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Journal of Aquatic Food Product Technology Volume 25, 2016 - Issue 2
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Articles

Ozone as a Safe and Environmentally Friendly Tool for the Seafood Industry

Alex Augusto GonçalvesFederal University of the Semi-Arid Region (UFERSA), Animal Sciences Department (DCAN), Animal Science Post-Graduation (PPGCAN), Mossoró, RN, BrazilCorrespondence[email protected]
Pages 210-229 | Published online: 30 Jan 2016

References

  • Arana, I., Santorum, P., Muela, A., and Barcina, I. 1999. Chlorination and ozonation of waste-water: Comparative analysis of efficacy through the effect on E. coli membranes. J. Appl. Microbiol. 86: 883–888.
  • Blogoslawski, W. J., and Stewart, M. E. 2011. Some ozone applications in seafood. Ozone-Sci.-Eng. 33: 368–375.
  • Bocci, V. 2005. Is it true that ozone is always toxic? The end of a dogma. Toxicol. Appl. Pharm. 216(3): 493–504.
  • Brooks, G. M., and Pierce, S. W. 1990, December. Ozone applications for commercial catfish processing. Paper presented at the 15th Annual Tropical and Subtropical Fisheries Technological Conference of the Americas, Orlando, FL.
  • Buchan, K. A. H., Martin-Robichaud, D. J., and Benfey, T. J. 2005. Measurement of dissolved ozone in sea water: A comparison of methods. Aquacult. Eng. 33(3): 225–231.
  • Campos, C. A., Losada, V., Rodríguez, O., Aubourg, S. P., and Barros-Velázquez, J. 2006. Evaluation of an ozone–slurry ice combined refrigeration system for the storage of farmed turbot (Psetta maxima). Food Chem. 97: 223–230.
  • Campos, C. A., Rodríguez, O., Losada, V., Aubourg, S. P., and Barros-Velázquez, J. 2005. Effects of storage in ozonized slurry ice on the sensory and microbial quality of sardine (Sardina pilchardus). Int. J. Food Microbiol. 103(2): 121–30.
  • Cantalejo, M. J. 2007. Effect of gaseous ozone on quality and shelf-life of fresh cod (Gadus morhua). Retrieved from http://www.chimia.it/pdf/Paper%204.03.pdf
  • Chawla, A., Bell, J. W., Janes, M. E., and Pollet, C. 2006. Development of a process to measure ozone concentration in processing water at the point of product application. Ozone-Sci.-Eng. 28(3): 171–175.
  • Chawla, A., Bell, J. W., and Marlene, E. J. 2007. Optimization of ozonated water treatment of wild-caught and mechanically peeled shrimp meat. J. Aquat. Food Prod. T. 16(2): 41–56.
  • Chen, H. C., Huang, S. H., Moody, M. W., and Jiang, S. T. 1992. Bacteriocidal and mutagenic effects of ozone on shrimp (Penaeus monodon) meat. J. Food Sci. 57(4): 923–927.
  • Cole-Parmer. 2010. Chemical Resistance Database. Retrieved from http://www.coleparmer.com/techinfo/ChemComp.asp
  • Crapo, C., Himelbloom, B., Vitt, S., and Pedersen, L. 2004. Ozone efficacy as a bactericide in seafood processing. J. Aquat. Food Prod. T. 13: 111–123.
  • Crowe, K. M., Skonberg, D., Bushway, A., and Baxter, S. 2012. Application of ozone sprays as a strategy to improve the microbial safety and quality of salmon fillets. Food Control 25: 464–468.
  • DeWitt, B. J., McCoid, V., Holt, B. L., Ellis, D. K., Finne, G., and Nickelson, R. 1984. The potential use of ozonated ice for on board storage of Gulf of Mexico shrimp. In: Proceedings of the 9th Annual Tropical and Subtropical Fisheries Technological Conference of the Americas. Pp. 269–280.
  • Dondo, A. C., Nachtman, C., Doglione, L., Rosso, A., and Genetti, A. 1992. Foods: Their preservation by combined use of refrigeration and ozone. Ingegneria Alimentare le Conserve Animali 8(3): 16–25.
  • Dosti, B., Guzel-Seydim, Z., and Greene, A. K. 2005. Effectiveness of ozone, heat and chlorine for destroying common food spoilage bacteria in synthetic media and biofilms. Int. J. Dairy Technol. 58: 19–24.
  • Duguet, J. P. 2004. Basic concepts of industrial engineering for the design of new ozonation processes. Ozone News 32(6): 15–19.
  • European Drinking Water Directive (EDWD): Council Directive 98/83/EC. Official Journal of the European Communities, 5 December 1998.
  • Farquhar, J. W., and Rice, R. G. 1983. Potential applications of ozone for increasing storage times of perishable foods. Retrieved from http://ageconsearch.umn.edu/handle/27865
  • Fetner, R. H., and Ingols, R. S. 1956. A comparison of the activity of ozone and chlorine against E. coli at 1°C. J. Gen. Microbiol. 15: 381–385.
  • Flick, E. W. 1991. Water Treatment Chemicals: An Industrial Guide. New York, NY: Willian Andrew Publishing.
  • Foegeding, P. M. 1985. Ozone inactivation of Bacillus and Clostridium spore populations and the importance of the spore coat to resistance. Food Microbiol. 2: 123–134.
  • Franson, M. A. 1976. DPD colormetric method. In: Standard Methods for the Examination of Water and Wastewater (14th ed.). Washington, DC: American Public Health Association. Pp. 332–334.
  • Franson, M. A. 1989. Iodometric method. In: Standard Methods for the Examination of Water and Wastewater (17th ed.). Washington, DC: American Public Health Association. Pp. 448–451.
  • Gaggia, F., Gioia, D. D., Baffoni, L., and Biavati, B. 2011. The role of protective and probiotic cultures in food and feed and their impact in food safety. Trends Food Sci. Tech. 22: S58–S66.
  • Geering, F. 1999. Ozone applications: The state-of-the-art in Switzerland. Ozone-Sci.-Eng. 21(2): 187–200.
  • Gelman, A., Sachs, O., Khanin, Y., Drabkin, V., and Glatman, L. 2005. Effect of ozone pretreatment on fish storage life at low temperatures. J. Food Protect. 68: 778–784.
  • Glaze, W. H. 1986. Reaction products of ozone: A review. Environ. Health Persp. 69: 151–157.
  • Gonçalves, A. A. 2009. Ozone—An emerging technology for the seafood industry. Braz. Arch. Biol. Techn. 52(6): 1527–1539.
  • Gonçalves, A. A. 2011. Processos oxidativos avançados (Ozônio). In: Tecnologia do Pescado: Ciência, Tecnologia, Inovação e Legislação. Gonçalves, A. A. (Ed.). Rio de Janeiro, Brasil: Atheneu. Pp. 500–512.
  • Gonçalves, A. A., and Gagnon, G. A. 2011. Ozone application in re-circulating aquaculture system: An overview. Ozone-Sci.-Eng. 33: 345–367.
  • Gonçalves, A. A., and Kechinski, C. P. 2010. Ozone technology in the food industry. In: Food Engineering (4th ed.). Siegler, B. C. (Ed). Hauppauge, NY: Nova Science Publishers. Pp. 85–146.
  • Gonçalves, A. A., and Paiva, F. G. 2008. Ozone—Clean technology in fishery industry. INFOFISH International 1: 25–28.
  • Graham, D. M. 1997. Use of ozone for food processing. Food Technol. 6(51): 72–75.
  • Greer, G. G., and Jones, S. D. M. 1989. Effects of ozone on beef carcass shrinkage, muscle quality and bacterial spoilage. Can. I. Food Sc. Tech. J. 22: 156–160.
  • Grguric, G., Trefry, J. H., and Keaffaber, J. J. 1994. Ozonation products of bromine and chlorine in seawater aquaria. Water Res. 28: 1087–1094.
  • Güzel-Seydim, Z., Bever, P. I., and Greene, A. K. 2004a. Efficacy of ozone to reduce bacterial populations in the presence of food components. Food Microbiol. 21(4): 475–479.
  • Güzel-Seydim, Z. B., Greene, A. K., and Seydim, A. C. 2004b. Use of ozone in the food industry. Lebensm. Wiss. Technol. 37 (4): 453–460.
  • Haraguchi, T., Simuda, U., and Aiso, K. 1969. Preserving effect of ozone on fish. B. Jpn. Soc. Sci. Fish. 35(9): 915–919.
  • Hobbs, G. 1991. Fish: Microbiological spoilage and safety. Food Sci. Technol. Today 5: 166–173.
  • Hoof, F. V. 1982. Professional risks associated with ozone. In: Ozonation Manual for Water and Waste Water Treatment. Masschelein, W. J. (Ed.). New York, NY: Wiley-Interscience. Pp. 200–201.
  • Hunter, G. F, and Rakness, K. L. 2002. Considerations for successful operation and calibration of on-line ozone residual analyzers. In: Proceedings of the International Ozone Association, Pan American Group Conference, Raleigh, NC.
  • Hurst, W. D. 1995. Ozone-based food disinfection. Trends Food Sci. Tech. 6(10): 350–350.
  • Ishizaki, K., Shinriki, N., and Matsuyama, H. 1986. Inactivation of Bacillus spores by gaseous ozone. J. Appl. Microbiol. 60: 67–72.
  • Jarvis, P., Parsons, S. A., and Smith, R. 2007. Modeling bromate formation during ozonation. Ozone: Sci. Eng. 29: 429–442.
  • Jones, S. 2009. Microbial contamination and shellfish safety. In: Shellfish Safety and Quality. Shumway, S. E., and Rodrick, G. E. (Eds.). Cambridge, UK: Woodhead Publishing. Pp. 3–42.
  • Khadre, M. A., and Yousef, A. E. 2001. Sporicidal action of ozone and hydrogen peroxide: A comparative study. Int. J. Food Microbiol. 71(2–3): 131–138.
  • Kim, J.-G., Yousef, A. E., and Chism, G. W. 1999a. Use of ozone to inactivate microorganisms on lettuce. J. Food Safety 19(1): 17–34.
  • Kim, J.-G., Yousef, A. E., and Dave, S. 1999b. Application of ozone for enhancing the microbiological safety and quality of foods: A review. J. Food Protect. 62(9): 1071–1087.
  • Kim, J.-G., Yousef, A. E., and Khadre, M. A. 2003. Ozone and its current and future application in the food industry. Adv. Food Nutr. Res. 45: 167–218.
  • Kim, T. J., Silva, J. L., Chamul, R. S., and Chen, T. C. 2000. Influence of ozone, hydrogen peroxide, or salt on microbial profile, TBARS and color of channel catfish fillets. J Food Sci. 65(7): 1210–1213.
  • Kötters, J., Pradur, A., Skura, B., Rosenthal, H., Black, E. A., and Rodrigues-Lopez, J. 1997. Observations and experiments on extending shelf life of rockfish (Sebastes spp.) products with ozone. J. Appl. Ichthyol. 13: 1–8.
  • Langlais, B., Reckhow, D. A., and Brink, D. R. 1991. Ozone in Water Treatment: Application and Engineering. Chelsea, MI: Lewis Publishers. 569 p.
  • Lin, S. H., and Yeh, K. L. 1993. Looking to treat wastewater? Try ozone. Chem. Eng. 100(5): 112–116.
  • Mairs, P., Nash, B., Blakistone, B., Yuan, J., and Bolton, G. 1999. Evaluation of ozone as a disinfecting agent to enhance the quality and extended the shelf life of raw, vacuum-packed fish. Retrieved from http://www.oxyzone.com.au/_assets/ozone_with_raw_fish99-ST-04-Ozone.pdf
  • Manousaridis, G., Nerantzaki, A., Paleologos, E. K., Tsiotsias, A., Savvaidis, I. N., and Kontominas, M. G. 2005. Effect of ozone on microbial, chemical and sensory attributes of shucked mussels. Food Microbiol. 22: 1–9.
  • Marhaba, T. F., and Bengraïne, K. 2003. Review of strategies for minimizing bromate formation resulting from drinking water ozonation. Clean Technol. Envir. 5: 101–112.
  • Mielcke, J., and Ried, A. 2004, May. Current state of application of ozone and UV for food processing. Paper presented at Proceedings of the Food Protection International Conference 2004, Monte da Caparica, Portugal.
  • Molloy, E., Hassenberg, K., Plöchl, M., Idler, C., Geyer, M., and Barnwes, J. 2001. Secondary direct food additives permitted in food for human consumption. Fed. Reg. 66: 33829–33830.
  • Mor-Mur, M., and Yuste, J. 2012. Emerging bacterial pathogens in meat and poultry: An overview. Food Bioprocess Tech. 3: 24–35.
  • Mukhopadhyay, S., and Ramaswamy, R. 2012. Application of emerging technologies to control Salmonella in foods: A review. Food Res. Int. 45(2): 666–677.
  • Naito, S. 1994. Inhibition of food spoilage fungi by application of ozone. Jpn. J. Food Microbiol. 11: 11–17.
  • Naito, S. 2012. Ozone in seafood processing. In: Ozone in Food Processing. O’Donnell, C., Tiwari, B. K., Cullen, P. J., and Rice, R. G. (Eds.). Hoboken, NJ: Wiley-Blackwell. Pp. 137–162.
  • Naito, S., and Takahara, H. 2006. Ozone contribution in food industry in Japan. Ozone-Sci.-Eng. 28(6): 425–429.
  • Nash, B. 2002, Spring. Ozone effective in preserving seafood freshness (North Carolina Sea Grant). Marine Extension News.
  • Nelson, W. 1982. The Use of Ozonized Ice to Extend the Shelf Life of Fresh Alaskan Fish: Final Report. Anchorage: Alaska Department of Commerce and Economic Development, Office of Commercial Fisheries Development.
  • Nerantzaki, A., Tsiotsias, A., Paleologos, E. K., Savvaidis, I. N., Bezirtzoglou, E., and Kontominas, M. G. 2005. Effects of ozonation on microbiological, chemical and sensory attributes of vacuum packaged rainbow trout stored at 4ºC. Eur. Food Res. Technol. 221: 675–683.
  • O’Donnell, C., Tiwari, B. K., Cullen, P. J., and Rice, R. G. 2012. Ozone in Food Processing. Hoboken, NJ: Wiley-Blackwell. 312 p.
  • Olaimat, A. N., and Holley, R. A. 2012. Factors influencing the microbial safety of fresh produce: A review. Food Microbiol. 32(1): 1–19.
  • Oliveira, N. M. S., Bresan, M. C., Piccoli, R. H., and Nascimento, L. C. 2007. Efeito do cloro e ozônio associados ou não ao ultra-som, sobre a microbiota em filés de tilápia (Oreochromis niloticus). Higiene Alimentar 21(156): 96–103.
  • Oliveira, N. M. S., Oliveira, W. R. M., Nascimento, L. C., Silva, J. M. S. F., Vicente, E., Fiorini, J. E., and Bressan, M. C. 2006. Efeito de métodos sanificantes sobre a composição centesimal, perfil de ácidos graxos em filés de tilápia. Higiene Alimentar 21(150): 152–153.
  • Ozone Solutions. 2007, October 10. Ozone Application Catalog: Food Processing, The Complete Ozone Product Catalog. Hull, IA: Author. 15 p.
  • Pastoriza, L., Bernárdez, M., Sampedro, G., Cabo, M. L., and Herrera, J. J. R. 2008a. Use of sterile and ozonized water as a strategy to stabilize the quality of stored refrigerated fresh fish. Food Control 19(8): 772–780.
  • Pastoriza, L., Bernárdez, M., Sampedro, G., Cabo, M. L., and Herrera, J. J. R. 2008b. The use of water and ice with bactericide to prevent onboard and onshore spoilage of refrigerated megrim (Lepidorhombus whiffiagonis). Food Chem. 110: 31–38.
  • Pérez, M., Palacios, A., and Amigo, P. 2006. Estudio de indicadores de la calidad de tomate conservado en atmósfera ozonizada. Alimentaria 115: 124–129.
  • Rakness, K. L. 2005. Ozone in Drinking Water Treatment: Process Design, Operation and Optimization. Denver, CO: American Water Works Association. 302 p.
  • Rakness, K. L., Demers, L. D., Blank, B. D., and Henry, D. 1996a. Gas phase ozone concentration comparisons from a commercial UV meter and KI wet chemistry tests. Ozone-Sci.-Eng. 18: 231–250.
  • Rakness, K. L., Gordon, G., Langlais, B., Masschelein, W., Matsumoto, N., Richard, Y., Robson, C. M., and Somiya, I. 1996b. Guideline for measurement of ozone concentration in the process gas from an ozone generator. Ozone-Sci.-Eng. 18: 209–229.
  • Rakness, K. L., and Hunter, G. F. 2000. Advancing Ozone Optimization During Pre-Design, Design and Operation. Palo Alto, CA: Electric Power Research Institute. 146 p.
  • Ravesi, E. M., Licciardello, J. J., and Racicot, L. D. 1987. Ozone treatments of fresh Atlantic cod, Gadus morhua. Mar. Fish. Rev. 49(4): 37–42.
  • Restaino, L., Frampton, E. W., Hemphill, J. B., and Palnikar, P. 1995. Efficacy of ozonated water against various food-related microorganisms. Appl. Environ. Microb. 61(9): 3471–3475.
  • Rice, R. G. 1997. Applications of ozone for industrial wastewater treatment. Ozone-Sci.-Eng. 18: 477–515.
  • Rice, R. G., Farquhar, J. W., and Bollyky, L. J. 1982. Review of the applications of ozone for increasing storage times of perishable foods. Ozone-Sci.-Eng. 4: 147–163.
  • Rice, R. G., and Gomez-Taylor, M. 1986. Occurrence of by-products of strong oxidants reacting with drinking water contaminants—Scope of the problem. Environ. Health Persp. 69: 31–44.
  • Rice, R. G., and Wrenn, R. H. 2007. Improving fish quality by means of ozone at fresher than fresh. Paper presented at the IOA-AINIA Conference on Ozone and the Food Industry, Valencia, Spain.
  • Richardson, S. D. 2003. Disinfection by-products and other emerging contaminants in drinking water. Trac-Trend Anal. Chem. 22(10): 666–684.
  • Rong, C., Qi, L., Bang-Zhong, Y., and Lan-Lan, Z. 2010. Combined effect of ozonated water and chitosan on the shelf-life of Pacific oyster (Crassostrea gigas). Innov. Food Sci. Emerg. 11: 108–112.
  • Roy, D., Wong, P. K. Y., Englebrecht, R. S., and Chian, E. S. K. 1981. Mechanism of enteroviral inactivation by ozone. Appl. Environ. Microb. 41: 718–723.
  • Salmon, J., and LeGall, L. 1936. Application of ozone to maintain the freshness and to prolong the durability of storage of fish. Rev. Gen. du Froid 11: 317–322.
  • Seafish. 1997. Use of Ozone in the Fish Industry. Hull, UK: Author.
  • Sheldon, B. W., and Brown, A. L. 1986. Efficacy of ozone as a disinfectant for poultry carcass and chill water. J. Food Sci. 51: 305–312.
  • Silva, M. V., Gibbs, P. A., and Kirby, R. M. 1998. Sensorial and microbial effects of gaseous ozone on fresh scad (Trachurus trachurus). J. Appl. Microbiol. 84: 802–810.
  • Staehelin, J., and Hoigne, J. 1985. Decomposition of ozone in water in the presence of organic solutes acting as promoters and inhibitors of radical chain reactions. Environ. Sci. Technol. 19: 1206–1213.
  • Steffen, H., Duerst, M., and Rice, R. G. 2010. User experiences with ozone, electrolytic water (active water) and UV-C light (Ventafresh technology) in production processes and for hygiene maintenance in a Swiss sushi factory. Ozone-Sci.-Eng. 32: 71–78.
  • Sugita, H., Asai, T., Hayashi, K., Mitsuya, T., Amanuma, K., Maruyma, C., and Deguchi, Y. 1992. Application of ozone disinfection to remove Entrococcus seriolicida, Pasteurela, and Vibrio anguillarum from seawater. Appl. Environ. Microb. 58: 4072–4075.
  • Sugita, H., Mita, J., and Deguchi, Y. 1996. Effect of ozone treatment on amylases in seawater. Aquaculture 141: 77–82.
  • Tango, M. S., and Gagnon, G. A. 2003. Impact of ozonation on water quality in marine recirculation systems. Aquacult. Eng. 29: 125–137.
  • Tapp, C., and Sopher, C. D. 2002. Ozone applications in fish and seafood processing—Equipment suppliers perspective—Summary paper. In: Ozone Applications in Fish Farming. Palo Alto, CA: Electric Power Research Institute.
  • Torres, E. A. F. S., Regê Ferreira, A. F, and Rímoli, C. D. 1996. Estudo das propriedades desinfetantes do ozônio em alimentos. Higiene Alimentar 10(42): 18–23.
  • Uhm, H. S., Hong, Y. F., Lee, H. Y., and Park, Y. H. 2009. Increase in the ozone decay time in acidic ozone water and its effects on sterilization of biological warfare agents. J. Hazard. Mater. 168: 1595–1601.
  • United States Environmental Protection Agency. 1998. Interim enhanced surface water treatment: Final rule. Fed. Reg. 63(241): 69478–69521.
  • Vaz-Velho, M., Silva, M., Pessoa, J., and Gibbs, P. 2006. Inactivation by ozone of Listeria innocua on salmon-trout during cold-smoke processing. Food Control 17: 609–616.
  • Victorin, K. 1992. Review of the genotoxicity of ozone. Mutat. Res. 277: 221–238.
  • Watson, R. 1996. Initial Trials to Extend the Storage-Life of Cod and Mackerel Using Sodium Hypochlorite or Ozone to Treat Ice and Refrigerated Seawater (Seafish Report No. SR498). Retrieved from http://www.seafish.org/media/publications/sr498.pdf
  • Watson, R. 1997. Further Trials to Extend the Storage Life of Cod and Mackerel Using Sodium Hypochlorite or Ozone (Seafish Report No. SR501). Retrieved from http://www.danmarco.net/resources/chlorine%20vs%20ozone.pdf
  • Williams, R. C., Sumner, S. S., and Golden, D. A. 2004. Survival of Escherichia coli O157:H7 and Salmonella in apple cider and orange juice as affected by ozone and treatment temperature. J. Food Protect. 67(11): 2381–2386.
  • Witheridge, W. L., and Yaglou, C. P. 1939. Ozone in ventilation: Its possibilities and limitations. Trans. Am. Soc. Heat Vent. Eng. 45: 509–522.
  • World Health Organization. 2004. Guidelines for Drinking Water Quality (Vol. 1, 3rd ed.). Geneva, Switzerland: Author.
  • Yates, R. S., and Stenstrom, M. 2000. Gravimetric sampling procedure for aqueous ozone concentration. Water Res. 34(4): 1413–1416.

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