References

Ananthakrishna, S.M., and Govindarajan, V.S. (1974) Evaluation of spices and oleoresins-IV.

Estimation of pungent principles of ginger oleoresins. Lebensm. Wiss u—Technol., 7 (4), 220—222. ASTA. (1999) ASTA Cleanliness Specifications for Spices, Seeds and Herbs. American Spice Trade

Association, New York, NJ. Balakrishnan, K.V. (1991) An insight into spice extractives. Indian Spices, 28 (2), 22—26. Baranowski, J.D. (1985) High performance liquid chromatographic separation of pungent components of ginger. J.Chromatogr., 319, 471—474. Bednarczyk, A.A., Galetto, W.G., and Kramer, A. (1975a) Cis- and trans-beta-sesquiphellandrol. Two new sesquiterpene alcohols from oil of ginger (Zingiber officinale Roscoe). J. Agric. Food Chem., 23 (3), 499-501. Bednarczyk, A.A., and Kramer. A. (1975b) Identification and evaluation of flavor significant components of ginger essential oil. Chem. Senses Flav, 1, 377-386.

Beek van, T.A. (1991) Special methods for the essential oil of ginger. In: Linskens, H.F., and Jackson, J.F. (eds.). Essential Oils and Waxes. Springer-Verlag, Berlin.

Beek van, T.A., Posthmus, M. A., Lelyweld, G. P., Phiet, H.V., and Yen, B.T. (1987) Investigation of the essential oil of Vietnamese ginger. Phytochemistry, 26 (11), 3005—3010.

Brooks, B.T. (1916) Zingiberol, a new sesquiterpene alcohol occuring in the essential oil of ginger. J. Am. Chem. Soc, 38, 430-432.

Brown, B.I. (1969a) Processing and preservation of ginger by syruping under atmospheric conditions. 1. Preliminary investigations of vat systems. Food Technol., 23, 87-91.

Brown, B.I. (1969b) Processing and preservation of ginger by syruping under atmospheric conditions. 2. Effects of syrup temperature, flow rate and sucrose to reducing sugar ratios on the processing of ginger in invert syrup. Food Technol., 23, 93-96.

Brown, B.I. (1969c) Processing and preservation of ginger by syruping under atmospheric conditions. 3. Processing techniques and syrup concentration for maximum drained weight recovery of syruped ginger. Food Technol., 23, 109-112.

CFR. (1995) Code of Federal Regulations. 21. Food and Drugs. Part 173C. Office of the Federal Register, National Archives and Records Administration, Washington, D.C., pp. 117-118.

Chen, C.C., and Ho, C.T. (1988) Gas chromatographic analysis of volatile components of ginger oil (Zingiber officinale Roscoe) extracted with liquid carbon dioxide. J. Agric. Food Chem., 36, 322-328.

Chen, C.C., Rosen, R., and Ho, C.T. (1986a). Chromatographic analyses of gingerol compounds in ginger (Zingiber officinale Roscoe) extracted by liquid carbon dioxide. J. Chromatogr., 360, 163-173.

Chen, C.C., Kuo, M.C., Wu, C.M., and Ho, C.T. (1986b) Pungent compounds of ginger (Zingiber officinale Roscoe) extracted by liquid carbon dioxide. J. Agric. Food Chem, 34, 477-480.

Chen, C.C., Kuo, M.C., and Ho, C.T. (1986c) High performance liquid chromatographic determination of the pungent gingerol compounds in ginger (Zingiber officinale Roscoe). J. Food Sci., 51 (5), 1364-1365.

Connell, D.W. (1969) The pungent principles of ginger and their importance in certain ginger products. Food Technol., 21, 570-575.

Connell, D.W., and Sutherland, M.D. (1966) Terpenoid chemistry. X. (-)-beta-sesquiphellandrene. Aust. J. Chem, 19, 283-288.

Connell, D.W., and Sutherland, M.D. (1969) Re-examination of gingerol, shogaol and zingerone, the pungent principles of ginger. Aust. J. Chem, 22, 1033-1043.

Connell, D.W. (1970) Chemistry of the essential oil and oleoresin of ginger (Zingiber officinale Roscoe). Flavor Indus, 1, 677-693.

Connell, D.W., and Jordan, R.A. (1971) Composition and distinctive volatile flavor chracteristics of the essential oil from Australian grown ginger (Zingiber officinale). J. Sci. Food Agric., 22, 93-95.

Connell, D.W., and McLachlan, R. (1972) Natural pungent compounds IV. Examination of the gingerols, shogaols, paradols and related compounds by thin layer and gas chromatography. J.

Commission of the European Communities (2002) Commission Regulation (EC) No.472/2002. Official Journal of the European Communities, pp. L75/20.

Directorate of Cocoa, Arecanut and Spices Development (1982) Ginger. Directorate of Cocoa, Arecanut and Spices Development, Calicut-673 005, Kerala, India.

Directorate of Marketing Inspection (1964) Ginger Grading and Marking Rules, 1964. Ministry of Agriculture, Government of India.

Farrell, K.T. (1985) Spices, Condiments and Seasonings. The AVI Publishing, CT, pp. 121-126.

FCC. (1996) Food Chemicals Codex. 4th ed., National Academy Press, Washington, D.C., pp. 171-172.

FDA. (1995) Food Defect Action Levels. Department of Health and Human Services, Public Health Service, Food and Drug Administration, Washington, D.C.

Fenaroli, G. (1975) Ginger. In: Fenaroli's Handbook of Flavor Ingredients. 2nd ed. Vol. 1. CRC Press Inc, Boca Raton, FL, pp. 364-365.

Flynn, R.M.S., and Roest, M. (1995) Your Guide to Standardized Herbal Products. One World Press, AZ. pp. 28-29.

Govindarajan, B., and Govindarajan, V.S. (1979) Evaluation of spices and oleoresins—VIII—Improved separation and estimation of pungent and related components of ginger by thin layer chromatography. J. Food Quality, 2, 205-217.

Govindarajan, V.S. (1982) Flavour quality of ginger. In: Nair, M.K., Premkumar, T., Ravindran, P.N., and Sarma, Y.R. (eds.) Ginger and Turmeric: Proceedings National Seminar on Ginger and Turmeric. Central Plantation Crops Research Institute, Calicut, India, pp. 147-166.

Govindarajan, V.S., Raghuveer, K.G., and Narasimhan, S. (1978) TLC-aromagram, a technique for selection of aroma impact compounds. In Proc. First Indian Convention of Food Scientists and technologists, CFTRI, Mysore, India.

Guenther, E. (1952) The Essential Oils. Vol 5. Van Nostrand Reinhold, New York, pp. 106-120.

Guenther, E. (1958) Ginger production in Jamaica. Coffee and Tea Indus, 81, 73-74.

Guenther, E. (1972) The Essential Oils. Vol. 1. Robert K. Krieger Publishing, New York, pp. 18, 88-104.

Gujral, S., Bhumra, H., and Swaroop, M. (1978) Effect of ginger (Zingiber officinale Roscoe) oleoresin on serum and hepatic cholesterol levels in cholesterol fed rats. Nutri. Rep. Int., 17 (2), 183-189.

Harvey, D.J. (1981) Gas chromatographic and mass spectrophotometric studies of ginger constituents. Identification of gingerdiones and new hexahydrocurcumin analogues. J. Chromatogr., 212, 75-84.

Herout, V., Benesova, V., and Pilva, J. (1953) Terpenes XLI. The sesquiterpenes of ginger oil. Coll. Czech. Chem. Commun., 18, 248-256.

Ingleton, J.F. (1966) Preserved and crystallised ginger. Confect. Prod., 32, 527-528.

IS. (1993) IS 1908: 1993 Spices and Condiments—Ginger, Whole and Ground—Specification. (2nd rev.). Bureau of Indian Standards, New Delhi.

ISO. (1980) ISO 1003-1980 Spices and Condiments—Ginger, Whole, in Pieces, or Ground—Specification. International Organization for Standardization, Geneva.

ISO. (1995) ISO/DIS 13685:1995 Ginger and Its Oleoresins—Determination of the Main Pungent Components (Gingerols and Shogaols)—Method Using High-Performance Liquid Chromatography. International Organization for Standardization, Geneva.

Jain, T.C., Varma, K.R., and Bhattacharya, S.C. (1962) Terpenoids XXVIII. GLC analysis of monoterpenes and its application to essential oils. Perfum. Essent. Oil Rec., 53, 678-684.

Jogi, B.S., Singh, I.P., Dua, H.D., and Sukhija, P.S. (1972) Changes in crude fibre, fat and protein content in ginger (Zingiber officinale Rosc.) at different stages of ripening. Indian J. Agric. Sci., 42, 1011-1015.

Kami, T., Nakayama, M., and Hayashi, S. (1972) Volatile constituents of Zingiber officinale. Phytochemistry, 11, 3377-3381.

Kannan, K., and Vasudevan Nair, K.P. (1965) Zingiber officinale (ginger) in Kerala. Madras Agric. J, 52, 168-176.

Kucera, M., and Kucerova, H. (1974) Contribution to the knowledge of Nigerian Medicinal Plants. III. Chromatographic studies on Zingiber officinale Roscoe. J. Chromatogr., 93, 421-428.

Lawrence, B.M. (1984) Major tropical spices-Ginger (Zingiber officinale Rose.). Perfumer Flavorist, 9, 1-40.

Lee, Y.B., Kim, Y.S., and Ashmore, C.R. (1986). Antioxidant property in ginger rhizome and its application to meat products. J. Food Sci., 51 (1), 20-23.

Leverington, R.E. (1969) Ginger processing investigations. Improving the quality of processed ginger. Queensland J. Agric. Anim. Sci., 26, 264-70.

Mangalakumari, C.K., Ninan, C.A., and Mathew, A.G. (1984) Histochemical studies on localisation of significant constituents of ginger (Zingiber officinale Roscoe). J. Plant. Crops, 12 (2), 146-151.

Masada, Y (1976) Analysis of Essential Oils by Gas Chromatography and Mass Spectrometry. John Wiley & Sons, New York, pp. 251-255.

Masada, Y., Inoue, T., Hashimoto, K., Fujioka, M., and Shiraki, K. (1973) Studies on the pungent principles of ginger (Zingiber officinale Roscoe) by GC-MS. Yakugaku Zasshi, 93 (3), 318-321.

Masada, Y, Inoue, T., Hashimoto, K., Fujioka, M., and Uchino, C. (1974) Studies on the constituents of ginger (Zingiber officinale Roscoe) by GC-MS. Yakugaku Zasshi, 94 (6), 735-738.

McHale, D., Laurie, W.A., and Sheridan, J.B. (1989) Transformation of the pungent principles in extracts of ginger. Flav. Frag. J., 4, 9-15.

MacLeod, A.J., and Pieris, N.M. (1984) Volatile aroma constituents of Sri Lankan ginger. Phytochemistry, 23 (2), 353-359.

Middleditch, B.S., Johnson, G.A., Gregory, R.R., Alejandro, M.A., and Markaverich, B.M. (1989) Gingerol analysis without artifact formation. J. High Res. Chromatogr., 12, 677-679.

Moudgill, K.L. (1928) Essential oils of Travancore. Part VII. From the rhizomes of ginger, Zingiber officinale. J. Indian Chem. Soc. 5, 251-259.

Mowrey, D.B. (1982) Motion sickness, ginger, and psychophysics. Lancet, 20, 655-657.

Murata, T., Shinohara, M., and Miyamoto, M. (1972) Isolation of hexahydrocurcumin, dihydro-gingerol and two additional pungent principles of ginger. Chem. Parm. Bull. Jpn., 20, 2291-2292.

Nambudiri, E.S., Mathew, A.G., Krishnamurthy, N., and Lewis, Y.S. (1975) Quantitative determination of the pungent principle in ginger. Int. Flav., March/April, 136-137.

Natarajan, C.P., Kuppuswamy, S., Sankaracharya, N.B., Padma Bai, R., Raghavan, B., Krishnamurthy, M.N., Khan, F., Lewis, Y.S., and Govindarajan, V.S. (1970) Product development of ginger. Indian Spices, 7 (4), 8-12, 24-28.

Natarajan, C.P., and Lewis, Y.S. Technology of ginger and turmeric. Status Papers and Abstracts. National Seminar on Ginger and Turmeric, Central Plantation Crops Research Institute, Calicut, Kerala, India, April 8-9, 1980.

Natarajan, C.P., Padma Bai, R., Krishnamurthy, M.N., Raghavan, B., Sankaracharya, N.B., Kuppuswamy, S., Govindarajan, V.S., and Lewis, Y.S. (1972) Chemical composition of ginger varieties and dehydration studies on ginger. J. Food Sci. Technol., 9, 120-124.

Nigam, M.C., Nigam, I.C., Levi, L., and Handa, K.L. (1964) Essential oils and their constituents XII. Detection of new trace components in oil of ginger. Can. J. Chem., 42, 2610-2615.

Osisiogu, I.U.W. (1973) Detection of adulteration of ginger galenicals by thin layer chromatography. J. Chromatogr., 84, 200-203.

Perry, R.H., and Chilton, C.H (1973) Leaching. In: Chemical Engineer's Handbook. 5th ed. McGraw-Hill, New York, pp. 17.3-17.8.

PFA. (1996) Prevention of Food Adulteration Rules 1955. Prevention of Food Adulteration Act 1954. 17th ed. Eastern Book Company, Lucknow, India, p. 133.

Provatoroff, N. (1967) Ginger. The properties and chemistry of some natural spicy compounds. Mfg. Chem. Aerosol News, 38 (3), 40-41.

Raghuveer, K.G., and Govindarajan, V.S. (1978) Evaluation of spices and oleoresins. VII. Gas chromatographic examination of gingerol, shogaol and related compounds in ginger. J. Food Quality, 2, 41-54.

Randhawa, K.S., and Nandpuri, K.S. (1970) Ginger (Zingiber officinale Rosc.) in India—Review. Punjab Hort. J., 10, 111-122.

Richardson, K.C. (1966) Effect of dehydration temperature on the quality of dried ginger. Food Technol. Aust., February, 93-95.

Sakamura, F., and Hayashi, S. (1978) Constituents of essential oil from the rhizomes of Zingiber officinale Roscoe. J. Agric. Chem. Soc. Jpn., 52 (5), 207-211.

Salzer, U.J. (1975) Analytical evaluation of seasoning extracts (oleoresins) and essential oils from seasonings. II. Int. Flav. Food Add, 6 (4), 206-210.

Salzer, U.J. (1977) The analysis of essential oils and extracts (oleoresins) from seasoning—a critical review. CRC Crit. Rev. Food Sci. Nutr., 9 (4), 345-373.

Sills, V.E. (1959) Ginger products. Colon. Fiji Agric. J., 29, 13-16.

Shoji, N., Iwasa, A., Takemoto, T., Ishida, Y, and Ohizumi, Y. (1982) Cardiotonic principles of ginger (Zingiber officinale Roscoe). J. Pharm. Sci., 71 (10), 1174-1175.

Singh, P., Jogi, B.S., Dua, H.D., and Gupta, M.L. (1975) Tentative Identification of various components and fatty acids of ginger lipids, Indian J. Agric. Sci., 45 (11-12), 545-549.

Smith, R.M. (1982) Analysis of the pungent principles of ginger and grains of paradise by high performance liquid chromatography using electrochemical detection. Chromatographia, 16, 155-157.

Smith, R.M., and Robinson, J.M. (1981) The essential oil of ginger from Fiji. Phytochemistry, 20, 203-206.

Spices Board. (1991) Quality Improvement of Ginger. Spices Board, Cochin, India.

Spices Board. (1995) Dried Ginger for Exports. Guidelines on Quality Improvement. Spices Board, Cochin, India.

Spices Board. (1999) Package of Practices for Organic Cultivation of Ginger, Turmeric and Chillies. Spices Board, Cochin, India.

Spices Board. (2002) Quality Requirements of Spices for Export. Sivadasan, C.R., and Kurup, P.M. (eds). Spices Board, Cochin, India.

Takahashi, M., Osawa, K., Sato, T., and Ueda, J. (1982) Components of aminoacids of Zingiber officinale Roscoe. Ann. Rep. Tohoku. Coll. Pharm., 29, 75-76.

Treybal, R.E. (1968) Leaching. In: Mass Transfer Operations. 2nd ed. McGraw-Hill, New York, pp. 628-675.

Varier, N.S. (1945) A note on the essential oil from ginger scrapings. Curr. Sci., 14, 322.

Varma, K.R., Jain, T.C., and Bhattacharya, S.C. (1962) Terpenoids XXXIV. Structure and stereochemistry of zingiberenol and juniper camphor. Tetrahedron, 18, 979-984.

Verghese, J. (1997) The world of spices and herbs. Spice India, 10 (1), 15-18.

Wood, A.B. (1987) Determination of the pungent principles of chillies and ginger by reversed phase high performance liquid chromatography with use of a single standard substance. Flav. Fragr. J., 2, 1-12.

Yamahara, J., Miki, K., Chisaka, T., Sawada, T., Fujimura, H., Tomimatsu, T., Nakano, K., and Nohara, T. (1985) Cholagogic effect of ginger and its active constituents. J. Ethnopharmacol., 13, 217-225.

Zhang, X., Iwaoka, W.T., Huang, A.S., Nakamoto, S.T., and Wong, R. (1994) Gingerol decreases after processing and storage of ginger. J. Food Sci., 59 (6), 1338-1340, 1343.

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