthranilate | |
5 | 1.73 | myrcene | |
30 | trace | nonanal | |
10 | 0.03 | (E)-beta- | ocimene |
11 | 0.01 | (Z)-beta- | ocimene |
26 | 0.12 | 3- | octanol |
32 | trace | perillaldehyde | |
7 | 0.48 | alpha- | phellandrene |
2 | 2.29 | alpha- | pinene |
4 | 1.88 | beta- | pinene |
20 | trace | iso | pulegol |
18 | trace | (Z)- | sabinene hydrate |
38 | trace | beta- | selinene |
22 | 0.04 | terpinen-4-ol | |
33 | 0.10 | terpinen-4-yl acetate | |
12 | 19.17 | gamma- | terpinene |
21 | trace | (E)-beta- | terpineol |
19 | trace | (Z)-beta- | terpineol |
23 | 0.12 | alpha- | terpineol |
15 | 0.01 | gamma- | terpineol |
13 | 1.38 | terpinolene | |
1 | 0.91 | alpha- | thujene |
35 | trace | thymol | |
G. Della Porta, E. Reverchon, D. Chouchi and D. Barth, Mandarin and lime peel oil processing by supercritical CO2 desorption:deterpenation and high molecular weight compounds elimination. J. Essent. Oil Res., 9, 519-522 (1997). P&F 26, No. 1, 36, (2001) | |||
mandarin oil italy | |||
# | % | Leftshift | Components |
0.89 | alpha- | thujene | |
2.36 | alpha- | pinene | |
0.02 | camphene | ||
0.26 | sabinene | ||
1.68 | beta- | pinene | |
1.70 | myrcene | ||
0.21 | octanol + alpha-phellandrene | ||
0.44 | alpha- | terpinene | |
0.33 | para- | cymene | |
69.51 | limonene | ||
trace | (Z)-beta- | ocimene | |
0.02 | (E)-beta- | ocimene | |
19.85 | gamma- | terpinene | |
0.03 | (Z)- | sabinene hydrate | |
trace | octanol | ||
0.87 | terpinolene | ||
0.04 | (E)- | sabinene hydrate | |
0.11 | linalool | ||
0.03 | nonanal | ||
0.03 | citronellal | ||
0.04 | terpinen-4-ol | ||
0.14 | alpha- | terpineol | |
0.09 | decanal | ||
0.02 | nerol | ||
0.01 | neral | ||
trace | geraniol | ||
0.05 | geranial | ||
0.05 | thymol | ||
0.01 | undecanal | ||
trace | neryl acetate | ||
trace | alpha- | copaene | |
trace | geranyl acetate | ||
trace | alpha- | cubebene | |
0.45 | methyl N-methyl anthranilate | ||
0.10 | beta- | caryophyllene | |
0.01 | alpha- | humulene | |
trace | beta- | cubebene | |
0.15 | farnesene | ||
marjoram oil | |||
# | % | Leftshift | Components |
1 | 2.63 | alpha- | pinene |
2 | 2.45 | camphene | |
3 | 2.70 | beta- | pinene |
4 | 1.92 | myrcene | |
5 | 1.35 | limonene | |
6 | 39.90 | 1,8- | cineole |
7 | 2.20 | gamma- | terpinene |
8 | 1.37 | camphor | |
9 | 19.41 | linalool | |
10 | 0.43 | beta- | caryophyllene |
11 | 4.04 | alpha- | terpineol |
12 | 0.52 | borneol | |
13 | 0.71 | geraniol | |
14 | 0.51 | thymol | |
15 | trace | carvacrol | |
marjoram oil spain | |||
# | % | Leftshift | Components |
26 | trace | borneol | |
37 | trace | alpha- | cadinol |
3 | 0.40 | camphene | |
18 | trace | camphor | |
36 | trace | carvacrol | |
21 | 0.40 | beta- | caryophyllene |
31 | 0.30 | caryophyllene oxide | |
9 | 42.60 | 1,8- | cineole |
29 | 0.10 | citronellol | |
13 | 0.30 | para- | cymene |
33 | 0.30 | elemol | |
27 | 0.40 | geranial | |
30 | 0.10 | geraniol | |
28 | 0.20 | geranyl acetate | |
8 | 2.10 | limonene | |
19 | 32.80 | linalool | |
17 | 0.80 | (E)- | linalool oxide |
15 | 0.80 | (Z)- | linalool oxide |
20 | 0.50 | linalyl acetate | |
6 | 1.40 | myrcene | |
12 | 0.20 | (E)-beta- | ocimene |
10 | trace | (Z)-beta- | ocimene |
2 | 2.00 | alpha- | pinene |
4 | 2.60 | beta- | pinene |
5 | 2.20 | sabinene | |
16 | 0.40 | (E)- | sabinene hydrate |
34 | 0.20 | spathulenol | |
22 | 0.30 | terpinen-4-ol | |
7 | 0.10 | alpha- | terpinene |
11 | 0.10 | gamma- | terpinene |
25 | 3.00 | alpha- | terpineol |
24 | 1.10 | gamma- | terpineol |
14 | 0.10 | terpinolene | |
1 | trace | alpha- | thujene |
35 | trace | thymol | |
23 | 0.10 | (Z)- | verbenol |
32 | 0.35 | viridiflorol | |
M. C. Soriano, J. A. Sotomayor, E. Correal, P. Sanchez Gomez and C. Garcia-Vallejo, Chemical composition of the essential oil of Thymus x arundanas Willk. and its parents T. mastichina L. and T. baeticus Boiss ex Lacaita. J. Essent. Oil Res., 9, 593-594 (1997). P&F 26, No. 1, 36, (2001) | |||
mentha pulegium oil cuba | |||
# | % | Leftshift | Components |
27 | 0.10 | beta- | bourbonene |
30 | 0.18 | delta- | cadinene |
25 | 0.09 | alpha- | calacorene |
28 | 2.49 | beta- | caryophyllene |
31 | 1.04 | caryophyllene oxide | |
6 | 0.08 | para- | cymene |
26 | 0.39 | beta- | damascenone |
33 | 6.78 | hexadecanoic acid | |
29 | 0.27 | alpha- | humulene |
7 | 1.13 | limonene | |
9 | 0.77 | linalool | |
15 | 0.16 | menthol | |
16 | 0.30 | iso | menthol |
13 | 1.86 | neo | menthol |
14 | 20.68 | neoiso | menthol |
10 | 6.29 | menthone | |
11 | 9.73 | iso | menthone |
20 | 0.14 | iso | menthyl acetate |
23 | 0.28 | neo | menthyl acetate |
22 | 6.24 | neoiso | menthyl acetate |
5 | 0.06 | myrcene | |
8 | 0.11 | (Z)-beta- | ocimene |
4 | 0.41 | 3- | octanol |
1 | 0.35 | alpha- | pinene |
3 | 0.38 | beta- | pinene |
24 | 2.39 | piperitenone | |
19 | 1.02 | piperitone | |
18 | 25.14 | pulegone | |
2 | 0.11 | sabinene | |
17 | 0.29 | alpha- | terpineol |
32 | 0.56 | tetradecanoic acid | |
21 | 3.03 | thymol | |
12 | 0.74 | umbellulone | |
J. Pino, A. R.sado and V. Fluentes, Chemical composition of the essential oil of Mentha puiegium L. from Cuba. J. Essent. Oil. Res., 8, 295-296 (1996). P&F 23, No. 3, 63, (1998) | |||
nepeta betonicifolia c.a. meyer oil turkey | |||
# | % | Leftshift | Components |
12 | 1.30 | bicyclogermacrene | |
31 | 0.20 | alpha- | bisabolol |
3 | 2.90 | beta- | bourbonene |
20 | 0.60 | nor | bourbonone |
33 | 0.10 | alpha- | cadinol |
30 | 1.00 | carvacrol | |
38 | 5.10 | caryophylenol II | |
37 | 0.30 | caryophylla-2(12),6-dien-5-ol | |
36 | 0.40 | caryophylla-2(12),6(13)-dien-5a-ol | |
5 | 2.70 | beta- | caryophyllene |
18 | 4.30 | iso | caryophyllene oxide |
19 | 39.20 | caryophyllene oxide | |
1 | 0.30 | 1,8- | cineole |
28 | 0.40 | nor | copaanone |
2 | 0.40 | alpha- | copaene |
27 | 0.30 | 3,4- | dimethyl-5-pentylidene-2(5H)-furanone |
32 | 0.30 | alpha- | eudesmol |
8 | 0.50 | (Z)-beta- | farnesene |
15 | 0.20 | (E)- | geranyl acetone |
11 | 3.80 | germacrene D | |
41 | 0.40 | heptacosane | |
42 | 0.50 | hexadecanoic acid | |
24 | 0.90 | hexahydrofanesyl acetone | |
26 | 0.10 | (Z)-3- | hexen-1-yl benzoate |
10 | 0.50 | alpha- | humulene |
7 | 0.30 | iso | humulene |
16 | 3.00 | iso | humulene oxide |
22 | 4.70 | humulene oxide II | |
23 | 0.10 | humulene oxide III | |
17 | 0.50 | beta- | ionone |
6 | 0.20 | myrtenal | |
14 | 0.20 | myrtenol | |
13 | 0.20 | naphthalene | |
21 | 0.10 | (E)- | nerolidol |
39 | 0.70 | pentacosane | |
40 | 1.40 | phytol | |
4 | 0.10 | pinocarvone | |
25 | 9.70 | spathulenol | |
29 | 1.20 | thymol | |
35 | 0.70 | tricosane | |
9 | 0.10 | (E)- | verbenol |
34 | 0.80 | oxo-alpha- | ylangene |
oregano oil (thymus capitatus hoffmanns & link) greece | |||
# | % | Leftshift | Components |
17 | trace | borneol | |
20 | trace | bornyl acetate | |
3 | 0.08 | camphene | |
16 | trace | camphor | |
9 | 0.10 | delta-3- | carene |
22 | 66.69 | carvacrol | |
23 | 4.79 | beta- | caryophyllene |
24 | 0.70 | caryophyllene oxide | |
11 | 6.58 | para- | cymene |
12 | 0.80 | limonene | |
15 | 0.40 | linalool | |
6 | 1.58 | myrcene | |
7 | 0.30 | 3- | octanol |
4 | 0.39 | 1- | octen-3-ol |
8 | 0.08 | alpha- | phellandrene |
2 | 0.69 | alpha- | pinene |
5 | 0.11 | beta- | pinene |
18 | 0.46 | terpinen-4-ol | |
10 | 0.03 | alpha- | terpinene |
13 | 6.43 | gamma- | terpinene |
19 | 0.10 | alpha- | terpineol |
14 | 0.41 | terpinolene | |
1 | 0.65 | alpha- | thujene |
21 | 0.25 | thymol | |
F. Tateo, M. Mariotti and M. Bononi, Essential oil composition and enantiomeric distribution of some monoterpenoid components of Coridothymus capitatus (L.) Reichenb. fil. grown on island of Kos (Greece). Rivista Sci. Aliment., 25(2), 103-107 (1996). P&F 24, No. 2, 35, (1999) | |||
origanum majorana herb oil turkey | |||
# | % | Leftshift | Components |
32 | 0.01-0.05 | (E)- | anethole |
29 | 0.00-0.64 | borneol | |
3 | 0.21-0.25 | camphene | |
6 | 0.07-0.08 | delta-3- | carene |
37 | 78.27-79.46 | carvacrol | |
30 | 0.15-0.17 | carvone | |
34 | 0.11-0.12 | caryophyllene oxide | |
10 | 0.21-0.35 | 1,8- | cineole |
33 | 0.02-0.07 | para- | cymen-8-ol |
15 | 4.31-4.68 | para- | cymene |
26 | 0.04-0.08 | (Z)- | dihydrocarvone |
25 | 0.65-0.75 | (E)- | dihydrocarvone + methyl carvacrol |
31 | 0.03-0.04 | delta- | elemene |
27 | 0.00-0.02 | alpha- | humulene |
9 | 0.20-0.26 | limonene | |
23 | 0.21-0.69 | linalool | |
18 | 0.00-0.02 | (Z)- | linalool oxide furanoid |
21 | 0.01-0.03 | methyl 2-hydroxy-3-methyl pentanoate | |
1 | 0.00-0.12 | methyl 2-methyl butyrate | |
17 | 0.04-0.09 | 6- | methyl-3-heptanol |
7 | 1.59-1.93 | myrcene | |
14 | 0.00-0.04 | (E)-beta- | ocimene |
12 | 0.13-0.17 | (Z)-beta- | ocimene |
19 | 0.18-0.28 | 1- | octen-3-ol |
11 | 0.19-0.24 | beta- | phellandrene |
2 | 1.66-1.76 | alpha- | pinene |
4 | 0.16-0.19 | beta- | pinene |
5 | 0.03-0.04 | sabinene | |
20 | 0.51-0.70 | (E)- | sabinene hydrate |
22 | 0.17-0.21 | (Z)- | sabinene hydrate |
35 | 0.09-0.11 | spathulenol | |
24 | 0.22-0.29 | terpinen-4-ol | |
8 | 0.95-1.27 | alpha- | terpinene |
13 | 3.72-4.84 | gamma- | terpinene |
28 | 0.56-1.35 | alpha- | terpineol |
16 | 0.12-0.13 | terpinolene | |
36 | 0.48-1.53 | thymol | |
K. H. C. Baser, N. Kirimer and G. Tumen, Composition of the essential oil of Origanum majorana L. from Turkey. J. Essent. Oil Res., 5, 577-579 (1993). P&F 19, No. 4, 33, (1994) | |||
origanum majorana oil cuba | |||
# | % | Leftshift | Components |
35 | 3.27 | bicyclogermacrene | |
36 | trace | beta- | bisabolene |
27 | 0.49 | bornyl acetate | |
31 | 0.10 | beta- | bourbonene |
37 | trace | delta- | cadinene |
41 | trace | alpha- | cadinol |
3 | 0.81 | camphene | |
21 | 3.43 | camphor | |
29 | 0.46 | carvacrol | |
32 | 3.11 | beta- | caryophyllene |
39 | 0.70 | caryophyllene oxide | |
9 | 4.98 | para- | cymene |
30 | trace | delta- | elemene |
34 | 1.24 | germacrene D | |
40 | 0.09 | globulol | |
33 | 0.27 | alpha- | humulene |
10 | 2.12 | limonene | |
17 | 16.41 | linalool | |
15 | 0.17 | (Z)- | linalool oxide furanoid |
26 | 0.25 | linalyl acetate | |
20 | 0.40 | (E)-para- | menth-2-en-1-ol |
19 | 1.22 | (Z)-para- | menth-2-en-1-ol |
6 | 1.21 | myrcene | |
12 | 0.22 | (E)-beta- | ocimene |
11 | 1.84 | (Z)-beta- | ocimene |
4 | trace | 1- | octen-3-ol |
18 | 2.08 | 1- | octen-3-yl acetate |
7 | 0.11 | alpha- | phellandrene |
2 | 0.64 | alpha- | pinene |
5 | 4.60 | beta- | pinene |
25 | 0.11 | (E)- | piperitol |
24 | 0.22 | (Z)- | piperitol |
14 | 2.26 | (Z)- | sabinene hydrate |
38 | 1.07 | spathulenol | |
22 | 17.67 | terpinen-4-ol | |
8 | 3.32 | alpha- | terpinene |
13 | 8.34 | gamma- | terpinene |
23 | 3.19 | alpha- | terpineol |
16 | 1.52 | terpinolene | |
1 | 0.33 | alpha- | thujene |
28 | 11.55 | thymol | |
J. A. Pino, A. Rosado, M. Estarrón and V. Fuentes, Essential oil of majoram (Origanum majorana L.) grown in Cuba. J. Essent. Oil Res. 9, 479-480 (1997). P&F 25, No. 5, 52, (2000) | |||
origanum majorana oil morocco | |||
# | % | Leftshift | Components |
23 | 0.33 | aromadendrene | |
19 | 2.17 | bornyl acetate | |
14 | 1.54 | alpha- | campholenal |
21 | 0.40 | carvacrol | |
22 | 1.73 | beta- | caryophyllene |
7 | 8.07 | para- | cymene |
10 | 4.89 | fenchone | |
13 | 1.68 | alpha- | fenchyl alcohol |
17 | 2.52 | geraniol | |
24 | 0.64 | alpha- | humulene |
25 | 0.53 | ledol | |
8 | 1.74 | limonene | |
12 | 32.68 | linalool | |
18 | 0.99 | linalyl acetate | |
5 | 1.87 | myrcene | |
6 | 0.53 | alpha- | phellandrene |
2 | 0.39 | alpha- | pinene |
4 | 0.33 | beta- | pinene |
3 | 4.57 | sabinene | |
15 | 22.30 | terpinen-4-ol | |
9 | 1.21 | gamma- | terpinene |
16 | 3.26 | alpha- | terpineol |
11 | 0.46 | terpinolene | |
1 | 0.32 | alpha- | thujene |
20 | 0.56 | thymol | |
M. Charai, M. Mosaddak and M. Faid, Chemical composition and antimicrobial activities of two aromatic plants: Origanum majorana L. and O. compactum Benth. J. Essent. Oil Res., 8, 657-664 (1996). P&F 25, No. 5, 52, (2000) | |||
origanum majorana var. tenuifolium weston oil cyprus | |||
# | % | Leftshift | Components |
32 | 0.10-0.50 | (E)- | anethole |
30 | 0.30-1.00 | beta- | bisabolene |
26 | 0.10-0.20 | iso | borneol |
21 | 0.10-0.90 | bornyl acetate | |
31 | 0.10-0.30 | delta- | cadinene |
33 | 0.10-0.30 | calamenene | |
2 | 0.50-0.80 | camphene | |
17 | trace-1.80 | camphor | |
36 | 0.50-6.00 | carvacrol | |
29 | 0.00-0.70 | carvone | |
22 | 1.10-2.00 | beta- | caryophyllene |
34 | 0.10-0.80 | caryophyllene oxide | |
8 | 1.30-2.10 | 1,8- | cineole |
16 | trace-0.20 | alpha- | copaene |
11 | 1.00-4.20 | para- | cymene |
37 | trace-0.20 | delta- | elemene |
24 | 0.60-1.20 | geraniol | |
25 | 0.20-0.60 | alpha- | humulene |
7 | 1.20-2.10 | limonene | |
19 | 2.00-4.30 | linalool | |
20 | 0.00-0.10 | linalyl acetate | |
5 | 1.20-2.30 | myrcene | |
13 | 0.00-0.10 | 3- | octanol |
14 | 0.00-trace | 1- | octen-3-ol |
9 | 0.00-0.10 | beta- | phellandrene |
1 | 1.00-1.90 | alpha- | pinene |
3 | 0.20-0.50 | beta- | pinene |
28 | 0.70-1.30 | piperitone | |
4 | 1.10-5.50 | sabinene | |
15 | 1.50-4.70 | (E)- | sabinene hydrate |
18 | 7.40-33.00 | (Z)- | sabinene hydrate |
23 | 16.60-21.60 | terpinen-4-ol | |
6 | 4.70-6.50 | alpha- | terpinene |
10 | 8.30-11.10 | gamma- | terpinene |
27 | 7.30-14.20 | alpha- | terpineol |
12 | 1.70-2.40 | terpinolene | |
35 | 0.00-0.10 | thymol | |
F. I. Jean, G. J. Collin and D. Lord, Essential oils and microwave extracts of cultivated plants. Perfum. Flavor., 17(3), 35-41 (1992). P&F 23, No. 5, 52, (2000) | |||
origanum vulgare ssp. hirtum oil turkey | |||
# | % | Leftshift | Components |
25 | 0.00-0.03 | alpha- | bergamolene |
33 | 0.17-1.03 | beta- | bisabolene |
34 | 0.00-0.19 | gamma- | cadinene |
41 | 0.00-0.12 | T- | cadinol |
36 | 0.00-0.03 | calamenene | |
3 | 0.05--0.56 | camphene | |
6 | 0.07-0.10 | delta-3- | carene |
43 | 23.43-78.73 | carvacrol | |
38 | 0.00-0.09 | carvacryl acetate | |
35 | 0.00-0.04 | trans- | carveol |
26 | 0.62-2.32 | beta- | caryophyllene + terpinen-4-ol |
39 | 0.12-1.06 | caryophyllene oxide | |
11 | 0.15-1.38 | 1,8- | cineole + beta-phellandrene |
37 | 0.00-0.44 | para- | cymen-8-ol |
16 | 4.93-24.90 | para- | cymene |
28 | 0.04-3.53 | (Z)- | dihydrocarvone |
32 | 0.01-0.38 | gamma- | elemene |
30 | 0.00-0.19 | (Z)-beta- | farnesene |
31 | 0.00-0.18 | heptadecane | |
12 | 0.00-0.08 | (Z)-2- | hexenal |
29 | 0.04-0.36 | alpha- | humulene |
10 | 0.02-0.41 | limonene | |
23 | 0.03-0.46 | linalool | |
24 | 0.02-0.06 | linalyl acetate | |
1 | 0.03-0.11 | methyl 2-methyl butyrate | |
27 | 0.35-1.71 | methyl carvacrol + (E)-dihydrocarvone | |
18 | 0.00-0.06 | 6- | methyl-3-heptanol |
7 | 0.45-2.94 | myrcene | |
19 | 0.00-0.01 | nonanal | |
15 | 0.06-0.35 | (E)-beta- | ocimene |
13 | 0.00-0.07 | (Z)-beta- | ocimene |
20 | 0.16-0.93 | 1- | octen-3-ol |
8 | 0.00-0.01 | alpha- | phellandrene |
2 | 0.78-2.69 | alpha- | pinene |
4 | 0.09-0.28 | beta- | pinene |
5 | trace-0.31 | sabinene | |
21 | 0.05-1.41 | (E)- | sabinene hydrate |
22 | 0.14-9.52 | (Z)- | sabinene hydrate |
40 | 0.00-0.16 | spathulenol | |
9 | 0.39-2.31 | alpha- | terpinene |
14 | 1.83-16.32 | gamma- | terpinene |
30 | 0.35-1.45 | alpha- | terpineol + isoborneol |
17 | 0.05-0.24 | terpinolene | |
42 | 0.17-39.81 | thymol | |
K. H. C. Baser, T. Ozek, G. Tumen and E. Sezik, Composition of the Essential Oils of Turkish Origanum Species with Commercial Importance, J, Essent. Oil Res., 5, 619-623 (1993). P&F 20, No. 5, 95, (1995) | |||
osmanthus fragrans flower absolute | |||
# | % | Leftshift | Components |
96 | 0.04 | amyl benzoate | |
32 | 0.03 | amyl butyrate | |
36 | 0.008 | amyl isovalerate | |
104 | trace | amyl salicylate | |
80 | 0.06 | anethole | |
107 | 0.003 | anisyl acetate | |
51 | 0.19 | benzaldehyde | |
70 | 0.08 | benzyl acetate | |
87 | 0.19 | benzyl alcohol | |
86 | trace | benzyl butyrate | |
50 | 0.02 | benzyl formate | |
59 | 0.16 | bornyl acetate | |
15 | trace | butanal | |
31 | trace | butyl benzene | |
21 | 0.02 | butyl butyrate | |
95 | 0.12 | butyl phenyl acetate | |
62 | trace | butyric acid | |
8 | trace | camphene | |
52 | trace | camphor | |
16 | trace | delta-3- | carene |
119 | trace | carvacrol | |
71 | trace | carvone | |
20 | 0.30 | 1,8- | cineole |
75 | trace | citronellol | |
103 | trace | meta- | cresol |
102 | trace | para- | cresol |
26 | trace | para- | cymene |
113 | trace | delta- | decalactone |
106 | 11.70 | gamma- | decalactone |
29 | trace | decanal | |
117 | 0.05 | decanoic acid | |
74 | 9.20 | decanol | |
66 | 0.08 | decyl acetate | |
130 | 0.39 | dibutyl phthalate | |
84 | trace | dihydrojasmone | |
89 | 0.28 | 2,6- | dimethyl phenol |
111 | 0.03 | docosane | |
124 | 0.21 | gamma- | dodecalactone |
49 | 0.05 | dodecanal | |
97 | 0.04 | eicosane | |
2 | 0.06 | ethyl acetate | |
13 | 0.02 | ethyl benzene | |
43 | 0.03 | ethyl decanoate | |
22 | 0.004 | ethyl hexanoate | |
101 | trace | ethyl myristate | |
77 | trace | ethyl salicylate | |
108 | 1.90 | eugenol | |
121 | 0.02 | (E)-iso | eugenol |
114 | 0.02 | (Z)-iso | eugenol |
120 | 0.18 | farnesol | |
45 | trace | furfural | |
72 | trace | geranial | |
83 | 0.07 | geraniol | |
73 | trace | geranyl acetate | |
68 | 0.08 | geranyl formate + dodecanal | |
105 | trace | heneicosane | |
17 | trace | heptanal | |
94 | trace | heptanoic acid | |
9 | 0.02 | 2- | heptanol + hexanal |
38 | trace | heptyl acetate | |
33 | 0.01 | heptyl formate | |
88 | trace | heptyl isovalerate | |
37 | 0.01 | hexanal | |
81 | 0.05 | hexanoic acid | |
39 | 0.12 | (Z)-3- | hexen-1-ol |
42 | trace | hexyl butyrate | |
35 | trace | hexyl propionate | |
110 | 0.007 | hexyl salicylate | |
53 | trace | hexyl valerate | |
82 | 0.86 | alpha- | ionone |
92 | 5.85 | beta- | ionone |
116 | trace | jasmolactone | |
93 | 0.02 | (Z)- | jasmone |
128 | 0.02 | lauric acid | |
18 | trace | limonene | |
55 | 2.36 | linalool | |
44 | 14.60 | (E)- | linalool oxide furanoid |
46 | 21.10 | (Z)- | linalool oxide furanoid |
56 | trace | linalyl acetate | |
91 | 0.07 | methyl alpha-ionone + quinoline | |
19 | 0.05 | 3- | methyl butanol |
60 | trace | methyl decanoate | |
118 | trace | methyl dihydrojasmonate | |
78 | 0.03 | methyl dodecanoate | |
58 | trace | 5- | methyl furfural |
48 | 0.09 | methyl nonanoate | |
127 | 0.16 | methyl oleate | |
112 | 0.07 | methyl palmitate | |
34 | 0.02 | 2- | methyl-2-hepten-6-one |
4 | trace | 4- | methyl-2-pentenol |
14 | trace | 4- | methyl-3-penten-2-one |
131 | 0.03 | myristic acid | |
99 | 0.21 | nerolidol | |
98 | 0.04 | gamma- | nonalactone |
40 | 0.11 | nonanal | |
63 | 0.70 | nonanol | |
100 | 0.11 | octanoic acid | |
57 | 0.02 | octanol | |
28 | trace | 2- | octanone |
47 | trace | octyl acetate | |
69 | 0.02 | octyl valerate | |
132 | 0.71 | palmitic acid | |
3 | 0.003 | pentanal | |
24 | trace | pentenal | |
79 | trace | 2- | phenethyl acetate |
90 | 0.19 | 2- | phenethyl alcohol + nonadecane |
76 | 0.01 | 2- | phenethyl formate |
65 | trace | phenyl acetaldehyde | |
5 | trace | alpha- | pinene |
11 | trace | beta- | pinene |
1 | trace | propanal | |
7 | 0.01 | propanol | |
54 | 0.02 | propionic acid | |
12 | trace | sabinene | |
85 | 0.02 | safrole | |
122 | 0.03 | alpha- | santalol |
126 | 0.02 | beta- | santalol |
25 | trace | styrene | |
61 | 0.06 | terpinen-4-ol | |
23 | 0.20 | gamma- | terpinene |
67 | 0.07 | alpha- | terpineol |
27 | 0.06 | terpinolene | |
125 | 0.02 | tetracosane | |
41 | trace | tetradecane | |
109 | 0.23 | thymol | |
6 | trace | toluene | |
30 | trace | tridecane | |
115 | trace | gamma- | undecalactone |
10 | 0.008 | undecane | |
123 | 3.10 | undecanoic acid | |
64 | trace | iso | valeric acid |
129 | 0.08 | vanillin | |
V. T. Cogiya, L. G. Kharebava, R. V. Gogiya and E. B. Gvatua, Composition of the volatile compounds in flowers of Osrnanthus fragrans (Thumb) Lour. Rastit. Resur., 22, 243-248 (1986). P&F 17, No. 3, 61, (1992) | |||
pelargonium capitatum l. l'hér. ex aiton oil cuba | |||
# | % | Leftshift | Components |
5 | 0.10 | borneol | |
15 | 0.80 | beta- | bourbonene |
28 | 2.40 | alpha- | bulnesene |
47 | 1.00 | cadalene | |
29 | 0.10 | gamma- | cadinene |
32 | 2.60 | delta- | cadinene |
45 | 0.20 | alpha- | cadinol |
34 | 0.30 | alpha- | calacorene |
35 | 0.10 | beta- | calacorene |
31 | 0.20 | (Z)- | calamenene |
18 | 3.20 | beta- | caryophyllene |
38 | 14.70 | caryophyllene oxide | |
8 | 25.60 | citronellol | |
12 | 0.10 | citronellyl acetate | |
10 | 2.50 | citronellyl formate | |
14 | 0.20 | alpha- | copaene |
13 | 0.10 | alpha- | cubebene |
30 | 0.60 | cubebol | |
43 | 0.60 | cubenol | |
16 | 0.70 | beta- | elemene |
53 | 0.80 | ethyl hexadecanoate | |
20 | 3.00 | (Z)-beta- | farnesene |
49 | 0.40 | (Z,E)- | farnesol |
51 | 0.20 | (E,E)- | farnesol |
52 | 0.40 | (Z,E)- | farnesyl acetate |
9 | 1.90 | geraniol | |
36 | 0.10 | geranyl butyrate | |
23 | 0.30 | geranyl propionate | |
25 | 1.80 | germacrene D | |
39 | 0.10 | gleenol | |
19 | 7.20 | alpha- | guaiene |
27 | 0.20 | (Z)-beta- | guaiene |
21 | 0.70 | alpha- | humulene |
40 | 1.80 | humulene oxide II | |
46 | 0.50 | 14- | hydroxy-9-epi-beta-caryophyllene |
41 | 0.40 | (E)-sesqui | lavandulol |
1 | 0.10 | linalool | |
17 | 0.10 | longifolene | |
4 | 0.30 | iso | menthone |
24 | 0.10 | gamma- | muurolene |
42 | 0.40 | epi-alpha- | muurolol |
50 | 0.40 | (E)- | nerolidol acetate |
48 | 0.90 | (Z)- | nerolidyl acetate |
22 | 0.60 | alpha- | patchoulene |
2 | 5.50 | (Z)- | rose oxide |
3 | 4.50 | (E)- | rose oxide |
44 | 0.40 | selin-11-en-4alpha-ol | |
26 | 0.30 | beta- | selinene |
37 | 2.00 | spathulenol | |
6 | 0.40 | terpinen-4-ol | |
7 | 0.20 | alpha- | terpineol |
11 | 0.10 | thymol | |
33 | 3.60 | unknown MW 218 | |
J. of Ess. Oil Res. 13, No. 1, 21, (2001) | |||
petroselinum crispum leaf oil cuba | |||
In 1997, Pino et al. analyLed a parsley leaf oil that was produced from plants grown in Cuba. Using CC/MS as the method of analysis the oil was determined to contain the following constituents: | |||
# | % | Leftshift | Components |
24 | 0.02 | alpha- | amorphene |
34 | 14.40 | apiole | |
11 | 0.02 | benzyl alcohol | |
21 | 0.02 | (E)-beta- | bergamotene |
32 | 1.42 | carotol | |
19 | 0.24 | beta- | caryophyllene |
14 | 0.03 | citronellal | |
16 | 0.09 | para- | cymen-8-ol |
5 | 0.03 | para- | cymene |
9 | 0.28 | alpha-para- | dimethyl styrene |
18 | 0.61 | beta- | elemene |
20 | 0.21 | gamma- | elemene |
28 | 1.70 | elemicin | |
29 | 0.02 | iso | elemicin |
30 | 0.02 | elemol | |
23 | 0.11 | (Z)-beta- | farnesene |
25 | 1.09 | germacrene D | |
33 | 0.28 | guaiol | |
22 | 0.03 | alpha- | humulene |
7 | 0.06 | limonene | |
12 | 3.90 | para- | mentha-1,3,8-triene |
13 | 0.05 | para- | mentha-1,4,8-triene |
15 | 0.03 | para- | menthatriene |
3 | 0.84 | myrcene | |
26 | 63.90 | myristicin | |
31 | 0.03 | nerolidol | |
4 | 0.09 | alpha- | phellandrene |
6 | 1.60 | beta- | phellandrene |
27 | 1.04 | beta-sesqui | phellandrene |
1 | 0.03 | alpha- | pinene |
2 | 0.01 | beta- | pinene |
8 | 0.03 | gamma- | terpinene |
10 | 0.72 | terpinolene | |
17 | 0.02 | thymol | |
J. A. Pino, A. Rosado and V. Fuentes, Herb oil of parsley (Petroselinum crispum Mill.) from Cuba. J. Essent. Oil Res., 9, 241-242 (1997). P&F 26, No. 2, 22, (2001) | |||
peumus boldus leaf oil | |||
# | % | Leftshift | Components |
33 | 21.25 | ascaridole | |
5 | 0.21 | camphene | |
23 | 0.01 | camphor | |
8 | 0.14 | delta-3- | carene |
37 | 0.04 | trans- | carvyl acetate |
9 | 0.51 | 1,4- | cineole |
13 | 21.10 | 1,8- | cineole |
31 | 0.10 | cuminaldehyde | |
11 | 8.63 | para- | cymene |
4 | 0.01 | alpha- | fenchene |
14 | trace | fenchone | |
30 | 0.04 | alpha- | fenchyl acetate |
19 | 0.22 | alpha- | fenchyl alcohol |
32 | 0.10 | geraniol | |
41 | 8.80 | guaiazulene | |
1 | 0.03 | 2- | heptanone |
40 | 0.17 | ledol | |
12 | 0.04 | limonene | |
39 | 0.75 | methyl eugenol | |
7 | 0.01 | myrcene | |
28 | 0.20 | myrtenol | |
29 | 0.04 | nerol | |
17 | trace | 2- | nonanol |
15 | 0.04 | 2- | nonanone |
3 | 0.01 | alpha- | pinene |
21 | 0.66 | trans- | pinocarveol |
27 | 0.40 | sabinaketone | |
6 | 0.01 | sabinene | |
36 | 2.36 | sabinyl acetate | |
25 | 0.75 | terpinen-4-ol | |
16 | 0.02 | terpinen-4-yl acetate | |
10 | 0.02 | alpha- | terpinene |
26 | 0.14 | alpha- | terpineol |
24 | 0.07 | beta- | terpineol |
2 | 0.03 | alpha- | thujene |
18 | 14.30 | alpha- | thujone |
20 | 7.15 | beta- | thujone |
35 | 0.03 | thymol | |
38 | 0.01 | thymyl acetate | |
22 | 9.90 | (Z)- | verbenol |
34 | 0.08 | cis- | verbenyl acetate |
E. Miraldi, S. Ferri, G. G. Franchi and G. Giorgi, Peumus boldus essential oil: New constituents and comparison of oils from leaves of different origin. Fitoterapia, 67, 227-230 (1996). P&F 23, No. 2, 47, (1998) | |||
pimenta dioica leaf oil | |||
# | % | Leftshift | Components |
18 | 2.77 | alpha- | amorphene |
17 | 2.13 | allo- | aromadendrene |
22 | 0.49 | cadina-1,4-diene | |
21 | 5.49 | delta- | cadinene |
28 | 4.94 | alpha- | cadinol |
27 | 6.64 | T- | cadinol |
23 | 1.23 | alpha- | calacorene |
20 | 11.12 | calamenene + gamma-cadinene | |
13 | 1.00 | carvacrol | |
11 | 0.10 | carvone | |
15 | 1.00 | beta- | caryophyllene |
24 | 2.69 | caryophyllene oxide | |
5 | 14.50 | 1,8- | cineole |
4 | 1.87 | para- | cymene |
25 | 0.52 | alpha- | eudesmol |
26 | 0.82 | beta- | eudesmol |
14 | 28.04 | eugenol | |
16 | 10.12 | alpha- | humulene |
6 | 0.10 | limonene | |
9 | 0.56 | menthol | |
10 | 0.09 | methyl chavocol | |
19 | 1.76 | alpha- | muurolene |
2 | 0.19 | myrcene | |
3 | 1.12 | alpha- | phellandrene |
1 | 0.56 | alpha- | pinene |
7 | 0.56 | gamma- | terpinene |
8 | 1.38 | terpinolene | |
12 | 1.00 | thymol | |
J. A. Pino, J. Garcia and M. A. Martinez, Solvent extraction and supercritical carbon dioxide extraction of Pimenta dioica Merrill leaf. J. Essent. Oil Res., 9, 689-691 (1997). P&F 24, No. 2, 35, (1999) | |||
plectranthus glandulosus hook f. leaf oil cameroon | |||
# | % | Leftshift | Components |
33 | 0.10 | (E)- | anethole |
29 | 0.50 | iso | borneol |
46 | trace | beta- | bourbonene |
7 | 0.30 | camphene | |
27 | 0.70 | camphor | |
11 | 1.50 | delta-3- | carene |
48 | trace | beta- | caryophyllene |
54 | trace | caryophyllene oxide | |
20 | 0.10 | 1,8- | cineole |
45 | 0.10 | alpha- | copaene |
31 | 3.60 | para- | cymen-8-ol |
13 | 0.40 | para- | cymene |
19 | 0.20 | para- | cymenene |
47 | 0.10 | beta- | elemene |
42 | 0.10 | eugenol | |
49 | 0.20 | beta- | farnesene |
6 | trace | alpha- | fenchene |
22 | 30.80 | fenchone | |
24 | 1.50 | alpha- | fenchyl alcohol |
52 | 1.40 | germacrene D | |
51 | 0.10 | beta- | gurjunene |
3 | 0.10 | hexanol | |
2 | 0.10 | (E)-2- | hexen-1-ol |
1 | 1.20 | (E)-3- | hexen-1-ol |
50 | 0.20 | alpha- | humulene |
55 | 0.10 | humulene oxide | |
40 | 0.70 | 4- | hydroxypiperitone |
37 | 0.10 | (Z)-2- | hydroxypiperitone |
39 | 0.60 | (E)-2- | hydroxypiperitone |
14 | 3.20 | limonene | |
23 | trace | linalool | |
25 | 0.10 | (Z)-para- | menth-2-en-1-ol |
26 | 0.50 | (E)-para- | menth-2-en-1-ol |
53 | 0.10 | alpha- | muurolene |
9 | 2.20 | myrcene | |
30 | 0.80 | neral | |
57 | 0.20 | nerolidol | |
16 | 0.60 | (E)-beta- | ocimene |
10 | 0.70 | alpha- | phellandrene |
15 | 0.20 | beta- | phellandrene |
58 | trace | phytol | |
5 | 0.60 | alpha- | pinene |
8 | 0.30 | beta- | pinene |
41 | 1.30 | piperitenone | |
43 | 10.90 | piperitenone oxide | |
34 | trace | piperitone | |
36 | 0.50 | (E)- | piperitone oxide |
35 | 3.00 | (Z)- | piperitone oxide |
44 | 1.80 | iso | pulegone |
21 | trace | (E)- | sabinene hydrate |
56 | 0.10 | spathulenol | |
28 | 0.10 | terpinen-4-ol | |
12 | 0.80 | alpha- | terpinene |
17 | 0.20 | gamma- | terpinene |
32 | 0.30 | alpha- | terpineol |
18 | 25.20 | terpinolene | |
4 | trace | alpha- | thujene |
38 | 0.40 | thymol | |
J. of Ess. Oil Res. 13, No. 2, 73, (2001) | |||
prangos uechtritzii boiss. et hausskn. fruit oil turkey | |||
# | % | Leftshift | Components |
33 | 1.90 | bicyclogermacrene | |
40 | 2.10 | alpha- | bisabolol |
35 | 1.70 | delta- | cadinene |
39 | 1.30 | alpha- | cadinol |
7 | 1.00 | delta-3- | carene |
27 | 0.70 | beta- | caryophyllene |
38 | 1.40 | caryophyllene oxide | |
23 | 0.30 | alpha- | copaene |
14 | 1.40 | meta- | cresol |
17 | 0.10 | para- | cresyl acetate |
21 | 0.60 | cryptone | |
32 | 0.20 | ar- | curcumene |
20 | 0.60 | meta- | cymen-8-ol |
9 | 10.90 | para- | cymene |
24 | 0.30 | daucene | |
29 | 0.30 | (E)-beta- | farnesene |
36 | 1.50 | germacrene B | |
31 | 1.10 | germacrene D | |
28 | 0.60 | alpha- | humulene |
16 | 0.10 | para- | mentha-1,5-dien-8-ol |
26 | 2.20 | methyl eugenol | |
34 | 0.30 | alpha- | muurolene |
30 | 0.30 | gamma- | muurolene |
5 | 1.40 | myrcene | |
12 | 3.20 | (E)-beta- | ocimene |
11 | 4.60 | (Z)-beta- | ocimene |
6 | 6.30 | alpha- | phellandrene |
10 | 7.80 | beta- | phellandrene |
2 | 6.10 | alpha- | pinene |
4 | 3.20 | beta- | pinene |
3 | 4.80 | sabinene | |
37 | 1.80 | spathulenol | |
19 | 2.00 | terpinen-4-ol | |
8 | 0.50 | alpha- | terpinene |
13 | 7.00 | gamma- | terpinene |
15 | 1.10 | terpinolene | |
1 | 0.30 | alpha- | thujene |
22 | 3.50 | thymol | |
18 | 3.90 | unknown a | |
25 | 1.20 | unknown b | |
J. of Ess. Oil Res. 12, No. 2, 183, (2000) | |||
rhizophora mangle bark oil cuba | |||
# | % | Leftshift | Components |
46 | trace | (Z)- | asarone |
8 | 0.10 | benzaldehyde | |
27 | 0.10 | benzothiazole | |
21 | trace | borneol | |
48 | 0.20 | alpha- | cadinol |
41 | 0.10 | alpha- | calacorene |
39 | 0.10 | (E)- | calamenene |
18 | 0.10 | camphor | |
28 | trace | trans- | carveol |
43 | 0.10 | caryophyllene oxide | |
12 | 0.30 | para- | cymene |
15 | 0.10 | para- | cymenene |
33 | 0.10 | (E,Z)-2,4- | decadienal |
2 | 0.10 | dihydro-3,5-dimethyl-2(3H)-furanone | |
25 | 0.10 | (E)- | dihydrocarvone |
36 | 0.20 | 1,2- | dimethoxy-4-(2-propenyl) benzene |
20 | 0.10 | 1,3- | dimethoxybenzene |
34 | 0.10 | 1-(1,3- | dimethyl-3-butenyl)-4-methoxybenzene |
40 | 0.20 | elemicin | |
4 | 10.00 | ethyl acetate | |
5 | trace | ethyl benzene | |
44 | 0.10 | ethyl laurate | |
30 | 0.10 | ethyl salicylate | |
31 | trace | geranial | |
6 | trace | heptanal | |
3 | 0.20 | hexanal | |
29 | 1.50 | 4- | hydroxy-3-methyl benzaldehyde |
37 | 0.10 | (E)-beta- | ionone |
54 | 1.10 | kaurene | |
13 | 0.10 | limonene | |
17 | 0.10 | linalool | |
14 | trace | (Z)- | linalool oxide |
55 | 95.50 | manool | |
51 | 2.10 | 13-epi- | manool |
53 | 9.60 | 13-epi- | manoyl oxide |
52 | 29.90 | manoyl oxide | |
19 | trace | iso | menthone |
7 | 0.10 | methoxybenzene | |
35 | 0.40 | 1-(4- | methoxyphenyl)-2-propanone |
24 | 0.20 | methyl chavicol | |
9 | 0.10 | 6- | methyl-5-hepten-2-one |
50 | 0.40 | 6- | methyl-8-(2,6,6-trimethyl cyclohexen-1-yl)-5-octen-2-one |
47 | 0.10 | epi-alpha- | muurolol |
42 | 0.40 | (E)- | nerolidol |
16 | 0.10 | nonanal | |
11 | 0.10 | 2- | pentyl furan |
10 | trace | phenol | |
49 | 2.20 | phytol | |
1 | trace | pyridine | |
22 | 0.80 | terpinen-4-ol | |
23 | 0.40 | alpha- | terpineol |
45 | 0.20 | 1,2,3,4- | tetramethoxy-5-(2-propenyl)-benzene |
32 | 0.70 | thymol | |
38 | 0.30 | 1-(2,3,6- | trimethyl)-3-buten-2-one |
56 | 8.60 | unknown a | |
57 | 7.50 | unknown b | |
58 | 14.50 | unknown c | |
26 | trace | verbenone | |
in mg/kg. J. of Ess. Oil Res. 13, No. 2, 88, (2001) | |||
rosmarinus officinalis leaf oil CO2 extract | |||
# | % | Leftshift | Components |
42 | trace | abietatriene | |
34 | 0.41 | beta- | bisabolene |
15 | 15.56 | borneol | |
23 | 4.94 | iso | bornyl acetate |
36 | 0.35 | delta- | cadinene |
35 | 0.26 | gamma- | cadinene |
25 | 0.19 | alpha- | cadinol |
37 | 0.15 | calamenene | |
2 | 3.11 | camphene | |
12 | 15.33 | camphor | |
4 | 0.39 | delta-3- | carene |
22 | 0.26 | carvone | |
28 | 2.22 | beta- | caryophyllene |
39 | 0.37 | caryophyllene oxide | |
40 | 0.20 | cedrane diol | |
10 | 20.02 | 1,8- | cineole |
26 | 0.43 | alpha- | cubebene |
31 | 1.28 | ar- | curcumene |
8 | 1.81 | para- | cymene |
20 | 0.39 | dihydrocarveol | |
38 | 0.37 | farnesene | |
30 | 0.38 | beta- | gurjunene |
9 | 0.51 | limonene | |
11 | 3.53 | linalool | |
21 | 0.48 | linalyl acetate | |
27 | 0.12 | methyl eugenol | |
33 | 0.20 | alpha- | muurolene |
6 | 0.35 | myrcene | |
16 | 1.17 | nonanol | |
41 | trace | octadecane | |
5 | 0.18 | 1- | octen-3-ol |
13 | 0.80 | pinanone | |
1 | 8.30 | alpha- | pinene |
7 | 0.74 | beta- | pinene |
14 | 0.39 | pinocarvone | |
3 | 0.32 | sabinene | |
29 | 0.41 | alpha- | santalene |
32 | 0.16 | alpha- | selinene |
17 | 1.00 | terpinen-4-ol | |
18 | 1.95 | alpha- | terpineol |
24 | 0.69 | thymol | |
43 | trace | totarol | |
19 | 8.36 | verbenone | |
E. Reverchon and F. Senatore, Isolation of rosemary oil: Comparison between hydrodistillation and supercritical CO2 extraction. Flav. Fragr. J., 7, 227-230 (1992). P&F 17, No. 6, 51, (1992) | |||
rosmarinus officinalis leaf oil france | |||
# | % | Leftshift | Components |
38 | 0.00-trace | beta- | bisabolene |
48 | 0.00-0.27 | alpha- | bisabolol |
35 | 3.24-6.53 | borneol | |
25 | 1.19-14.32 | bornyl acetate | |
39 | 0.00-0.08 | alpha- | cadinene |
40 | 0.00-0.07 | delta- | cadinene |
45 | 0.00-0.12 | T- | cadinol |
4 | 5.86-8.35 | camphene | |
20 | 3.01-7.50 | camphor | |
8 | 0.19-1.19 | delta-3- | carene |
47 | 0.00-0.14 | carvacrol | |
26 | 0.00-2.19 | beta- | caryophyllene |
44 | 0.00-0.10 | caryophyllene oxide | |
12 | 5.30-24.79 | 1,8- | cineole |
16 | 1.39-1.54 | para- | cymene |
7 | 0.07-0.78 | 6,6- | dimethyl(3.1.1)bicyclohept-3-ene-2-butylene |
31 | 0.00-0.19 | beta- | farnesene |
43 | 0.00-trace | geraniol | |
28 | 0.33-0.68 | geranyl acetate | |
36 | 0.00-trace | germacrene D | |
29 | 0.00-0.94 | alpha- | humulene |
32 | 0.00-0.06 | lavandulol | |
30 | trace-0.54 | lavandulyl acetate | |
11 | 3.02-3.96 | limonene | |
22 | 1.46-9.41 | linalool | |
23 | 0.00-5.52 | linalyl acetate | |
37 | 0.00-trace | gamma- | muurolene |
9 | 1.55-2.12 | myrcene | |
41 | 0.00-0.05 | nerol | |
15 | 0.02-0.53 | (E)-beta- | ocimene |
13 | 0.00-0.05 | (Z)-beta- | ocimene |
2 | 19.91-35.08 | alpha- | pinene |
5 | 2.08-4.35 | beta- | pinene |
21 | 0.06-0.58 | iso | pinocamphone |
6 | 0.21-1.36 | sabinene | |
18 | 0.09-0.12 | (E)- | sabinene hydrate |
24 | 0.00-trace | alpha- | santalene |
27 | 0.00-1.21 | terpinen-4-ol | |
10 | 0.39-0.46 | alpha- | terpinene |
14 | 0.28-1.28 | gamma- | terpinene |
34 | 0.00-0.09 | alpha- | terpineol |
17 | 0.51-0.78 | terpinolene | |
3 | 0.00-0.08 | alpha- | thujene |
46 | 0.00-0.18 | thymol | |
1 | 0.24-0.41 | tricyclene | |
42 | 0.00-0.04 | 3,3,6- | trimethyl(2.2.1)bicyclohept-1-en-7-ol |
33 | 1.03-5.08 | verbenone | |
19 | 0.06-0.15 | viridiflorene | |
J. C. Chalchat, R. P. Garry, A. Michet, B. Benjilali and J. L. Chabart, Essential oils of rosemary (Rosmarinus officinalis L.). The chemical composition of the oils of various origins (Morocco, Spain, France). J. Essent. Oil Res., 5, 613-618 (1993). P&F 20, No. 1, 47, (1995) | |||
rosmarinus officinalis leaf oil turkey | |||
# | % | Leftshift | Components |
16 | 17.50 | borneol | |
23 | 1.64 | bornyl acetate | |
21 | 0.32 | bornyl formate | |
3 | 3.81 | camphene | |
14 | 7.63 | camphor | |
25 | 1.73 | carvacrol | |
26 | 1.22 | beta- | caryophyllene |
11 | 36.91 | 1,8- | cineole |
9 | 10.50 | para- | cymene |
27 | 0.25 | alpha- | humulene |
10 | 0.82 | limonene | |
6 | 0.38 | myrcene | |
7 | 0.38 | alpha- | phellandrene |
2 | 0.44 | alpha- | pinene |
5 | 0.44 | beta- | pinene |
19 | 0.38 | (E)- | piperitol |
20 | 0.54 | (Z)- | piperitol |
22 | 0.76 | piperitone | |
4 | 0.44 | sabinene | |
15 | 1.44 | (E)- | sabinene hydrate |
13 | 1.93 | (Z)- | sabinene hydrate |
17 | 3.63 | terpinen-4-ol | |
8 | 3.29 | alpha- | terpinene |
12 | 1.52 | gamma- | terpinene |
18 | 0.83 | alpha- | terpineol |
1 | 0.35 | alpha- | thujene |
24 | 0.90 | thymol | |
M. J. Perez-Alonso, A, Velasio-Negueruela, M. Emin Duru, M. Harmandas and J. L. Esteban, Composition of the essential oils of Ocimum basilicum var. glabratum and Rosmarinus from Turkey. J. Essent. Oil. Res., 7, 73-75 (1995). P&F 22, No. 5, 71, (1997) | |||
sage oil dalmatian | |||
# | % | Leftshift | Components |
14 | 1.20 | borneol | |
18 | 0.10 | bornyl acetate | |
24 | 0.20 | gamma- | cadinene |
2 | 0.50 | camphene | |
12 | 6.10 | camphor | |
20 | 0.70 | beta- | caryophyllene |
26 | 0.50 | caryophyllene oxide | |
7 | 2.20 | 1,8- | cineole |
6 | 0.30 | para- | cymene |
22 | 0.10 | alpha- | guaiene |
23 | trace | delta- | guaiene |
21 | 0.20 | alpha- | humulene |
27 | 1.20 | humulene oxide II | |
5 | 0.40 | myrcene | |
17 | 0.30 | myrtenol | |
1 | 0.20 | alpha- | pinene |
4 | 0.90 | beta- | pinene |
13 | 0.60 | pinocamphone | |
25 | 8.30 | pogostol | |
3 | 0.10 | sabinene | |
15 | 0.60 | terpinen-4-ol | |
8 | 0.20 | gamma- | terpinene |
16 | 0.10 | alpha- | terpineol |
9 | 0.30 | beta- | terpineol |
10 | 63.30 | alpha- | thujone |
11 | 6.40 | beta- | thujone |
19 | 0.20 | thymol | |
C. Bourrel, G. Vilarem, G. Michel and A. Gaset, Etude des proprietes bacteriostatiques et fongistatiques en milieu solide de 24 huiles essentielles preamblement analysees. Rivista Ital. EPPOS, No. 16, 3-12 (1995). P&F 23, No. 2, 47, (1998) | |||
sage oil giza egypt | |||
Comparative percentage composition of Salvia offlcinalis oil produced from plants grown in two areas of Egypt, Giza oil | |||
# | % | Leftshift | Components |
0.10 | tricyclene | ||
0.17 | alpha- | thujene | |
3.81 | alpha- | pinene | |
3.70 | beta- | pinene | |
3.82 | camphene | ||
3.85 | sabinene | ||
3.38 | myrcene | ||
0.85 | ortho- | cymene | |
0.76 | para- | cymene | |
9.38 | 1,8- | cineole | |
0.10 | (Z)-beta- | ocimene | |
1.10 | gamma- | terpinene | |
1.02 | linalool | ||
0.68 | terpinolene | ||
17.72 | alpha- | thujone | |
2.03 | beta- | thujone | |
0.05 | (Z)-para- | menth-2-en-1-ol | |
13.29 | camphor | ||
0.10 | (Z)-beta- | terpineol | |
0.68 | iso | menthone | |
0.43 | iso | pinocamphone | |
2.37 | borneol | ||
1.10 | alpha- | terpineol | |
1.44 | carvone | ||
0.08 | bornyl acetate | ||
2.20 | iso | bornyl acetate | |
0.68 | sabinene hydrate acetate | ||
0.68 | thymol | ||
1.70 | beta- | caryophyllene | |
1.10 | aromadendr-9-ene | ||
3.05 | alpha- | humulene | |
0.10 | allo | aromadendr-9-ene | |
1.44 | germacrene B | ||
0.04 | gamma- | cadinene | |
0.60 | delta- | cadinene | |
0.85 | spathulenol | ||
0.60 | caryophyllene oxide | ||
3.30 | globulol | ||
0.85 | bergamotol acetate | ||
F. M. Soliman, M. A. El-Sohly, M. M. Fathy and F. S. El-Salhawy, A comparitive study of the essential oils from Mentha and Salvia species grown in Egypt. Egypt. J. Pharm. Sci., 38, 553-564 (1997). | |||
salvia atropatana bunge oil iran | |||
# | % | Leftshift | Components |
19 | 16.30 | beta- | caryophyllene |
26 | 0.70 | caryophyllene oxide | |
17 | 1.40 | beta- | elemene |
15 | 1.10 | delta- | elemene |
27 | 0.60 | beta- | eudesmol |
23 | 10.00 | germacrene B | |
22 | 4.10 | germacrene D | |
18 | 3.10 | alpha- | gurjunene |
21 | 0.70 | gamma- | gurjunene |
11 | 1.90 | hexyl 2-methyl butyrate | |
4 | 0.10 | hexyl acetate | |
24 | 1.40 | hexyl benzoate | |
10 | 1.30 | hexyl butyrate | |
16 | 3.90 | hexyl hexanoate | |
25 | 12.20 | hexyl octanoate | |
12 | 4.60 | hexyl valerate | |
20 | 0.80 | alpha- | humulene |
5 | 0.10 | limonene | |
9 | 2.30 | linalool | |
28 | 1.00 | manool | |
6 | 0.10 | (E)-beta- | ocimene |
14 | 0.40 | octyl butyrate | |
1 | 0.10 | alpha- | pinene |
3 | 0.10 | beta- | pinene |
2 | 0.10 | sabinene | |
29 | 13.30 | sclareol | |
7 | 0.10 | gamma- | terpinene |
8 | 0.20 | terpinolene | |
13 | 0.40 | thymol | |
J. of Ess. Oil Res. 12, No. 5, 575, (2000) | |||
salvia officinalis oil england | |||
A Sardinian oil of S. officinalis was analyzedbv Peana et al. (1999) using both CC and GC/MS. and it was found to possess the following composition: | |||
# | % | Leftshift | Components |
25 | 4.10 | borneol | |
31 | 1.30 | bornyl acetate | |
5 | 6.60 | camphene | |
21 | 26.40 | camphor | |
10 | trace | delta-3- | carene |
30 | 0.10 | carvacrol | |
33 | 0.70 | beta- | caryophyllene |
35 | 0.20 | caryophyllene oxide | |
13 | 9.60 | 1,8- | cineole |
12 | 0.20 | para- | cymene |
17 | 0.10 | para-alpha- | dimethyl styrene |
32 | 0.10 | eugenol | |
36 | 3.30 | guaiol | |
34 | 0.90 | alpha- | humulene |
37 | 0.40 | humulene oxide | |
38 | 0.60 | 14- | hydroxy-9-epi-beta-caryophyllene |
14 | 2.30 | limonene | |
16 | trace | (Z)- | linalool oxide |
39 | 0.10 | lyral | |
9 | 0.90 | myrcene | |
28 | 1.00 | myrtanol | |
4 | 3.70 | alpha- | pinene |
8 | 0.40 | beta- | pinene |
23 | 1.10 | pinocamphone | |
24 | 0.10 | iso | pulegol |
7 | 0.20 | sabinene | |
1 | 0.30 | salvene | |
40 | 0.30 | alpha- | santalol |
26 | 0.70 | terpinen-4-ol | |
11 | 0.20 | alpha- | terpinene |
15 | 0.10 | gamma- | terpinene |
27 | 0.30 | alpha- | terpineol |
18 | 0.10 | terpinolene | |
3 | trace | alpha- | thujene |
19 | 24.70 | alpha- | thujone |
20 | 6.40 | beta- | thujone |
29 | 0.20 | thymol | |
2 | 0.20 | tricyclene | |
6 | 1.60 | verbenene | |
22 | 0.70 | (Z)- | verbenol |
M. Tiziana Baratta, H. J. D. Dorman, S. G. Deans, D. M. Biondi and G. Ruberto. Chemical composition, antimicrobial and antiozidative activity of Laurel, sage, rosemary, oregano and coriander essential oils. J. Essent. Oil Res. , 10, 618-627 (1998). P&F 26, No. 3, 66, (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 sclarea oil greece | |||
# | % | Leftshift | Components |
32 | 0.10 | aromadendrene | |
57 | trace | benzyl tiglate | |
29 | trace | bornyl acetate | |
25 | 0.15 | beta- | bourbonene |
43 | trace | delta- | cadinene |
2 | trace | camphene | |
62 | trace | carvacrol | |
30 | 1.20 | beta- | caryophyllene |
50 | 1.50 | caryophyllene oxide | |
6 | trace | 1,8- | cineole |
23 | 0.50 | alpha- | copaene |
26 | 0.10 | beta- | cubebene |
48 | 0.15 | para- | cymen-8-ol |
46 | 0.10 | beta- | damascenone |
69 | 1.25 | deutenyl curcumene furanoid | |
45 | trace | dihydro-para-cymen-8-ol | |
58 | 0.10 | dodecahydro-3a-,6,6,9a-tetramethyl(2,1beta)furan | |
55 | 0.15 | elemol | |
61 | 0.15 | 8,13- | epoxy-15,16-dinorlabd-12-ene |
56 | trace | eudesmol | |
54 | trace | 10-epi-gamma- | eudesmol |
63 | 0.20 | alpha- | eudesmol |
64 | 1.50 | beta- | eudesmol |
24 | trace | formic acid + benzaldehyde | |
41 | 2.15 | geranial | |
49 | 6.50 | geraniol | |
44 | 7.50 | geranyl acetate | |
40 | 1.25 | geranyl formate | |
14 | 0.10 | hexanol | |
17 | 0.10 | 2- | hexanol |
15 | 0.15 | 3- | hexanol |
7 | 0.15 | 2- | hexenal |
12 | trace | hexen-1-yl acetate furanoid | |
35 | 0.10 | alpha- | humulene |
51 | trace | hydroxycitronellal | |
67 | 0.10 | endo-8- | hydroxycycloisolongifolene furanoid |
52 | 1.20 | hydroxylinalool furanoid | |
37 | 0.10 | lavandulol + beta-farnesene | |
5 | 0.15 | limonene | |
27 | 17.20 | linalool | |
22 | 1.10 | (E)- | linalool oxide furanoid |
19 | 0.15 | (Z)- | linalool oxide furanoid |
28 | 14.30 | linalyl acetate | |
31 | trace | linalyl formate | |
71 | 2.50 | manool | |
68 | 0.10 | manoyl oxide | |
70 | 0.15 | 13-epi- | manoyl oxide |
34 | trace | methyl chavicol | |
9 | trace | 2- | methyl-2-vinyl-4-isopropenyl tetrahydrofuran |
13 | trace | 6- | methyl-5-hepten-2-one |
38 | trace | muurolene | |
66 | trace | muurolol | |
4 | 0.25 | myrcene | |
36 | 1.50 | neral | |
47 | 5.50 | nerol | |
21 | trace | nerol oxide | |
53 | trace | nerolidol | |
42 | 5.20 | neryl acetate | |
16 | trace | nonanal | |
10 | 0.15 | (E)-beta- | ocimene |
8 | 0.10 | (Z)-beta- | ocimene |
18 | 0.10 | perillene | |
1 | 0.10 | alpha- | pinene |
3 | 0.10 | beta- | pinene |
72 | 5.20 | sclareol | |
59 | 0.20 | spathulenol | |
33 | 0.20 | terpinen-4-ol | |
39 | 15.10 | alpha- | terpineol |
11 | trace | terpinolene | |
65 | trace | thymol | |
60 | 0.10 | valerianol | |
20 | 0.10 | alpha- | ylangene + 1-octen-3-ol |
Ch. Souleles and N. Argyriadou, Constituents of the essential oil of Salvia sclarea growing wild in Greece. Internat. J. Pharmacog., 35, 218-220 (1997). P&F 25, No. 4, 55, (2000) | |||
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. | |||
satureja hortensis oil | |||
# | % | Leftshift | Components |
16 | 0.85-0.93 | beta- | bisabolene |
15 | 0.30-0.33 | borneol + alpha-terpineol | |
2 | 0.08-0.12 | camphene | |
12 | 0.10 | camphor | |
19 | 23.88-27.20 | carvacrol | |
14 | 2.36-2.86 | beta- | caryophyllene |
17 | 0.11-0.20 | caryophyllene oxide | |
7 | 0.15-0.19 | 1,8- | cineole |
9 | 3.31-8.60 | para- | cymene |
6 | 0.17-0.22 | limonene | |
13 | 0.27-0.35 | linalool | |
4 | 2.53-3.13 | myrcene | |
10 | 0.28-0.36 | 1- | octen-3-ol |
1 | 2.35-3.83 | alpha- | pinene |
3 | 0.80-1.42 | beta- | pinene |
11 | 0.10-0.42 | (E)- | sabinene hydrate |
5 | 4.45-4.69 | alpha- | terpinene |
8 | 47.23-53.22 | gamma- | terpinene |
18 | 0.12-0.14 | thymol | |
A. Bianchi, A. Albasini, M. Melegari, P. Pecorari, C. Vampa and M. Rinaldi, Indagini su piante del genere Satureja, Atti Soc. Nat. Mat. Moderna, 117, 49-64 (1986). P&F 17, No. 1, 45, (1992) | |||
satureja khuzistanica jamzad oil iran | |||
# | % | Leftshift | Components |
18 | 0.30 | beta- | bisabolene |
7 | 0.80 | delta-3- | carene |
16 | 29.60 | carvacrol | |
17 | 0.20 | beta- | caryophyllene |
9 | 1.80 | 1,8- | cineole |
8 | 39.60 | para- | cymene |
10 | 1.30 | limonene | |
13 | 2.40 | linalool | |
5 | 0.80 | myrcene | |
6 | 0.10 | alpha- | phellandrene |
2 | 0.30 | alpha- | pinene |
4 | 0.40 | beta- | pinene |
3 | 0.10 | sabinene | |
14 | 0.20 | terpinen-4-ol | |
11 | 18.90 | gamma- | terpinene |
12 | trace | terpinolene | |
1 | 0.50 | alpha- | thujene |
15 | trace | thymol | |
J. of Ess. Oil Res. 12, No. 4, 427, (2000) | |||
satureja montana oil | |||
# | % | Leftshift | Components |
13 | 1.60 | borneol | |
3 | 5.80 | camphene | |
12 | 18.30 | camphor | |
16 | 1.50 | carvacrol | |
17 | 2.30 | beta- | caryophyllene |
20 | 0.90 | caryophyllene oxide | |
7 | 24.70 | para- | cymene |
18 | 1.60 | gamma- | elemene |
8 | 1.50 | limonene | |
11 | 4.70 | linalool | |
6 | 8.60 | myrcene | |
2 | 3.60 | alpha- | pinene |
5 | 0.90 | beta- | pinene |
4 | 0.90 | sabinene | |
10 | 1.70 | (E)- | sabinene hydrate |
19 | 0.70 | spathulenol | |
14 | 2.80 | terpinen-4-ol | |
9 | 10.80 | gamma- | terpinene |
1 | 0.90 | alpha- | thujene |
15 | 0.30 | thymol | |
C. Bourrel, G. Vilarem, G. Michel and A. Casez, Etude des proprietes bacteriostatiques et fongistatiqes en. milieu solide de 24 huiles essentielles preamblement analysees. Ritista Ital. EPPOS, No. 16, 3-12 (1995). P&F 21, No. 6, 55, (1996) | |||
satureja montana oleoresin | |||
# | % | Leftshift | Components |
1.60 | borneol | ||
5.80 | camphene | ||
18.30 | camphor | ||
1.50 | carvacrol | ||
2.30 | beta- | caryophyllene | |
0.90 | caryophyllene oxide | ||
24.70 | para- | cymene | |
1.60 | gamma- | elemene | |
1.50 | limonene | ||
4.70 | linalool | ||
8.60 | myrcene | ||
3.60 | alpha- | pinene | |
0.90 | beta- | pinene | |
0.90 | sabinene | ||
1.70 | (E)- | sabinene hydrate | |
0.70 | spathulenol | ||
2.80 | terpinen-4-ol | ||
10.80 | gamma- | terpinene | |
0.90 | alpha- | thujene | |
0.30 | thymol | ||
tanacetum annum l. oil marocco | |||
# | % | Leftshift | Components |
31 | 0.10 | allo- | aromadendrene |
47 | 0.30 | benzyl benzoate | |
45 | 0.60 | alpha- | bisabolol |
21 | 2.10 | borneol | |
8 | 0.40 | iso | butyl 2-methyl butyrate |
36 | 0.40 | gamma- | cadinene |
35 | 0.30 | (Z)- | calamenene |
3 | 0.50 | camphene | |
20 | 9.60 | camphor | |
10 | 030 | delta-3- | carene |
27 | 0.20 | carvacrol | |
25 | 0.30 | carvone | |
29 | 1.20 | beta- | caryophyllene |
40 | 0.70 | caryophyllene oxide | |
46 | 28.00 | chamazulene | |
14 | 1.00 | 1,8- | cineole |
12 | 2.20 | para- | cymene |
42 | 1.70 | 7,12- | dehydro-5,6,7,8-tetrahydrochamazulene |
34 | 3.70 | 3,6- | dihydrochamazulene |
41 | 1.70 | 5,6- | dihydrochamazulene |
28 | 0.40 | beta- | elemene |
37 | 0.40 | elemol | |
44 | 5.10 | beta- | eudesmol |
30 | 1.00 | (Z)-beta- | farnesene |
43 | 0.70 | hinesol | |
39 | 0.30 | ledol | |
13 | 1.30 | limonene | |
17 | 0.10 | linalool | |
6 | 4.40 | myrcene | |
24 | 0.10 | myrtenal | |
7 | 0.20 | octanal | |
9 | 2.60 | alpha- | phellandrene |
32 | 0.10 | 2- | phenethyl isovalerate |
2 | 1.30 | alpha- | pinene |
5 | 3.10 | beta- | pinene |
19 | 0.10 | trans- | pinocarveol |
4 | 6.40 | sabinene | |
38 | 0.20 | spathulenol | |
22 | 1.80 | terpinen-4-ol | |
11 | 0.40 | alpha- | terpinene |
15 | 0.40 | gamma- | terpinene |
23 | 0.40 | alpha- | terpineol |
16 | 0.10 | terpinolene | |
1 | 0.10 | alpha- | thujene |
18 | 0.10 | alpha- | thujone |
26 | 1.20 | thymol | |
33 | 0.50 | valencene | |
H. Greche, M. Ismaili-Alaoui, N. Hajjaji, S. Zrira, A. Belanger and B. Benjilali, Composition of Tanacetum annuum L. oil from Morocco. J. Essent. Oil Res., 11, 343-348 (1999). P&F 26, No. 1, 36, (2001) | |||
tanacetum annum l. oil marocco | |||
# | % | Leftshift | Components |
1 | 0.70 | alpha- | thujene |
2 | 4.90 | alpha- | pinene |
3 | 1.80 | camphene | |
4 | 22.30 | sabinene | |
5 | 10.10 | beta- | pinene |
6 | 6.00 | myrcene | |
7 | 7.60 | alpha- | phellandrene |
8 | 0.90 | alpha- | terpinene |
9 | 8.90 | para- | cymene |
10 | 4.20 | limonene | |
11 | 0.30 | 1,8- | cineole |
12 | 1.50 | gamma- | terpinene |
13 | 13.20 | camphor | |
14 | 2.70 | borneol | |
15 | trace | terpineol | |
16 | 0.80 | thymol | |
17 | 0.20 | beta- | elemene |
18 | 1.70 | beta- | caryophyllene |
19 | 0.80 | (Z)-beta- | farnesene |
20 | 1.10 | valencene | |
21 | 1.90 | 3,6- | dihydrochamazulene |
22 | trace | caryophyllene oxide | |
23 | trace | 5,6- | dihydrochamazulene |
24 | trace | 7,12- | dehydro-5,6,7,8-tetrahydrochamazulene |
25 | 0.30 | beta- | eudesmol |
26 | 2.80 | chamazulene | |
tanacetum parthenium leaf oil | |||
# | % | Leftshift | Components |
2 | trace | benzaldehyde | |
27 | trace | benzyl isobutyrate | |
33 | trace | benzyl isovalerate | |
25 | trace | benzyl propionate | |
19 | 0.60 | borneol | |
26 | 1.90 | bornyl acetate | |
44 | 0.84 | C13-compound (spiroketal ether polyines) | |
45 | trace | C14-compound (spiroketal ether polyines) | |
41 | trace | delta- | cadinene |
4 | 6.46 | camphene | |
17 | 42.73 | camphor | |
29 | trace | carvacrol | |
35 | 0.53 | beta- | caryophyllene |
43 | 2.06 | caryophyllene oxide | |
16 | 1.42 | (E)- | chrysanthenol |
24 | 24.00 | (E)- | chrysanthenyl acetate |
42 | trace | (E)- | chrysanthenyl angelate |
39 | trace | (E)- | chrysanthenyl isovalerate |
30 | trace | (E)- | chrysanthenyl propionate |
10 | trace | 1,8- | cineole |
34 | trace | alpha- | copaene |
23 | trace | cuminaldehyde | |
38 | trace | curcumene | |
8 | 0.63 | para- | cymene |
14 | trace | para- | cymenene |
20 | trace | para- | ethyl benzaldehyde |
37 | 2.52 | beta- | farnesene |
40 | 3.00 | germacrene D | |
36 | trace | alpha- | humulene |
9 | trace | limonene | |
31 | trace | linalyl propionate | |
11 | trace | para- | methyl benzaldehyde |
3 | 1.65 | alpha- | pinene |
6 | 0.27 | beta- | pinene |
18 | 0.14 | pinocarvone | |
5 | 0.33 | sabinene | |
13 | 0.10 | sabinene hydrate | |
21 | 0.27 | terpinen-4-ol | |
7 | 2.98 | alpha- | terpinene |
12 | 1.87 | gamma- | terpinene |
22 | 0.17 | alpha- | terpineol |
15 | trace | terpinolene | |
1 | 0.70 | alpha- | thujene |
32 | 0.10 | thujopsene | |
28 | trace | thymol | |
H. Hendriks, R. Bos and H. J. Woerdenbag, The essential oil of Tanacetum parthenium (L.) Schultz-Bip. Flav. Fragr. J., 11, 367-371 (1996). P&F 24, No. 5, 45, (1999) | |||
thymus richardii pers. subsp. nitidus (guss.) jalas oil italy | |||
# | % | Leftshift | Components |
27 | 0.70 | allo- | aromadendrene |
30 | 32.30 | beta- | bisabolene |
14 | trace | borneol | |
25 | 0.60 | beta- | bourbonene |
31 | 1.00 | delta- | cadinene |
34 | 4.00 | T- | cadinol |
13 | trace | camphor | |
22 | 13.10 | carvacrol | |
24 | trace | carvacryl acetate | |
18 | 0.50 | trans- | carveol |
20 | 0.70 | carvone | |
26 | 3.40 | beta- | caryophyllene |
33 | 3.10 | caryophyllene oxide | |
8 | 0.75 | 1,8- | cineole |
5 | 2.10 | para- | cymene |
16 | 1.00 | (Z)- | dihydrocarvone |
17 | 5.00 | (E)- | dihydrocarvone |
29 | 1.90 | germacrene D | |
6 | 1.00 | limonene | |
12 | 1.60 | linalool | |
19 | 12.40 | methyl thymol | |
28 | 0.40 | gamma- | muurolene |
4 | trace | myrcene | |
7 | 0.50 | beta- | phellandrene |
32 | 0.70 | beta-sesqui | phellandrene |
1 | 0.70 | alpha- | pinene |
3 | trace | beta- | pinene |
2 | trace | sabinene | |
10 | 1.50 | (Z)- | sabinene hydrate |
15 | 0.60 | terpinen-4-ol | |
9 | trace | gamma- | terpinene |
11 | trace | beta- | thujone |
21 | 1.30 | thymol | |
23 | trace | thymyl acetate | |
J. of Ess. Oil Res. 13, No. 1, 8, (2001) | |||
thymus serpyllum oil canada | |||
# | % | Leftshift | Components |
14 | 3.70 | beta- | bisabolene |
15 | 4.80 | delta- | cadinene |
17 | 5.90 | alpha- | cadinol |
16 | 1.00 | T- | cadinol |
1 | 0.30 | camphene | |
10 | 7.00 | beta- | caryophyllene |
4 | 0.70 | 1,8- | cineole |
6 | 0.70 | para- | cymene |
13 | 3.70 | geranyl acetate | |
3 | 1.80 | limonene | |
8 | 25.20 | linalool | |
9 | 8.30 | linalyl acetate | |
2 | 0.50 | myrcene | |
7 | 2.10 | 1- | octen-3-ol |
5 | 0.50 | gamma- | terpinene |
11 | 2.90 | alpha- | terpineol |
12 | 9.60 | alpha- | terpinyl acetate |
18 | 3.50 | thymol | |
B. M, Lawrence, unpublished information. P&F 23, No. 3, 63, (1998) | |||
thymus serpyllum oil pakistan | |||
# | % | Leftshift | Components |
24 | 3.13 | borneol | |
3 | 0.20 | camphene | |
16 | 3.54 | camphor | |
6 | 0.96 | delta-3- | carene |
28 | 8.15 | carvacrol | |
18 | 2.19 | beta- | caryophyllene |
10 | 0.16 | 1,8- | cineole |
15 | 0.17 | citronellal | |
12 | 9.54 | para- | cymene |
2 | 0.14 | fenchene | |
19 | 0.91 | alpha- | fenchol |
25 | 0.35 | geranial | |
26 | 0.35 | geraniol | |
9 | 0.85 | limonene | |
17 | 0.50 | linalool | |
21 | 0.10 | neral | |
14 | 0.17 | nonanal | |
13 | 0.11 | octanal | |
7 | 0.88 | alpha- | phellandrene |
1 | 0.27 | alpha- | pinene |
4 | 0.51 | beta- | pinene |
20 | 0.21 | pulegone | |
5 | 0.56 | sabinene | |
23 | 2.90 | terpinen-4-ol | |
8 | 0.67 | alpha- | terpinene |
11 | 1.66 | gamma- | terpinene |
27 | 42.63 | thymol | |
22 | 0.23 | undecanal | |
A. Sattar, M. Shafiq Malik and S. A. Khan, Essential oils of the species of Labiatae. part IV. Composition of the essential oil of Thymus serpyllum. Pak. J. Sci. Ind. Res., 34(4), 119-120 (1991). P&F 23, No. 3, 63, (1998) | |||
thymus vulgaris absolute | |||
# | % | Leftshift | Components |
21 | 6.96 | carvacrol | |
17 | trace | carvone | |
23 | trace | beta- | caryophyllene |
12 | trace | 1,8- | cineole |
22 | 2.10 | alpha- | copaene |
10 | 0.95 | para- | cymene |
4 | 0.89 | 4,7- | dimethyl-4-octanol |
18 | 2.61 | geraniol | |
11 | trace | limonene + alpha-phellandrene | |
16 | 5.76 | linalool | |
19 | 23.17 | linalyl acetate | |
5 | 1.44 | 6- | methyl-5-hepten-2-one |
6 | trace | myrcene | |
14 | trace | (E)-beta- | ocimene |
13 | trace | (Z)-beta- | ocimene |
7 | 0.92 | 3- | octanol |
8 | trace | alpha- | phellandrene |
2 | trace | alpha- | pinene |
3 | trace | beta- | pinene |
9 | trace | alpha- | terpinene |
15 | 2.45 | gamma- | terpinene |
1 | trace | alpha- | thujene |
20 | 43.10 | thymol | |
F. I. Jean, G. J. Collin and D. Lord, Essential oils and microwave extracts of cultivated plants. Perfum. Flavor, 17(3), 35-41 (1992). P&F 23, No. 1, 39, (1998) | |||
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) | |||
thymus vulgaris oil CO2 extract spain | |||
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 |
11 | 0.8 | alpha- | bisabolene |
4 | 3.0 | delta-3- | carene |
9 | 33.3 | carvacrol | |
10 | 1.9 | beta- | caryophyllene |
5 | 14.3 | para- | cymene |
3 | 1.6 | limonene | |
7 | 0.6 | linalool | |
2 | 1.3 | myrcene | |
12 | 0.4 | palmitic acid | |
1 | 0.5 | beta- | pinene |
6 | 25.0 | gamma- | terpinene |
8 | 13.2 | thymol | |
M. Oszagyan, B. Simandi, J. Sawinsky, A. Kery, E. Lemberkovics and J. Fekete, Supercritical fluid extraction of volatile compounds from lavandin and thyme. Flav. Fragr. J., 11, 157-165 (1996). P&F 23, No. 1, 39, (1998) | |||
thymus vulgaris oil red india | |||
Raghaven et al. (1995) compared the hydrodistilled oils of Indian thyme (ex. T. vulgaris) produced both from fresh plants and those dried under a variety of conditions. The composition of these oils, which were analyzed by GC (quantitative data) and GC/MS (component identification), can be seen in Table V. Only the fresh plant material analysis will be shown: | |||
# | % | Leftshift | Components |
7 | 7.9 | para- | cymene |
8 | 0.3 | limonene | |
10 | 1.0 | linalool | |
4 | 1.0 | myrcene | |
3 | 1.4 | 1- | octen-3-ol |
5 | 0.2 | alpha- | phellandrene |
2 | 0.4 | alpha- | pinene |
11 | 0.5 | terpinen-4-ol | |
6 | 1.4 | alpha- | terpinene |
9 | 14.5 | gamma- | terpinene |
1 | 3.6 | alpha- | thujene |
12 | 60.1 | thymol | |
B. Raghavan, K. O. Abaham and W. D. Koller, Flavour quality of fresh and dried Indian thyme. PAFAI, (oct/Nov), 9-14 (1995). P&F 23, No. 1, 39, (1998) | |||
thymus vulgaris oil red spain | |||
An oil of T. Vulgaris that was produced for two separate seasons in Casolavalsenio, Italy, was subjected to analysis by a combination of GC and GC/MS (Piccaglia and Marotti, 1993). The compounds that were characterized during this analysis were: | |||
# | % | Leftshift | Components |
19 | trace | aromadendrene | |
34 | 0.44-0.45 | borneol | |
40 | 0.04-0.07 | bornyl acetate | |
16 | trace | beta- | bourbonene |
26 | 0.11-0.25 | delta- | cadinene |
25 | 0.06-0.15 | gamma- | cadinene |
29 | trace-0.05 | alpha- | cadinol |
28 | trace-0.09 | delta- | cadinol |
3 | 0.18-0.46 | camphene | |
33 | trace-0.30 | camphor | |
9 | 0.07-0.13 | delta-3- | carene |
42 | 0.61-1.72 | carvacrol | |
17 | 2.38-4.28 | beta- | caryophyllene |
27 | 0.29-0.45 | caryophyllene oxide | |
13 | 1.96-2.62 | 1,8- | cineole |
44 | trace | alpha- | copaene |
43 | trace-0.08 | cumin alcohol | |
36 | trace | para- | cymen-8-ol |
11 | 18.60-25.34 | para- | cymene |
21 | trace-0.04 | (Z)-beta- | farnesene |
18 | trace-0.04 | beta- | gurjunene |
20 | 0.13-0.23 | alpha- | humulene |
12 | 0.17-0.30 | limonene | |
30 | 2.42-2.82 | linalool | |
38 | 1.43-1.52 | methyl thymol | |
22 | 0.04-0.07 | alpha- | muurolene |
24 | trace-0.08 | gamma- | muurolene |
7 | 1.40-2.14 | myrcene | |
6 | 0.41-0.67 | 1- | octen-3-ol |
8 | 0.15-0.19 | alpha- | phellandrene |
2 | 0.49-1.34 | alpha- | pinene |
5 | 0.17-0.41 | beta- | pinene |
4 | trace | sabinene | |
35 | 0.98-1.10 | terpinen-4-ol | |
10 | 1.67-2.34 | alpha- | terpinene |
14 | 12.06-12.27 | gamma- | terpinene |
37 | 0.17-0.26 | alpha- | terpineol |
15 | 0.18-0.19 | terpinolene | |
1 | 0.87-2.10 | alpha- | thujene |
31 | 0.00-0.51 | alpha- | thujone |
32 | 0.00-0.15 | beta- | thujone |
41 | 16.55-38.24 | thymol | |
39 | trace | thymoquinone | |
23 | trace-0.10 | viridiflorene | |
R. Piccaglia, M. Marotti, E. Giovanelli, S. G. Deans and E. Eaglesham, Antibacterial and antioxidant properties of Mediterranean aromatic plants. Inust. Crops Products, (2), 47-50 (1993). R. Piccaglia, M. Marotti, Characterization of several aromatic plants grown in northern Italy. Flav. Fragr. J., 8, 115-122 (1993). P&F 23, No. 1, 39, (1998) | |||
thymus zygis gracillis herb oil spain | |||
Variations in the chemical composition of the essential oils of T. sygis L. ssp. sylvestris (Hoffm. et Link) Brot. ex. Coutinho and T. sygis L. ssp. gracilis (boiss.) R. Morales from southeastern Spain were determined by Saez (1995). In this study, oils from four collections of each subspecies were examined by GC and GC/MS. A summary of the data obtained from these analyses (Table IV) shows that different chemotypes of each of the subspecies can be found. Of these, only the thymol chemotypes of T. zygis ssp. gracilis is typical of the red thyme oil in commerce. Only the chemotype thymol will be shown here: | |||
# | % | Leftshift | Components |
19 | 1.63 | borneol | |
14 | 1.17 | iso | bornyl acetate |
29 | 0.05 | alpha- | cadinol |
2 | 0.30 | camphene | |
11 | 0.56 | camphor | |
28 | 3.34 | carvacrol | |
16 | 0.12 | beta- | caryophyllene |
23 | 0.07 | caryophyllene oxide | |
7 | 1.02 | 1,8- | cineole |
21 | 0.08 | citronellol | |
9 | 2.95 | para- | cymene |
25 | 0.08 | elemol | |
22 | 0.14 | geraniol | |
20 | 0.09 | geranyl acetate | |
6 | 0.09 | limonene | |
12 | 7.89 | linalool | |
13 | 0.06 | linalyl acetate | |
4 | 0.06 | myrcene | |
1 | 0.04 | alpha- | pinene |
3 | 0.04 | beta- | pinene |
10 | 0.36 | (E)- | sabinene hydrate |
26 | 0.28 | spathulenol | |
15 | 1.60 | terpinen-4-ol | |
5 | 0.02 | alpha- | terpinene |
8 | 0.36 | gamma- | terpinene |
18 | 0.08 | alpha- | terpineol |
17 | 0.11 | delta- | terpineol |
27 | 71.84 | thymol | |
24 | 0.08 | viridiflorol | |
F. Saez, Essential oil variability of Thymus zygis growing wild in southeastern Spain. Phytochemistry, 40, 819-825 (1995). P&F 23, No. 1, 39, (1998) | |||
thymus zygis spp. sylvestris herb oil spain | |||
Variations in the chemical composition of the essential oils of T. sygis L. ssp. sylvestris (Hoffm. et Link) Brot. ex. Coutinho and T. sygis L. ssp. gracilis (boiss.) R. Morales from southeastern Spain were determined by Saez (1995). In this study, oils from four collections of each subspecies were examined by GC and GC/MS. A summary of the data obtained from these analyses (Table IV) shows that different chemotypes of each of the subspecies can be found. Of these, only the thymol chemotypes of T. zygis ssp. gracilis is typical of the red thyme oil in commerce. Only the chemotype thymol will be shown here: | |||
# | % | Leftshift | Components |
23 | 4.06 | borneol | |
18 | 1.04 | iso | bornyl acetate |
30 | 0.04 | alpha- | cadinol |
3 | 1.76 | camphene | |
15 | 0.10 | camphor | |
29 | 1.66 | carvacrol | |
20 | 0.36 | beta- | caryophyllene |
27 | 0.63 | caryophyllene oxide | |
9 | 1.54 | 1,8- | cineole |
25 | 0.06 | citronellol | |
12 | 27.63 | para- | cymene |
26 | 0.39 | geraniol | |
24 | 0.24 | geranyl acetate | |
8 | 0.13 | limonene | |
16 | 5.10 | linalool | |
17 | 0.40 | linalyl acetate | |
6 | 0.09 | myrcene | |
10 | 1.14 | (Z)-beta- | ocimene |
2 | 2.28 | alpha- | pinene |
4 | 0.29 | beta- | pinene |
5 | 0.06 | sabinene | |
14 | 0.22 | (E)- | sabinene hydrate |
19 | 1.15 | terpinen-4-ol | |
7 | 1.91 | alpha- | terpinene |
11 | 10.95 | gamma- | terpinene |
22 | 0.04 | alpha- | terpineol |
21 | 0.03 | delta- | terpineol |
13 | 0.15 | terpinolene | |
1 | 0.08 | alpha- | thujene |
28 | 34.18 | thymol | |
F. Saez, Essential oil variability of Thymus zygis growing wild in southeastern Spain. Phytochemistry, 40, 819-825 (1995). P&F 23, No. 1, 39, (1998) | |||
thymus zygis ssp. zygis herb oil portuguese | |||
Variations in the chemical composition of the essential oils of T. sygis L. ssp. sylvestris (Hoffm. et Link) Brot. ex. Coutinho and T. sygis L. ssp. gracilis (boiss.) R. Morales from southeastern Spain were determined by Saez (1995). In this study, oils from four collections of each subspecies were examined by GC and GC/MS. A summary of the data obtained from these analyses (Table IV) shows that different chemotypes of each of the subspecies can be found. Of these, only the thymol chemotypes of T. zygis ssp. gracilis is typical of the red thyme oil in commerce. Only the chemotype thymol will be shown here: | |||
# | % | Leftshift | Components |
25 | trace | beta- | bisabolene |
23 | 1.0 | borneol | |
18 | trace | bornyl acetate | |
3 | 0.6 | camphene | |
16 | 0.5 | camphor | |
29 | 42.0 | carvacrol | |
19 | 1.5 | beta- | caryophyllene |
30 | 0.6 | caryophyllene oxide | |
9 | 0.2 | 1,8- | cineole |
11 | 19.9 | para- | cymene |
27 | 0.3 | geraniol | |
26 | 0.2 | geranyl acetate | |
24 | trace | germacrene D | |
21 | trace | alpha- | humulene |
8 | 0.4 | limonene | |
17 | 3.8 | linalool | |
6 | 1.3 | myrcene | |
13 | 0.1 | 3- | octanol |
14 | 0.2 | 1- | octen-3-ol |
2 | 0.7 | alpha- | pinene |
4 | 0.1 | beta- | pinene |
5 | trace | sabinene | |
15 | 0.2 | (E)- | sabinene hydrate |
20 | 0.9 | terpinen-4-ol | |
7 | 1.0 | alpha- | terpinene |
10 | 15.0 | gamma- | terpinene |
22 | 0.1 | alpha- | terpineol |
12 | trace | terpinolene | |
1 | 0.8 | alpha- | thujene |
28 | 0.2 | thymol | |
31 | 0.1 | viridiflorol | |
L. R. Salgueiro. A. Proencada Cunha and J. Paiva,Chemotaxonomic characterization of a Thymus hybrid from Portugal. Flav. Fragr. J., 8, 325-330 (1993). P&F 20, No. 3, 67, (1995) | |||
trachyspermum copticum fruit oil | |||
# | % | Leftshift | Components |
23 | trace | (E)- | anethole |
25 | trace | anise ketone | |
3 | trace | camphene | |
6 | trace | delta-3- | carene |
27 | 0.60 | carvacrol | |
21 | trace | carvone | |
11 | trace | 1,8- | cineole |
22 | trace | cuminaldehyde | |
13 | 15.57 | para- | cymene |
9 | 2.08 | limonene | |
18 | trace | methyl carvacrol | |
24 | trace | methyl eugenol | |
7 | 0.56 | myrcene | |
10 | 0.18 | beta- | phellandrene |
1 | 0.32 | alpha- | pinene |
4 | 3.31 | beta- | pinene |
5 | trace | sabinene | |
15 | 0.19 | (E)- | sabinene hydrate |
16 | 0.29 | (Z)- | sabinene hydrate |
20 | trace | beta- | selinene |
17 | 1.13 | terpinen-4-ol | |
8 | trace | alpha- | terpinene |
12 | 11.86 | gamma- | terpinene |
19 | 0.19 | alpha- | terpineol |
14 | trace | terpinolene | |
2 | 0.20 | alpha- | thujene |
26 | 61.31 | thymol | |
F. Chialva, F. Monguzzi, P. Manitto and A. Akgul. Essential oil constituents of Trachyspermum copticum (L.) Link Fruits. J. Essent. Oil Res., 5, 105-106 (1993). P&F 19, No. 2, 63, (1994) | |||
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) |