References

Anon. (1987). CAST. Ionizing Energy for Food Processing. Council for Agricultural Science and Technology. Special Publication No. 15.

Anon. (1986). CAST. Ionizing Energy in Food Processing and Pest Control. Council on Agricultural Science and Technology, Report 109.

Anon. (1989). CAST. Ionizing Energy in Food Processing and Pest Control. Council for Agricultural Science and Technology, Task Force Report No. 115.

Anon. (1991a). IAEA-TECDOC-587. Analytical Detection Methods for Irradiated Foods. A review of the Current Literature. International Atomic Energy Agency, March 1991.

Anon. (1991b). Supplement to Food Irrad. News. No. 15.

Anon. (1992). Coordinated Research Programme on Analytical Detection Methods for Irradiation Treatment of Foods (ADMIT). Second Research Co-ordination Meeting, Hungary, 15-19, June, IAEA, Vienna. No. 15.

Anon. (1994). Coordinated Research Program on Analytical Detection Methods for Irradiation Treatment of Foods (ADMIT). Third Meeting, Belfast, 20-24 June, IAEA, Vienna.

Adam, S. (1977a). Radiation - induced formation of deoxy-products from trehalose; the influence of oxygen, added proteins and lipids. Int. J. Appl. Radiat. Isotopes 28:903.

Adam, S. (1977b). -radiolysis of N20-saturated aqueous solutions of trehalose and trehalose/amino acid mixtures. Int. J. Radiat. Biol. 32:219.

Adam, S. (1982). Radiolysis of a,a'-trehalose in concentrated aqueous solution; the effect of co-irradiated proteins and lipids, Int. J. Radiat. Biol. 42:531-544.

Barabassy, S., Farkas, J. and Kaffka, K. (1992). Study of the gamma irradiation effect on paprika powder by NIRS. In Making Light Work: Advances in Near Infrared Spectroscopy, (Murray, I. and Cowe, I.A., eds.) VHC Ed. Weinheim, New York, pp. 415-424.

Basson, R.A. (1983) In: Recent Advances in Food Irradiation, (Elias, P.S. and Cohen, A.S., eds.), Elsevier Biomedical, Amsterdam, pp. 189-201.

Basson, R.A., Beyers, M., Ehlermann, D.A.E. and van der Linde, H.J. (1983). Chemiclearance Approach to Evaluation of Safety of Irradiated Fruits. In: Recent Advances in Food Irradiation, (Elias, P.S. and Cohen, A.J., eds.), Elsevier Biomedical, Amsterdam, pp. 59-77.

Betts, R.P., Farr, L„ Bankes, P. and Stringer, M.F. (1988). The Detection of Irradiated Foods Using the Direct Epifluorescent Filter Technique. J. Appl. Bacteriol. 64:329-335.

Biedermann, M., Grob, K., Frohlich, D. and Meier, W. (1992). On-line Coupled Liquid Chromatograph-gas Chromatography (LC-GC) and LC-LC-GC for Detecting Irradiation of Fat-Containing Foods. Z. Lebensm. Unters. Forsch. 195:409-416.

Bugyaki, L. and van der Stichelen-Rogier, M. (1970). Vertical Starch Gel Electrophoresis and Immunoelectrophoresis of Irradiated and Non-Irradiated Animal Protein. In: The Identification of Irradiated Foodstuffs. Proc. Int. Colloq., Commission of the European Communities, Luxembourg, pp. 97-103.

Cerda, H. (1993). Analysis of DNA in Fresh Meat, Poultry and Fish. Possibility of Identifying Irradiated Samples. In: Changes in DNA for the Detection of Irradiated Food, (Delincee, H., Marchioni, E. and Hasselmann, C., eds.), Luxembourg: Commission of the European Communities. Strasbourg, 25-26 May 1992, EUR 15012, pp. 5-6.

Cerda, H., Hofsten, V. and Johanson, K.J. (1993). Identification of Irradiated Food by Microelectrophoresis of DNA from Single Cells. In: Recent Advances on Detection of Irradiated Food, (Leonardi, M., Belliardo, J.J. and Raffi, J.J., eds.), Luxembourg: Commission of the European Communities. Ancona, 24-26 September 1991, EUR 14315, pp. 401-405.

Dauphin, J.F. and Saint-Lebe, L. (1977). Radiation Chemistry of Carbohydrates. In: Radiation Chemistry of Major Food Components, (Elias, P.S. and Cohen, A.J., eds.), Elsevier, Amsterdam, pp. 131-185.

Delincee, H. (1983a). Recent Advances in Radiation Chemistry of Lipids. In: Recent Advances in Food Irradiation, (Elias, P.S. and Cohen, A.J., eds.), Elsevier Biochemical Press, Amsterdam, pp. 89-114.

Delincee, H. (1983b). Recent Advances in Radiation Chemistry of Proteins. In: Recent Advances in Food Irradiation, (Elias, P.S. and Cohen, A.J., eds.), Elsevier Biomedical Press, Amsterdam, pp. 129-147.

Delincee, H. (1991). Analytical Methods for Irradiated Foods. A Review of the Current Literature IAEA-TECDOC-587, International Atomic Energy Agency, Vienna.

Delincee, H. (1993). Detection of the Irradiation Treatment of Foods Using Micro Gel Electrophoresis of DNA. In: New Developments if Food, Feed and waste Irradiation, (Schreiber, G.A., Helle, N. and Bogl, K.W., eds.), Bericht des Instituts fur Sozialmedizin und Epidemiologie des Bundesgesundheitsamtes. SozEp Heft 16/1993 (Bundesgesundheitsamt, Berlin), pp. 112-116.

Desrosiers, M.F. (1989). Gamma-Irradiated Seafoods: Identification and Dosimetry by Electron Paramagnetic Resonance Spectroscopy. J. Agric. Food Chem. 32:96-100.

Desrosiers, M.F. and McLaughlin, W.L. (1989). Examination of Gamma-Irradiated Fruits and Vegetables by Electron Spin Resonance Spectroscopy. Radiat. Phvs. Chem. 34:895-898.

Diehl, J.F. and Scherz, H. (1975). Estimation of Radiolytic Products as a Basis For Evaluating the Wholesomeness of Irradiated Foods. Int. J. Appl. Radiat. Isotopes 26:499.

Diehl, J.F., Adam, S., Delincee, H. and Jakubick, V. (1978). Radiolysis of Carbohydrates and of Carbohydrate-Containing Food Stuffs. J. Agric. Food Chem. 26:15.

Diehl, J.F. (1982). Radiolytic Effects in Foods. In: Preservation of Food by Ionizing Radiation, (Josephson, E.S. and Peterson, M.S., eds.), CRC, Boca Raton, Florida, pp. 279-357.

Dizdaroglu, M., Schulte-Frohlinde, D. and von Sonntag, C. (1977). Isolation of 2-deoxy-D-erythro-pentonic Acid from an Alkali-Labile Site in -Irradiated DNA. Int. J. Radiat. Biol. 32:481.

Dohmaru, T„ Furuta, M., Katayama, T., Toratani, H. and Takeda, A. (1989). Identification of Irradiated Pepper with the Level of Hydrogen Gas as a Probe. Radiat. Res. 120:552-555.

Dubravcic, M.D. and Nawar, W.W. (1968). Radiolysis of Lipids. Mode of Cleavage in Simple Triglycerides. J. Amer. Chem. Soc. 46:656-660.

Farkas, J., Koncz, A. and Krisztianova, M. (1987). Preliminary Studies on the Feasibility of an Identification of Some Irradiated Dry Ingredients by Viscosimetric Measurements. XVIIIth Ann. Meeting European Society of Nuclear Methods in Agriculture, 30 Aug.- 4 Sept. 1987, Stara Zagora, Bulgaria.

Farkas, J., Koncz, A. and Sharif, M.M. (1990). Identification of Irradiated Dry Ingredients on the Basis of Starch Damage. Radiat. Phvs. Chem. 35:324-328.

Furuta, M., Dohmaru, T., Katayama, T., Tortani, H. and Takeda, A. (1992). Detection of Irradiated Frozen Meat and Poultry Using Carbon Monoxide Gas as a Probe. J. Agric. Food Chem. 40:1099-1100.

Garrison, W.M. (1981). The Radiation Chemistry of Amino Acids, Peptides and Proteins in Relation to the Radiation Sterilization of High-Protein Foods, Radiat. Eff. 54:29-39.

Gray, R. (1995). The Application of ESR Spectroscopy to the Detection of Irradiated Food. In: Characterization of Foods: Emerging Methods, (Gaonkar, A.G., ed.), Elsevier, Amsterdam.

Gray, R. and Stevenson, M.H. (1989). Detection of Irradiated Deboned Turkey Meat Using Electron Spin Resonance Spectroscopy. Radiat. Phvs. Chem. 34:899-902.

Hayashi, T., Iwamoto, M. and Kawashima, K. (1982). Identification of Irradiated Potatoes by Impedance Measurements. Agric. Biol. Chem. (Tokyo) 46:905-912.

Karam, L.R. and Simic, M.J. (1988). Ortho-Tyrosine as a Marker in Post Irradiation Dosimetry (PID) of Chicken. In: Health Impact, Identification, and Dosimetry of Irradiated Foods, 297, WHO, Copenhagen.

Kawamura, Y., Uchiyama, S. and Saito, Y. (1989). Improvement of the Half-Embryo Test for Detection of Gamma-Irradiated Grapefruit and its Application to Gamma-Irradiated Oranges and Lemons. J. Food Sci. 54:1501-1504.

Meier, W., Burgin, R. and Frohlich, D. (1988). Analysis of o-tyrosine as a Method for the Identification of Irradiated Chicken Meat. Beta-Gamma 1:34-36.

Nawar, W.W. (1977). Radiation Chemistry of Lipids. In: Radiation Chemistry of Major Food Components, (Elias, P.S. and Cohen, A.J., eds.), Elsevier, Amsterdam, pp. 21-62.

Nawar, W.W. (1983a). Comparison of Chemical Consequences of heat and Irradiation Treatment of Lipids. In: Recent Advances in Food Irradiation, (Elias, P.S. and Cohen, A.J., eds.), Elsevier, Amsterdam, pp. 115-127.

Nawar, W.W. (1983b). Radiolysis on Nonaqueous Components of Foods. In: Preservation of Food by Ionizing Radiation, (Josephson, E.S. and Peterson, M.S., eds.), CRC, Boca Raton, Florida , Vol. H, 75-124.

Nawar, W.W., Zhu, Z.R. and Yoo, Y.J. (1990). Radiolytic Products of Lipids As Markers for the Detection of Irradiated Meats. In "Food Irradiation and the Chemist," Royal Soc. of Chem.. Cambridge, pp. 13-24.

Raffi, J.J. and Angel, J.P.L. (1989). Electron Spin Resonance of Irradiated Fruits. Radiat. Phvs. Chem. 34:891-894.

Sanderson, D.C.W., Slater, C. and Cairns, K.J. (1989). Thermoluminescence of Foods: Origins and Implications for Detecting Irradiation. Radiat. Phvs. Chem. 34:915-924.

Stevenson, M.H., Crone, A.V.J., Hamilton, J.T.G. and McMurray, C.H. (1993). The Use of 2-dodecylcyclobutanone for the Identification of Irradiated Chicken Meat and Eggs. Radiat. Phvs. Chem. 42:363-366.

Taub, I.A., Kaprielian, R.A., Halliday, J.W., Walker, J.E., Angelini, P. and Merritt, C., Jr. (1979a) Factors Affecting Radiolytic Effects in Food. Radiat. Phvs. Chem. 14:639.

Taub, I.A., Robbins, F.M., Simic, M.G., Walker, J.E. and Wierbicki, E. (1979b). Effect of Irradiation on Meat Proteins. Food Technol. 33:184-193.

Tobback, P.O. (1977) in: Radiation Chemistry of Major Food components, (Elias, P.S. and Cohen, A.S., eds.), Elsevier, Amsterdam, pp. 187-220.

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