Typical G.C. analysis

#	%	Leftshift	Components
cochlospermum planchonii oil
3	0.20	beta-	bisabolene
1	0.10		dodecanal
2	0.70		dodecanol
8	4.70		dodecyl acetate
11	0.20	3-	hexadecanone
13	2.50	3-	hexadecenone
16	1.00		hexadecyl acetate
12	0.40	1-	hydroxy-3-tetradecanone
10	0.20		methyl myristate
15	0.10	3-	octadecenone
7	2.00		tetradecanal
9	1.00		tetradecanol
6	69.80	3-	tetradecanone
5	0.70	3-	tetradecenone
14	14.40		tetradecyl acetate
4	0.40	2-	tridecanone
J. of Ess. Oil Res. 13, No. 1, 65, (2001)
hamamelis virginiana leaf oil
#	%	Leftshift	Components
	0.01		benzyl benzoate
	trace		butyl benzoate
	0.05		cadalene
	0.04	delta-	cadinene
	0.21	beta-	caryophyllene
	0.07		cyclosativene
	trace	(E)-beta-	damascenone
	0.03		decanal
3	0.01		decane
	0.28		docosanal
18	1.27		docosane
	0.21		docosanol
	0.20		dodecanal
4	0.03		dodecane
	0.69		dotriacontane
	trace		eicosanal
15	0.60		eicosane
	0.02		eicosanol
	0.16		ethyl hexadecanoate
	0.09		ethyl linoleate
	0.05		ethyl linolenate
	0.06		ethyl oleate
	0.09		ethyl tetracosane
	0.01		ethyl tetradecanoate
	0.05	alpha-	eudesmol
	0.02	gamma-	eudesmol
	1.47	(E,E)-alpha-	farnesene
	0.08	alpha-	farnesene
	1.74		geraniol
	0.07		geranyl acetone
	0.01		geranyl formate
	0.47		geranyl linalool
	1.14		henitriacontane
	16.12		heptacosane
12	0.31		heptadecane
	0.05	2-	heptadecanone
	0.91		hexacosanal
	2.27		hexacosane
	0.15		hexadecanal
10	0.07		hexadecane
	1.62		hexadecanoic acid
	0.10		hexadecanol
11	0.16	1-	hexadecyne
	0.13		hexanol
	0.19	(Z)-3-	hexen-1-ol
	0.02	(E)-2-	hexen-1-yl (E)-2-hexenoate
	trace	(Z)-3-	hexen-1-yl (E)-2-hexenoate
	0.15	(Z)-3-	hexen-1-yl 2-or-3-methyl butyrate
	0.06	(Z)-3-	hexen-1-yl angelate or tiglate
	0.30	(Z)-3-	hexen-1-yl benzoate
	0.14	(E)-2-	hexen-1-yl butyrate
	trace	(Z)-3-	hexen-1-yl butyrate
	0.03	(E)-2-	hexen-1-yl hexanoate
	0.23	(Z)-3-	hexen-1-yl hexanoate
	trace	(Z)-3-	hexen-1-yl octanoate
	0.01	(Z)-3-	hexen-1-yl salicylate
	trace		hexyl tiglate
	trace		hotrienol
	0.05	alpha-	humulene
	trace		hydroxyedulan-1
	0.08	beta-	ionone
	0.02		kaurene
	3.74		linalool
	0.12	(E)-	linalool oxide
	0.31	(Z)-	linalool oxide
	0.10		manool
	0.03		manoyl oxide
19	0.02	2-	methyl docosane
	0.11		methyl docosanoate
	0.04		methyl eicosanoate
16	0.02	2-	methyl heneicosane
17	0.01	3-	methyl heneicosane
	0.06		methyl henitriacontane
	0.08	3-	methyl heptacosane
	0.05		methyl hexacosane
	0.22	2-	methyl hexacosane
	0.04	3-	methyl hexacosane
	0.33		methyl hexadecanoate
	0.09		methyl linoleate
	0.47		methyl linolenate
	0.21		methyl nonacosane
	0.03		methyl octacosane
	0.07	2-	methyl octacosane
	0.08	3-	methyl octacosane
	0.13		methyl oleate
	0.18	2-	methyl pentacosane
	0.15	3-	methyl pentacosane
	0.05	4-	methyl pentacosane
	0.03		methyl tetracosane
	0.02	4-	methyl tetracosane
	0.15		methyl tetracosanoate
7	0.27	3-	methyl tetradecane
	0.03		methyl tetradecanoate
	0.13	2-	methyl triacontane
	0.04	3-	methyl triacontane
	0.04		myrcenol
	0.03		nerol
	0.09		nerol oxide
	0.17	(E)-	nerolidol
	7.12		nonacosane
	0.03		nonadecanal
14	0.78		nonadecane
	0.62		nonanal
2	0.01		nonane
	0.11		nonanoic acid
	0.09		nonanol
	0.28		octacosanal
	1.75		octacosane
13	0.12		octadecane
	trace		octadecanol
	0.03		octanal
1	0.59		octane
	trace		octanol
	0.03	1-	octen-3-ol
	10.99		pentacosane
	0.13		pentadecanal
8	0.10		pentadecane
	0.04	2-	pentadecanone
	9.79	(E)-	phytol
	0.68	iso	phytol
	0.07	iso	propyl tetradecanoate
	trace		riesling acetal
	0.03	beta-	santalene
	0.09		squalene
	1.06	alpha-	terpineol
	0.39		tetracosanal
	2.59		tetracosane
	0.08	1-	tetracosene
	0.05		tetradecanal
6	0.23		tetradecane
	0.30		tetratriacontane
	1.14		triacontane
	0.68		tritriacontane
20	10.38		tricosane
	0.24		tridecanal
5	0.54		tridecane
	0.04	2-	tridecanone
	0.21	1,1,6-	trimethyl-1,2-dihydronaphthalene
	0.01	1,1,6-	trimethyl-1,2,3,4-tetrahydronaphthalene
9	0.23	4,8,12-	trimethyl-1,3,7,11-tridecatetraene
	0.70	6,10,14-	trimethyl-2-pentadecanone
	0.80	ar-	turmerone
	0.42		undecanal
	0.03	(E)-2-	undecenal
	0.21		viridiflorol
	0.09		vitispirane
R. Engel, M. Gutmann, C. Harisch, H. Koloclziej and A. Nahstedt, Study on the composition of the volatile fraction of Hamamelis virginiana. Planta Med., 64, 251-258 (1998). P&F 24, No. 4, 31, (1999)
michelia champaca flower absolute
headspace
#	%	Leftshift	Components
1	0.85		ethyl acetate
2	0.16	2-	methyl pentene
3	1.02	2-	methyl hexane
4	0.22	1,8-	cineole
5	0.10	(Z)-	linalool oxide furanoid
6	0.10	(E)-	linalool oxide furanoid
7	5.04		linalool
8	3.15	2-	phenethyl alcohol
9	17.07		heptanal
10	0.51		safrole
11	7.20		indole
12	5.15		methyl anthranilate
13	0.17	2,2-	dimethyl-3-buten-3-one
14	0.20	alpha-	ionone
15	0.45	4,7-	dimethyl undecane
16	1.18		nerolidol
17	5.05		methyl myristate
18	0.81		ethyl 2-methyl-2-phenyl propionate
19	14.18		methyl linoleate
myristica fragrans fruit oil indonesian
#	%	Leftshift	Components
15	0.25		borneol
19	0.11		bornyl acetate
3	0.37		camphene
8	0.89	delta-3-	carene
10	1.87	para-	cymene
20	0.35		eugenol
18	0.13		geraniol
11	3.87		limonene
14	0.47		linalool
23	0.58		methyl eugenol
25	0.28		methyl myristate
6	1.89		myrcene
24	9.43		myristicin
22	0.15		neryl acetate
7	0.67	alpha-	phellandrene
2	22.00	alpha-	pinene
5	21.50	beta-	pinene
4	15.40		sabinene
16	5.72		terpinen-4-ol
9	1.24	alpha-	terpinene
12	1.80	gamma-	terpinene
17	0.73	alpha-	terpineol
13	0.97		terpinolene
21	0.14	alpha-	terpinyl acetate
1	1.16	alpha-	thujene
H. J. D. Dorman, P. Surai and S. G. Deans, In vitro antioxidant activity of a number of plant essential oils and phytoconstituents. J. Essent. Oil Res., 12, 241-248 (2000). P&F 23, No. 5, 52, (2000)