Produce Degradation Pathways and Prevention

Packaging and Produce Degradation 151

102. Lowenadler, J., Dissolved CO 2 and its growth inhibiting effect on microorganisms in
     MAP model systems, SIK Rapp., 604, 69, 1994.


103. Devlieghere, F., Debevere, J., and Van Impe, J., Effect of dissolved carbon dioxide
     and temperature on the growth of Lactobacillus sake in modified atmospheres, Int.
     J. Food Microbiol., 41, 231, 1998.


104. Qadir, A. and Hashinaga, F., Inhibition of postharvest decay fruits by nitrous oxide,
     Postharv. Biol. Technol., 22, 279, 2001.


105. Burton, K.S., Frost, C.E., and Nichols, R., A combination plastic permeable film
     system for controlling post-harvest mushroom quality, Biotechnol. Lett., 9, 529, 1987.


106. Arpaia, M.L., Mitchell, F.G., and Kader, A.A., Effects of 2% O2 and varying con-
     centrations of CO 2 with or without ethylene on the storage performances of kiwifruit,
     J. Am. Soc. Hortic. Sci., 110, 200, 1985.


107. Varoquaux, P. et al., Change in firmness of kiwifruit after slicing, Sci. Aliments, 10,
     127, 1990.


108. Harker, F.R. et al., Physical and mechanical changes in strawberry fruit after high
     carbon dioxide treatments, Postharv. Biol. Technol., 19, 139, 2000.


109. Larsen, M. and Watkins, C.B., Firmness and concentrations of acetaldehyde, ethyl
     acetate and ethanol in strawberries stored in controlled and modified atmospheres,
     Postharv. Biol. Technol., 5, 39, 1995.


110. Smith, R.B. and Skoog, L.J., Postharvest carbon dioxide treatment enhances firmness
     of several cultivars of strawberry, Hortscience, 27, 420, 1992.


111. Holcroft, D.M. and Kader, A.A., Controlled atmosphere-induced changes in pH and
     organic acid metabolism may affect color of stored strawberry fruit, Postharv. Biol.
     Technol., 17, 19, 1999.


112. Yong, S.P. and Soon, T.J., Effects of CO 2 treatments within polyethylene film bags
     on fruit quality of fig fruits during storage, J. Kor. Soc. Hortic. Sci., 41, 618, 2000.


113. Siriphanich, J. and Kader, A.A., Effects of CO 2 on total phenolics, phenylalanine
     ammonia lyase and polyphenol oxidase in lettuce tissue, J. Am. Soc. Hortic. Sci.,
     110, 249, 1985.


114. Perez, A.G. and Sanz, C., Effect of high-oxygen and high-carbon dioxide atmospheres
     on strawberry flavor and other quality traits, J. Agric. Food Chem., 49, 2370, 2001.


115. Lund, B.M., Bacterial contamination of food crops, Asp. Appl. Biol., 17, 71, 1988.


116. Nguyen The, C. and Prunier, J.P., Involvement of Pseudomonads in “ready-to-use”
     salads deterioration, Int. J. Food Sci. Technol., 24, 47, 1989.


117. Lund, B.M., Bacteria spoilage, in Postharvest Pathology of Fruits and Vegetables,
     Dennis, C., Ed., Academic Press, London, 1983, p. 218.


118. Hildebrand, D.F., Lipoxygenases, Physiol. Plant., 76, 249, 1989.


119. Bengtsson, B.L., Bosund, I., and Rasmussen, I., Hexanal and ethanol formation in
     peas in relation to off-flavor development, Food Technol., 21, 478, 1967.


120. Watada, A.E., Abe, K., and Yamauchi, N., Physiological activities of partially pro-
     cessed fruits and vegetables, Food Technol., 44, 116, 1990.


121. Lamikanra, O., Enzymatic effects on flavor and texture of fresh-cut fruits and vege-
     tables, in Fresh-Cut Fruits and Vegetables: Science, Technology and Market, Lami-
     kanra, O., Ed., CRC Press, Boca Raton, FL, 2002, Chap. 6.


122. Ke, D. et al. Effect of short-term exposure to low O 2 and high CO 2 atmospheres on
     quality attributes of strawberries, J. Food Sci., 1, 50, 1991.


123. Guichard, E. et al., Effect of carbon dioxide concentration on aroma of strawberries
     after storage, Sci. Aliments, 12, 83, 1992.