| Cuphea llavea miniata |
Cuphea llavea seed oil, a good source of capric acid Wilson, T. L.; Miwa, T. K.; Smith Jr, C. R. Journal of the American Oil Chemists Society (1960) 37 675-676 |
6.3 |
GLC-Area-% |
| Camellia oleifera |
not found Tang; Lo Bayer; E. not found (1991) Sept. |
6.3 |
GLC-Area-% |
| Garrya congdonii |
Search for new industrial oils: XVI. Umbelliflorae-seed oils rich in petroselinic acid Kleiman, R.; Spencer, G. F. Journal of the American Oil Chemists' Society (1982) 59 29-38 |
6.3 |
GLC-Area-% |
| Rhus succedanea |
CHARACTERISTICS OF MAJOR FATTY-ACID COMPONENTS OF HAZE WAX FROM DIFFERENT CULTIVARS AND HABITATS Xu, J.; Kawachi, S. Mokuzai Gakkaishi (1988) 34 436-442 |
6.24 |
GLC-Area-% |
| Lagerstroemia speciosa |
Analysis of Hiptage madablota seed oil Badami, R. C.; Kudari, S. M. Journal of the Science of Food and Agriculture (1970) 21 248-9 |
6.2 |
GLC-Area-% |
| Crambe hispanica |
Differences in fatty acid composition of oils of wild cruciferae seed Yaniv, Z.; Elber, Y.; Zur, M.; Schafferman, D. Phytochemistry (1991) 30 841-843 |
6.2 |
GLC-Area-% |
| Manihot esculenta |
Contribution a L'etude des Micronutriments du Manioc: Les Acides Gras. Resultats Preliminaires Dongala, E. B. et al. Journal de la Societe chimique de Tunisie (1988) 2 41 |
6.2 |
GLC-Area-% |
| Mangifera indica |
Fatty substances of mango seeds (Mangifera indica L.) Analytical characteristics and possibilities of use in confectionery. Note 1: Fatty acid composition and glyceridic structure Tiscornia, E.; Paganuzzi, V.; Leoni, E. Rivista Italiana delle Sostanze Grasse (1979) 56 332-338 |
6.1 |
GLC-Area-% |
| Garrya fremontii |
Search for new industrial oils: XVI. Umbelliflorae-seed oils rich in petroselinic acid Kleiman, R.; Spencer, G. F. Journal of the American Oil Chemists' Society (1982) 59 29-38 |
6.1 |
GLC-Area-% |
| Holarrhena antidysenterica |
The chemical constitution of natural fats Hilditch, T. P.; Williams, P. N. Book: The chemical constitution of natural fats. (1964) xv+745 pp.-xv+745 pp. |
6.1 |
weight-% |
| Rhus succedanea |
CHARACTERISTICS OF MAJOR FATTY-ACID COMPONENTS OF HAZE WAX FROM DIFFERENT CULTIVARS AND HABITATS Xu, J.; Kawachi, S. Mokuzai Gakkaishi (1988) 34 436-442 |
6.07 |
GLC-Area-% |
| Rhus succedanea |
MAJOR FATTY-ACID CONTENTS OF HAZE WAX CHANGES DURING THE GROWTH AND STORAGE PERIODS OF HAZE SEEDS Xu, J. S.; Meguro, S.; Kawachi, S. Mokuzai Gakkaishi (1990) 36 133-138 |
6.0 |
GLC-Area-% |
| Cuphea llavea miniata |
Search for new industrial oils, IX. Cuphea, a versatile source of fatty acids Miller, R. W.; Earle, F. R.; Wolff, I. A.; Jones, Q. Journal of the American Oil Chemists' Society (1964) 41 279-280 |
6.0 |
GLC-Area-% |
| Cuphea hookeriana |
Search for new industrial oils, IX. Cuphea, a versatile source of fatty acids Miller, R. W.; Earle, F. R.; Wolff, I. A.; Jones, Q. Journal of the American Oil Chemists' Society (1964) 41 279-280 |
6.0 |
GLC-Area-% |
| Lepidium virginicum |
Search for new industrial oils. V. Oils of cruciferae Mikolajczak, K. L.; Miwa, T. K.; Earle, F. R.; Wolff, I. A.; Jones, Q. Journal of the American Oil Chemists Society (1961) 38 678-681 |
6.0 |
GLC-Area-% |
| Lesquerella lindheimeri |
Search for new industrial oils. VI. Seed oils of the genus Lesquerella Mikolajczak, K. L.; Earle, F. R.; Wolff, I. A. Journal of the American Oil Chemists Society (1962) 39 78-80 |
6.0 |
GLC-Area-% |
| Sapindus saponaria |
Eicosenoic acid and other fatty acids of Sapindaceae seed oils Hopkins, C. Y.; Swingle, R. Lipids (1967) 2 258-260 |
6.0 |
GLC-Area-% |
| Irvingia gabonensis |
THE CHARACTERISTICS INDEXES AND THE MAJOR FATTY-ACID COMPONENTS OF OILS FROM THE LESS COMMON OILSEEDS 1. PENTACLETHRA-MACROPHYLLA AND IRVINGIA-GABONENSIS Onwuka, N. D.; Peczak, R.; Babuchowski, A. Rivista Italiana delle Sostanze Grasse (1984) 61 569-572 |
6.0 |
GLC-Area-% |
| Quassia amara |
NEW TROPICAL SEED OILS .4. COMPONENT ACIDS OF LEGUMINOUS AND OTHER SEED OILS INCLUDING USEFUL SOURCES OF CREPENYNIC AND DEHYDROCREPENYNIC ACID Gunstone, F. D.; Hammonds, T. W.; Steward, S. R.; Corneliu.Ja, Journal of the Science of Food and Agriculture (1972) 23 53-60 |
6.0 |
GLC-Area-% |
| Momordica charantia |
Glyceride studies: Part IX: Intraglyceride distribution of vernolic acid and of five conjugated octadecatrienoic acids in seed glycerides Conacher, H. B. S.; Gunstone, F. D.; Hornby, G. M.; Padley, F. B. Lipids (1970) 5 434-441 |
6.0 |
GLC-Area-% |
| Lesquerella argyraea |
Search for new industrial oils. VI. Seed oils of the genus Lesquerella Mikolajczak, K. L.; Earle, F. R.; Wolff, I. A. Journal of the American Oil Chemists Society (1962) 39 78-80 |
6.0 |
GLC-Area-% |
| Chrysobalanus icaco |
New tropical seed oils. Part I. conjugated trienoic and tetraenoic acids and their oxo derivatives in the seed oils of Chrysobalanus Icaco and Parinarium Laurinum Gunstone, F.D.; Subbarao, R. Chemistry and Physics of Lipids (1967,8) 1 349-359 |
6.0 |
GLC-Area-% |
| Isatis aleppica |
Search for new industrial oils. XIII. Oils from 102 species of cruciferae Miller, R. W.; Earle, F. R.; Wolff, I. A.; Jones, Q. Journal of the American Oil Chemists' Society (1965) 42 817-821 |
6.0 |
GLC-Area-% |
| Impatiens edgeworthii |
Stereochemistry of α-parinaric acid fromImpatiens edgeworthii seed oil Bagby, M. O.; Smith, C. R.; Wolff, I. A. Lipids (1966,7) 1 263-267 |
6.0 |
GLC-Area-% |
| Nelumbium speciosum |
Further investigations on leguminosae seed oils Averna, V.; Lotti, G.; Tartaglia, F. P. Rivista Italiana delle Sostanze Grasse (1969) 46 602-06 |
6.0 |
GLC-Area-% |
| Lesquerella lindheimeri |
Search for new industrial oils. VI. Seed oils of the genus Lesquerella Mikolajczak, K. L.; Earle, F. R.; Wolff, I. A. Journal of the American Oil Chemists Society (1962) 39 78-80 |
6.0 |
GLC-Area-% |
| Lesquerella ovalifolia |
Search for new industrial oils. VI. Seed oils of the genus Lesquerella Mikolajczak, K. L.; Earle, F. R.; Wolff, I. A. Journal of the American Oil Chemists Society (1962) 39 78-80 |
6.0 |
GLC-Area-% |
| Buchanania lanzan |
TRIGLYCERIDE COMPOSITION OF BUCHANANIA-LANZAN SEED OIL Sengupta, A.; Roychoudhury, S. K. Journal of the Science of Food and Agriculture (1977) 28 463-468 |
6.0 |
GLC-Area-% |
| Lesquerella lasiocarpa |
Search for new industrial oils. VI. Seed oils of the genus Lesquerella Mikolajczak, K. L.; Earle, F. R.; Wolff, I. A. Journal of the American Oil Chemists Society (1962) 39 78-80 |
6.0 |
GLC-Area-% |
| Lesquerella gordonii |
Epoxidation of Lesquerella and Limnanthes (Meadowfoam) oils Carlson, K. D.; Kleiman, R.; Bagby, M. O. Journal of the American Oil Chemists' Society (1994) 71 175-182 |
6.0 |
GLC-Area-% |
| Carica papaya |
NEW TROPICAL SEED OILS .4. COMPONENT ACIDS OF LEGUMINOUS AND OTHER SEED OILS INCLUDING USEFUL SOURCES OF CREPENYNIC AND DEHYDROCREPENYNIC ACID Gunstone, F. D.; Hammonds, T. W.; Steward, S. R.; Corneliu.Ja, Journal of the Science of Food and Agriculture (1972) 23 53-60 |
6.0 |
GLC-Area-% |
| Cuphea parsonsia |
Cuphea: A new plant source of medium‐chain fatty acids Graham, Shirley A.; Knapp, Steven J. Critical Reviews in Food Science and Nutrition (1989,1) 28 139-173 |
6.0 |
GLC-Area-% |
| Dimocarpus longan |
Dihydrosterculic acid, a major fatty acid component of Euphoria longana seed oil Kleiman, R.; Earle, F. R.; Wolff, I. A. Lipids (1969) 4 317-320 |
6.0 |
GLC-Area-% |
| Butyrospermum parkii |
Enzyme-assisted aqueous extraction of fat from kernels of the shea tree, Butyrospermum parkii Tano-Debrah, K.; Ohta, Y. Journal of the American Oil Chemists' Society (1994) 71 979-983 |
5.9 |
GLC-Area-% |
| Tropaeolum minus |
GC/MS and HPLC Study on the Seed Oil of Tropaeolum Species E. Hethelyi, E. Dabine Lengyel, P.Tetenyi, Gy. Buki, I. Zambo Herba Hung. (1986) 25 129 |
5.9 |
GLC-Area-% |
| Camellia oleifera |
VARIATIONS OF FATTY-ACID COMPOSITIONS IN GROWING AND STORED CAMELLIA SEEDS Xu, J. S.; Meguro, S.; Kawachi, S. Mokuzai Gakkaishi (1995) 41 98-102 |
5.84 |
GLC-Area-% |
| Anethum graveolens |
Das Vorkommen einer ungewohnlichen Fettsaure, der Petroselinsaure in der Familie der Doldengewachse als Ausgangspunkt fur die Entwicklung neuer Olfruchte -Bestandsaufnahme und kritische Wurdigung- Hondelmann, Walter Landbauforschung Voelkenrode (1985) 35 185 |
5.8 |
GLC-Area-% |
| Anethum graveolens |
Other specific types of oil plants that can be considered as potential industrial plants (Google Translate from German) Dambroth, M. Bramm, A. Reihe A. Angewandte Wissenschaft (1990) 391 82 |
5.8 |
GLC-Area-% |
| Anethum graveolens |
Search for new industrial oils: XVI. Umbelliflorae-seed oils rich in petroselinic acid Kleiman, R.; Spencer, G. F. Journal of the American Oil Chemists' Society (1982) 59 29-38 |
5.8 |
GLC-Area-% |
| Brachystegia eurycoma |
Oil content and fatty acid composition of some underutilized legumes from Nigeria Ajayi, I. A.; Oderinde, R. A.; Kajogbola, D. O.; Uponi, J. I. Food Chemistry (2006) 99 115-120 |
5.73 |
GLC-Area-% |
| Cuphea carthagenensis |
Seed lipids of the lythraceae Graham, S. A.; Kleiman, R. Biochemical Systematics and Ecology (1987) 15 433-439 |
5.7 |
GLC-Area-% |
| Protea compacta |
The fatty acid composition of the seed oils of proteaceae: A chemotaxonomic study Vickery, J. R. Phytochemistry (1971) 10 123-130 |
5.7 |
GLC-Area-% |
| Bactris gasipaes |
New Exotic Palms for Plantations Rajanaidu; N. et al. PORIM Int. Palm Oil Conf. Agriculture (1991) None 19 |
5.6 |
GLC-Area-% |
| Mangifera indica |
Fatty substances of mango seeds (Mangifera indica L.) Analytical characteristics and possibilities of use in confectionery. Note 1: Fatty acid composition and glyceridic structure Tiscornia, E.; Paganuzzi, V.; Leoni, E. Rivista Italiana delle Sostanze Grasse (1979) 56 332-338 |
5.5 |
GLC-Area-% |
| Lindera setchuenensis |
Studies on the distribution of fatty acids in the oils of the Family Lauraceae Wang Jing-ping Meng Shao-jiang Li Jing-min Acta Botanica Sinica (1985) 27 177-185 |
5.5 |
GLC-Area-% |
| Cuphea carthagenensis |
Cuphea: A new plant source of medium‐chain fatty acids Graham, Shirley A.; Knapp, Steven J. Critical Reviews in Food Science and Nutrition (1989,1) 28 139-173 |
5.5 |
GLC-Area-% |
| Abrus precatorius |
STUDY ON FATTY-ACID COMPOSITION OF VEGETABLE SEED OILS FROM MADAGASCAR Gaydou, E. M.; Ramanoelina, A. R. P. Revue Francaise Des Corps Gras (1983) 30 21-25 |
5.5 |
GLC-Area-% |
| Sopubia delphinifolia |
Sopubia delphinifolia seed oil: a new source of palmitoleic acid Farooqi, Javed A. Chemistry & Industry (1986) None 328 |
5.5 |
GLC-Area-% |
| Hordeum vulgare |
Lipids of six cultivated barley (Hordeum vulgare L.) varieties Price, P. B.; Parsons, J. G. Lipids (1974) 9 560-566 |
5.5 |
GLC-Area-% |
| Butyrospermum parkii |
STUDY OF THE GLYCERIDE STRUCTURE OF SHEA BUTTER Sawadogo, K.; Bezard, J. Oleagineux (1982) 37 69-74 |
5.5 |
GLC-Area-% |
