BT

Typical G.C. analysis

alpinia galanga oil
#%LeftshiftComponents
2410.70alpha- bergamotene
3016.20beta- bisabolene
12trace  borneol
172.50  bornyl acetate
20.50  camphene
230.90  caryophyllene
332.50  caryophyllene oxide
160.20  chavicol
191.00  chavicyl acetate
75.501,8- cineole
201.60  citronellyl acetate
220.70  copaene
281.90ar- curcumene
14tracepara- cymen-8-ol
60.80para- cymene
291.50  eugenyl acetate
2618.20(E)-beta- farnesene
215.10  geranyl acetate
250.60alpha- humulene
81.60  limonene
11trace  linalool
50.70  myrcene
311.90  pentadecane
321.60beta-sesqui phellandrene
110.20alpha- pinene
41.60beta- pinene
3trace  sabinene
270.80 santalene
130.30  terpinen-4-ol
9tracealpha- terpinene
150.20alpha- terpineol
10trace  terpinolene
18trace  tridecane

H. L. De Pooter, M. Nor Omar, B. A. Coolsaet and N. M. Schamp, The Essential Oil of Greater Galanga (Alpinia galanga) from Malaysia, Phytochem.,24, 93-96 (1985).

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

cananga odorata flower oil CO2 extract
#%LeftshiftComponents
451.46alpha- amorphene
280.17(E)- anethole
620.02(Z)- asarone
40.59  benzaldehyde
186.15  benzyl acetate
120.04  benzyl alcohol
6411.97  benzyl benzoate
710.04  benzyl cinnamate
673.66  benzyl salicylate
520.02  bisabolene
590.61alpha- bisabolol
470.133- buten-2-yl benzoate
530.19delta- cadinene
540.01gamma- cadinene
423.96beta- caryophyllene
430.21alpha- cedrene
600.02  cedrol
92.731,8- cineole
300.02  cinnamic alcohol
260.21  cinnamic aldehyde
412.28  cinnamyl acetate
370.93alpha- copaene
140.53para- cresol
82.00para- cresyl methyl ether
400.60beta- cubebene
230.101,4- dimethoxybenzene
210.043,4- dimethoxytoluene
690.02  eicosane
380.02delta- elemene
550.02  elemol
190.02  ethyl benzoate
340.03  eugenol
440.54iso eugenol
5114.63(E,E)-alpha- farnesene
631.39(E,E)- farnesol
662.00  farnesyl acetate
351.00  geranyl acetate
4920.03  germacrene D
720.04  hexacosane
700.23  hexadecanoic acid
10.113- hexen-1-ol
70.013- hexen-1-yl acetate
570.01(Z)-3- hexen-1-yl benzoate
460.99alpha- humulene
310.13  indole
110.04  limonene
1616.47  linalool
200.012- methoxy-4-methyl phenol
290.04  methyl 2-methoxybenzoate
330.02  methyl anthranilate
250.074- methyl benzaldoxime
152.42  methyl benzoate
480.14  methyl eugenol
220.04  methyl salicylate
20.182- methyl-3-butenol
560.03alpha- muurolene
500.02gamma- muurolene
610.06alpha- muurolol
60.05  myrcene
580.02  nerolidol
130.02(E)-beta- ocimene
240.162- phenethyl acetate
680.022- phenethyl benzoate
100.03  phenyl acetaldehyde
270.102- phenyl-1-nitroethane
30.19alpha- pinene
50.07beta- pinene
320.024-(2- propenyl) phenol
650.01  tetradecanal
390.53  tetradecane
360.02alpha- ylangene

E. E. Stashenko, W. Torres and J. R. Martinez Morales, A study of the compositional variation of the essential oil of ylang ylang (Cananga odorata Hook. fil. et Thomson, forma genuina) during flower development. J. High Resol. Chromatogr., 18, 101-104 (1995).

P&F 24, No. 4, 31, (1999)

pimenta racemosa leaf oil
In 1991, Tucker et al. analyzed the chemical composition of two commercial samples of the leaf oil of Pimenta racemosa (Miller) J. Moore var. racemosa using both GC and GC/MS. The components that were identified were as follows:
#%LeftshiftComponents
370.00-0.39alpha- amorphene
380.00-0.09  aromadendrene
400.00-0.28allo- aromadendrene
410.00-<0.01beta- cadinene
490.28-1.03delta- cadinene
470.05-0.15gamma- cadinene
550.00-0.30alpha- cadinol
530.00-<0.01gamma- cadinol
48<0.01-0.07(Z)- calamenene
30.00-0.14  camphene
210.00-<0.01  camphor
360.64-7.24beta- caryophyllene
420.00-0.17beta- chamigrene
26<0.01-15.51  chavicol
141.38-1.391,8- cineole
270.00-0.11(E)- cinnamaldehyde
320.32-0.41alpha- copaene
300.00-<0.01alpha- cubebene
230.00-<0.01para- cymen-8-ol
19<0.01-0.97para- cymene
120.00-0.30alpha-para- dimethyl styrene
330.00-0.20beta- elemene
3144.41-68.93  eugenol
500.00-0.51  eugenyl acetate
460.00-0.59alpha- farnesene
290.00-0.22  geranial
280.00-0.12  geraniol
520.00-0.36  globulol
350.00-0.13alpha- gurjunene
390.15-1.31alpha- humulene
132.07-3.90  limonene
200.13-3.63  linalool
250.03-0.05  methyl chavicol
340-11.88  methyl eugenol
450.00-0.05alpha- muurolene
540.00-<0.01gamma-muurolol
80.10-16.17  myrcene
160.08-1.42(E)-beta- ocimene
150.08-0.10(Z)-beta- ocimene
90.00-0.843- octanol
70.00-1.103- octanone
50.00-1.741- octen-3-ol
100.07-0.45alpha- phellandrene
20.46-0.47alpha- pinene
60.00-0.09beta- pinene
40.00-<0.1  sabinene
440.00-0.63alpha- selinene
430.00-0.33beta- selinene
510.00-0.12  spathulenol
220.05-0.90  terpinen-4-ol
110.02-0.19alpha- terpinene
17<0.01-0.16gamma- terpinene
240.14-0.52alpha- terpineol
180.09-0.24  terpinolene
10.0-<0.1alpha- thujene

A. Tucker, M. J. Macirarello, R. P. Adams, L. R. Landrum and T. A. Zanoni, Volatile leaf oils of Caribbean Myrtaceae 1. Three varieties of Pimenta racemosa (Miller) J. Moore of the Dominican Republic and the commerciai bay oil. J. Essent. Oil Res., 3, 323-329 (1991).

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

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)

pimenta racemosa leaf oil clove
#%LeftshiftComponents
250.8delta- cadinene
270.2alpha- cadinol
240.2  calamenene
200.6beta- caryophyllene
260.1  caryophyllene oxide
1517.1  chavicol
51.21,8- cineole
180.4alpha- copaene
100.1para- cymen-8-ol
40.3para- cymene
1756.1  eugenol
230.2(E,E,Z)-alpha-farnesene
160.3  geranial
140.2  geraniol
220.3  germacrene D
210.2alpha- humulene
60.8  limonene
86.0  linalool
70.1(E)- linalool oxide
120.1  methyl chavicol
191.4  methyl eugenol
36.4  myrcene
130.1  neral
12.03- octanol
21.03- octanone
110.5alpha- terpineol
91.2  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)

ylang ylang flower oil
#%LeftshiftComponents
510.13alpha- amorphene
290.35(E)- anethole
50.94  benzaldehyde
2011.63  benzyl acetate
112.20  benzyl alcohol
636.19  benzyl benzoate
330.04  benzyl butyrate
651.37  benzyl salicylate
580.07alpha- bisabolol
470.713- buten-2-yl benzoate
360.08  butyl benzoate
530.16delta- cadinene
540.12gamma- cadinene
600.12 cadinol
610.12alpha- cadinol
421.69beta- caryophyllene
570.07  caryophyllene oxide
120.091,8- cineole
432.09(E)- cinnamyl acetate
300.26(E)- cinnamyl alcohol
380.13alpha- copaene
170.09para- cresol
100.34para- cresyl methyl ether
450.58beta- cubebene
260.131,4- dimethoxybenzene
250.173,4- dimethoxytoluene
211.46  ethyl benzoate
440.37(Z)-iso eugenol
522.34(E,E)-alpha- farnesene
620.84(E,E)- farnesol
640.61(E,E)- farnesyl acetate
371.96  geranyl acetate
495.55  germacrene D
30.28(E)-2- hexen-1-ol
90.16(Z)-3- hexen-1-yl acetate
550.19(Z)-3- hexen-1-yl benzoate
460.74alpha- humulene
130.07  limonene
1835.49  linalool
220.072- methoxy-4-methyl phenol
150.172- methoxyphenol
390.114-methoxyphenyl methyl acetate
310.05  methyl 2-methoxybenzoate
350.06  methyl 4-methoxybenzoate
320.08  methyl anthranilate
166.50  methyl benzoate
480.86  methyl eugenol
230.29  methyl salicylate
20.063- methyl-2-butenol
40.333- methyl-2-butenyl acetate
10.072- methyl-3-butenol
500.14gamma- muurolene
590.11alpha- muurolol
80.16  myrcene
270.27  nerol
560.13(E)- nerolidol
140.14(E)-beta- ocimene
280.202- phenyl-1-nitroethane
61.87alpha- pinene
70.66beta- pinene
340.084-(2- propenyl) phenol
240.14alpha- terpineol
415.51  tetradecane
400.16alpha- ylangene

E. E. Stashenko, W. Torres and J. R. Martinez Morales, A study of the compositional variation of the essential oil of ylang ylang (Cananga odorata Hook. fil. et Thomson, forma genuina) during flower development. J. High Resol. Chromatogr., 18, 101-104 (1995).

P&F 24, No. 4, 31, (1999)

Top of Page Home
Copyright © 1980-2021 The Good Scents Company (tgsc) ™ Disclaimer Privacy Policy