Typical G.C. analysis

Perflavory

Typical G.C. analysis
#	%	Leftshift	Components
bombycilaena erecta oil greece
22	0.50		arteannuic alcohol
6	9.10		artemisyl alcohol
10	10.70		artemisyl acetate
26	0.30	beta-	bisabolol
14	0.70	iso	bornyl acetate
25	0.40	alpha-	cadinol
3	3.60		camphene
8	18.80		camphor
9	2.60	trans-	carveol
11	0.30	cis-	carveol
12	0.40		carvotan acetone
15	0.90	cis-	carvyl acetate
19	1.00	beta-	caryophyllene
21	0.20		caryophyllene oxide
13	12.20	(Z)-	chrysanthenyl acetate
18	3.80	iso	comene
20	0.30	gamma-	curcumene
27	0.40	7-	ethyl-1,4-dimethyl azulene
24	2.00	alpha-	eudesmol
23	0.20		guaiol
29	0.80		hexadecanoic acid
17	1.50		italicene
16	1.20	beta-	maaliene
7	0.20		nonanal
2	0.40	alpha-	pinene
4	0.10	beta-	pinene
28	0.30		tetradecanoic acid
1	0.90		tricyclene
5	14.90		yomogi alcohol
J. of Ess. Oil Res. 12, No. 3, 360, (2000)
chenopodium ambrosioides oil spain
#	%	Leftshift	Components
	0.04		allyl levulinate
	0.02	allo-	aromadendrene
	0.22	iso	borneol
	0.20	iso	bornyl acetate
	0.02	nor	bornyl acetate
	0.06	iso	bornyl propionate
	0.08	delta-	cadinene
	0.84		camphor
	2.28	trans-	carveol
	4.91	cis-	carveol
	2.07		carvone
	0.16		carvone oxide
	2.09	beta-	caryophyllene
	0.04	beta-	copaene
	0.03	para-	cymene
	0.71		dihydrocarveol
	5.00		geranial
	0.04		geranic acid
	4.30		geraniol
	0.24	alpha-	guaiene
	0.02		lavandulyl acetate
	32.50		limonene
	0.07		linalool
	0.21	(Z)-	linalool oxide furanoid
	4.00	(Z)-para-	mentha-2,8-dien-1-ol
	1.64		menthol
	0.03		methyl undecanal
	0.03		myrcene
	0.41		nerol
	0.01		neryl acetate
	0.02		neryl formate
	0.15		perillyl alcohol
	0.01	alpha-	phellandrene
	0.09	alpha-	pinene
	0.06	beta-	pinene
	26.70	trans-	pinocarveol
	3.54	iso	pulegol
	0.08	iso	pulegyl acetate
	0.06	(E)-	sabinene hydrate
	0.83	alpha-	terpinene
	0.03	gamma-	terpinene
	0.26	alpha-	thujene
	0.14		undecanal
	1.21	(E)-	verbenol
cypress leaf oil algetian
#	%	Leftshift	Components
32	trace		borneol
24	trace-0.13		bornyl acetate
25	trace	iso	bornyl acetate
36	0.20-0.76	delta-	cadinene + gamma-cadinene
44	trace	alpha-	cadinol
45	trace	delta-	cadinol
40	trace	(Z)-alpha-	calacorene
4	0.20-0.50		camphene
20	trace		camphor
7	19.35-21.13	delta-3-	carene
38	trace-0.08	trans-	carveol + (Z)-calamenene
26	0.14-0.35	beta-	caryophyllene
41	trace		caryophyllene oxide
23	trace-0.19	alpha-	cedrene
43	2.03-3.92		cedrol
19	trace-0.06	alpha-	copaene
18	0.07-0.15	alpha-	cubebene
42	trace		cubenol
39	trace	para-	cymen-8-ol
15	0.21-0.24	para-	cymene
48	0.10-0.28		dehydroabietane
3	0.73-0.81	alpha-	fenchene
17	trace	(Z)-3-	hexen-1-ol
30	trace-0.23	alpha-	humulene
10	2.28-3.31		limonene
21	0.07-0.33		linalool
22	0.11-0.16		linalyl acetate
47	0.12-0.20		manoyl oxide
35	trace-0.10	alpha-	muurolene
34	trace-0.32	gamma-	muurolene
8	3.11-3.48		myrcene + alpha-phellandrene
28	trace		myrtenal
37	trace		myrtenol
13	trace	(E)-beta-	ocimene
12	trace	(Z)-beta-	ocimene
11	0.43-0.54	beta-	phellandrene + 1,8-cineole
2	47.00-52.76	alpha-	pinene
5	1.10-1.37	beta-	pinene
29	trace	trans-	pinocarveol
6	0.74-0.93		sabinene
46	0.26-0.95		sandracopimaradiene
27	0.35-1.01		terpinen-4-ol
9	0.22-0.26	alpha-	terpinene
14	0.41-0.51	gamma-	terpinene
16	trace		terpinolene
33	4.10-6.47	alpha-	terpinyl acetate
31	0.42-1.03	alpha-	terpinyl formate
1	0.09-0.11		tricyclene
N. Chanegriha, A. Baaliouamer, B. Y. Melklati, J. Favre-Bonvin and S. Alamercey, Chemical composition of Algetian cypress essential oil, J, Essent, Oil, Res., 5(6), 671-674 (1993). P&F 20, No. 4, 29, (1995)
eucalyptus urophylla s.t. blake leaf oil ethiopia
#	%	Leftshift	Components
13	1.20	iso	borneol
15	0.20	iso	bornyl acetate
2	0.50		camphene
17	1.10	beta-	caryophyllene
19	0.20		caryophyllene oxide
8	34.50	1,8-	cineole
12	0.70	alpha-	fenchyl alcohol
20	0.50		globulol
5	9.80		limonene
11	0.20		linalool
7	6.80	(Z)-beta-	ocimene
4	0.60	alpha-	phellandrene
6	0.20	beta-	phellandrene
1	13.30	alpha-	pinene
3	9.10	beta-	pinene
18	0.50		spathulenol
9	0.20	gamma-	terpinene
14	5.60	alpha-	terpineol
10	0.50		terpinolene
16	11.60	alpha-	terpinyl acetate
J. of Ess. Oil Res. 12, No. 4, 467, (2000)
rosmarinus officinalis leaf oil CO2 extract
#	%	Leftshift	Components
42	trace		abietatriene
34	0.41	beta-	bisabolene
15	15.56		borneol
23	4.94	iso	bornyl acetate
36	0.35	delta-	cadinene
35	0.26	gamma-	cadinene
25	0.19	alpha-	cadinol
37	0.15		calamenene
2	3.11		camphene
12	15.33		camphor
4	0.39	delta-3-	carene
22	0.26		carvone
28	2.22	beta-	caryophyllene
39	0.37		caryophyllene oxide
40	0.20		cedrane diol
10	20.02	1,8-	cineole
26	0.43	alpha-	cubebene
31	1.28	ar-	curcumene
8	1.81	para-	cymene
20	0.39		dihydrocarveol
38	0.37		farnesene
30	0.38	beta-	gurjunene
9	0.51		limonene
11	3.53		linalool
21	0.48		linalyl acetate
27	0.12		methyl eugenol
33	0.20	alpha-	muurolene
6	0.35		myrcene
16	1.17		nonanol
41	trace		octadecane
5	0.18	1-	octen-3-ol
13	0.80		pinanone
1	8.30	alpha-	pinene
7	0.74	beta-	pinene
14	0.39		pinocarvone
3	0.32		sabinene
29	0.41	alpha-	santalene
32	0.16	alpha-	selinene
17	1.00		terpinen-4-ol
18	1.95	alpha-	terpineol
24	0.69		thymol
43	trace		totarol
19	8.36		verbenone
E. Reverchon and F. Senatore, Isolation of rosemary oil: Comparison between hydrodistillation and supercritical CO2 extraction. Flav. Fragr. J., 7, 227-230 (1992). P&F 17, No. 6, 51, (1992)
sage oil giza egypt
Comparative percentage composition of Salvia offlcinalis oil produced from plants grown in two areas of Egypt, Giza oil
#	%	Leftshift	Components
	0.10		tricyclene
	0.17	alpha-	thujene
	3.81	alpha-	pinene
	3.70	beta-	pinene
	3.82		camphene
	3.85		sabinene
	3.38		myrcene
	0.85	ortho-	cymene
	0.76	para-	cymene
	9.38	1,8-	cineole
	0.10	(Z)-beta-	ocimene
	1.10	gamma-	terpinene
	1.02		linalool
	0.68		terpinolene
	17.72	alpha-	thujone
	2.03	beta-	thujone
	0.05	(Z)-para-	menth-2-en-1-ol
	13.29		camphor
	0.10	(Z)-beta-	terpineol
	0.68	iso	menthone
	0.43	iso	pinocamphone
	2.37		borneol
	1.10	alpha-	terpineol
	1.44		carvone
	0.08		bornyl acetate
	2.20	iso	bornyl acetate
	0.68		sabinene hydrate acetate
	0.68		thymol
	1.70	beta-	caryophyllene
	1.10		aromadendr-9-ene
	3.05	alpha-	humulene
	0.10	allo	aromadendr-9-ene
	1.44		germacrene B
	0.04	gamma-	cadinene
	0.60	delta-	cadinene
	0.85		spathulenol
	0.60		caryophyllene oxide
	3.30		globulol
	0.85		bergamotol acetate
F. M. Soliman, M. A. El-Sohly, M. M. Fathy and F. S. El-Salhawy, A comparitive study of the essential oils from Mentha and Salvia species grown in Egypt. Egypt. J. Pharm. Sci., 38, 553-564 (1997).
tagetes minuta flower oil rwanda
#	%	Leftshift	Components
1	0.63		acetone
28	0.06		artemisyl ketone
33	trace		bornyl acetate
34	trace	iso	bornyl acetate
8	trace		camphene
10	0.11	delta-3-	carene
16	0.04	1,8-	cineole
21	trace	para-	cymene
22	1.03		dihydrotagetone
25	0.16	3,4-	dimethyl octa-2,4,6-triene
7	0.02		ethyl 2-methyl butyrate
6	0.12		ethyl butyrate
15	0.03	2-	hexenal
26	0.14	(Z)-3-	hexen-1-ol
14	1.77		limonene
32	0.17		linalool
23	0.54	para-	menth-4-en-3-one
2	0.03	4-	methyl-2-pentanone
11	trace	1-	methyl-3-isopropyl cyclohexane
13	0.11		myrcene
20	0.17	(E)-beta-	ocimene
17	37.08	(Z)-beta-	ocimene
29	trace	(Z)-beta-	ocimene epoxide
12	0.07	alpha-	phellandrene
36	0.08	2(10)-	pinen-4-one
4	0.03	alpha-	pinene
9	0.28		sabinene
3	0.05		santene
38	6.31	(E)-	tagetenone
37	3.34	(Z)-	tagetenone
30	2.86	(E)-	tagetone
31	35.40	(Z)-	tagetone
35	0.07		terpinen-4-ol
19	trace	gamma-	terpinene
18	0.35		terpinolene
5	trace	alpha-	thujene
27	0.02	2,4,6-	trimethyl anisole
24	trace	1,7,7-	trimethyl bicyclo(3.1.1)heptan-2-one
J. C. Chalchat, R. Ph. Garry and A. Muhayimana, Composition chimique d’huiles essentielles de Tagetes minuta L. du Rwanda. In: Valorisation dela Biomasse Végétale par les produits naturels. Edits., F-X. Garneau and G. J. Collin, p. 295-302, CRDI, Ottawa (1995). P&F 25, No. 6, 32, (2000)
#	%	Leftshift	Components
1	trace		acetone
22	0.30		artemisyl ketone
27	trace		bornyl acetate
28	trace	iso	bornyl acetate
7	trace		camphene
11	trace	delta-3-	carene
16	trace	1,8-	cineole
19	0.30	para-	cymene
20	3.30		dihydrotagetone
6	trace		ethyl 2-methyl butyrate
8	trace		ethyl valerate
15	trace	2-	hexenal
21	0.50	(Z)-3-	hexen-1-ol
14	1.30		limonene
26	trace		linalool
13	trace		myrcene
18	trace	(E)-beta-	ocimene
17	31.80	(Z)-beta-	ocimene
23	0.30	(Z)-beta-	ocimene epoxide
12	trace	alpha-	phellandrene
3	trace	alpha-	pinene
9	trace	beta-	pinene
5	0.50		propyl butyrate
10	0.30		sabinene
2	trace		santene
30	1.80	(E)-	tagetenone
31	6.00	(Z)-	tagetenone
24	3.40	(E)-	tagetone
25	46.00	(Z)-	tagetone
29	0.30		terpinen-4-ol
4	trace	alpha-	thujene
J. C. Chalchat, R. Ph. Garry and A. Muhayimana, Composition chimique d’huiles essentielles de Tagetes minuta L. du Rwanda. In: Valorisation dela Biomasse Végétale par les produits naturels. Edits., F-X. Garneau and G. J. Collin, p. 295-302, CRDI, Ottawa (1995). P&F 25, No. 6, 32, (2000)
thuja orientalis fruit oil
#	%	Leftshift	Components
12	0.20	iso	bornyl acetate
3	2.20		camphene
16	2.50		cedrol
14	1.20		cuparene
8	1.40	para-	cymen-8-ol
10	1.30	para-	cymen-9-ol
17	0.50	beta-	eudesmol
2	2.30	alpha-	fenchene
13	0.30	alpha-	humulene
5	0.90		limonene
6	12.30	beta-	phellandrene
15	0.70	beta-sesqui	phellandrene
1	67.80	alpha-	pinene
11	0.10	iso	pulegyl acetate
4	2.00		sabinene
7	1.10	gamma-	terpinene
9	0.40	alpha-	terpineol
J. of Ess. Oil Res. 12, No. 3, 292, (2000)
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:
#	%	Leftshift	Components
19	1.63		borneol
14	1.17	iso	bornyl acetate
29	0.05	alpha-	cadinol
2	0.30		camphene
11	0.56		camphor
28	3.34		carvacrol
16	0.12	beta-	caryophyllene
23	0.07		caryophyllene oxide
7	1.02	1,8-	cineole
21	0.08		citronellol
9	2.95	para-	cymene
25	0.08		elemol
22	0.14		geraniol
20	0.09		geranyl acetate
6	0.09		limonene
12	7.89		linalool
13	0.06		linalyl acetate
4	0.06		myrcene
1	0.04	alpha-	pinene
3	0.04	beta-	pinene
10	0.36	(E)-	sabinene hydrate
26	0.28		spathulenol
15	1.60		terpinen-4-ol
5	0.02	alpha-	terpinene
8	0.36	gamma-	terpinene
18	0.08	alpha-	terpineol
17	0.11	delta-	terpineol
27	71.84		thymol
24	0.08		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:
#	%	Leftshift	Components
23	4.06		borneol
18	1.04	iso	bornyl acetate
30	0.04	alpha-	cadinol
3	1.76		camphene
15	0.10		camphor
29	1.66		carvacrol
20	0.36	beta-	caryophyllene
27	0.63		caryophyllene oxide
9	1.54	1,8-	cineole
25	0.06		citronellol
12	27.63	para-	cymene
26	0.39		geraniol
24	0.24		geranyl acetate
8	0.13		limonene
16	5.10		linalool
17	0.40		linalyl acetate
6	0.09		myrcene
10	1.14	(Z)-beta-	ocimene
2	2.28	alpha-	pinene
4	0.29	beta-	pinene
5	0.06		sabinene
14	0.22	(E)-	sabinene hydrate
19	1.15		terpinen-4-ol
7	1.91	alpha-	terpinene
11	10.95	gamma-	terpinene
22	0.04	alpha-	terpineol
21	0.03	delta-	terpineol
13	0.15		terpinolene
1	0.08	alpha-	thujene
28	34.18		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)
valeriana officinalis rhizome oil china
#	%	Leftshift	Components
10	1.31	iso	borneol
12	46.22		bornyl acetate
13	0.61	iso	bornyl acetate
26	0.72		bornyl isovalerate
3	23.50		camphene
9	0.33		camphor
14	1.64		carvyl acetate
22	0.50	beta-	caryophyllene alcohol
5	0.40	para-	cymene
21	0.32		decahydro-1,1,4,7-tetramethyl cyclopropazulen-4-ol
20	0.44		decahydro-2,2,4,8-tetramethyl-4,8-methanazulen-9-ol
17	0.33	1,1-	dimethoxy-3,7-dimethyl-2,6-octadiene
16	0.17	1,4-	dimethoxytetramethyl benzene
7	1.37	7,7-	dimethyl-2-methylene bicyclo(3.1.1)heptane
28	1.52	(2Z)-3,7-	dimethyl-2,6-octadien-1-ol isovalerate
23	0.60	2,6-	dimethyl-6(4-methyl-3-pentenyl)-2-cyclohexene-1-carboxaldehyde
24	1.93	4-	ethyl-2,2,4-trimethyl-3-(1-methyl ethenyl) cyclohexene methanol
27	0.61		geranyl isovalerate
18	0.38	beta-	gurjunene
25	0.53		ledol
6	0.77		limonene
8	0.35	3-	methyl 2-norbornane carboxaldehyde
2	5.46	alpha-	pinene
4	3.50	beta-	pinene
11	0.28	2-iso	propyl-5-methyl anisole
1	0.43	alpha-	thujene
19	0.98	4(2,6,6-	trimethyl cyclohexa-1,3-dienyl)but-2-en-4-one
15	0.61	2,2,4-	trimethyl-3-cyclohexene-1-methyl acetate
Y-D. Chen and C-H. Gu, Study on the chemical composition of essential oil from Valeriana officinalis. Lincnan Huaxue Yu Gongye, 9(1), 59-64 (1989). P&F 24, No. 3, 47, (1999)
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:
#	%	Leftshift	Components
32	0.20		aromadendrenol
23	10.83	alpha-	bergamolene
24	2.73	beta-	bisabolene
29	0.14	alpha-	bisabolol
11	0.60		borneol
16	0.10	iso	bornyl acetate
25	0.14	gamma-	cadinene
4	3.71		camphene
9	2.99	1,8-	cineole
21	3.25	ar-	curcumene
12	0.11		decanal
28	0.22		dodecatrienol
19	0.20	beta-	elemene
18	0.23	delta-	elemene
27	0.25		elemol
20	0.18	beta-	farnesene
15	25.06		geranial
14	0.66		geraniol
17	0.12		geranyl acetate
1	0.52		hexanal
7	0.43		limonene
10	0.46		linalool
2	0.11	3-	methyl hexanol
6	0.53		myrcene
13	2.87		neral
35	0.08	6-	paradol
34	0.20		pentenyl curcumene
8	1.63	beta-	phellandrene
26	8.18	beta-sesqui	phellandrene
5	0.08	beta-	pinene
30	0.22	(Z)-sesqui	sabinene hydrate
36	0.31	6-	shogaol
3	0.93	alpha-	thujene
31	0.15		zingerenol
22	25.87		zingiberene
33	0.64		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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