BT

Typical G.C. analysis

agathosma betulina leaf oil
#%LeftshiftComponents
330.23(E)-2-acetoxyisomenthone
340.21(E)-2-acetoxymenthone
26trace  carvone
84.431,8- cineole
110.16para- cymene
200.12(E)- dihydrocarvone
190.21(Z)- dihydrocarvone
3022.30  diosphenol
2718.584-diosphenol
350.671-hydroxy-4-diosphenol
360.404-hydroxydiosphenol
240.46(E)-2-hydroxymenthone
290.37(Z)-2-hydroxymenthone
280.128-hydroxymenthone
611.64  limonene
150.50  linalool
139.82  menthone
1419.91iso menthone
310.53(E)-8- mercapto-para-menthan-3-one ((E)-3-oxo-para-menthan-8-thiol)
322.33(Z)-8- mercapto-para-menthan-3-one ((Z)-3-oxo-para-menthan-8-thiol)
40.61  myrcene
100.25(E)-beta- ocimene
70.08beta- phellandrene
10.37alpha- pinene
20.29beta- pinene
250.06  piperitone
210.94  pulegone
160.54(E)-iso pulegone
170.40(Z)-iso pulegone
30.15  sabinene
180.90  terpinen-4-ol
50.13alpha- terpinene
90.34gamma- terpinene
230.28alpha- terpineol
220.23delta- terpineol
120.09  terpinolene
M. A. Posthumus, T. A. van Beek, N. F. Collins and E. H. Graven, Chemical composition of the essential oils of Agathosma betulina, A. crenulata and an A. betulina x crenulata hybrid (buchu), J. Essent, Oil Res., 8, 223-228 (1996). P&F 23, No. 4, 37, (1998)
agathosma crenulata oil
#%LeftshiftComponents
 6.83(E)-8-acetyl thio-para-menthan-3-one ((E)-3-oxo-para-menthan-8-thiol acetate)
 0.37(Z)-8-acetyl thio-para-menthan-3-one ((Z)-3-oxo-para-menthan-8-thiol acetate)
 0.22  carvone
 1.191,8- cineole
 0.41para- cymene
 0.18(E)- dihydrocarvone
 0.21(Z)- dihydrocarvone
 1.038-hydroxy-para-menth-4-en-3-one
 trace(Z)-2-hydroxyisomenthone
 4.678-hydroxymenthone
 11.70  limonene
 0.76  linalool
 trace  menthofuran
 2.91  menthone
 3.58iso menthone
 1.01  myrcene
 0.06(E)-beta- ocimene
 0.07beta- phellandrene
 0.73alpha- pinene
 0.44beta- pinene
 trace  piperitone
 53.75  pulegone
 2.77(E)-iso pulegone
 2.78(Z)-iso pulegone
 trace  sabinene
 0.77  terpinen-4-ol
 0.05alpha- terpinene
 0.09gamma- terpinene
 0.43alpha- terpineol
 0.08delta- terpineol

M. A. Posthumus, T. A. van Beek, N. F. Collins and E. H. Graven, Chemical composition of the essential oils of Agathosma betulina, A. crenulata and an A. betulina x crenulata hybrid (buchu), J. Essent, Oil Res., 8, 223-228 (1996).

P&F 23, No. 4, 37, (1998)

alpinia officinarum root oil
#%LeftshiftComponents
390.10alpha- amorphene
370.03  benzyl acetone
271.60(E)-alpha- bergamotene
410.21beta- bisabolene
260.50  bornyl acetate
440.02  butyl benzoate
50.21iso butyl isovalerate
332.50delta- cadinene
342.10gamma- cadinene
360.11  calacorene
350.21  calamenene
44.60  camphene
231.00  camphor
310.40  caryophyllene
460.15  caryophyllene oxide
949.601,8- cineole
220.41  copaene
130.01beta- copaene
200.04alpha- cubebene
111.60para- cymene
290.30beta- elemene
150.08gamma- elemene
160.75(E)-beta- farnesene
210.51alpha- fenchyl acetate
280.72alpha- guaiene
400.22delta- guaiene
180.11alpha- humulene
84.00  limonene
240.32  linalool
3trace  methyl isovalerate
320.92gamma- muurolene
70.62  myrcene
380.04  nerolidol
450.342- phenethyl 2-methyl butyrate
430.022- phenethyl isobutyrate
25.80alpha- pinene
66.60beta- pinene
250.10alpha- santalene
140.48beta- santalene
420.08alpha- selinene
301.90  terpinen-4-ol
100.22gamma- terpinene
195.00alpha- terpineol
170.10delta- terpineol
120.09  terpinolene
10.09alpha- thujene

B. M. Lawrence, J. W. Hogg and S. J. Terhune, Essential Oils and Their Constituents. Part II. The Oil of Alpinia officinarum Hance. Perfum. Essent, Oil Rec., 60, 89-96 (1969).

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

artemisia afra oil kenya
#%LeftshiftComponents
375.09  borneol
260.23  bornyl acetate
50tracealpha- cadinol
10.12  camphene
450.58beta- caryophyllene oxide
967.371,8- cineole
40trace  cuminaldehyde
43tracepara- cymen-8-ol
122.30para- cymene
60.06  dihydro-1,8-cineole
17tracealpha-para- dimethyl styrene
38trace  germacrene D
80.27  limonene
23trace  linalool
21trace(E)- linalool oxide furanoid
18trace(Z)- linalool oxide furanoid
250.76(E)-para- menth-2-en-1-ol
300.18(Z)-para- menth-2-en-1-ol
42trace(E)-para- mentha-1(7),8-dien-2-ol
44trace(Z)-para- mentha-1(7),8-dien-2-ol
132.003- methyl butyl 2-methyl butyrate
15trace3- methyl butyl 3-methyl butyrate
7trace3- methyl butyl isobutyrate
470.243- methyl butyl phenyl acetate
29trace  myrtenal
41trace  myrtenol
48trace(E)- nerolidol
10trace(Z)-beta- ocimene
191.141- octen-3-ol
4tracealpha- phellandrene
46trace2- phenethyl butyrate
20.16beta- pinene
31tracetrans- pinocarveol
24trace  pinocarvone
340.32(E)- piperitol
30.09  sabinene
200.43(E)- sabinene hydrate
220.63(Z)- sabinene hydrate
16trace7-alpha- silphiperfol-5-ene
490.09  spathulenol
276.50  terpinen-4-ol
28trace  terpinen-4-yl acetate
50.62alpha- terpinene
111.64gamma- terpinene
36tracealpha- terpineol
33tracedelta- terpineol
140.05  terpinolene
350.94alpha- terpinyl acetate
341.07(E)- verbenol
32trace(Z)- verbenol

J. W. Mwangi, K. J. Achola, K.A. Sinei, W. Lwande and R. Laurent, Essential Oil Constituents of Artemisia afra Willd. J. Essent. Oil Res., 7, 97-99 (1995).

P&F 21, No. 1, 37, (1996)

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 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)
cupressus sempervirens cone oil egypt
#%LeftshiftComponents
280.3  borneol
370.4  bornyl acetate
200.2delta- cadinene
250.2alpha- cadinol
240.2T- cadinol
819.0delta-3- carene
340.3  carveol
35trace  carvone
410.2beta- caryophyllene
210.1  caryophyllene oxide
400.2alpha- cedrene
223.3  cedrol
230.16-isocedrol
39tracealpha- copaene
460.1para- cymen-8-ol
450.1ortho- cymene
100.4para-cymenel
140.6alpha-para- dimethyl styrene
31.8alpha- fenchene
160.2alpha- fenchyl alcohol
44trace  germacrene D
420.1alpha- humulene
122.5  limonene
360.2  methyl carvacrol
63.0  myrcene
300.1  myrtenal
320.1  myrtenol
7tracealpha- phellandrene
110.4beta- phellandrene
248.2alpha- pinene
51.4beta- pinene
180.1  pinocamphone
170.6trans- pinocarveol
190.3  pinocarvone
4trace  sabinene
43tracebeta- selinene
291.6  terpinen-4-ol
90.4alpha- terpinene
130.8gamma- terpinene
312.2alpha- terpineol
270.3delta- terpineol
153.9  terpinolene
382.2alpha- terpinyl acetate
470.6delta- terpinyl acetate
10.1  tricyclene
260.1  umbellulone
330.9  verbenone

F. F. Kassem, F. M. Harmz, N. A. El-Sebakhy, H. L. DePooter, N. M. Schamp and H, About-Shleib. Composition of the essential oil of Egyptian Cupressus sempervirens L. cones. Flav. Frag J., 6, 205-207 (1991).

P&F 20, No. 4, 29, (1995)

eucalyptus globulus bicostata oil
#%LeftshiftComponents
95.57  aromadendrene
121.56allo- aromadendrene
160.09  borneol
100.22alpha- bulnesene
200.17delta- cadinene
180.16  carvone
368.821,8- cineole
230.09para- cymen-8-ol
50.27para- cymene
310.12alpha- eudesmol
320.26beta- eudesmol
282.75  globulol
80.55beta- gurjunene
21.57  limonene
110.11(Z)-para- menth-2-en-1-ol
220.25(E)-para- mentha-1,8-dien-6-ol
240.08(Z)-para- mentha-1,8-dien-6-ol
210.97(E)-para- mentha-1(7),8-dien-2-ol
250.24(Z)-para- mentha-1(7),8-dien-2-ol
170.51alpha- muurolene
151.62  neral
260.12  palustrol
270.212- phenethyl propionate
11.90alpha- pinene
132.14trans- pinocarveol
70.92  pinocarvone
190.07(E)- piperitol
300.13  spathulenol
40.15gamma- terpinene
140.17delta- terpineol
60.98  terpinolene
330.25  torquatone
290.73  viridiflorol

C. M. Bignell, P. J. Dunlap, J. J. Brophy and J. F. Jackson, Volatile leaf oils of some southwestern and southern Australian species of the genus Eucalyptus Part XII. A. Subgenus Eudesmia: B. Subgenus sumphyomyrtus: (a) section Exsertaria; (b) series globulares. Flav. Fragr. J., 11, 145-151 (1996).

P&F 22, No. 1, 49, (1997)

eucalyptus globulus maidenii f. muell oil
#%LeftshiftComponents
1212.04  aromadendrene
152.95allo- aromadendrene
130.32alpha- bulnesene
230.27delta- cadinene
210.15  carvone
458.601,8- cineole
80.07alpha- copaene
270.13para- cymen-8-ol
60.35para- cymene
70.12alpha-para- dimethyl styrene
340.10alpha- eudesmol
350.12beta- eudesmol
100.07alpha- fenchol
314.01  globulol
110.63beta- gurjunene
30.96  limonene
140.15(Z)-para- menth-2-en-1-ol
260.25(E)-para- mentha-1,8-dien-6-ol
280.07(Z)-para- mentha-1,8-dien-6-ol
250.94(E)-para- mentha-1(7),8-dien-2-ol
291.05(Z)-para- mentha-1(7),8-dien-2-ol
200.40alpha- muurolene
240.08  myrtenol
50.23(E)-beta- ocimene
300.16  palustrol
13.65alpha- pinene
20.12beta- pinene
162.23trans- pinocarveol
90.82  pinocarvone
220.11(E)- piperitol
330.19  spathulenol
191.05alpha- terpineol
170.34delta- terpineol
360.22  torquatone
180.08  viridiflorene
321.09  viridiflorol

C. M. Bignell, P. J. Dunlap, J. J. Brophy and J. F. Jackson, Volatile leaf oils of some southwestern and southern Australian species of the genus Eucalyptus Part XII. A. Subgenus Eudesmia: B. Subgenus sumphyomyrtus: (a) section Exsertaria; (b) series globulares. Flav. Fragr. J., 11, 145-151 (1996).

P&F 22, No. 1, 49, (1997)

eucalyptus globulus subsp. pseudoglobulus oil
#%LeftshiftComponents
131.16  aromadendrene
160.28allo- aromadendrene
220.07  borneol
270.25delta- cadinene
280.13gamma- cadinene
80.17alpha- campholenic aldehyde
260.31  carvone
120.99beta- caryophyllene
350.13  caryophyllene oxide
452.411,8- cineole
90.09alpha- copaene
320.16para- cymen-8-ol
61.60para- cymene
70.09alpha-para- dimethyl styrene
410.95alpha- eudesmol
428.65beta- eudesmol
400.73gamma- eudesmol
110.10alpha- fenchol
370.36  globulol
190.55alpha- humulene
32.33  limonene
140.13(Z)-para- menth-2-en-1-ol
310.45(E)-para- mentha-1,8-dien-6-ol
330.07(Z)-para- mentha-1,8-dien-6-ol
300.59(E)-para- mentha-1(7),8-dien-2-ol
340.64(Z)-para- mentha-1(7),8-dien-2-ol
150.11  myrtenal
290.11  myrtenol
50.08(E)-beta- ocimene
360.082- phenethyl propionate
112.27alpha- pinene
20.33beta- pinene
172.73trans- pinocarveol
102.84  pinocarvone
200.07(Z)- piperitol
250.31alpha- selinene
240.28beta- selinene
390.13  spathulenol
210.84alpha- terpineol
180.22delta- terpineol
430.12  torquatone
230.18  verbenone
380.13  viridiflorol

C. M. Bignell, P. J. Dunlap, J. J. Brophy and J. F. Jackson, Volatile leaf oils of some southwestern and southern Australian species of the genus Eucalyptus Part XII. A. Subgenus Eudesmia: B. Subgenus sumphyomyrtus: (a) section Exsertaria; (b) series globulares. Flav. Fragr. J., 11, 145-151 (1996).

P&F 22, No. 1, 49, (1997)

laurus nobilis leaf oil turkey
#%LeftshiftComponents
840.10(E)- anethole
1390.20  anhydrooplopanone
16trace  benzaldehyde
1230.10  bicyclogermacrene
1290.20alpha- bisabolene
550.30  borneol
830.70  bornyl acetate
1010.10 bourbonene
23<0.10iso butyl 2-methyl butyrate
9traceiso butyl isobutyrate
1520.10  cadalene
128trace  cadina-1,4-diene
1250.30gamma- cadinene
1260.40delta- cadinene
146traceT- cadinol
1500.10alpha- cadinol
1300.10alpha- calacorene
1330.10beta- calacorene
1270.10  calamenene
150.70  camphene
47<0.10alpha- campholenic aldehyde
25<0.10delta-3- carene
890.10  carvacrol
710.20trans- carveol
740.10cis- carveol
780.10  carvone
950.10cis- carvyl acetate
1450.603(15),7(14)- caryophylladien-6-ol
1060.40beta- caryophyllene
1360.90  caryophyllene oxide
2921.801,8- cineole
920.401,8-cineole-2-yl acetate
1080.70  cinnamyl acetate
100<0.10alpha- copaene
770.10  cuminaldehyde
105<0.10  cuminyl acetate
870.10  cuminyl alcohol
600.20para- cymen-8-ol
271.50para- cymene
38<0.10para- cymenene
1140.30(E)-3-decen-1-yl acetate
1540.20  dehydrocostus lactone
75<0.102,3- dimethoxytoluene
96trace2- dodecanone
1020.60beta- elemene
1310.30  elemicin
1470.30(E)-iso elemicin
210.201,8-epoxy-2-para-menthene
1550.10  eremanthin
2trace  ethyl 2-methyl butyrate
3trace  ethyl isovalerate
1490.30alpha- eudesmol
1481.10beta- eudesmol
142<0.1010-epi-gamma- eudesmol
144tracegamma- eudesmol
942.90  eugenol
1110.20(E)-iso eugenol
118<0.10(Z,E)-alpha- farnesene
153<0.10  farnesyl acetone
14<0.10alpha- fenchene
110trace  geranyl acetone
1150.10  germacrene D
109<0.10  guaia-6,9-diene
1070.10alpha- guaiene
104<0.10alpha- gurjunene
22trace2,4- heptadienal
1<0.10  hexanal
7<0.10  hexanol
4<0.10(E)-2- hexenal
6trace(E)-2- hexen-1-ol
50.10(E)-3- hexen-1-ol
410.10  hotrienol
1130.10alpha- humulene
1400.10  humulene oxide
1510.30  intermedeol
510.10  ipsdienol
1410.20laevo-junenol
1380.30  ledol
281.50  limonene
392.00  linalool
36<0.10(E)- linalool oxide furanoid
35<0.10(Z)- linalool oxide furanoid
490.20(Z)-para- menth-2-en-1-ol
460.20(E)-para- menth-2-en-1-ol
910.10para- mentha-1,4-dien-7-ol
570.20para- mentha-1,5-dien-8-ol
640.20para- mentha-1(7),2-dien-8-ol
610.30(E)-para- mentha-1(7),8-dien-2-ol
730.30(Z)-para- mentha-1(7),8-dien-2-ol
480.10(Z)-para-mentha-2,8-dien-1-ol
450.10(E)-para- mentha-2,8-dien-1-ol
42<0.10para- menthatriene
67<0.10  methyl chavicol
1033.50  methyl eugenol
1200.40(E)- methyl isoeugenol
65trace  methyl salicylate
19<0.106- methyl-5-hepten-2-one
1210.10gamma- muurolene
124tracealpha- muurolene
200.60  myrcene
680.40  myrtenal
720.10  nerol
520.10  nerol oxide
1320.10(E)- nerolidol
99<0.10  neryl acetate
31trace2- nonanone
30<0.10(E)-beta- ocimene
134trace  palustrol
810.10  phellandral
240.20alpha- phellandrene
970.103- phenyl propyl acetate
124.60alpha- pinene
184.00beta- pinene
500.10trans- pinocarveol
540.20  pinocarvone
880.10  pinocarvyl acetate
34<0.10  pinol
430.10isopinol
66<0.10(Z)- piperitol
690.10(E)- piperitol
79trace  piperitone
8traceiso propyl 2-methyl butyrate
62trace4-iso propyl-2-cyclohexenone
530.10  sabinaketone
175.30  sabinene
33<0.10(E)- sabinene hydrate
40trace(Z)- sabinene hydrate
76trace  sabinol
860.10  sabinyl acetate
112trace  selina-4(15),5-diene
1190.30beta- selinene
1220.30alpha- selinene
116tracegamma- selinene
1350.80  spathulenol
594.30  terpinen-4-ol
261.30alpha- terpinene
321.80gamma- terpinene
633.10alpha- terpineol
560.60delta- terpineol
370.70  terpinolene
900.90delta- terpinyl acetate
939.80alpha- terpinyl acetate
130.102,4(10)- thujadiene
800.504- thujen-2-alpha-yl acetate
110.60alpha- thujene
44tracebeta- thujone
82trace  thymol
10<0.10  tricyclene
1170.102- tridecanone
58trace  umbellulone
850.202- undecanone
1430.20  valerianol
70<0.10  verbenone
1370.30  viridiflorol
980.10alpha- ylangene
J. of Ess. Oil Res. 13, No. 2, 95, (2001)
mentha longifolia oil
#%LeftshiftComponents
17traceiso amyl isovalerate
360.30delta- cadinene
35tracegamma- cadinene
300.20beta- caryophyllene
110.601,8- cineole
230.10  cuminaldehyde
210.50para- cymen-8-ol
15tracepara- cymenene
320.10beta- farnesene
330.10  geranyl propionate
340.30  germacrene D
4trace  hexanol
10.20(E)-2- hexenal
20.20(Z)-3- hexen-1-ol
3trace2- hexen-1-ol
310.10alpha- humulene
260.204- hydroxypiperitone
101.00  limonene
16trace  linalool
18trace  menthol
80.20  myrcene
90.103- octanol
13trace2- octen-1-ol
70.10beta- pinene
270.20  piperitenone
250.50iso piperitenone
2883.70  piperitenone oxide
291.00isopiperitenone oxide
248.10  piperitone oxide
60.10  sabinene
14trace(Z)- sabinene hydrate
20trace  terpinen-4-ol
120.10gamma- terpinene
221.10alpha- terpineol
190.20delta- terpineol
50.10  tricyclene
J. of Ess. Oil Res. 12, No. 5, 530, (2000)
myrtus communis leaf oil
#%LeftshiftComponents
400.10 acetoxycyclohexane dione
420.02 acetoxycyclohexane dione
430.01 acetoxycyclohexane dione
10.53iso butyl isobutyrate
40.07  camphene
170.08alpha- campholenal
70.19delta-3- carene
230.10trans- carveol
240.06cis- carveol
260.08  carvone
340.15beta- caryophyllene
380.16  caryophyllene oxide
928.501,8- cineole
410.05 cyclohexane peroxide
360.19 cyclohexendione furan
80.65para- cymene
270.86  geraniol
320.46  geranyl acetate
350.11alpha- humulene
390.09  humulene oxide II
1011.00  limonene
168.74  linalool
130.16  linalool oxide
140.11  linalool oxide
282.05  linalyl acetate
330.95  methyl eugenol
290.27  methyl geranate
60.36  myrcene
250.13  nerol
310.30  neryl acetate
110.15(E)-beta- ocimene
335.20alpha- pinene
50.30beta- pinene
180.30trans- pinocarveol
190.09  pinocarvone
370.02  spathulenol
210.36  terpinen-4-ol
120.15gamma- terpinene
225.25alpha- terpineol
200.16delta- terpineol
150.10  terpinolene
301.37alpha- terpinyl acetate
20.17alpha- thujene

P. Weyerstahl, H. Marschall and A. Rustaiyan, Constituents of the essential oil of Myrtus commnuis L. from Iran. Flav. Fragr. J., 9, 333-337 (1994).

P&F 21, No. 4, 57, (1996)

pteronia incana oil
#%LeftshiftComponents
301.20  bicyclogermacrene
500.70alpha- bisabolol
350.30alpha- cadinene
312.30delta- cadinene
510.50alpha- cadinol
470.40T- cadinol
430.70alpha- calacorene
490.50  carvacrol
370.30trans- carveol
400.20cis- carveol
203.20beta- caryophyllene
440.10  caryophyllene oxide
89.001,8- cineole
330.50  cuminaldehyde
322.10ar- curcumene
380.80para- cymen-8-ol
1011.30para- cymene
180.10alpha- fenchyl alcohol
390.30  geranyl acetone
521.50epi- globulol
241.20alpha- humulene
283.10  ledene
77.00  limonene
150.90  linalool
120.30  methyl caproate
140.20  methyl caprylate
457.20  methyl eugenol
291.10  muurolene
480.80T- muurolol
410.30  myrcene
210.50  myrtenal
340.70  myrtenol
410.20(E)-myrtenol
250.10  myrtenyl acetate
460.80(E)- nerolidol
90.90(E)-ocimene
50.40alpha- phellandrene
118.60alpha- pinene
232.50beta- pinene
221.30trans- pinocarveol
170.10iso pulegol
160.10neoiso pulegol
13trace  pyronene
37.40  sabinene
420.10(E)- sabinol
360.30(Z)- sabinol
531.40iso spathulenol
195.30  terpinen-4-ol
60.20alpha- terpinene
261.30alpha- terpineol
230.40delta- terpineol
110.10  terpinolene
270.80alpha- terpinyl acetate

K. Bruns and M. Meiertoberens, Volatile Constituents of Pteronia incana (Compositae). Flav. Frag. J., 2, 157-162 (1987).

P&F 14, No. 1, 29, (1989)

salvia lavandulifolia vahl. leaf oil
In 1983 Cordoba Rodriguez examined the chemical composition of Spanish sage oil produced from more than 30 collections of plants from different areas in Spain. She determined that the oils possessed the following compositional range:
#%LeftshiftComponents
420.0-0.2  aromadendrene
430.0-0.4allo- aromadendrene
380.0-0.8(Z)-alpha- bergamotene
450.0-0.2beta- bisabolene
231.5-6.4  borneol
240.2-1.9iso borneol
330.8-4.9  bornyl acetate
44.6-10.6  camphene
1912.9-36.1  camphor
200.0-0.3  carvone
400.2-3.7beta- caryophyllene
390.0-0.8iso caryophyllene
460.0-0.1  caryophyllene oxide
1812.0-40.31,8- cineole
360.0-0.1alpha- copaene
350.0-0.2alpha- cubebene
440.1-0.9ar- curcumene
100.4-2.1para- cymene
170.0-0.4alpha-para- dimethyl styrene
290.1-0.7  geraniol
320.1-0.2  geranyl acetate
370.0-0.2alpha- gurjunene
410.0-1.0alpha- humulene
112.4-5.0  limonene
220.2-11.2  linalool
300.1-5.8  linalyl acetate
71.0-4.9  myrcene
280.0-0.6  nerol
310.1  neryl acetate
130.0-0.4(E)-beta- ocimene
160.0-0.3(Z)-allo-ocimene
120.0-2.2(Z)-beta- ocimene
80.0-0.2alpha- phellandrene
34.7-10.9alpha- pinene
63.3-7.3beta- pinene
50.6-2.2  sabinene
210.1-0.6(E)- sabinene hydrate
340.1-6.6(Z)- sabinyl acetate
250.2-0.8  terpinen-4-ol
90.0-0.1alpha- terpinene
140.0-0.7gamma- terpinene
270.1-1.9alpha- terpineol
260.0-0.7delta- terpineol
150.0-0.3  terpinolene
20.2-0.5alpha- thujene
10.0-0.5  tricyclene

M. de los Angelos Cordoba Rodriguez, Contribucion al estudio del Aceite Esencial de Salvia Espanola (salvia lavandulaefolia Vahl.). PhD thesis, Univ. Complutense, Madrid, Spain (1983).

P&F 23, No. 1, 39, (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 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
#%LeftshiftComponents
1460.06allo- aromadendrene
1494.29  bicyclogermacrene
1530.35beta- bourbonene
1770.24delta- cadinene
1640.52T- cadinol
1640.88alpha- cadinol
1540.10alpha- calacorene
1291.93  carvacrol
1410.24beta- caryophyllene
2003.18  caryophyllene oxide
1210.121,8- cineole
1374.08alpha- copaene
1342.86alpha- cubebene
1540.72beta- cubebene
1900.24epi- cubenol
1020.12para- cymene
1470.85delta- elemene
 1.72beta- eudesmol
1252.79  geraniol
1381.94  geranyl acetate
1551.29  germacrene B
1475.88  germacrene D
8520.03(E)-2- hexenal
1450.08alpha- humulene
1591.55  humulene oxide I
1030.17  limonene
10924.25  linalool
1236.90  linalyl acetate
 0.5913-epi- manool
1220.98  nerol
1730.36  neryl acetate
1381.46(Z)-allo-ocimene
1030.03beta- phellandrene
9390.27alpha- pinene
2140.03  spathulenol
1610.37  terpinen-4-ol
1180.20alpha- terpineol
1180.20delta- terpineol
1350.29alpha- terpinyl acetate
9307.48alpha- thujene
2190.10  thymol
9270.08  tricyclene
1100.75  undecane
1370.24alpha- 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.
sugandha kokila berry oil
#%LeftshiftComponents
310.40  aromadendrene
260.70alpha- bergamolene
421.10beta- bisabolene
452.90delta- cadinene
500.10alpha- calacorene
470.30  calamenene
30.10  camphene
221.50  camphor
601.30  capric acid
580.40  carvacrol
297.40beta- caryophyllene
520.70  caryophyllene oxide
1113.101,8- cineole
204.70alpha- copaene
190.70alpha- cubebene
490.10para- cymen-8-ol
163.60para- cymene
270.30beta- elemene
590.20  elemicin
440.50  geranial
480.20  geraniol
351.30alpha- humulene
622.70  lauric acid
90.50  limonene
232.80  linalool
240.10(E)-para- menth-2-en-1-ol
320.10(Z)-para- menth-2-en-1-ol
570.20para-menth-5-en-1,2-ol
5413.70(E)- methyl cinnamate
510.20(Z)- methyl cinnamate
530.60  methyl eugenol
560.40(E)- methyl isoeugenol
460.20  methyl laurate
60.40  myrcene
612.50  myristicin
370.30  neral
410.30  neryl acetate
210.202- nonanol
181.902- nonanone
140.20(E)-beta- ocimene
120.05(Z)-beta- ocimene
71.50alpha- phellandrene
101.40beta- phellandrene
11.20alpha- pinene
41.90beta- pinene
50.80  sabinene
252.10alpha- santalene
340.80beta- santalene
330.10epi-beta- santalene
430.60alpha- selinene
401.00beta- selinene
550.50  spathulenol
150.10  styrene
304.00  terpinen-4-ol
80.40alpha- terpinene
130.60gamma- terpinene
386.60alpha- terpineol
360.40delta- terpineol
170.30  terpinolene
20.30alpha- thujene
390.012- undecanol
283.602- undecanone

S. R. Adhikary, B. S. Tuladhar, A. Sheak, T. A. van Beek, M. A. Posthumus and G. P. Lelyveld, investigation of Nepalese essential oils. 1. The oil of Cinnamomum glaucescens (Sugandha kokila). J. Essent. Oil Res. 4, 151-159 (1992).

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

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:
#%LeftshiftComponents
191.63  borneol
141.17iso bornyl acetate
290.05alpha- cadinol
20.30  camphene
110.56  camphor
283.34  carvacrol
160.12beta- caryophyllene
230.07  caryophyllene oxide
71.021,8- cineole
210.08  citronellol
92.95para- cymene
250.08  elemol
220.14  geraniol
200.09  geranyl acetate
60.09  limonene
127.89  linalool
130.06  linalyl acetate
40.06  myrcene
10.04alpha- pinene
30.04beta- pinene
100.36(E)- sabinene hydrate
260.28  spathulenol
151.60  terpinen-4-ol
50.02alpha- terpinene
80.36gamma- terpinene
180.08alpha- terpineol
170.11delta- terpineol
2771.84  thymol
240.08  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:
#%LeftshiftComponents
234.06  borneol
181.04iso bornyl acetate
300.04alpha- cadinol
31.76  camphene
150.10  camphor
291.66  carvacrol
200.36beta- caryophyllene
270.63  caryophyllene oxide
91.541,8- cineole
250.06  citronellol
1227.63para- cymene
260.39  geraniol
240.24  geranyl acetate
80.13  limonene
165.10  linalool
170.40  linalyl acetate
60.09  myrcene
101.14(Z)-beta- ocimene
22.28alpha- pinene
40.29beta- pinene
50.06  sabinene
140.22(E)- sabinene hydrate
191.15  terpinen-4-ol
71.91alpha- terpinene
1110.95gamma- terpinene
220.04alpha- terpineol
210.03delta- terpineol
130.15  terpinolene
10.08alpha- thujene
2834.18  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)

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