Abstract
The challenge of the future is the adequate production of food for an ever increasing population utilizing an ever decreasing area of arable land and the keeping of food production in harmony with the environment. Modern processing techniques produce significant amounts of by-products that are now being used as fertilizer or just dumped creating pollution problems. As the cost for handling waste increases, a point may be reached where it becomes economically feasible to recover from the waste potentially edible oils and protein. Often the wastes that still contain potentially recoverable oil and protein are produced in areas where these food components are in short supply. The recovery of edible oil from by-products of food processing increases the source of this edible commodity and turns potential pollutants, which may be costly to control, into useful cash producing commodities.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Abd El-aal, A.H., Hamza, M.A. and Rahma, E.H. (1986) In vitro digestibility, physicochemical and functional properties of apricot kernel protein. Food Chem. 19, 197.
Achinewhu, S.C. (1982) The nutritive qualities of plant foods: chemical and nutritional composition of breadfruit (Artocarpus utilis) and climbing melon seed (Colocynthis vulgaris). Nutr. Rep. Int. 25, 643–647.
Adjewole, K. and Adeyeye, A. (1991) Seed oil of white star apple (Chrysophyllum albidum) physicochemical characteristics and fatty acid composition. J. Sci. Food Agric. 54, 313–315.
Amelotti, G., Garota, W. and Federico, L.G. (1967) Fatty acid composition of some vegetable oils. Riv. Ital. Sostanze Grasse 44, 372–378.
Anelli, G., Izzo, R. and Lotti, G. (1971) Seed oils of a group of plum varieties. Agric. Ital. 71, 1–11.
Anon (1991) On the naming of olive oil. Inform 2, 104.
Badami, R.L., Patil, K.B., Gayathri, K. and Alawadi, K.R. (1985) Minor seed oils. 15. Physicochemical characteristics and fatty acid composition of four seed oils. J. Food Sci. Technol. India 22, 74.
Balbi, G. and Massoni, R. (1964) L’Huile de pepine de raisin en France. Double Liaison 105, 61.
Baroso, M.A.T., Fe, J.A.M., Whiting, F.M., Brown, W.H. and Stull, J.W. (1972) Grape-fruit seed oil sterols. J. Am. Oil. Chem. Soc. 49, 85–86.
Bertoni, M., Karman de Sutton, G. and Cattaneo, Y.P. (1963) Argentinian tomato seed oils, Anal. Assoc. Quim. Argentina 51, 149–157.
Bertoni, M.H., DeSutton, G.K. and Cattaneo, Y.P. (1966) Chemical composition of grape seed oil. Anal. Assoc. Quim. Argentina 54, 89–99.
Bianchini, F. and Corbetta, F. (1976) The Complete Book of Fruit and Vegetables, Crown Publishers, New York, 303 pp.
Braddock, R.J. and Kesterson, J.W. (1973) Citrus seed oils. Bulletin 756, Agricultural Experiment Station, University of Florida, Gainesville, 30 pp.
Burley, P. (1992) Thailand: vegetable oil supply and demand set to take off. Oil Fats Int. 5, 27–28.
Canella, M., Cardinali, F., Castriotta, G. and Nappucci, R. (1979) Chemical characteristics of different tomato seeds varieties. Riv. Ital. Sostanze Grasse 56, 8–11.
Capella, P., Lercker, G. and Tiscornia, E. (1979a) The chemical composition of grape seed oil. Note 1: Fatty acid composition and structure of glycerides. Riv. Ital. Sostanze Grasse 56, 297–299.
Capella, P., Lercker, G. and Tiscornia, E. (1979b) The chemical composition of the grapeseed oil. Note 2: Composition of unsaponifiable fraction. Riv. Ital. Sostanze Grasse 56, 300–307.
Carol, I. and Grigore, B. (1963-1964) Determination of fatty acids in vegetable oils. Lucrarile Institului de Cercetari Alimentare 7, 451–468.
Carola, C. (1975) Byproducts, in: Manual of Olive Oil Technology, Food and Agriculture Organization of the United Nations, Rome, Ch. 7.
Carpenter, D.L., Lehman, J., Mason, B.S. and Slover, H.T. (1976) Lipid composition of selected vegetable oils. J. Am. Oil Chem. Soc. 53, 713–718.
Catalano, M. (1972) La distribuzione degli acidi grassi nei gliceride degli oli vegetali ricchi di acido linoleico. Riv. Ital. Sostanze Grasse 49, 398–403.
Cloughley, J.B. (1983) Production of an edible oil from tea seed fatty acid composition, in Tropical Agriculture, Butterworths, Guildford, Vol. 60, pp. 139-140.
Costa, H.M.P. and Sameiro, M.E.M. (1979) 12th Survey of Portuguese Olive Oil Quality, 1977-1978 season. Bol. Inst. Azeite Productos Oleaginosa 7, 5–30.
DeSutton, K., Bertoni, M.H., Cattaneo, P., Abitbol, J. and Denett, J.M. (1966) Olive oils. 6. Effect of the botanical variety on the chemical composition. Rev. Arg. Grassas Aceites 8, 3–12.
Devshony, S., Eteshola, E. and Shani, A. (1992) Characteristics and some potential applications of date palm (Phoenix dactylifera L.) seeds and seed oil. J. Am. Oil Chem. Soc. 69, 595–597.
Diedrichs, A. (1914) Ueber bisher wenig untersuchte Samen und deren Oele. 2. Apfelsinen und Citronensamen. Z. Untersuchung Nahrung Genussmittel 27, 132–135.
Eckey, E.W. (1954) Vegetable Fats and Oils, Reinhold, New York, pp. 548-553.
El-Tamini, A., Morad, M., Raof, M. and Rady, A. (1979) Tomato seed oil I: Fatty acid composition, stability and hydrogenation of the oil. Fette Seifen Anstrichm. 81, 281–284.
Fellers, D.A. (1991) Rice bran stabilization and recovery of edible oil — technical and financial feasibility. Food Rev. Int. 7, 445–482.
Filsoof, M. and Mehran, M. (1976) Fatty acid composition of Iranian citrus seed oils. J. Am. Oil Chem. Soc. 53, 654–655.
Filsoof, M., Mehran, M. and Farrohi, F. (1976) Determination and comparison of oil characteristics in Iranian almonds, apricot and peach nuts. Fette Seifen Anstrichm. 78, 150-151.
Franzke, C., Phuoc, D. and Hollstein, E. (1971) Fatty acid composition of wild oil plants of Vietnam. Fette Seifen Anstrichm. 73, 639–642.
Gaydouem, E.M. (1988) Chemical evaluation of Uruguayan Cucurbitaceae seeds as potential sources of vegetable oils. Fat Sci. Technol. 12, 487–490.
Gaydou, E.M., Miralles, J. and Rasoazanakolona, V. (1987) Analysis of conjugated octadecatrienoic acids in Monmordica balsamica seed oil by GLC and NMR spectroscopy. J. Am. Oil Chem. Soc. 64, 997–1000.
Gescon, I. and Giovetti, G.L. (1962) Acidi grassi e caratteristiche chimico-fisich dell’olio estratto da semi di differenti varieta di pomodoro. Riv. Ital. Sostanze Grasse 39, 349–352.
Gurr, M.I. and James, A.T. (1975) Lipid Biochemistry: An Introduction, Chapman and Hall, London, 165 pp.
He, S.N. and Gu, Y. (1982) The comprehensive utilization of camellia fruits in China, seed oil for cooking industrial uses, fuel, fertilizer. Am. Camellia Yearb. 37, 104–106.
Helmy, H.E. (1990) Studies on the pigments of some citrus, prune and cucurbit seed oils when processed with or without cottonseed oil. J. Am. Oil Chem. Soc. 67, 376–380.
Hendrickson, R. and Kesterson, J.K. (1961) Grapefruit seed oil. Froc. FL. State Hort. Soc. 74, 219–223.
Hendrickson, R. and Kesterson, J.K. (1963) Florida lemon seed oil. Proc. FL. State Hort. Soc. 76, 249–253.
Hendrickson, R. and Kesterson, J.K. (1964) Seed oils from Florida mandarins and related varieties. Proc. FL. State Hort. Soc. 77, 347–351.
Hendrickson, R. and Kesterson, J.K. (1965) By-products of Flordia citrus. FL. Argic. Exp. Sta. Bull. 698, 44–52.
Jacks, T.J. (1986) Cucurbit seed protein and oil. Plant Proteins 312, 249–260.
Jacks, T.J., Hensarling, T.P. and Yates, L.Y. (1972) Cucurbit seeds: 1. Characterizations and uses of oils and proteins. A review. Econ. Bot. 26, 135–141.
Jart, A. (1959) The fatty acid composition of shea butter and olive kernel oil. Acta Chem. Scand. 13, 1723–1725.
Juliano, B.O. (1985) Rice bran, in Rice: Chemistry and Technology, ed. B.O. Juliano, American Association of Cereal Chem., St. Paul, MN, 774 pp.
Kamel, B.S. and Kakuda, Y. (1992) Characterization of the seed oil and meal from apricot, cherry, nectarine, peach and plum. J. Am. Oil Chem. Soc. 5, 492–494.
Kamel, B.S., DeMan, J.M. and Blackman, B. (1982) Nutritional, fatty acid and oil characteristics of different agricultural seeds. J. Food Technol. 17, 263–269.
Kaplan, P. (1941) Treating textile fibers such as silk, wool and rayons. US Patent 2,229,975, January 28.
Kapoor, N., Bedi, K.L. and Bhatia, A.K. (1987) Chemical composition of different varieties of apricots and their kernels grown in Ladakh region. J. Food Sci. Technol. 24, 141–142.
Khan, S.A., Muhammad, D., Khan, M.J.I. and Bhatty, M.K. (1985) The fatty acids of indigenous resources for possible industrial applications. 7. Investigation of the species of cucurbitaceae family. Pakistan J. Sci. Ind. Res. 28, 27–30.
Kim, J.C. and Rhee, J.S. (1980) Studies on processing and analysis of red pepper seed oil. Korean J. Food Sci. 12, 126–132.
Kinsella, J.E. (1971) Composition of the lipids of cucumber and peppers. J. Food Sci. 36, 865–866.
Kinsella, J.E. (1974) Grape seed oil: a rich source of linoleic acid. Food Technol. 28, 58–60.
Lamikanra, O. and Lamikanra, V.T. (1989) Muscadine grape seed oils. J. Food Quai. 12, 183–191.
Latief, A., Salib, A.G., Abdel-Malek, G.S. and Abdel-Gabbar (1976) Biochemical studies on olive cakes. Egypt. J. Food Sci. 4, 73–80.
Lazos, E.S. (1986) Nutritional, fatty acid, and oil characteristics of pumpkin and melon seeds. J. Food Sci. 51, 1382–1383.
Liener, L.E. (1966) Intoxicants Occurring Naturally in Food, NAS/NRC Publication 1354, Washington DC, p. 58.
Lotti, G. and Anelli, G. (1969) The seed oils of Prunus persica sieb. Riv. Ital. Sostanze Grasse 46, 110–114.
Lotti, G. and Gallopini, C. (1965) Nature of the lipids contained in the germinal organs and reserve tissues of seeds. Riv. Ital. Sostance Grasse 6, 289–297.
Lotti, G., Pisano, G. and Baragli, S. (1970a) Characterization of apricot seed oils. Riv. Ital. Sostanze Grasse 47, 867–872.
Lotti, G., Pisano, G., Anelli, G. and Baragli, S. (1970b) The oils of seeds of a list of cultivars of cherries. Sci. Alimentazione 7, 248–253.
Luthra, R., Sharma, B.N. and Paul, Y. (1980) Comparative study of lipids of seed kernels of some prunus species. Plant Biochem. J. 7, 159–166.
Madaan, T.R. and Lal, D.M. (1984) Some studies on the chemical composition of cucurbit kernels and their seed coats. Quai. Plant Food Human Nutr. 34, 81–86.
Malik, O.P., Sanwan, N.K. and Malik, M.S. (1984) Chemical investigation of family cucurbitaceas 1. Level of fatty oil and fatty acid composition in the seed of Cucumis mela and Cucumis sativus, in Recent Trends in Forest Utilization, eds. R.K. Suzi and K.C. Mathur, International Book Distributions, pp. 23-27.
Mannino, S. and Amelotti, G. (1975) Sterol composition of thirty vegetable oils determined by GLC using two phases of different polarity. Riv. Ital. Sostanze Grasse 53, 78–79.
Marquard, R. (1973) Changes in the fatty acid composition of different vegetable oils caused by breeding and environmental conditions. Z. Lebensm. Unters. Forsch. 153, 354–362.
Mattick, L.R. and Rice, A.C. (1976) Fatty acid composition of grape seed oil from native American hybrid grape varieties. Am. J. Enol. Viticult. 27, 88–90.
Mazliak, P. and Pommier-Mirrard, J. (1963) Les lipides de la pomme. Fruits 18, 177–183.
Miric, M., Lalic, A. and Miletic, I. (1977) Peirog Poznavanju sastava semena grozda. Hrana Ishrana 18, 227–232.
Morad, M.M., El-Magoli, S.B. and Sedky, K.A. (1978) Physico-chemical properties of the Egyptian tamarind seed oil. Fette Seifen Anstrichm. 80, 357–359.
Morad, M., El-Tamini, A., Rady, A. and Ibrahim, S. (1980) Tomato seed oil II: Evaluation of the Egyptian tomato seed oil and the residual meal. Fette Seifen Anstrichm. 82, 122-123.
Morand, P. (1959) L’huile de pepins de raisins. Trav. Soc. Pharm. Montpellier 19, 51.
Nago, A. and Yamazaki (1984) Effects of temperature during maturation on fatty acid composition of sunflower seed. Agric. Biol. Chem. 48, 553–555.
Neubeller, J. and Buchloh, G. (1970) Studies on the development of fatty substances and the fatty acid pattern in the seeds of different varieties of fruits. Fruchtverwertung 20, 305-313.
Neubeller, J. and Buchloh, G. (1971) Tests to determine fatty acid patterns in the seeds of different plants, in particular fruit sorts. 2, Lehrstuhl fur Obstbau der Universität Hohenheim, Stuttgart-Hohenheim. Versuch. Mitt. 21, 469–483.
Nolle, A.J. and von Loesecke, H. (1940) Grapefruit seed oil: manufacture and physical properties. Ind. Eng. Chem. 32, 1244–1246.
Nordby, H.E. and Nagy, S. (1969) Fatty acid profiles of citrus juice and seed lipids. Phytochemistry 8, 2027–2039.
Ohinishi, M., Hirose, S., Kawaguchi, M., Ito, S. and Fujino, Y. (1990) Chemical composition of lipids, especially triacylglycerols in grape seeds. Agric. Biol. Chem. 54, 1035–1042.
Park, S.K. and Chun, J.K. (1977) J. Korean Agr. Chem. Soc. 20, 95.
Piorr N.W. and Novakovic, N. (1970) Zusammensetzung der Fettsauren and Tocopherole einiger Traubenkerkoele. Z. Lebensmittel Forsch. 144, 252–256.
Ramel, P., LeClerc, A.M., Dumain, J. and Faucuquemberg, D. (1965) Investigation of behavior of some edible oils during frying and overheating. Rev. Fr. Corps. Gras. 12, 153.
Reddy, B.S. and Sarojini, G. (1987) Chemical and nutritional évaluation of chili (Capsicum annum) seed oil. J. Am. Oil. Chem. Soc. 64, 1419–1422.
Rubio, F.C., Nieto, L.M. and Grime, E.M. (1979) Influence of alkaline neutralization of olive foot cake using hexane as a solvent, in the fatty acid composition. Grassas Aceites 30, 373–375.
Rymal, K.S., Smit, C.J.B. and Nakayama, T.O.M. (1974) Fatty acid and amino acid composition of the seeds of three cultivars of the tomato, Lycopersicon esculentum L. J. Am. Soc. Hort. Sci. 99, 12–15.
Sangwan, N.K., Malik, O.P., Dhindsa, K.S. and Malik, M.S. (1989) Chemical investigation of family Cucurbitaceae, part 2. Variation in the level of fatty oil and its composition in Citrullis vulgaris varieties. Harayana Agric. Univ. Hissar, 125004.
Santos, A.I. (1982) Studies: some characteristics of tomato seed oil. Bol. Inst. Azeite Prod. Oleaginosos 10, 5–31.
Saria, Y.K. and Kapahi, B.K. (1986) Commercial utilization of seeds from some west Himalayan trees, in Plantation Crops — Opportunities and Constraints, Vol II, eds. H.C. Etrivastara, B. Vatsya and K.K.G. Menon, Oxford and IBH, New Delhi, pp. 163-170.
Sawaya, W.N., Khalil, J.K. and Safi, W.J. (1984) Chemical composition and nutritional quality of date seeds. J. Food Sci. 49, 617–619.
Singleton, V.L., Draper, D.E. and Rossi, A.J.A. Jr. (1966) Paper chromatography of phenolic compounds from grapes, particularly seeds and some variety-ripeness relationships. Am. J. Enol. Viticult. 17, 206–217.
Stambovsky, L. (1942) Citrus seed oil. Drug Cosmet. Ind. 51, 156–157.
Subrahmanyam, V.V.R. and Achaya, K.T. (1957) Lesser known Indian vegetable fats. 2. Linoleic-rich fats. J. Sci. Food Agric. 8, 662–666.
Teles, F.F., Whiting, F.M., Brown, W.H. and Stull, J.W. (1972) Triglyceride fatty acids of Arizona grapefruit seed oil. Froc. FL. State Hort. Soc. 76, 249–253.
Tezuka, T., Kuga, T. and Suzuki, S. (1961) Fatty acid composition of edible fats and oils. (Gas-liquid chromatographic analysis). Annu. Rep. Natl. Inst. Nutr. (Tokyo), 11-13.
Tiscornia, E. and Bertini, G.C. (1974) Ulteriori indagini sulla specifïca distributione degli acidi grassi nei triglyceridi di oli vegetal ricchi di acido linoleico. Riv. Ital. Sostanze Grasse 51, 333–347.
Tiscornia, E., Camurati, F., Gastaldo, P. and Pagano, M.A. (1976) La frazione sterolica dell’olio di pomodoro (Lycopersicon esculentum Miller). Riv. Ital. Sostanze Grasse 53, 119–129.
Tokue, C., Kataoka, E. and Tanimura, W. (1989) Characterization of lipids in tea seeds cultivated in Taiwan and Japan. J. Jpn. Soc. Nutr. Food Sci. 42, 71–17.
Traitler, H., Wynter, H., Richli, U. and Ingenbleek, Y. (1987) Characterization of gammalinolenic acid in ribes seed. Nestle Res. News, 191-194.
Traitler, H., Wille, M.J. and Stuber, A. (1988) Fractionation of black currant seed oil. J. Am. Oil Chem. Soc. 65, 755–760.
Tsatsaronis, G.C. and Boskou, D.G. (1972) Fatty acid composition of tomato seed oil. Assoc. Off. Anal. Chem. J. 55, 645–647.
Tsatsaronis, G.C. and Kemayoglou, A.H. (1971) Fatty acid composition of capsicum oils by gas liquid chromatography. J. Am. Oil. Chem. Soc. 48, 365–367.
Tsuyuki, M., Itoh, S. and Yamagata, K. (1985) Lipid and triacylglycerol compositions of total lipids in pumpkin seeds. Nippon Shokuhin Kogyo Gakkaishi 32, 7–15.
Umarov, A.U. (1971) Oil from tomato seeds. Maslo-Zhir. Promst. 37, 12–14.
Umarov, A.U. and Markman, A.L. (1968) Oil of the seeds of Luffa cyclinrica. Khim. Prir. Soedi. 4, 187.
US Department of Agriculture, Human Nutrition Information Service (1979) Composition of foods: fats and oils; raws, processed, prepared. Agric. Handb. No. 8-4, 142 pp.
US Department of Agriculture (1991) Agricultural Statistics, United States Government Printing Office, Washington, 524 pp, ISBN 0-16-036158-3.
Vallejo, G., Martinez-Massanet, G., Montiel, T.J.A., Ramos, P.E. and Luis, R.F. (1984) Extriccion y estupiao del aceite de semila de uva Palomino. III. Jornadas Universitaris Sobre El Jerez 21 AL 25 de Mayo, 43-58
Van Ata, G.R. and Dietrich, W.C. (1944) Valencia orange seed oil. Oil Soap 21, 19–22.
Vasconcellos, J.A. and Berry, J.W. (1982) Characteristics of laboratory processed Cucurbita foetissima seed oil. J. Am. Oil Chem. Soc. 48, 79–84.
Vasconcellos, J.A., Bemis, W.P., Berry, J.W. and Weber, C.W. (1981) The buffalo gourd, cucurbia foetidissima MBK, as a source of edible oil. Monogr. Am. Oil Chem. Soc. Champaign, IL. 9, 55–68.
Woidich, H., Galinovsky, E. and Gnauer, H. (1964) Pumpkin seed oil. Dtsch. Lebensm.-Rundsch. 60, 69–71.
Yazicioglu, T., Karaali, A. and Gokcen, J. (1977) Turkish tea seed oil and tea saponin. Fette Seifen Anstrichm. 79, 115–120.
Yokochi, K. (1977) Rice bran processing for the production of rice bran oil and deoiled bran, in Proceedings Rice By-products Utilization, Int. Conf., Valencia, Spain, 1974, Vol. 3 — Rice Bran Utilization: Oil, eds. S. Barber and E. Tortosa, Inst. Agroquim, Technol. Aliment., Valencia, Spain, pp. 1-38.
Yokochi, K. (1978) Efficiency test with a new type of stabilizer in Burma, in Rice Report 1977, eds. S. Barber, H. Mitsuda, H.S.Z. Kesikachar and E. Tortosa, Inst. Agroquim. Technol. Aliment., Valencia, Spain, pp. 141-143.
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1994 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Weihrauch, J.L., Teter, B.B. (1994). Fruit and vegetable by-products as sources of oil. In: Kamel, B.S., Kakuda, Y. (eds) Technological Advances in Improved and Alternative Sources of Lipids. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-2109-9_7
Download citation
DOI: https://doi.org/10.1007/978-1-4615-2109-9_7
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-5878-7
Online ISBN: 978-1-4615-2109-9
eBook Packages: Springer Book Archive