BT

Typical G.C. analysis

aydendron barbeyana mez. wood oil
#%LeftshiftComponents
413.70  benzyl benzoate
421.60  benzyl salicylate
192.50(E)-beta-bergamotene + beta-curcumene
230.50(Z)-gamma- bisabolene
340.704-epi-beta-bisabolol
408.30beta- bisabolol
112.80  borneol
390.60  cadalene
251.80gamma- cadinene
275.80gamma-cadinene + furopelargone A
284.00alpha-calacorene + (E)-sequisabinene hydrate
33.20  camphene
100.10  camphor
180.60beta- caryophyllene
311.10  caryophyllene oxide
170.10alpha- cedrene
242.90sesquicineole + beta-bisabolene
162.20alpha- copaene
8tracepara- cresol
151.40alpha- cubebene
220.90epi- cubebol
262.10 cubebol + (E)-calamenene
382.10  cubenol
352.701-epi- cubenol
6tracepara- cymene
331.101,10- di-epi-cubenol
216.601,11-oxidocalamenene + ar-curcumene
374.90beta-eudesmol + alpha-cadinol
323.40  guaiol
201.20alpha-humulene + beta-farnesene
70.70 limonene + 1,8-cineole
9trace  linalool
296.50(E)- nerolidol
22.80alpha- pinene
50.90beta- pinene
4trace  sabinene
302.00(Z)-sequi sabinene hydrate
140.50  safrole
361.30  selin-11-en-4alpha-ol
120.10  terpinen-4-ol
130.10alpha- terpineol
1tracealpha- thujene

P. Weyerstahl, H. Marschall-Weyerstahl and C. Christiansen, Constituents of Ayou essential oil (Aydendron barbeyana Mez.). Flav. Fragr. J., 4, 93-98 (1989).

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

wulffia stenoglossa dc. flower oil brazil
#%LeftshiftComponents
190.20(E)-alpha- bergamotene
225.10  bicyclogermacrene
242.70beta- bisabolene
370.70epi-alpha-bisabolol
260.30delta- cadinene
250.10gamma- cadinene
360.40alpha- cadinol
178.80beta- caryophyllene
321.00  caryophyllene oxide
140.10alpha- copaene
152.40beta- copaene
120.60  decanal
310.50  dendrolasin
430.10  docosane
110.10  dodecane
130.30delta- elemene
180.10gamma- elemene
410.10  ethyl hexadecanoate
233.30  germacrene A
290.10  germacrene B
2113.00  germacrene D
330.10  globulol
420.10  heneicosane
470.10  heptacosane
460.10  hexacosane
202.10alpha- humulene
340.10  humulene oxide II
513.60  limonene
70.50  linalool
390.10  methyl hexadecanoate
350.40alpha- muurolol
411.80  myrcene
380.70  myristic acid
300.90(E)- nerolidol
80.20  nonanal
10.20  nonane
617.30(E)-beta- ocimene
404.00  palmitic acid
450.30  pentacosane
270.10beta-sesqui phellandrene
22.10alpha- pinene
31.00  sabinene
280.10(Z)-sesqui sabinene hydrate
90.10  terpinen-4-ol
100.10alpha- terpineol
160.10  tetradecane
440.20  tricosane
J. of Ess. Oil Res. 12, No. 4, 415, (2000)
zingiber officinale oil CO2 extract australia
In 1994, Bartley and Foley analyzed the chemical composition of a supercritical fluid extract of Australian-grown ginger. The freshly harvested roots were peeled and chopped into 2 mm cubes before grinding under liquid nitrogen. The pulp was mixed with coarse granulated Celite (diatomaceous earth) and subjected to extraction by supercritical CO2. The analysis was preformed by a combination of capillary GC (for retention indices and quantitative data) and GC/MS (for component identification confirmation). The compounds identified were:
#%LeftshiftComponents
320.20 aromadendrenol
2310.83alpha- bergamolene
242.73beta- bisabolene
290.14alpha- bisabolol
110.60  borneol
160.10iso bornyl acetate
250.14gamma- cadinene
43.71  camphene
92.991,8- cineole
213.25ar- curcumene
120.11  decanal
280.22  dodecatrienol
190.20beta- elemene
180.23delta- elemene
270.25  elemol
200.18beta- farnesene
1525.06  geranial
140.66  geraniol
170.12  geranyl acetate
10.52  hexanal
70.43  limonene
100.46  linalool
20.113- methyl hexanol
60.53  myrcene
132.87  neral
350.086- paradol
340.20 pentenyl curcumene
81.63beta- phellandrene
268.18beta-sesqui phellandrene
50.08beta- pinene
300.22(Z)-sesqui sabinene hydrate
360.316- shogaol
30.93alpha- thujene
310.15 zingerenol
2225.87  zingiberene
330.64 zongerone

J. P. Bartley and P. Foley, Supercritical fluid extraction of Australian grown ginger (Zingibar officinale), J. Sci. Food Agric., 66, 365-371 (1994).

P&F 22, No. 5, 71, (1997)

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