참고문헌 (43)

1. 1. Mi HL Jae SH Nobuyuki K Takahisa M . Physicochemical characteristics of commercial spinach produced in autumn . J East Asian Soc Diet Life. ( 2005 ) 15 : 306 – 14 . 

2. 2. Kim KK . Agricultural Technology Guide . Jeonju : Rural Development Administration ( 2018 ). 

3. 3. Statistics Korea . The amount of vegetables produced . ( 2019 ). https://kostat.go.kr/wnsearch/search.jsp (Accessed September 11, 2021) 

4. 4. Korea Health Industry Development . Intake by Food . Institute ( 2018 ). Available online at: https://www.khidi.or.kr/kps/dhraStat/result2?menuId=MENU01653&year=2018 (accessed September 24, 2021). 

5. 5. National Crop Pest Management System . Information on Pests in Spinach . Available online at: https://ncpms.rda.go.kr/npms/ImageSearchDtlR4.np?kncrCode=VC021008&kncrNm=%EC%8B%9C%EA%B8%88%EC%B9%98&upperNm=%EC%B1%84%EC%86%8C&flagCode=S&queryFlag=V&nextAction=%2Fnpms%2FImageSearchDtlR4.np (accessed September 26, 2021). 

6. 6. Kim JE Kim JH Lee YD Im CH Heo JH Jung YH . The Latest Pesticide Science . Seoul : Sigmapress ( 2020 ). p. 5 – 12 . 

7. 7. Kim JH . Toxicity and acceptable daily intake of pesticide . Safe Food. ( 2007 ) 2 : 51 − 7 . 

8. 8. Jung BS . Food Safety Management Guidelines . Cheongju : Ministry of Food and Drug Safety ( 2021 ). 

9. 9. Lee HJ Choe WJ Lee JY Cho DH Kang CS Kim WS . Monitoring of ergosterol biosynthesis inhibitor (EBI) pesticide residues in commercial agricultural products and risk assessment . J Kor Soc Food Sci Nutr. ( 2009 ) 38 : 1779 – 84 . 10.3746/jkfn.2009.38.12.1779 

   원문보기 상세보기

10. 10. Park HS . Studies on Consumer Recognition for Agricultural Products . Jeonju : Rural Development Administration ( 2007 ). 

11. 11. Yoon YM Kim KJ . Consumers' knowledge on 10 food hazards . Cons Policy Educ Rev. ( 2015 ) 11 : 79 – 99 . 10.15790/cope.2015.11.4.079 29524769 

    

12. 12. Nam MJ Chung DY Shim WB Chung DH . Hazard analysis for the application of good agricultural practices (GAP) on paprika during cultivation . J Food Hyg S Afr. ( 2011 ) 26 : 273 – 82 . 

13. 13. Pesticides and Veterinary Drugs Information . Safety Management of Residual Pesticides . ( 2015 ). Available online at: http://www.foodsafetykorea.go.kr/residue/contents/view.do?contentsKey=4 (accessed September 30, 2021). 

14. 14. Moon KE . Monitoring pesticide residue in agricultural products for comparison before and after applying the positive list system . (MS thesis). Korea University, South Korea ( 2017 ). 

15. 15. Yoon HJ . Method Validation and Monitoring of Pesticide Residues in Agricultural Products . Cheonju : Ministry of Food and Drug Safety ( 2020 ). 

16. 16. Im MH Ji YJ . A review on processing factors of pesticide residues during fruits processing . J Appl Biol Chem. ( 2016 ) 59 : 189 – 201 . 10.3839/jabc.2016.034 

    원문보기 상세보기

17. 17. Pesticide Safety Information System . Pesticide Safety Information System . ( 2020 ). Available online at: https://psis.rda.go.kr/psis/index.ps (accessed October 12, 2021). 

18. 18. Ministry of Food and Drug Safety . Pesticide MRLs . ( 2021 ). Available online at: https://www.foodsafetykorea.go.kr/foodcode/02_02_01.jsp?food_code=ap106010005&s_option=KR&s_type=6 (accessed October 12, 2021). 

19. 19. Foster SP Denholm I Rison JL Portillo HE Margaritopoulis J Slater R . Susceptibility of standard clones and European field populations of the green peach aphid, Myzus persicae , and the cotton aphid, Aphis gossypii (Hemiptera: Aphididae), to the novel anthranilic diamide insecticide cyantraniliprole . Pest Manag Sci. ( 2012 ) 68 : 629 – 33 . 10.1002/ps.2306 22045565 

    상세보기

20. 20. Do JA Lee MY Chang MI Hong JH Oh JH . Development of analytical method for cyantraniliprole residues in Welsh onion (Allium species) . Anal Sci Technol. ( 2015 ) 28 : 175 – 81 . 10.5806/AST.2015.28.3.175 

    원문보기 상세보기

21. 21. Lee JW . Residual properties and risk assessment of cyantraniliprole on some minor crops (MS thesis). Kangwon University, South Korea ( 2019 ). 

22. 22. Barry JD Portillo HE Annan IB Cameron RA Clagg DG Dietrich RF . Movement of cyantraniliprole in plants after foliar applications and its impact on the control of sucking and chewing insects . Pest Manag Sci. ( 2014 ) 71 : 395 – 403 . 10.1002/ps.3816 24771486 

    상세보기

23. 23. Zhang Y Lorsbach BA Castetter S Lambert WT Kister J Wang NX . Physicochemical property guidelines for modern agrochemicals . Pest Manag Sci. ( 2018 ) 74 : 1979 – 91 . 10.1002/ps.5037 29667318 

    상세보기

24. 24. Gong W Jiang M Zhang T Zhang W Liang G Li B . Uptake and dissipation of metalaxyl-M, fludioxonil, cyantraniliprole and thiamethoxam in greenhouse chrysanthemum . Environ Pollut. ( 2020 ) 257 : 113499 . 10.1016/j.envpol.2019.113499 31706771 

    상세보기

25. 25. Yoon JH Lee SW Lim DJ Kim SW Kim IS . Evaluation of cyantraniliprole residues translocated by lettuce, spinach and radish . Kor J Environ Agric. ( 2021 ) 40 : 335 – 44 . 10.5338/KJEA.2021.40.4.38 

    원문보기 상세보기

26. 26. Seo JM Ha DR Lee HH Oh MS Park JJ Shin HW . The degradation patterns of two pesticides in spinach by cultivation, storage and washing . J Food Hyg S Afr. ( 2010 ) 25 : 91 – 9 . 

27. 27. Jung HH . Residual characteristics of triazole pesticides in spinach during cultivation and cooking process (MS thesis). Kyungpook University, South Korea ( 2016 ). 

28. 28. Kim JA Seo JA Lee HS Im MH . Residual characteristics and processing factors of azoxystrobin during eggplant and lettuce processing . J Appl Biol Chem. ( 2020 ) 63 : 51 – 60 . 10.3839/jabc.2020.007 

    원문보기 상세보기

29. 29. Chung SW . How effective are common household preparations on removing pesticide residues from fruit and vegetables? A review . J Sci Food Agric. ( 2018 ) 95 : 2857 – 5870 . 10.1002/jsfa.8821 29222908 

    상세보기

30. 30. Ling Y Wang H Yong W Zhang F Sun L Yang ML . The effects of washing and cooking on chlorpyrifos and its toxic metabolites in vegetables . Food Control. ( 2011 ) 22 : 54 – 8 . 10.1016/j.foodcont.2010.06.009 

    상세보기

31. 31. The Korea Food Code . Multiresidue Methods for Pesticide Residues . ( 2022 ). Available online at: https://www.foodsafetykorea.go.kr/foodcode/01_03.jsp?idx=404 (accessed October 15, 2021). 

32. 32. Joint FAO/WHO Codex Alimentarius Commission . CODEX. Guidelines on Performance Criteria for Methods of Analysis for the Determination of Pesticide Residues in Food and Feed, CODEX ALIMENTARIUS, CXG 90–2017 . Rome : Food and Agriculture Organization of the United Nations ( 2017 ). 

33. 33. Ko BS Jeon TH Jung KS Lee SK . Removal effects of organic-phosphorus pesticide residue in lettuce by washing methods . Kor J Rural. ( 1996 ) 21 : 159 – 71 . 

34. 34. Kwon HY Kim TK Hong SM Kim CS Baeck MK Kim DH . Removal of pesticide residues in field-sprayed leafy vegetables by different washing method . Kor J Pestic Sci. ( 2013 ) 17 : 237 – 43 . 10.7585/kjps.2013.17.4.237 

    원문보기 상세보기

35. 35. Lee JM Lee HR Nam SM . Removal rate of residual pesticides in Perilla leaves with various washing methods . Kor J Food Sci Technol. ( 2003 ) 35 : 586 – 90 . 

36. 36. Ku KM . Development of lab curriculum for teaching role of surfactant on waxy leaf surface and contact angle measurement using smartphone application and its educational efficacy analysis . Trends Agric Life Sci. ( 2019 ) 57 : 33 – 45 . 10.29335/tals.2019.57.33 

    상세보기

37. 37. Tahir S Anwar T Ahmad I Khan D . Effects on washing on concentration of residual pesticides in salad vegetables . Int J Biol Biotech. ( 2014 ) 11 : 655 – 9 . 

38. 38. Klinhom P Halee A Methawiwat S . The effectiveness of household chemiclas in residue removal of methomyl and carbaryl pesticides on Chinese-Kale . Kasetsart J (Nat Sci). ( 2008 ) 42 : 136 – 43 . 

39. 39. Ryu JS . Residual characteristics of triazole fungicides during cultivation period and processing of Korean cabbage (MS thesis). Kyungpook University, South Korea ( 2017 ). 

40. 40. Kim HJ . Changes in contents of residual pesticides in spinach during washing and cooking (MS thesis). Konkuk University, South Korea ( 2006 ). 

41. 41. Kim SH . Residual characteristics and processing factors of difenoconazole and pymetrozine in water celery (MS thesis). Chungbuk University, South Korea ( 2013 ). 

42. 42. Lee MG Jung D . Processing factors and removal ratios of select pesticides in hot pepper leaves by a successive process of washing, blanching, and drying . Food Sci Biotechnol. ( 2009 ) 18 : 1076 – 82 . 

    원문보기 상세보기

43. 43. Kim SW El-Aty AM Rahman MM Choi JH Choi OJ Rhee GS . Detection of pyridaben residue levels in hot pepper fruit and leaves by liquid chromatography-tandem mass spectrometry: effect of household process . Biomed Chromatogr. ( 2015 ) 29 : 990 – 7 . 10.1002/bmc.3383 25402259 

    상세보기