BT

Typical G.C. analysis

juniperus communis fruit oil
#%LeftshiftComponents
240.60  aromadendrene
170.40  bornyl acetate
272.50alpha- cadinene
260.80gamma- cadinene
290.80alpha- cadinol
30.30  camphene
130.20  campholenic aldehyde
70.10delta-4-carene
202.70  caryophyllene
300.40alpha- copaene
180.90alpha- cubebene
90.20para- cymene
191.10beta- elemene
282.90gamma- elemene
2210.50beta- farnesene
212.20alpha- humulene
103.10  limonene
2310.50alpha- muurolene
251.60gamma- muurolene
611.00  myrcene
233.60alpha- pinene
42.50beta- pinene
47.60  sabinene
110.90  sabinene hydrate
142.10  terpinen-4-ol
80.50alpha- terpinene
150.20alpha- terpineol
121.00  terpinolene
10.70alpha- thujene
160.20  valeranone

G. Bonaga and G. C. Galletti, Analysis of volatile components in juniper oil by high resolution gas chromatography and combined gas chromatography / mass spectrometry, Ann. Chimica, 75, 131-136 (1985).

P&F 12, No. 6, 59, (1987)

valeriana officinalis rhizome oil
#%LeftshiftComponents
360.2-0.8beta- bisabolene
580.5-1.5epi-alpha-bisabolol
160.1-0.6  borneol
15trace-0.1iso borneol
252.3-33.5  bornyl acetate
430.5-1.2  bornyl isovalerate
460.1-0.3delta- cadinene
30.1-6.4  camphene
14trace-0.1  camphor
21trace-0.1trans- carveol
200.1-0.2cis- carveol
8trace-0.21,8- cineole
31trace-0.1  citronellyl acetate
510.2-2.1  citronellyl isovalerate
33trace-0.2alpha- copaene
570.4-3.9  cryptofauronol
70trace-2.9  cryptofauronyl acetate
22trace-0.1  cuminaldehyde
400.7-2.1ar- curcumene
70.1-1.5para- cymene
340.2-1.42,6- dimethoxy-para-cymene
620.1-0.4  drimenol
350.1-0.4beta- elemene
300.2-2.9delta- elemene
420.1-0.4gamma- elemene
75trace-0.6  ethyl palmitate
380.5-7.6  eudesma-2,6,8-triene
530.6-6.9beta- eudesmol
29trace-0.1  eugenol
610.1-0.4  eugenyl isovalerate
670.1-1.1iso eugenyl isovalerate
480.4-0.6  faurinone
410.2-1.4  germacrene D
44trace-1.0beta- gurjunene
370.1-0.9alpha- humulene
390.1-0.7beta- ionone
450.2-3.8  kessane
380.1-3.5  kessanyl acetate
730.1-0.7  kessoglycyl monoacetate
630.1-12.6alpha- kessyl acetate
520.5-2.1  ledol
100.1-1.2  limonene
13trace  linalool
500.1-1.6  maaliol
240.1-0.2  methyl carvacrol
710.1-0.9  methyl palmitate
23trace-0.4  methyl thymol
650.1-0.2  methyl valerenate
6trace-0.1  myrcene
190.1-4.0  myrtenol
28trace-9.1  myrtenyl acetate
560.1-0.2 myrtenyl hexanoate
491.6-10.5  myrtenyl isovalerate
26trace-0.8  nojigiku acetate
470.5-3.2  pacifigorgiol
720.1-1.9  palmitic acid
9trace-2.4beta- phellandrene
20.1-0.2alpha- pinene
5trace-0.9beta- pinene
4trace-0.1  sabinene
170.1-0.6  terpinen-4-ol
11trace-0.2gamma- terpinene
18trace-0.1alpha- terpineol
12trace-0.1  terpinolene
270.1  thymol
1trace-0.1  tricyclene
550.5-8.2  valeranone
660.1-1.5(E)-valeren-1-yl acetate
640.2-0.8(Z)-valeren-1-yl acetate
76trace-1.6(E)-valeren-1-yl isovalerate
74trace-0.7(Z)-valeren-1-yl isovalerate
590.4-12.4  valerenal
690.3-2.8  valerenic acid
600.3-1.2(Z+E)- valerenol
541.5-14.2  valerianol
320.1-0.4alpha- ylangene

R. Bos and H. J. Woerdenbag, Analytical aspects of the essential oil, valerenic acid derivatives and valepotriates in Valeriana officinalis roots and rhizomes. In: Proceedings, International Symposium on breeding research and medicinal and aromatic plants. Edits., F. Pank, p. 355-358, Beiträge zur Zuchtungsforschung, Quedlinburg, Germany (1996).

P&F 24, No. 3, 47, (1999)

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