BT

Typical G.C. analysis

achillea millefolium oil greece
#%LeftshiftComponents
200.50  artemisyl alcohol
16trace  artemisyl ketone
10.40  artemisia triene
3349.30  ascaridole
550.10alpha- bisabolol
292.00iso borneol
50tracedelta- cadinene
49tracegamma- cadinene
540.10alpha- cadinol
530.10T- cadinol
50.90  camphene
268.10  camphor
11tracedelta-3- carene
37trace  carvacrol
430.40beta- caryophyllene
520.20  caryophyllene oxide
280.20(Z)- chrysanthenol
36trace  chrysanthenyl acetate
1410.501,8- cineole
40tracealpha- copaene
410.10beta- cubebene
46tracear- curcumene
137.40para- cymene
42tracebeta- elemene
44trace(E)-beta- farnesene
350.30  geranial
47trace  germacrene D
45tracealpha- humulene
390.80(Z)- jasmone
270.10  lavandulol
150.10  limonene
220.50  linalool
48tracealpha- muurolene
9trace  myrcene
51trace(E)- nerolidol
6trace1- octen-3-ol
10tracealpha- phellandrene
40.40alpha- pinene
80.30beta- pinene
70.40  sabinene
190.40(E)- sabinene hydrate
250.50(Z)- sabinene hydrate
301.10  terpinen-4-ol
127.00alpha- terpinene
180.30gamma- terpinene
310.50alpha- terpineol
210.30  terpinolene
3tracealpha- thujene
231.50alpha- thujone
240.20beta- thujone
341.40 thujyl isobutyrate
380.10  thymol
2trace  tricyclene
320.20  verbenone
171.70  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)

artemisia absinthium herb oil italy
Mucciarelli et al. (1995) performed GC/MS analysis on oils obtained from a number of Artemisia species growing in northwest Italy. In this study, they determined that an oil of A. absinthum contained:
#%LeftshiftComponents
17trace  artemisyl alcohol
46trace  artemisyl ketone
31trace  ascaridole
55trace(E)-alpha- bergamotol
54tracealpha- bisabolol
58trace bisabolol oxide
36trace  borneol
42trace  bornyl acetate
56tracealpha- cadinol
4trace  camphene
47trace  camphenilone
210.4  camphor
590.3  carvacrol
39tracetrans- carveol
25trace  carvone
500.5beta- caryophyllene
570.4  caryophyllene oxide
41trace(E)- chrysanthenyl acetate
40trace(Z)- chrysanthenyl acetate
282.01,8- cineole
480.2alpha- copaene
52traceepi- cubenol
450.2  cuminaldehyde
121.0para- cymene
26trace  damascenone
27trace2,3- dihydro-1,8-cineole
29trace(Z)- epoxyocimene
3tracealpha- fenchene
100.1  limonene
18trace  linalool
300.1  linalool oxide
7trace  myrcene
440.1  myrtenal
380.1  myrtenol
51trace(E)- nerolidol
37trace  nojiku alcohol
8tracealpha- phellandrene
10.3alpha- pinene
50.7beta- pinene
22traceiso pinocamphone
33trace  pinocarveol
230.2  pinocarvone
61.6  sabinene
140.2(E)- sabinene hydrate
431.6  sabinyl acetate
490.6gamma- selinene
530.1  spathulenol
321.3  terpinen-4-ol
90.3alpha- terpinene
110.6gamma- terpinene
35tracealpha- terpineol
130.1  terpinolene
160.4(Z)-thuj-2-en-4-ol
20.3alpha- thujene
1967.5alpha- thujone
2018.2beta- thujone
34trace(E)- verbenol
24trace  verbenone
15trace  yomogi alcohol

M. Mucciarelli, R. Caramiello, M. Maffei and F. Chialva, Essential oils from some Artemisia species growing spontaneously in Northwest Italy. Flav. Fragr. J., 10, 25-32 (1995).

P&F 23, No. 1, 39, (1998)

artemisia absinthium herb oil poland
In 1993, Kalemba et al. compared the composition of oils obtained from Artemisia absinthum (absinthe) grown in Poland, using GC and GC/MS as their method of analysis. Oils produced from plants harvested at the pre-flowering stage, in full bloom and after flowering were found to possess quantitative differences in their compositions as shown in Table XI. In addition, the authors found that the oil was strongly toxic to Rhizopertha dominca (lesser grain boror), mildly toxic to Tribolium confusum (darkling grain beetle) and Sitophilus granarius (grain weevil). Also, it was repellent to S. granarius. Only the full-flowering analysis will be shown here.
#%LeftshiftComponents
210.74alpha- bisabolol
10.95  camphene
5tracedelta-3- carene
112.74beta- caryophyllene
136.95  chrysanthenyl acetate
612.661,8- cineole
70.77para- cymene
166.31 dihydrocarvyl acetate + alpha-terpineol
18trace  geranyl acetate
120.91  linalool
20trace  nerol
170.56  neryl acetate
190.52  neryl propionate
80.12beta- phellandrene
23.23alpha- pinene
30.39beta- pinene
45.67 sabinene + myrcene
1520.13  sabinyl acetate
141.73  terpinen-4-ol
98.03alpha- thujone
1016.91beta- thujone

D. Kalemba, J. Gora, A. Kurowska, T. Majda and Z. Mielnizuk, Analysis of essential oils in respects of their influence to insects. Zeszyty Nauk. Politechnik. Lodz., No. 589, 5-14 (1993).

P&F 23, No. 1, 39, (1998)

artemisia afra oil wild zimbabwe
#%LeftshiftComponents
22trace-0.30  artemisyl alcohol
166.30-14.90  artemisyl ketone
19trace-0.10  artemisyl acetate
330.20-0.50  bicyclogermacrene
310.60-3.40  borneol
260.30-1.50  bornyl acetate
350.50-0.80delta- cadinene
380.10-0.90  calamenene
40.30-3.90  camphene
238.50-27.10 camphor + alpha-copaene
270.50-2.30beta- caryophyllene
39trace-0.10  caryophyllene oxide
110.10-27.901,8- cineole
36trace-0.50  cuminaldehyde
140.30-2.00para- cymene
90.10-0.20  dihydro-1,8-cineole
30.20-1.00alpha- fenchene
42trace-0.40  intermedeol
100.10-0.50  limonene
290.20-0.30(E)-para- menth-2-en-1-ol
250.20-0.40(Z)-para- menth-2-en-1-ol
40trace-0.10  methyl linolenate
41trace-0.50T- muurolol
70.10-1.10  myrcene
37trace-0.10  myrtenol
120.10-0.30(E)-beta- ocimene
50.10-0.70beta- pinene
20.40-1.10alpha-pinene + alpha-thujene
340.10-0.70(E)- piperitol
60.10-2.60  sabinene
241.80-4.40(E)- sabinene hydrate
210.20-0.50(Z)- sabinene hydrate
173.10-10.10  santolina alcohol
28trace-0.10  terpinen-4-ol
80.10-1.10alpha- terpinene
130.30-1.90gamma- terpinene
320.10-0.70alpha- terpineol
300.10-2.50delta- terpineol
150.10-0.50  terpinolene
181.00-2.90alpha- thujone
20tracebeta- thujone
10.10-0.20  tricyclene

L. S. Chagonda, C. Makanda and J. C. Chalchat, The essential oil of cultivated Artemisia afra Jacq. from Zimbabwe. Flav. Fragr. J., 14, 140-142 (1999).

P&F 25, No. 2, 46, (2000)

artemisia afra oil zimbabwe
#%LeftshiftComponents
160.1  artemisyl ketone
252.8  borneol
220.5  bornyl acetate
280.2delta- cadinene
310.1  calamenene
48.0  camphene
1950.3 camphor + alpha-copaene
320.1cis- carveol
231.2beta- caryophyllene
330.1  caryophyllene oxide
1110.71,8- cineole
290.2  cuminaldehyde
350.1para- cymen-8-ol
140.8para- cymene
90.1  dihydro-1,8-cineole
31.4alpha- fenchene
340.1  germacrene D-4-ol
370.1  intermedeol
100.9  limonene
210.8(Z)-para- menth-2-en-1-ol
360.5T- muurolol
71.6  myrcene
300.3  myrtenol
12trace(E)-beta- ocimene
50.4beta- pinene
20.3alpha-pinene + alpha-thujene
271.8(E)- piperitol
60.2  sabinene
203.5(E)- sabinene hydrate
180.4(Z)- sabinene hydrate
80.3alpha- terpinene
130.7gamma- terpinene
260.4alpha- terpineol
240.7delta- terpineol
150.3  terpinolene
170.7alpha- thujone
1trace  tricyclene

L. S. Chagonda, C. Makanda and J. C. Chalchat, The essential oil of cultivated Artemisia afra Jacq. from Zimbabwe. Flav. Fragr. J., 14, 140-142 (1999).

P&F 25, No. 2, 46, (2000)

artemisia campestris spp. glutinosa flower oil italy
#%LeftshiftComponents
21trace  aromadendrene
2714.50  bicyclogermacrene
330.90 bisabolene endoperoxide
397.00alpha- bisabolol
421.70alpha-bisabolol oxide
220.10iso borneol
30tracedelta- cadinene
440.50alpha- cadinol
320.20  calamenene
2trace  camphene
18trace  camphor
430.90  carvacrol
340.30  caryophyllene oxide
371.00  cedrol
70.201,8- cineole
170.40alpha- copaene
310.20ar- curcumene
110.10para- cymene
285.00(E,E)-alpha- farnesene
241.50(E)-beta- farnesene
290.10  geranyl acetate
268.00  germacrene D
401.00  globulol
230.40beta- guaiene
140.20(Z)-3- hexen-1-yl isovalerate
251.40alpha- humulene
63.00  limonene
353.70  methyl eugenol
450.40T- muurolol
511.20  myrcene
200.40  myrtenal
360.80(E)- nerolidol
82.40(Z)-beta- ocimene
130.10allo- ocimene
105.40(E)-beta- ocimene
12.60alpha- pinene
319.00beta- pinene
40.30  sabinene
410.90  spathulenol
190.90  terpinen-4-ol
90.40gamma- terpinene
12trace  terpinolene
15tracealpha- thujone
16tracebeta- thujone
380.90  viridiflorol
J. of Ess. Oil Res. 13, No. 2, 91, (2001)
artemisia gypsacea krasch. oil iran
#%LeftshiftComponents
82.60  borneol
124.30  bornyl acetate
10.70  camphene
63.50  camphor
140.30  caryophyllene oxide
110.80(Z)- chrysanthenyl acetate
336.501,8- cineole
22.80para- cymene
130.70(Z)- jasmone
93.10  terpinen-4-ol
100.70alpha- terpineol
70.50delta- terpineol
48.90alpha- thujone
528.40beta- thujone
J. of Ess. Oil Res. 12, No. 3, 330, (2000)
artemisia herba-alba herb oil morocco
#%LeftshiftComponents
130.1  artemisyl alcohol
90.7  borneol
160.1  bornyl acetate
27tracedelta- cadinene
28tracegamma- cadinene
31.8  camphene
2110.3  camphor
12trace  carvacrol
230.8beta- caryophyllene
224.2  chrysanthenone
17trace  chrysanthenyl acetate
1414.01,8- cineole
40.1para- cymene
261.7beta- elemene
243.1alpha- guaiene
25tracealpha- humulene
10trace  myrtenol
18trace  myrtenyl acetate
11.5alpha- pinene
20.8beta- pinene
50.2alpha- terpinene
71.5gamma- terpinene
85.3alpha- terpineol
150.1alpha- terpinyl acetate
60.1alpha- thujene
1923.9alpha- thujone
2020.1beta- thujone
11trace  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)

chrysanthemum balsamita oil
#%LeftshiftComponents
170.46  bornyl acetate
20.01  camphene
60.01delta-3- carene
180.36cis- carveol
1551.51  carvone
90.631,8- cineole
190.15alpha- copaene
214.72beta- cubebene
70.11para- cymene
140.50  dodecane
200.39(E)-beta- farnesene
30.02 fenchene
82.57  limonene
230.36  pentadecane
160.43  perillaldehyde
10.04alpha- pinene
50.03beta- pinene
40.24  sabinene
100.05  terpinolene
130.78alpha- thujone
120.19beta- thujone
110.12  undecane
220.49  zingiberene

H. J. Bestmann, B. Classen, U. Kohold, O. Vostrowsky, F. Klingauf, H. Strobel and K. Knobloch, Pflanzliche Insektizide II (1.) Das atherische Ole aus Blattern das Balsamkrautes, Chrysanthemum balsamita L. Insektizide Wirkung and Zusammensetzung, Z. Naturforsch., 39c, 543-547 (1984).

P&F 11, No. 1, 29, (1986)

croton eluteria bark oil
#%LeftshiftComponents
800.01  amyl benzoate
330.28allo- aromadendrene
129tracealpha- bisabolol
126tracebeta- bisabolol
1010.94  borneol
550.22  cadalene
460.42delta- cadinene
440.17gamma- cadinene
1231.00T- cadinol
470.96alpha- calacorene
490.24beta- calacorene
450.11  calamenene
40.40  camphene
630.02  camphor
100.21delta-2- carene
1130.02  carvacrol
110trace  carvenone
1080.08trans- carveol
670.03  carvone
680.21  carvotan acetone
320.25beta- caryophyllene
870.67 caryophyllene oxide + dihydro-ar-bisabolol
860.32 cascarilla epoxide
890.08 cascarilla furan
1331.34 cascarilla hydroxyketone
920.01 cascarilla hydroxyketone
930.02 cascarilla lactone
274.62  cascarilladiene
901.28 cascarilladienone
1370.74  cascarillone
1211.78beta-cedren-10-ol
281.11beta-cedrene isomer
1180.07  cedrol
430.20alpha- chamigrene
360.11beta- chamigrene
600.281,8- cineole
480.09 compound k
500.23 compound l
510.07 compound m
520.14 compound n
530.01 compound o
540.07 compound p
740.02 compound q
770.73 compound r
1270.38 compound t
1280.18 compound u
1350.06 compound v
1384.30 compound w
250.39alpha- copaene
230.04alpha- cubebene
370.21beta- cubebene
660.05  cuminaldehyde
422.45 cuparene + alpha-muurolene
1341.88 cuparophenol
350.39ar- curcumene
240.53  cyclosativene
1020.28para- cymen-8-ol
119.91para- cymene
650.062- decanone
1310.86 dictyopterol 1A
1320.43 dictyopterol 1B
1300.513,4-dihydro-6-methyl-4-isopropyl-1(2H)-naphthalenone
79trace2,5-dimethoxy-meta-cymene
200.012,5- dimethoxytoluene (fennelone)
160.16alpha-para- dimethyl styrene
1191.286,7-dimethyl undeca-5,9-dien-2-ol
340.731,11-oxido calamenene
261.63beta- elemene
410.31gamma- elemene
1140.56  elemicin
1150.51beta- elemol
1243.03beta- eudesmol
310.07(E)-beta- farnesene
970.01alpha- fenchyl alcohol
1360.35 geran-9-yl-alpha-terpineol
812.18  geranyl acetone
290.07  germacrene D
120trace  guaiol
57trace2- heptanol
560.012- heptanone
1trace2,4- hexadien-1-al
880.28 humulene epoxide isomer
1250.71  intermedeol
120.94 limonene + 1,8-cineole
965.12  linalool
940.09  linalool oxide
690.02  linalyl acetate
390.01beta- maaliene
980.04para-menth-2-en-1-ol
111tracepara- mentha-1,3-dien-7-al
640.02para- methyl acetophenone
80.02ortho- methyl anisole
820.053- methyl but-2-enyl benzoate
220.02  methyl carvacrol
760.05 methyl cascarillate
190.01  methyl chavicol
780.22  methyl eugenol
580.036- methyl heptan-2-one
210.02  methyl thymol
590.026- methyl-5-hepten-2-one
180.095-methyl-5-hexyl furan
70.64  myrcene
1050.17  myrtenol
1160.05  nerolidol
950.022- nonanol
610.182- nonanone
140.01(E)-beta- ocimene
130.01(Z)-beta- ocimene
700.05  phellandral
90.13alpha- phellandrene
32.59alpha- pinene
60.35beta- pinene
990.17  pinocarveol
1070.10  piperitol
840.03  prenyl benzoate
910.094-iso propyl-6-methyl tetral-1-one
50.09  sabinene
109trace  sabinol
380.58beta- selinene
1170.70  spathulenol
1031.70  terpinen-4-ol
73trace  terpinen-4-yl acetate
150.60gamma- terpinene
1041.10alpha- terpineol
100tracebeta- terpineol
170.07  terpinolene
750.16alpha- terpinyl acetate
22.11alpha- thujene
620.14alpha- thujone
300.23  thujopsene
112trace  thymol
1220.77  torilenol
85trace2- tridecanone
830.15(Z)-5-tridecen-2-one
710.295,8-undecadien-2-one + (Z)-5-undecen-2-one
720.312- undecanone
400.18  valencene
1060.11  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)

cymbopogon citratus dc. stapf. oil cuba
#%LeftshiftComponents
210.10(E)-alpha- bergamotene
240.50beta- bisabolenol
200.10beta- caryophyllene
230.10  caryophyllene oxide
12<0.10  citronellol
180.30alpha-cyclogeraniol
80.302,2- dimethyl-3,4-octadienal
260.30(E,E)- farnesyl acetate
250.20(Z,E)- farnesyl acetate
1519.50  geranial
90.10  geraniol
170.40  geranyl formate
71.50  linalool
6<0.10(E)- linalool oxide
5<0.10(Z)- linalool oxide
21.806- methyl-5-hepten-2-one
31.70  myrcene
1338.20  neral
190.70  neryl acetate
4<0.10iso phorone
10.10alpha- pinene
14<0.10  piperitone
100.20alpha- thujone
110.20beta- thujone
220.402- tridecanone
160.502- undecanone
J. of Ess. Oil Res. 12, No. 3, 301, (2000)
hyssopus officinalis oil CO2 extract
#%LeftshiftComponents
180.1allo- aromadendrene
235.8  bicyclogermacrene
320.4T- cadinol
30.1  camphene
174.2beta- caryophyllene
242.5iso caryophyllene
260.11-(1,4- dimethyl-3-cyclohexen-1-yl) ethanone
2216.0  germacrene D
131.2alpha- gurjunene
292.3  hedycaryol
270.5  ledol
70.1  limonene
150.3  linalool
210.5  methyl chavicol
280.4  methyl eugenol
200.4  methyl myrtenate
60.2  myrcene
253.2  myrtenol
90.7  myrtenyl methyl ether
80.7beta- phellandrene
2tracealpha- pinene
42.2beta- pinene
1212.0  pinocamphone
1416.5iso pinocamphone
191.0trans- pinocarveol
1620.3  pinocarvone
50.2  sabinene
300.1beta- selinenol
314.7  spathulenol
1tracealpha- thujene
100.1alpha- thujone
11tracebeta- thujone

K. Kerrola B. Galambosi and H. Kallio, Volatile Components and Odor Intensity of Four Phenotypes of Hyssop (Hyssopus officinalis L.). J. Agric. Focal Chem., 42, 776-781(1994).

P&F 20, No. 5, 95, (1995)

lippia citriodora oil
#%LeftshiftComponents
460.5allo- aromadendrene
280.4  bornyl butyrate
430.8beta- bourbonene
480.1delta- cadinene
500.6gamma- cadinene
590.9T- cadinol
410.1  carvacrol
320.4trans- carveol
400.8  carvone
450.4beta- caryophyllene
52traceiso caryophyllene
555.5  caryophyllene oxide
581.0iso caryophyllene oxide
530.4alpha- cedrene
1412.41,8- cineole
420.6alpha- copaene
470.6beta- cubebene
51trace  cuparene
494.6ar- curcumene
70.2para- cymene
360.6  fenchone
269.9  geranial
350.7  geranic acid
330.5  geraniol
291.6  geranyl acetate
300.9  geranyl isobutyrate
310.3  geranyl propionate
440.1alpha- gurjunene
130.4(Z)-3- hexen-1-yl butyrate
120.3  hexyl 2-methyl butyrate
43.7  limonene
191.3  linalool
180.1(E)- linalool oxide furanoid
17trace(Z)- linalool oxide furanoid
540.2  longifolene
240.7  methyl geranate
97.46- methyl-5-hepten-2-one
560.5alpha- muurolol
370.2  myrtenal
236.9  neral
571.2  nerolidol
270.6  neryl acetate
100.33- octanol
110.71- octen-3-ol
5tracealpha- phellandrene
11.4alpha- pinene
20.3beta- pinene
390.7trans- pinocarveol
210.7iso pulegol
15trace rose oxide
30.2  sabinene
380.6(E)- sabinene hydrate
200.3(Z)- sabinene hydrate
605.2  spathulenol
221.0  terpinen-4-ol
61.0gamma- terpinene
252.3alpha- terpineol
8trace  terpinolene
160.3alpha- thujone
340.3  thymol
610.1  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)

nepeta denudata benth. oil iran
#%LeftshiftComponents
20.40  camphene
180.50trans- carveol
200.40  carvone
548.001,8- cineole
210.60  cumin alcohol
190.40  cuminaldehyde
44.20para- cymene
70.60  linalool oxide
80.70  linalool oxide
153.40  myrtenal
175.00  myrtenol
11.70alpha- pinene
34.60beta- pinene
130.30iso pinocamphone
104.50trans- pinocarveol
121.30  pinocarvone
143.10  terpinen-4-ol
60.80gamma- terpinene
161.40alpha- terpineol
90.40alpha- thujone
113.40(E)- verbenol
J. of Ess. Oil Res. 12, No. 4, 459, (2000)
nepeta racemosa lam. oil iran
#%LeftshiftComponents
110.50beta- bourbonene
30.30delta-2- carene
130.30beta- farnesene
120.60  germacrene D
864.904aalpha,7alpha,7aalpha-nepetalactone
97.404aalpha,7alpha,7abeta-nepetalactone
101.704abeta,7alpha,7abeta-nepetalactone
148.80(E)- nerolidol
49.50(Z)-beta- ocimene
10.40alpha- pinene
21.10beta- pinene
150.50  spathulenol
62.70alpha- terpineol
50.50alpha- thujone
70.30  verbenone
J. of Ess. Oil Res. 12, No. 2, 151, (2000)
peumus boldus leaf oil
#%LeftshiftComponents
3321.25  ascaridole
50.21  camphene
230.01  camphor
80.14delta-3- carene
370.04trans- carvyl acetate
90.511,4- cineole
1321.101,8- cineole
310.10  cuminaldehyde
118.63para- cymene
40.01alpha- fenchene
14trace  fenchone
300.04alpha- fenchyl acetate
190.22alpha- fenchyl alcohol
320.10  geraniol
418.80  guaiazulene
10.032- heptanone
400.17  ledol
120.04  limonene
390.75  methyl eugenol
70.01  myrcene
280.20  myrtenol
290.04  nerol
17trace2- nonanol
150.042- nonanone
30.01alpha- pinene
210.66trans- pinocarveol
270.40  sabinaketone
60.01  sabinene
362.36  sabinyl acetate
250.75  terpinen-4-ol
160.02  terpinen-4-yl acetate
100.02alpha- terpinene
260.14alpha- terpineol
240.07beta- terpineol
20.03alpha- thujene
1814.30alpha- thujone
207.15beta- thujone
350.03  thymol
380.01  thymyl acetate
229.90(Z)- verbenol
340.08cis- 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 racemosa leaf oil anise
#%LeftshiftComponents
190.2(E)- anethole
141.5  camphor
180.8  chavicol
131.6  chrysanthenone
50.1para- cymene
201.0  eugenol
62.7  limonene
116.0  linalool
1732.8  methyl chavicol
2148.1  methyl eugenol
312.8  myrcene
80.4(E)-beta- ocimene
70.1(Z)-beta- ocimene
20.23- octanol
40.3alpha- phellandrene
10.2alpha- pinene
90.1gamma- terpinene
160.1alpha- terpineol
100.1  terpinolene
120.1alpha- thujone
150.4  verbenol

J. Abaul, P. Bourgeois and J. M. Bessiere, Chemical composition of the essential oils of chemotypes of Pimenta racemosa var. racemosa (P. Miller) J. W. Moore (Bois d’ lnde) of Guadaloupe (F. W. I.). Flav. Fragr. J., 10, 319-321 (1995).

P&F 22, No. 6, 45, (1997)

sage oil dalmatian
#%LeftshiftComponents
141.20  borneol
180.10  bornyl acetate
240.20gamma- cadinene
20.50  camphene
126.10  camphor
200.70beta- caryophyllene
260.50  caryophyllene oxide
72.201,8- cineole
60.30para- cymene
220.10alpha- guaiene
23tracedelta- guaiene
210.20alpha- humulene
271.20  humulene oxide II
50.40  myrcene
170.30  myrtenol
10.20alpha- pinene
40.90beta- pinene
130.60  pinocamphone
258.30  pogostol
30.10  sabinene
150.60  terpinen-4-ol
80.20gamma- terpinene
160.10alpha- terpineol
90.30beta- terpineol
1063.30alpha- thujone
116.40beta- thujone
190.20  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 dalmatian
As part of a study of the essential oils of Salvia species, Mathé et al. (1997) analyzed an oil of S. officinalis using GC and GC/MS. The components identified in this oil were as follows:
#%LeftshiftComponents
 2.95  borneol
 1.53  bornyl acetate
 5.80  camphene
 26.85  camphor
 4.59beta- caryophyllene
 0.34  caryophyllene oxide
 11.821,8- cineole
 0.90para- cymene
 2.64  limonene
 1.95  linalool
 0.69  myrcene
 3.69alpha- pinene
 1.58beta- pinene
 6.65  pinocarveol
 0.39  terpinen-4-ol
 0.16gamma- terpinene
 0.11alpha- terpineol
 0.47alpha- terpinyl acetate
 0.11alpha- thujene
 23.00alpha- thujone
 3.80beta- thujone
sage oil dalmatian
As part of a study of the essential oils of Salvia species, Mathé et al. (1997) analyzed an oil of S. officinalis using GC and GC/MS. The components identified in this oil were as follows:
#%LeftshiftComponents
 0.20alpha- thujene
 1.10alpha- pinene
 2.30beta- pinene
 0.90  myrcene
 0.20alpha- terpinene
 0.20para- cymene
 1.30  limonene
 3.501,8- cineole
 0.50gamma- terpinene
 0.40  terpinolene
 36.00alpha- thujone
 9.70beta- thujone
 9.60  camphor gum
 8.40  borneol
 0.50  terpinen-4-ol
 0.10alpha- terpineol
 4.90  bornyl acetate
 0.70beta- caryophyllene
 4.20alpha- humulene
 0.20  caryophyllene oxide
 4.60  viridiflorol
 0.80  humulene oxide
 0.90  sclarene
sage oil giza egypt
Comparative percentage composition of Salvia offlcinalis oil produced from plants grown in two areas of Egypt, Giza oil
#%LeftshiftComponents
 0.10  tricyclene
 0.17alpha- thujene
 3.81alpha- pinene
 3.70beta- pinene
 3.82  camphene
 3.85  sabinene
 3.38  myrcene
 0.85ortho- cymene
 0.76para- cymene
 9.381,8- cineole
 0.10(Z)-beta- ocimene
 1.10gamma- terpinene
 1.02  linalool
 0.68  terpinolene
 17.72alpha- thujone
 2.03beta- thujone
 0.05(Z)-para- menth-2-en-1-ol
 13.29  camphor
 0.10(Z)-beta- terpineol
 0.68iso menthone
 0.43iso pinocamphone
 2.37  borneol
 1.10alpha- terpineol
 1.44  carvone
 0.08  bornyl acetate
 2.20iso bornyl acetate
 0.68  sabinene hydrate acetate
 0.68  thymol
 1.70beta- caryophyllene
 1.10 aromadendr-9-ene
 3.05alpha- humulene
 0.10allo aromadendr-9-ene
 1.44  germacrene B
 0.04gamma- cadinene
 0.60delta- 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).
sage oil sinai egypt
#%LeftshiftComponents
 1.79alpha- pinene
 2.50beta- pinene
 3.60  camphene
 1.09  myrcene
 1.48para- cymene
 8.861,8- cineole
 0.31gamma- terpinene
 1.69  terpinolene
 18.87alpha- thujone
 7.45beta- thujone
 33.35  camphor
 3.65  borneol
 1.08  terpinen-4-ol
 0.46alpha- terpineol
 0.25  methyl chavocol
 0.41  carvone
 1.07  piperitone
 2.61  bornyl acetate
 0.43beta- caryophyllene
 0.46(E)- ethyl cinnamate
 3.04alpha- humulene
 0.07allo aromadendr-9-ene
 3.22  globulol
 0.38 bergamotol acetate
salvia officinalis oil albania
Dobos et al. (1997) analyzed an oil produced from S. officinalis grown in Albania. The oil, which was analyzed by a combination of CC and GC/MS was found to possess the following constituents:
#%LeftshiftComponents
208.70  borneol
235.00  bornyl acetate
26tracebeta- bourbonene
330.10delta- cadinene
42.80  camphene
199.70  camphor
280.70beta- caryophyllene
340.10  caryophyllene oxide
113.401,8- cineole
25tracealpha- copaene
90.20para- cymene
310.10  germacrene B
294.30alpha- humulene
360.70  humulene oxide
271.00  jasmone
101.30  limonene
300.10gamma- muurolene
60.90  myrcene
130.10(E)-beta- ocimene
120.50(Z)-beta- ocimene
71.00alpha- phellandrene
21.10alpha- pinene
32.30beta- pinene
50.30  sabinene
180.30(E)- sabinol
371.90  sclarene
210.50  terpinen-4-ol
80.20alpha- terpinene
140.50gamma- terpinene
220.10alpha- terpineol
150.40  terpinolene
10.20alpha- thujene
1635.90alpha- thujone
179.70beta- thujone
240.30  thujyl acetate
320.10  valencene
354.60  viridiflorol

A. Dobos, G. Nagy, E. M. Genova, I. Mathe, V. Miklossy-Vary and G. Janicsak, Comparative analysis of Salvia officinalis and Salvia tomentosa essential oils.

P&F 26, No. 3, 66, (2001)

salvia officinalis oil cuba
Sage oil produced from S. officinalis grown in Cuba was analyzed by CC/MS. The constituents characterized in this oil by Pino et al. (1997) were as follows:
#%LeftshiftComponents
213.81  borneol
22.48  camphene
1510.36  camphor
220.21  carvone
185.51beta- caryophyllene
230.96  caryophyllene oxide
71.811,8- cineole
100.35para- cymene
172.24alpha- fenchyl acetate
209.72alpha- humulene
242.21  humulene oxide I
61.69  limonene
160.26  linalool
2814.74  manool
140.11  menthone
270.06  methyl (Z)-9-hexadecenoate
260.26  methyl palmitate
290.11  methyl stearate
80.19(Z)-beta- ocimene
41.16alpha- phellandrene
10.81alpha- pinene
30.96beta- pinene
190.86  pulegone
50.12alpha- terpinene
90.29gamma- terpinene
110.22  terpinolene
1212.95alpha- thujone
1310.89beta- thujone
2513.46  viridiflorol

J. A. Pino, M. Estarron and V. Fuentes, Essential oil of sage (salvia officinalis L.) grown in Cuba. J. Essent. Oil Res., 9, 221-222 (1997).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil cuba
#%LeftshiftComponents
290.11  methyl (E)-9-octadecenoate
213.81  borneol
22.48  camphene
1510.36  camphor
220.21  carvone
185.51beta- caryophyllene
230.96  caryophyllene oxide
71.811,8- cineole
100.35para- cymene
172.24alpha- fenchyl acetate
209.72alpha- humulene
242.21  humulene oxide I
61.69  limonene
160.26  linalool
2814.74  manool
140.11  menthone
270.06  methyl (Z)-9-hexadecenoate
260.26  methyl hexadecanoate
80.19(Z)-beta- ocimene
41.16alpha- phellandrene
10.81alpha- pinene
30.96beta- pinene
190.86  pulegone
50.12alpha- terpinene
90.29gamma- terpinene
110.22  terpinolene
1212.95alpha- thujone
1310.89beta- thujone
2513.46  viridiflorol
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:
#%LeftshiftComponents
254.10  borneol
311.30  bornyl acetate
56.60  camphene
2126.40  camphor
10tracedelta-3- carene
300.10  carvacrol
330.70beta- caryophyllene
350.20  caryophyllene oxide
139.601,8- cineole
120.20para- cymene
170.10para-alpha- dimethyl styrene
320.10  eugenol
363.30  guaiol
340.90alpha- humulene
370.40  humulene oxide
380.6014- hydroxy-9-epi-beta-caryophyllene
142.30  limonene
16trace(Z)- linalool oxide
390.10  lyral
90.90  myrcene
281.00  myrtanol
43.70alpha- pinene
80.40beta- pinene
231.10  pinocamphone
240.10iso pulegol
70.20  sabinene
10.30 salvene
400.30alpha- santalol
260.70  terpinen-4-ol
110.20alpha- terpinene
150.10gamma- terpinene
270.30alpha- terpineol
180.10  terpinolene
3tracealpha- thujene
1924.70alpha- thujone
206.40beta- thujone
290.20  thymol
20.20  tricyclene
61.60  verbenene
220.70(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 oil france
Foray et al. (1999) reported that the main components of S. officinalis oil produced from plants cultivated in France were:
#%LeftshiftComponents
30.50  camphene
92.60  camphor
101.40beta- caryophyllene
611.701,8- cineole
110.30alpha- humulene
50.30  limonene
40.30  myrcene
10.70alpha- pinene
21.00beta- pinene
765.50alpha- thujone
815.40beta- thujone

L. Foray, C. Bertrand, F. Pinguet, M. Soulier, C. Astre, C. Marion, Y. Pelissier and J-M. Bessiere, In vitro cytotoxic activity of three essential oils from Salvia species. J. Essen. Oil Res., 11, 522-526 (1999).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil germany
An oil of sage obtained on the Cerman market, which was analyzed by Reichling et al. (1999) was found to possess the following composition:
#%LeftshiftComponents
190.12allo- aromadendrene
133.12  borneol
162.41  bornyl acetate
34.94  camphene
1219.76  camphor
175.57beta- caryophyllene
712.041,8- cineole
61.29para- cymene
185.73alpha- humulene
40.79  myrcene
14.08alpha- pinene
20.68beta- pinene
140.30  terpinen-4-ol
50.21alpha- terpinene
80.20gamma- terpinene
150.29alpha- terpineol
90.23  terpinolene
117.21alpha- thujone
1025.54beta- thujone

J. Reichling, M. Harkenthal and R. Saller, Wirkung ausgewahlter atherischer Ole. Erfahrungsheilkunde, 6, 357-366 (1999).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil hydrodistillation france
Six years later, Milhau et al. (1997) used GC/MS to examine an oil of S. officinalis produced by hydrodistillation of plants cultivated in France. The components identified in this study were as follows:
#%LeftshiftComponents
121.90  borneol
152.00  bornyl acetate
29.10  camphene
112.00  camphor
162.60beta- caryophyllene
720.501,8- cineole
61.50para- cymene
172.90alpha- humulene
51.60  myrcene
15.90alpha- pinene
42.20beta- pinene
30.40  sabinene
130.30  terpinen-4-ol
80.20gamma- terpinene
140.70alpha- terpineol
922.80alpha- thujone
103.70beta- thujone
180.60  viridiflorol

G. Milhau, A. Valentin, F. Benoit, M. Mallie, J-M. Bastide, Y. Pelissier and J-M. Bessiere, In vitro antimalarial activity of eight essential oils. J. Essent. Oil Res., 9, 329-333 (1997).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil lithuania
#%LeftshiftComponents
142.04  borneol
161.34  bornyl acetate
35.14  camphene
1311.63  camphor
176.57beta- caryophyllene
1010.061,8- cineole
80.60para- cymene
185.24alpha- humulene
91.67  limonene
150.20  methyl chavicol
61.00  myrcene
26.05alpha- pinene
52.11beta- pinene
40.09  sabinene
70.24alpha- terpinene
10.15alpha- thujene
1119.58alpha- thujone
1213.43beta- thujone
194.58  viridiflorol

P. R. Venskutonis, Essential oil composition of some herbs cultivated in Lithuania. In: Flavours, Fragrances and Essential Oils. Proceedings of the 13th IInternational Congress of Flavours, Fragrances and Essential oils, Istanbul, Turkey, Oct. 1995, Edit., K. H. C. Baser, Vol.2, pp. 108-123, Anadolu Univ. Press, Eskisehir, Turkey (1995).

P&F 23, No. 2, 47, (1998)

salvia officinalis oil reunion
This same year, Vera et al. (1999) analyzed an oil of S. officinalis produced from plants grown in Reunion. In this oil they characterized the following components:
#%LeftshiftComponents
370.10  aromadendrene
310.40  bornyl acetate
43tracegamma- cadinene
49tracealpha- cadinol
52.80  camphene
2015.90  camphor
8tracedelta-3- carene
32trace  carvacrol
260.20trans- carveol
27tracecis- carveol
360.60beta- caryophyllene
450.20  caryophyllene oxide
115.801,8- cineole
100.40para- cymene
50tracealpha- eudesmol
48tracebeta- eudesmol
34trace  eugenol
29trace  geraniol
350.40  geranyl acetate
39trace  germacrene D
381.60alpha- humulene
470.30  humulene oxide
121.30  limonene
18trace  linalool
30trace  linalyl acetate
510.50  manool
400.10gamma- muurolene
24trace  myrtenol
28trace  neral
13trace(E)-beta- ocimene
70.80alpha- phellandrene
35.40alpha- pinene
41.90beta- pinene
22trace(E)- piperitol
250.20(Z)- piperitol
60.20  sabinene
41tracebeta- selinene
44trace  spathulenol
210.90  terpinen-4-ol
9tracealpha- terpinene
140.30gamma- terpinene
230.60alpha- terpineol
150.20  terpinolene
33tracealpha- terpinyl acetate
20.20alpha- thujene
19traceiso thujol
1645.50alpha- thujone
178.40beta- thujone
10.10  tricyclene
42trace  viridiflorene
461.70  viridiflorol

R. R. Vera, J. Chane-Ming and D. Fraisse, Chemical composition of the essential oil of sage (Salvia officinalis L.) from Reunion Island. J. Essent. Oil Res., 11, 399-402 (1999).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil reunion
Comparative percentage composition of Salvia offlcinalis oil produced from plants grown in two areas of Egypt, Giza oil
#%LeftshiftComponents
 1.87  borneol
 2.27  bornyl acetate
 20.18  camphor
 1.32beta- caryophyllene
 3.61alpha- humulene
 4.04  limonene
 trace  linalool
 0.197- methyl-3,4-octadiene
 0.14  myrtenol
 1.18beta- phellandrene
 2.71alpha- pinene
 0.72beta- pinene
 0.76  pinocamphone
 1.63  sabinene
 0.56  terpinen-4-ol
 0.32gamma- terpinene
 0.24alpha- terpineol
 0.30  terpinolene
 2.52alpha- thujene
 33.25alpha- thujone
 12.97beta- thujone
 0.13  tricyclene
 0.17  caryophyllene oxide
 2.71  manool
 3.77  viridiflorol
probably misidentification of cis-p-menth-2-en-1-ol probably 3-pinanone, also known as isopinocamphone
salvia officinalis oil sardinia
Also in 1998, Tiziana Baratta et al. used CC/MS to analyze an oil produced from sage leaves obtained in the U.K. spice market. They found that the oil contained the following constituents:
#%LeftshiftComponents
193.00  borneol
131.50  bornyl acetate
45.80  camphene
1226.80  camphor
144.60beta- caryophyllene
210.30  caryophyllene oxide
711.801,8- cineole
90.90para- cymene
62.60  limonene
172.00  linalool
50.70  myrcene
13.70alpha- pinene
21.60beta- pinene
206.70  pinocarveol
150.40  terpinen-4-ol
80.20gamma- terpinene
180.10alpha- terpineol
160.50alpha- terpinyl acetate
30.10alpha- thujene
1023.00alpha- thujone
113.80beta- thujone

A. T. Peana, M. D. L. Moretti and C. Juliano, Chemical composition and antimicrobial action of the essential oils of Salvia desoleana and S. sclarea. Planta Med., 65,752-753 (1999).

P&F 26, No. 3, 66, (2001)

salvia officinalis oil spain
#%LeftshiftComponents
242.10  borneol
251.40  bornyl acetate
66.20  camphene
2116.80  camphor
313.30beta- caryophyllene
1411.101,8- cineole
112.00para- cymene
305.00alpha- humulene
123.10  limonene
220.50  linalool
230.50  linalyl acetate
91.10  myrcene
150.20(Z)-beta- ocimene
100.10alpha- phellandrene
130.90beta- phellandrene
54.80alpha- pinene
82.30beta- pinene
70.20  sabinene
180.10(E)- sabinene hydrate
290.30  sabinyl acetate
20.10(E)- salvene
10.40(Z)- salvene
260.30  terpinen-4-ol
160.30gamma- terpinene
270.50alpha- terpineol
170.20  terpinolene
280.20alpha- terpinyl acetate
40.30alpha- thujene
1926.50alpha- thujone
204.30beta- thujone
30.20  tricyclene

M, de los Angelos Cordoba Rodriguez, Contribucion al estudio del aceite esencial de Salvia Espanola (Salvia lavandulaefolia Vahl.). Ph.D. thesis, Univ. Complutense, Madrid (1983).

P&F 23, No. 2, 47, (1998)

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
#%LeftshiftComponents
1470.47alpha- amorphene
1461.43allo- aromadendrene
1620.18  aromadendrene
1751.29  bicyclogermacrene
1740.72beta- bisabolene
1163.54  borneol
1590.16  bornyl acetate
1510.08gamma- cadinene
1510.53delta- cadinene
2180.15T- cadinol
 0.41alpha- cadinol
15313.08  camphor
1150.03delta-3- carene
1290.83  carvacrol
1610.19beta- caryophyllene
1570.16  caryophyllene oxide
1036.661,8- cineole
1490.01alpha- copaene
1490.34epi- cubebol
1180.17para- cymen-8-ol
1021.52para- cymene
1380.06beta- damascenone
1380.16beta- elemene
1330.07delta- elemene
 0.47beta- eudesmol
1350.83  eugenol
1500.24(E,E)-alpha- farnesene
1141.01 geigerene
1850.33  geraniol
1850.08  germacrene B
1721.18  germacrene D
8781.29  hexanol
1453.71alpha- humulene
1600.25  humulene oxide II
1550.68  linalool
1070.13(Z)- linalool oxide
1230.08  linalyl acetate
 2.2213-epi- manool
1400.18  methyl eugenol
1190.28  myrtanol
1190.55  myrtenal
1561.41(E)- nerolidol
1380.14(Z)-allo-ocimene
9391.26alpha- pinene
1060.19(Z)- sabinene hydrate
1210.18(Z)- sabinol
1570.08  spathulenol
1170.09  terpinen-4-ol
1700.91alpha- terpineol
1182.42delta- terpineol
1701.81alpha- terpinyl acetate
1033.08alpha- thujene
11014.77alpha- thujone
1114.30beta- thujone
1290.37  thymol
1010.23  tricyclene
1100.48  undecane
1592.66  viridiflorol
1490.04alpha- 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 verbenaca 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
#%LeftshiftComponents
1661.29allo- aromadendrene
1430.66  aromadendrene
1501.10beta- bisabolene
1280.79  bornyl acetate
1381.73beta- bourbonene
11438.94  camphor
1010.50delta-3- carene
1410.27beta- caryophyllene
1577.28  caryophyllene oxide
1411.50beta- cubebene
1280.37para- cymene
1333.97delta- elemene
1643.76beta- eudesmol
1441.76(Z)-beta- farnesene
1080.26alpha- fenchone
8000.42  hexanal
1680.67alpha- humulene
1550.84  linalool
1451.05(E)- linalool oxide
1562.53  linalyl acetate
 5.6113-epi- manool
1470.05gamma- muurolene
1362.40  neryl acetate
1111.55(Z)-allo-ocimene
1030.44alpha- pinene
1170.88  terpinen-4-ol
1182.03alpha- terpineol
1680.49delta- terpineol
1354.77alpha- terpinyl acetate
1420.52alpha- thujone
9270.96  tricyclene
1102.65  undecane
it emerges that tricyclene and camphor were biochemical markers of the essential oil of S. verbenaca seedsOverall,. 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.
tagetes minuta flower oil CO2 extract
#%LeftshiftComponents
543.56 alchenenotriol
309.98(E)- anethole
272.10para- anisaldehyde
410.33  aromadendrene
470.08beta- bisabolene
480.12gamma- cadinene
140.11  camphor
240.23cis- carveol
403.44beta- caryophyllene
230.61  citronellol
21.12para- cymene
311.51 dehydroelshotzia ketone
200.12(Z)- dihydrocarvone
65.19  dihydrotagetone
90.22alpha-para- dimethyl styrene
333.00delta- elemene
500.11gamma-elemene (furanoid)
210.15  elsholtzia ketone
490.15  eugenyl acetate
370.28  geranyl acetate
530.28  guaiol
422.14alpha- humulene
510.29  ledol
315.14  limonene
111.03  linalool
80.43(Z)- linalool oxide furanoid
280.47  linalyl acetate
100.12(E)-para- menth-2-en-1-ol
290.39  methyl citronellate
390.24  methyl eugenol
430.226-methyl-gamma-ionone
450.29alpha- muurolene
10.24  myrcene
340.19  neryl acetate
50.30(E)-beta- ocimene
419.33(Z)-beta- ocimene
360.10beta- patchoulene
460.13  pentadecane
170.30(Z)- pinanone
133.68(Z)- sabinene hydrate
350.32(E)-iso safrole
522.42  spathulenol
260.65(E)- tagetenone
2513.26(Z)- tagetenone
152.81(E)- tagetone
160.34(Z)- tagetone
180.46  terpinen-4-ol
70.26gamma- terpinene
190.50alpha- terpineol
380.16  tetradecane
120.24alpha- thujone
320.12  tridecane
440.57  valencene
220.05  verbenone

J. Daghero, M. Mattea, E. Reverchon, G. Della Porta and F. Senatore, Isolation of Tagetes minuta L. oil using supercritical CO2 extraction. In: Proceedings WOCMAP-2. Edits., V. Martino, A. Bandoni, G. Bleak and N. Capelle, Acta Hort., 503, 21-25 (1999).

P&F 25, No. 6, 32, (2000)

tanacetum annum l. oil marocco
#%LeftshiftComponents
310.10allo- aromadendrene
470.30  benzyl benzoate
450.60alpha- bisabolol
212.10  borneol
80.40iso butyl 2-methyl butyrate
360.40gamma- cadinene
350.30(Z)- calamenene
30.50  camphene
209.60  camphor
10030delta-3- carene
270.20  carvacrol
250.30  carvone
291.20beta- caryophyllene
400.70  caryophyllene oxide
4628.00  chamazulene
141.001,8- cineole
122.20para- cymene
421.707,12- dehydro-5,6,7,8-tetrahydrochamazulene
343.703,6- dihydrochamazulene
411.705,6- dihydrochamazulene
280.40beta- elemene
370.40  elemol
445.10beta- eudesmol
301.00(Z)-beta- farnesene
430.70  hinesol
390.30  ledol
131.30  limonene
170.10  linalool
64.40  myrcene
240.10  myrtenal
70.20  octanal
92.60alpha- phellandrene
320.102- phenethyl isovalerate
21.30alpha- pinene
53.10beta- pinene
190.10trans- pinocarveol
46.40  sabinene
380.20  spathulenol
221.80  terpinen-4-ol
110.40alpha- terpinene
150.40gamma- terpinene
230.40alpha- terpineol
160.10  terpinolene
10.10alpha- thujene
180.10alpha- thujone
261.20  thymol
330.50  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 vulgare flower oil argentina
#%LeftshiftComponents
21trace  carvacrol
70.831,8- cineole
90.32para- cymene
200.12  eugenol
180.55  germacrene D
6trace  limonene
4trace  myrcene
19trace  myrtenol
1tracealpha- pinene
2tracebeta- pinene
140.15  pinocarvone
30.97  sabinene
170.17  sabinol
150.39  terpinen-4-ol
5tracealpha- terpinene
80.25gamma- terpinene
16tracealpha- terpineol
10trace  terpinolene
110.76alpha- thujone
1291.65beta- thujone
13trace  umbellulone

M. Gallino, Essential oil from Tanacetum vulgare growing spontaneously in “Tierra del Fuego” (Argentina). Planta Med., 54, 182 (1988).

P&F 25, No. 1, 33, (2000)

tanacetum vulgare flower oil dutch
#%LeftshiftComponents
17trace  bicyclogermacrene
141.00  bornyl acetate
21.30  camphene
1212.40  camphor
15tracebeta- caryophyllene
70.401,8- cineole
60.40para- cymene
160.30  germacrene D
10.20alpha- pinene
4tracebeta- pinene
32.10  sabinene
90.40  sabinene hydrate
130.50  terpinen-4-ol
50.20alpha- terpinene
8tracegamma- terpinene
100.70alpha- thujone
1176.00beta- thujone

H. Hendriks, D. J. D. van der Elst, F. M. S. van Putten and R. Bos, The essential oil of Dutch tansy (Tanacetum vulgare L.). J. Essent. Oil Res., 2, 155-162 (1990).

P&F 25, No. 1, 33, (2000)

tanacetum vulgare leaf oil dutch
#%LeftshiftComponents
17trace  bicyclogermacrene
140.90  bornyl acetate
21.40  camphene
129.40  camphor
150.70beta- caryophyllene
70.401,8- cineole
60.40para- cymene
166.50  germacrene D
10.30alpha- pinene
4tracebeta- pinene
33.90  sabinene
90.40  sabinene hydrate
130.40  terpinen-4-ol
50.30alpha- terpinene
80.30gamma- terpinene
100.90alpha- thujone
1167.90beta- thujone

H. Hendriks, D. J. D. van der Elst, F. M. S. van Putten and R. Bos, The essential oil of Dutch tansy (Tanacetum vulgare L.). J. Essent. Oil Res., 2, 155-162 (1990).

P&F 25, No. 1, 33, (2000)

tanacetum vulgare oil
#%LeftshiftComponents
161.60  artemisyl alcohol
1223.50  artemisyl ketone
180.10beta- bourbonene
31tracedelta- cadinene
30.60  camphene
196.00  camphor
296.60  carvone
230.30beta- caryophyllene
80.701,8- cineole
170.10alpha- copaene
200.10beta- copaene
100.80para- cymene
281.50  germacrene D
70.20  limonene
260.20  menthol
240.10neo menthol
10.10(E)-2-methyl-3-methylene hept-5-ene
60.10alpha- phellandrene
20.20alpha- pinene
40.10beta- pinene
51.50  sabinene
270.20  sabinol
301.20  sabinyl 2-methyl butyrate
210.70  terpinen-4-ol
90.30gamma- terpinene
11trace  terpinolene
140.90alpha- thujone
1549.50beta- thujone
250.40isothujyl alcohol
320.20  viridiflorol
220.10beta- ylangene
131.10  yomogi alcohol

B. M. Lawrence, unpublished data (1976).

P&F 25, No. 1, 33, (2000)

thuja occidentalis leaf oil
#%LeftshiftComponents
29trace-0.08 abietadiene
31trace-0.08  abietal
28trace-1.00  abietatriene
264.31-15.00  beyerene
191.20-2.20  bornyl acetate
240.08-0.67delta-cadinene + delta-cadinol
40.35-0.82  camphene
171.03-3.00  camphor
230.05-0.15  caryophyllene oxide
110.32-0.59para- cymene
30.31-0.77 fenchene
136.20-13.00  fenchone
160.14-0.28alpha- fenchyl acetate
220.60-1.10  geranyl acetate
30trace-0.09 hydroxyisopimarene
90.64-1.23  limonene
180.16-0.60(Z)-para- menth-2-en-1-ol
70.63-1.07  myrcene
10.55-1.31alpha- pinene
5trace-0.09beta- pinene
62.66-5.02  sabinene
27trace  sclarene
252.40-6.90 simuene
200.42-0.84  terpinen-4-ol
80.16-0.45alpha- terpinene
100.32-0.53gamma- terpinene
120.11-0.21  terpinolene
210.15-0.40alpha- terpinyl acetate
20.13-0.32alpha- thujene
1443.90-56.70alpha- thujone
158.50-12.20beta- thujone
32trace-0.10  totarol

P. D. Kamden and J. W. Hanover, Inter-Tree Variation of Essential Oil Composition of Thuja occidentalis. J. Essent. Oil Res., 5, 279-282 (1693).

P&F 20, No. 5, 95, (1995)

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:
#%LeftshiftComponents
19trace  aromadendrene
340.44-0.45  borneol
400.04-0.07  bornyl acetate
16tracebeta- bourbonene
260.11-0.25delta- cadinene
250.06-0.15gamma- cadinene
29trace-0.05alpha- cadinol
28trace-0.09delta- cadinol
30.18-0.46  camphene
33trace-0.30  camphor
90.07-0.13delta-3- carene
420.61-1.72  carvacrol
172.38-4.28beta- caryophyllene
270.29-0.45  caryophyllene oxide
131.96-2.621,8- cineole
44tracealpha- copaene
43trace-0.08  cumin alcohol
36tracepara- cymen-8-ol
1118.60-25.34para- cymene
21trace-0.04(Z)-beta- farnesene
18trace-0.04beta- gurjunene
200.13-0.23alpha- humulene
120.17-0.30  limonene
302.42-2.82  linalool
381.43-1.52  methyl thymol
220.04-0.07alpha- muurolene
24trace-0.08gamma- muurolene
71.40-2.14  myrcene
60.41-0.671- octen-3-ol
80.15-0.19alpha- phellandrene
20.49-1.34alpha- pinene
50.17-0.41beta- pinene
4trace  sabinene
350.98-1.10  terpinen-4-ol
101.67-2.34alpha- terpinene
1412.06-12.27gamma- terpinene
370.17-0.26alpha- terpineol
150.18-0.19  terpinolene
10.87-2.10alpha- thujene
310.00-0.51alpha- thujone
320.00-0.15beta- thujone
4116.55-38.24  thymol
39trace  thymoquinone
23trace-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)

wormwood oil america
In 1993, Tucker et al. analyzed a commercial sample of wormwood oil by GC and GC/MS. The oil was found to possess the following composition:
#%LeftshiftComponents
201.44beta- caryophyllene
300.11  chamazulene
100.621,8- cineole
120.28para- cymene
170.85(Z)- epoxyocimene
30.18alpha- fenchene
290.14  geraniol
282.08  geranyl propionate
241.72  germacrene D
140.39(Z)-3- hexen-1-ol
220.71  lavandulol
191.81  lavandulyl acetate
90.21  limonene
181.74  linalool
10.24(Z)-2- methyl-3-methylene-hept-5-ene
61.32  myrcene
270.37  nerol
261.44  neryl isobutyrate
70.35alpha- phellandrene
20.69alpha- pinene
40.19beta- pinene
52.91  sabinene
250.97beta-sabinene
232.70(Z)- sabinol
2132.75(Z)- sabinyl acetate
80.16alpha- terpinene
110.41gamma- terpinene
130.05  terpinolene
153.42alpha- thujone
1633.11beta- thujone

O. Tucker, M. J. Maciarello and G. Sturtz, The essential oils of Artemisia "Powis Castle" and its putative parents A. absinthum and A. arborescens. J. Essent. Oil Res., 5, 239-242 (1993).

P&F 23, No. 1, 39, (1998)

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