References

101 Toxic Food Ingredients

101 Toxic Food Ingredients

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Alderman GG and Marth EH (1976). Inhibition of growth and aflatoxin production of Aspergillus parasiticus by citrus oils. Z Lebensm-Unters-Forsch 160:353-358.

Al-Zoreky N (1991). Antimicrobial activity of Microgard against food spoilage and pathogenic microorganisms. J Dairy Sci 74:758-763.

Azzouz MA and Bullerman LB (1982). Comparative antimycotic effects of selected herbs, spices, plant components, and commercial antifungal agents. J Food Prot 45:1298-1301.

Bachman FM (1982). The inhibitory action of certain spices on the growth of microorganisms. J Ind Eng Chem 8:620.

Barth MM, Zhou C, Mercier J, and Payne FA (1995). Ozone storage effects on anthocyanin content and fungal growth blackberries. J Food Sci 60:1286-1288.

Batish VK, Grover S, and Lal R (1989). Screening lactic starter cultures for antifungal activity. J Cult Dairy Prod 24(2):21-25.

Batish VK, Roy U, Lal R, and Grover S (1997). Antifungal attributes of lactic acid bacteria. Crit Rev Biotechnol 17:209-225.

Beuchat LR (2000). Control of foodborne pathogens and spoilage microorganisms by natural occurring antimicrobials. In: Wilson CL, Droby S eds. Microbial Food Contamination. Boca Raton: CRC Press. pp 149-169.

Bullerman LB (1974). Inhibition of aflatoxin production by cinnamon. J Food Sci 39:1160-1163.

Cerny G (1979). Retardation of toast bread by gassing. Chem Mikrobiol Techno Lebensm 6:8-10.

Chang HC and Branen AL (1975). Antimicrobial effect of butylated hydrosianisole (BHA) and butylated hydrotoluene (BHT). J Food Sci 40:349-351.

Chao SC, Young DG, and Oberg CJ (2000). Screening for inhibitory activity of essential oils on selected bacteria, fungi and viruses. J Essent Oil Res 12:639-649.

Chipley JR, Story LD, and Kabara JJ (1981). Inhibition of Aspergillus growth and extracellular aflatoxin accumulation by sorbic acid and derivatives of fatty acids. J Food Saf 2:109-115.

Conner DE and Beuchat LR (1984). Effects of essential oils from plants on growth of spoilage yeasts. J Food Sci 49:429-434.

Daeshel MA and Penner MH (1992). Hydrogen peroxide, lactoperoxide systems, and reuterine. In: Ray B, Daeschel MA eds. Food Biopreservatives of Microbial Origin. Boca Raton: CRC Press. p 155.

Davidson PM and Naidu AS (2000). Phyto-phenols. In: Naidu AS ed. Natural Food Antimicrobial Systems. Boca Raton: CRC Press. pp 265-294.

Doors S (1993). Organic acid. In: Davidson PM, Branen AL eds. Antimicrobials in Foods. New York: Marcel Dekker Inc. p 95.

Eckland T (1990). Inhibition of growth and uptake process in bacteria by some chemical food preservatives. J Appl Bacteriol 48:423.

Elgayyar M, Draughon FA, Golden DA, and Mount JR (2001). Antimicrobial activity of essential oils from plants against selected pathogenic and saprophytic microorganisms. J Food Prot 64:1019-1024.

Farber JM (1991). Microbiological aspects of modified atmospheric packaging technology. J Food Prot: 54-58.

Farkas J (1997). Physical methods of food preservation. In: Doyle MP, Beuchat LR, Montville TJ eds. Food Microbiology: Fundamentals and Frontiers. Washington, DC: ASM Press. p 498.

Gorris LM (1994). Improvement of the safety and quality of refrigerated ready-to-eat foods using novel mild preservation techniques. In: Singh RP, Oliveria FR eds. Minimal Processing of Foods and Process Optimization. Boca Raton: CRC Press. pp 57-72.

Hoffman C and Evans AC (1911). Use of spices as preservatives. J Ind Eng Chem 3:835.

Hoover DG (2000). Microorganism and their products in the preservation of foods. In: Lund BM, Baird-Parker TC, Gould GW eds. The Microbiological Safety and Quality of Food. Gaithersburg: Aspen Publishers. pp 251-276.

ICMSF (1980). Factors affecting life and death of microorganisms. In: Intl. Commission of Microbiological Specifications for Food, Microbial Ecology of Foods. Vol. 1. New York: Academic Press.

Jay JM (1982). Antimicrobial properties of diacetyl. Appl Environ Microbiol 44:525-532.

Jay JM (1992). Food preservation with chemicals. In: Jay JM ed. Modern Food Microbiology. New York: Chapman & Hall. p 260.

Kato N (1981). Antimicrobial activity of fatty acids and their esters against a film-forming yeast in soy sauce. J Food Saf 3:321-325.

Kato N and Shibaski I (1975). Comparison of antimicrobial activities of fatty acids and their esters. J Ferment Technol 53:793-795.

Labuza TP, Fu B, and Taoukis PS (1992). Prediction of shelf-life and safety of minimally processed CAP/MAP chilled foods. J Food Prot 55:741-750.

Leistner L (1999). Combined methods for food preservation. In: Rahman MS ed. Handbook of Food Preservation. New York: Marcel Dekker. p 362.

Liewen MB and Marth EH (1984). Inhibition of penicilia and aspergilli by potassium sorbate. J Food Prot 47:554-556.

Liewen MB and Marth EH (1985). Growth and inactivation of microorganisms in the presence of sorbic acid. J Food Prot 48:364-375.

Luchansky JB (1999). Overview on applications for bacteriocin-producing lactic acid bacteria and their bacteriocins. Antonie Leeuwenhoek 76:335.

Luck E and Jager M (1997). Antimicrobial Food Additives: Characteristics, Uses, and Effects, 2nd ed. New York: Springer Verlag.

Lyon WJ, Sethi JE, and Glatz BA (1993). Inhibition of psychrotrophic organisms by propioncin PLG-1, a bacteriocin produced by Propionibacterium theonii. J Dairy Sci 76:1506-1513.

Marshall DL and Bullerman LB (1986). Antimicrobial activity of sucrose fatty acid ester emulsifiers. J Food Sci 51:468-470.

Naidiu AS (2000). Natural food antimicrobial systems overview. In: Naidiu AS ed. Natural Food Antimicrobial Systems. Boca Raton: CRC Press. pp 1-14.

Pugazhenthi TR, Dhanalakshmi B, Narasmihan R, Shibu AV, and Mahdhan S (1999). Effect of antimycotic agents on Penicillium citrinum, in cheese. Indian Vet J 76:537-539.

Rahman MS and Labuza TP (1999). Water activity and food preservation. In: Rahman MS ed. Handbook of Food Preservation. New York: Marcel Dekker. p 362.

Ranun P (1999). Encapsulated mold inhibitors—the greatest thing since sliced bread? Cereal Foods World 44:370-371.

Ray B (2001). History and development of food microbiology. In: Ray B ed. Fundamental Food Microbiology. Boca Raton: CRC Press. pp 3-11.

Ray LL and Bullerman LB (1982). Preventing growth of potentially toxic molds using antifungal agents. J Food Prot 45:953-963.

Razavi-Rohani SM and Griffiths MW (1994). The effect of mono and polyglcrollaurate on spoilage and pathogenic bacteria associated with foods. J Food Saf 14:131-151.

Scott VN (1989). Combinations of antimicrobial and processing methods. Food Technol 31:156-163.

Sofos JN and Busta FF (1993). Sorbic acid and sorbates. In: Davidson PM, Branen AL eds. Antimicrobials in Foods. New York: Marcel Dekker, Inc. p 49.

Thompkinson DK and Singh AK (2000). Natural food preservation systems. Indian Food Ind 19:330-339.

Tsai WJ, Liewen MB, and Bullerman LB (1988). Toxicity and sorbate sensitivity of molds isolated from surplus commodity cheeses. J Food Prot 51:457 -462.

Wagner MK and Moberg LJ (1989). Present and future use of traditional antimicrobials. Food Technol 43:134-142.

Warth AD (1977). Mechanism of resistance of Saccharomyces baili to benzoic, sorbic and other weak acids used as food preservatives. J Appl Bacteriol 43:215-230.

Weidzicha BL (2000). Effect of sulfur dioxide on food quality. In: Eskin NM, Robinson DS eds. Food Shelf Life Stability: Chemical, Biochemical and Microbiological Changes. Boca Raton: CRC Press. pp 265 -294.

Whiting RC and Buchanan RL (1994). Microbial modeling: scientific status summary. Food Technol 48:113-115.

Xu L (1999). Use of ozone to improve the safety of fresh fruits and vegetables. Food Technol 53:58-62.

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