Food Science and Preservation (한국식품저장유통학회지)

The Korean Society of Food Preservation (한국식품저장유통학회)
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Enhanced antimicrobial effectiveness of Omija (Schizamdra chinesis Baillon) by ClO2 (chlorine dioxide) treatment

오미자 수확 후 이산화염소수를 이용한 표면 세척에 따른 미생물 저감 효과

  • Lee, Seul (Department of Food and Food-Service Industry, Kyungpook National University) ;
  • Moon, Hey-Kyung (Center for Scientific Instruments, Kyungpook National University) ;
  • Lee, Su-Won (Tory Food Company) ;
  • Moon, Jae-Nam (Department of Food and Food-Service Industry, Kyungpook National University) ;
  • Lee, Sun-Ho (Department of Agricultural Engineering, National Academy of Agricultural Science, Rural Development Administration) ;
  • Kim, Jong-Kuk (Department of Food and Food-Service Industry, Kyungpook National University)
  • 이슬 (경북대학교 식품외식산업학과) ;
  • 문혜경 (경북대학교 공동실험실습관) ;
  • 이수원 ((주)토리식품) ;
  • 문재남 (경북대학교 식품외식산업학과) ;
  • 이선호 (농촌진흥청 국립농업과학원 농업공학부) ;
  • 김종국 (경북대학교 식품외식산업학과)
  • Received : 2013.11.26
  • Accepted : 2013.12.13
  • Published : 2013.12.30
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Abstract

The purpose of this study was to investigate antimicrobial effectiveness of Omija (Schizandra chinensis Baillon) treated with $ClO_2$ (chlorine dioxide) concentration (10, 15, 20, 25 and 30 ppm), washing time (30, 60 and 90 sec) and multiple proportion (x1, x2, x3 and x4). The seven groups were divided into control (Omija without washing water treatment), W-T (Omija treated by tap water ($20{\pm}1^{\circ}C$) for 30 seconds), $ClO_2$-10 (Omija treated by 10 ppm $ClO_2$), $ClO_2$-15 (Omija treated by 15 ppm $ClO_2$), $ClO_2$-20 (Omija treated by 20 ppm $ClO_2$), $ClO_2$-25 (Omija treated by 25 ppm $ClO_2$), $ClO_2$-30 (Omija treated by 30 ppm $ClO_2$), and then they were detected number of total aerobic bacteria, yeast and mold. The rate of inactivation was found, for microorganisms of total aerobic bacteria, yeast and mold, to increase with a increase of $ClO_2$ treatment concentration and multiple proportion. No total aerobic bacteria, yeast and mold in $ClO_2$-30 sample treated for 30 sec, $ClO_2$-15 treated for 60 sec and $ClO_2$-10 treated for 90 sec were detected, and in $ClO_2$-30 Omija with multiple proportion ${\times}1$ (Omija : 30 ppm $ClO_2$ solution ratio was 1:1 (w/w)), $ClO_2$-20 with ${\times}2$ (Omija : 20 ppm $ClO_2$ solution ratio was 1:2 (w/w)) and $ClO_2$-15 with ${\times}4$ (Omija : 15 ppm $ClO_2$ solution ratio was 1:4 (w/w)) respectively.

오미자의 위생과 저장성에 관여하는 미생물(총 호기성세균, 효모 및 곰팡이균)의 저감을 위해서 세척수 종류(물, $ClO_2$, $H_2O_2$) 및 농도별 이산화염소수($ClO_2$ 10 ppm, $ClO_2$ 15 ppm, $ClO_2$ 20 ppm, $ClO_2$ 25 ppm, $ClO_2$ 30 ppm)처리에 따른 세척시간(30~90초) 및 세척배수(${\times}1{\sim}{\times}4$)을 달리 처리하여 오미자 표면에 존재하는 총 호기성 세균수, 효모 및 곰팡이균수를 측정하였다. 오미자의 세척수 종류에 따른 미생물 균수 측정 결과, 세척하지 않은 구(control) 및 물세척 처리구보다 이산화염소수 처리구 및 과산화수고 처리구가 총세균, 효모 및 곰팡이 균수가 감소하였음을 확인하였다. 이산화염소($ClO_2$)수를 이용한 오미자의 세척시간에 따른 미생물 균수 측정 결과 총 세균과 효모 및 곰팡이는 이산화염소 농도 30 ppm 에서는 30초, 15 ppm에서는 60초, 10 ppm에서는 90초 처리시 검출되지 않았다. 또한 세척배수에 따른 미생물 사멸 효과는 이산화염소 농도 30 ppm 에서는 ${\times}1$, 20 ppm에서는 ${\times}2$, 15 ppm에서는 ${\times}4$로 처리시 총 세균과 효모 및 곰팡이가 측정되지 않았다. 이런 결과로 미루어 보아 이산화염소수 처리구는 이산화염소수의 농도가 증가하고 세척 배수가 증가함에 따라 미생물 저감화 효과를 확인할 수 있었다.

Keywords

References

  1. Park SH, Han JH (2004) A study of medicinal plants for applications in functional foods 1. Effects of Schizandra fructus on the regional cerebral blood flow and blood pressure in rats. J Korean Soc Food Sci Nutr, 33, 34-40 https://doi.org/10.3746/jkfn.2004.33.1.034
  2. Cho EK, Cho HE, Choi YJ (2010) Inhibitory effects of angiotensin converting enzyme and ${\alpha}$-glucosidase, and alcohol metabolizing activity of fermented omija (Schizandra chinensis Baillon) beverage. J Korean Soc Food Sci Nutr, 39, 655-661 https://doi.org/10.3746/jkfn.2010.39.5.655
  3. Heo NS, Choi HJ, Hwang SM, Choi YW, Lee YG, Joo WH (2013) Antimicrobial and anti-oral malodor efficacy of Schizandra chinensis extracts against oral pathogens. J Life Sci, 23, 443-447 https://doi.org/10.5352/JLS.2013.23.3.443
  4. Choi HJ, Choi YW, Baek SY, Kim BS, Ahn SC, Rhee MS, Yoon S (2013) Activity-guided screening of anti-inflammatory compounds from the hexane extracts of Schisandra chinensis fruit. J Life Sci, 23, 311-318 https://doi.org/10.5352/JLS.2013.23.2.311
  5. Ohtaki Y, Hida T, Hiramatsu K, Kanitani M, Ohshima T, Nomura M, Wakita H, Aburada M, Miyamoto KI (1996) Deoxycholic acid as an endogenous risk factor for hepatocarcinogenesis and effects of gomisin A, a lignan component of Schizandra fruits. Anticancer Res, 16, 751-755
  6. Nishiyama N, Chu PJ, Saito H (1996) An herbal prescription, S-113m, consisting of biota, ginseng and Schizandra, improves learning performance in senescence accelerated mouse. Biol Pharm Bull, 19, 388-393 https://doi.org/10.1248/bpb.19.388
  7. Choi MR, Oh SW, Lee SY (2008) Efficacy of chemical sanitizer in reducing levels of foodborne pathogens and formation of chemically injured cells an cabbage. J Korean Soc Food Sci Nutr, 37, 1337-1342 https://doi.org/10.3746/jkfn.2008.37.10.1337
  8. Kim JY, Chun HH, Song KB (2008) Effect of UV-C irradiation on the quality of imported dried fish during storage. Korean J Food Preserv, 15, 922-926
  9. Hong YH, Kim MK, Song KB (2008) Effects of aqueous chlorine dioxide treatment on microbial safety and quality of samgae chicken. Korean J Food Preserv, 15, 769-773
  10. Aieta EM, Berg JD (1986) A review of chlorine dioxide in drinking water treatment. J Am Water Works Asso, 78, 62-70
  11. Teng Hui, Kim YH, Lee WY (2013) Sterilization effect of electrolyzed water and chlorine dioxide on Rubus coreanus Miquel. Korean J Food Preserv, 20, 459-466 https://doi.org/10.11002/kjfp.2013.20.4.459
  12. Kim JY, Kim HJ, Lim GO, Jang SA, Song KB (2010) Effect of combined treatment of ultraviolet-c with aqueous chlorine dioxide or fumaric acid on the postharvest quality of strawberry fruit "Flamengo" during storage. J Korean Soc Food Sci Nutr, 39, 138-145 https://doi.org/10.3746/jkfn.2010.39.1.138
  13. Kim MH, Kim YJ, Kim KS, Song YB, Seo WJ, Song KB (2009) Microbial changes in hot peppers, ginger, and carrots treated with aqueous chlorine dioxide or fumaric acid. Korean J Food Preserv, 16, 1013-1017
  14. Park KJ, Lim JH, Kim BK, Kim JC (2008) Effect of aqueous chlorine dioxide and citric acid on reduction of Salmonella typhimurium on sprouting radish seeds. Korean J Food Preserv, 15, 754-759
  15. Jimenez-Villarreal JR, Pohlman FW, Johnson ZB, Brown AH (2003) Effect of chlorine dioxide, cetylpyridinium chlorine, lactic acid and trisodium phosphate on physical and sensory properties of ground beef. Meat Sci, 65, 1055-1062 https://doi.org/10.1016/S0309-1740(02)00320-0
  16. Park KH, Oh MJ, Kim HY (2003) Disinfection effect of chlorine dioxide on pathogenic bacteria from marine fish. J Aquaculture, 16, 118-123
  17. Food and Drug Administration (2007) Guidance for industry-guide to minimize microbial food safety hazards for fresh fruits and vegetables. Available from:http://www.cfsan.fda.gov. Accessed Fed. 27
  18. Yu DJ, Kim HJ, Song HJ, Shin YJ, Chae HS, Song KB (2011) Microbial inactivation of chicken cage litter by aqueous chloride dioxide. Korean J Food Preserv, 18, 98-102 https://doi.org/10.11002/kjfp.2011.18.1.098
  19. Park SS, Sung JM, Jeong JW, Park KJ, Lim JH (2012) Efficacy of electrolyzed water and aqueous chlorine dioxide for reducing pathogenic microorganism on chinese cabbage. Korean J Food Sci Technol, 44, 240-246 https://doi.org/10.9721/KJFST.2012.44.2.240
  20. Kim YJ, Lee SH, Song KB (2007) Effect of aqueous chlorine dioxide treatment on the microbial growth and qualities of iceberg lettuce during storage. J Appl Biol Chem, 50, 239-243
  21. Park KJ, Jeong JW, Lim JH, Jang JH, Park HJ (2008) Effect of and aqueous chlorine dioxide generator and effect on disinfection of fresh fruits and vegetables by immersion washing. Korean J Food Preserv, 15, 236-242

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