Radical kinetics and characterization of the free radicals in gamma irradiated red pepper

Kinetic behaviors and characterization of the natural and gamma -induced ra dicals in irradiated red pepper have been investigated by electron spin res onance (ESR) spectroscopy to explore the possibility of using this techniqu e in detecting irradiated red pepper and to evaluate the eventual dosimetri c features of this widely used food. Unirradiated samples exhibited a singl e resonance line centered at g = 2.0050 +/- 0.0005. Photo-exposure of the s amples was found to increase the signal intensity. An increase in temperatu re created a drastic decrease in the concentration of natural radicals resp onsible for the single resonance line. Irradiation was observed to induce i ncreases in the intensity of single resonance line (signal I) and a radiati on specific doublet and/or triplet (signal II) also centered at g = 2.0050 but detectable only at high spectrometer gains. The intensities of both sig nals increased with increasing radiation dose. The signals I and II were fo und to decay with different rates depending on the temperature. The results of a fitting procedure applied to the experimental signal decay curves and those obtained from room temperature spectra simulation calculations were used together to determine radical species and their spectral characteristi cs giving rise to the observed experimental spectra. Four radical species, three carbohydrate and one semiquinone radical assigned as radicals A, B, C and D, respectively, were found to best explain the experimental results. All the radicals show large g and hyperfine splitting anisotropies varying between g = 2.0028 - 2.0062 and 1.07-2.58 mT, respectively. The half lives of the radicals were found to depend strongly on temperature. The activatio n energy calculated using temperature dependent half-life data were the hig hest for radical A (33.68 kcal/mol) and smallest for radical C (11.83 kcal/ mol). (C) 2001 Elsevier Science Ltd. All rights reserved.