alcock, s. j. (1983), Survival and growth of food research poisoning organisms at sub-optimal temperatures: a review. Campden Food Preservation Research Association Technical Memorandum No. 343, Chipping Campden, UK, CCFRA.
atherton, d. and white, c. a. (1985), Investigation of combinations of sub-lethal treatments to preserve processed foods. Campden Food Preservation Research Association Technical Memorandum No. 394, Chipping Campden, UK, CCFRA.
babel, f. j. (1977), Antibiosis by lactic culture bacteria. Journal of Dairy Science, 60, 815-821.
baird-parker, a. c. (1980), Organic acids. In Microbial Ecology of Foods, Vol. 1, Factors Affecting Life and Death of Microorganisms, International Commission on Microbiological Specifications for Foods, London, New York, Academic Press, pp. 126-135.
baird-parker, a. c. and freame, b. (1967), Combined effects of water activity, pH and temperature on the growth of Clostridium botulinum from spore and vegetative cell inocula. Journal of Applied Bacteriology, 30, 420-429.
beuchat, l. r. (1973), Interacting effects of pH, temperature and salt concentration on growth and survival of Vibrio parahaemolyticus. Applied Microbiology, 25, 844-846.
bodansky, m. (1928), Lipoid solubility, permeability and hemolytic action of the saturated fatty acids. Journal of Biological Chemistry, 79, 241-255.
branen, a. l., go, h. c. and genske, p. r. (1975), Purification and properties of antimicrobial substances produced by Strep. diacetylactis and L. citrovorum. Journal of Food Science, 40, 446-450.
brocklehurst, t. f., white, c. a. and dennis, c. (1982), The microflora of stored coleslaw and factors affecting the growth of spoilage yeasts in coleslaw. Journal of Applied Bacteriology, 55, 57-63. brown, m. h. and emberger, o. (1980), Oxidation-reduction potential. In Microbial Ecology of Foods, Vol. 1, Factors Affecting Life and Death of Microorganisms, International Commission on Microbiological Specifications for Foods, London, New York, Academic Press, pp. 112-125. christian, j. h. b. (1980), Reduced water activity. In Microbial Ecology of Foods, Vol. 1, Factors Affecting Life and Death of Microorganisms, International Commission for the Microbiological Specifications for Foods, London, New York, Academic Press, pp. 70-91. christian, j. h. b. (1981), Specific solute effects on microbial water relations. In Water Activity: Influences on Food Quality (eds Rockland, L B and Steward, G F), London, New York, Academic Press, pp. 825-854. clark, d. s. and takacs, j. (1980), Gases as preservatives. In Microbial Ecology of Foods, Vol. 1, Factors Affecting Life and Death of Microorganisms International Commission on Microbiological Specifications for Foods, London, New York, Academic Press, pp. 170-192. crawford, y. j., murano, e. a., olson, d. g. and shenoy, k. (1996), Use of high hydrostatic pressure and irradiation to eliminate Clostridium sporogenes spores in chicken breast. Journal of Food Protection, 59, 711-715. daly, c., sandine, w. e. and elliker, p. r. (1972), Interactions of food starter cultures and food-borne pathogens: Streptococcus diacetilactis versus food pathogens. Journal of Milk and Food Technology, 35, 349-357. debevere, j. m. (1987), The use of buffered acidulant systems to improve the microbiological stability of acid foods. Food Microbiology, 4, 105-114. eklund, t. (1983), The antimicrobial effects of dissociated and undissociated sorbic acid at different pH levels. Journal of Applied Bacteriology, 54, 383-389.
gill, c. o. and tan, k. h. (1980), Effect of carbon dioxide on growth of meat spoilage bacteria. Applied and Environmental Microbiology, 39, 317-319. gomez, r. f. and herrero, a. a. (1983), Chemical preservation of foods. In Food Microbiology (ed. Rose, A H), London, New York, Academic Press, pp. 78-116.
gordon, n. e. and reid, e. e. (1922), The solubility of liquids in liquids. The partition of the lower acids, particularly formic, between water and various organic solvents. Journal of Physical Chemistry, 26, 773-789. havelaar, a. h., nauta, m. j. and jansen, j. t. (2004), Fine-tuning food safety objectives and risk assessment. International Journal of Food Microbiology, 93, 11-29.
hurst, a. (1983), Nisin and other inhibitory substances from lactic acid bacteria.
Food Science (New York), 10, 327-351. jones, m. v. (1989), Modified atmospheres. In Mechanism of Action of Food Preservation Procedures (ed. Gould, G W), London, New York, Elsevier Applied Science, pp. 247-284. labuza, t. p. and bell, l. n. (1984), Moisture Sorption. Practical Isotherm Measurement and Use, 2nd edn, St Paul, Minnesota, American Association of Cereal Chemists, Inc (USA). leistner, l. and rödel, w. (1976), The stability of intermediate moisture foods with respect to micro-organisms. In Intermediate Moisture Foods (eds Davies, R, Birch, G G and Parker, K J), London, Applied Science Publishers Ltd, pp. 120-137.
leistner, l., rödel, w. and krispien, k. (1981), Microbiology of meat and meat products in high- and intermediate-moisture ranges. In Water Activity: Influences on Food Quality (eds Rockland, L B and Stewart, G F), London, New York, Academic Press, pp. 855-916. leo, a., hansch, c. and elkins, d. (1971), Partition coefficients and their uses.
Chemical Reviews, 71, 525-631. lueck, e. (1980), Antimicrobial Food Additives: Characteristics, Uses, Effects.
Berlin, Heidelberg, New York, Springer-Verlag. margosch, d., ehrman, m. a., ganzle, m. g. and vogel, r. f. (2004), Comparison of pressure and heat resistance of Clostridium botulinum and other endospores in mashed carrots. Journal of Food Protection, 67 (11), 2530-2537. mcmindes, m. k. and siedler, a. j. (1988), Nitrite mode of action: inhibition of yeast pyruvate decarboxylase (E.C. 18.104.22.168) and clostridial pyruvate: ferredoxin oxidoreductase (E.C. 22.214.171.124) by nitric oxide. Journal of Food Science, 53, 917-919 and 931.
olson, j. c., jr. and Nottingham, p. m. (1980), Temperature. In Microbial Ecology of Foods, Vol. 1, Factors Affecting Life and Death of Microorganisms, International Commission on Microbiological Specifications for Foods, London, New York, Academic Press, pp. 1-37. park, h. s. and marth, e. h. (1972), Behaviour of Salmonella typhimurium in skimmilk during fermentation by lactic acid bacteria. Journal of Milk and Food Technology, 35, 482-488. perigo, j. a., whiting, e. and bashford, t. e. (1967), Observations on the inhibition of vegetative cells of Clostridium sporogenes by nitrite which has been autoclaved in a laboratory medium, discussed in the context of sub-lethally processed cured meats. Journal of Food Technology, 2, 377-397. rammell, c. g. (1962), Inhibition by citrate of the growth of coagulase-positive staphylococci. Journal of Bacteriology, 84, 1123-1124. reddy, n. r., Solomon, h. l., Fingerhut, g. a., rhodehamel, e. j., balasub-ramaniam, v. m. and palapianappan, s. (1999), Inactivation of Clostridium botulinum type E spores by high-pressure processing. Journal of Food Safety, 19, 277-288.
reddy, n. r., Solomon, h. m., tetzloff, r. c. and rhodehamel, e. j. (2003), Inactivation of Clostridium botulinum type A spores by high-pressure processing at elevated temperatures. Journal of Food Protection, 66, 1402-1407. robinson, r. a. and stokes, r. h. (1959), Electrolyte Solutions, London, Butterworths.
rovere, p. (1996), Prove di sterizzatione a 15 000 bar per ottenere la stabilata microbiologica ed enzymatica. Industria Alimentarä, 35, 1062-1065. schlundt, j. (2002), New directions in foodborne disease prevention. International
Journal of Food Microbiology, 78 (1-2), 3-17. Schmidt, c. f., lechowich, r. v. and folinazzo, j. f. (1961), Growth and toxin production of type E Clostridium botulinum below 40 °F. Journal of Food Science, 26, 626-634.
seiler, d. a. l. (1969), Equilibrium relative humidity of baked products with particular reference to the shelf life of cakes. In B.F.M.I.R.A.: Relative Humidity in the Food Industry, Symposium Proceedings No. 4, Leatherhead, UK, Leatherhead International, pp. 28-36. smith, j. l., benedict, r. c. and palumbo, s. a. (1982), Acid injury in Staphylococcus aureus and its prevention by sugars and polyols. Developments in Industrial Microbiology, 23, 587-593. sofos, j. n. and busta, f. f. (1981), Antimicrobial activity of sorbate. Journal of
Food Protection, 44, 614-622 and 647. troller, j. a. (1983), Effect of low moisture environments on the microbial stability of foods. In Food Microbiology (ed. Rose, A H), London, New York, Academic Press, pp. 173-198.
tuynenburg muys, g. (1971), Microbial safety in emulsions. Process Biochemistry, 6, 25-28.
tuynenburg muys, g. (1975), Microbial safety and stability of food products.
Antonie van Leeuwenhoek, 41, 369-371. von schelhorn, m. (1964), Distribution of preservatives between fat and water in foods. In Microbial Inhibitors in Food, Proceedings of the Fourth International Symposium on Food Microbiology, Göteborg, Sweden, Stockholm, Göteborg, Uppsala, Almquist & Wiksell. walker, s. j. and stringer, m. f. (1987), Growth of Listeria monocytogenes and Aeromonas hydrophila at chill temperatures. Campden Food Preservation Research Association Technical Memorandum No. 462, Chipping Campden, UK, CCFRA.
wilson, p. d. g., wilson, d. r. and waspe, c. r. (2000), Weak acids: dissociation in complex buffering systems and partitioning into oils. Journal of the Science of Food and Agriculture, 80, 471-476. windholz, m. (1983), The Merck Index, Rahway, New Jersey, Merck and Co., Inc.
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