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    가지와 상추의 가공 중 azoxystrobin의 잔류량 변화 및 가공계수 = Residual characteristics and processing factors of azoxystrobin during eggplant and lettuce processing

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    https://www.riss.kr/link?id=A106640048

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    This study was conducted to investigate changes in pesticide residues in eggplant and lettuce during washing and cooking processes after application with azoxystrobin. Eggplant was processed with running washing, steaming, and stir-frying, and lettuce was processed with soaking washing, running washing, soaking and running washing, ultrasonic cleaning, and blanching.
    The limit of quantitation of GC analysis of azoxystrobin was 0.01 mg/kg and the recovery rate was 84.7-109.5%. The azoxystrobin processing factors (PFs) and reduction rates in eggplant and lettuce were calculated and the results were as follows. In the case of eggplant, the azoxystrobin PF and reduction rate of running washing were 0.29 and 71.1%, respectively, those of steaming were 0.32 and 68.0%, respectively, and those of stir-frying were 0.24 and 75.7%, respectively. In the case of lettuce, the azoxystrobin PF and reduction rate of soaking washing were 0.25, 75.3%, those of running washing were 0.61 and 38.9%, respectively, those of soaking and running washing were 0.32, 68.0%, those of ultrasonic cleaning were 0.47 and 53.1%, respectively, and those of blanching were 0.26 and 73.6%, respectively. It could be identified that pesticide residues in eggplant and lettuce can be effectively reduced through washing and cooking processes and that most of pesticide residues were removed when cooking processes were undergone after washing. Therefore, azoxystrobin PFs after washing and processing can be provided as basic data for risk assessment.
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    This study was conducted to investigate changes in pesticide residues in eggplant and lettuce during washing and cooking processes after application with azoxystrobin. Eggplant was processed with running washing, steaming, and stir-frying, and lettuce...

    This study was conducted to investigate changes in pesticide residues in eggplant and lettuce during washing and cooking processes after application with azoxystrobin. Eggplant was processed with running washing, steaming, and stir-frying, and lettuce was processed with soaking washing, running washing, soaking and running washing, ultrasonic cleaning, and blanching.
    The limit of quantitation of GC analysis of azoxystrobin was 0.01 mg/kg and the recovery rate was 84.7-109.5%. The azoxystrobin processing factors (PFs) and reduction rates in eggplant and lettuce were calculated and the results were as follows. In the case of eggplant, the azoxystrobin PF and reduction rate of running washing were 0.29 and 71.1%, respectively, those of steaming were 0.32 and 68.0%, respectively, and those of stir-frying were 0.24 and 75.7%, respectively. In the case of lettuce, the azoxystrobin PF and reduction rate of soaking washing were 0.25, 75.3%, those of running washing were 0.61 and 38.9%, respectively, those of soaking and running washing were 0.32, 68.0%, those of ultrasonic cleaning were 0.47 and 53.1%, respectively, and those of blanching were 0.26 and 73.6%, respectively. It could be identified that pesticide residues in eggplant and lettuce can be effectively reduced through washing and cooking processes and that most of pesticide residues were removed when cooking processes were undergone after washing. Therefore, azoxystrobin PFs after washing and processing can be provided as basic data for risk assessment.

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    참고문헌 (Reference)

    1 임무혁, "홍삼 가공중 azoxystrobin, fenhexamid 및 cyprodinil 농약의 감소율" 한국식품과학회 39 (39): 575-579, 2007

    2 노현호, "홍고추 중 matrine의 가공계수" 한국농약과학회 17 (17): 244-248, 2013

    3 박건상, "포장 및 침지실험 당근의 건조에 의한 농약 가공계수 산출 연구" 한국농약과학회 13 (13): 209-215, 2009

    4 남민지, "파프리카의 농산물우수관리제도(GAP)적용을 위한 재배단계의 위해요소 분석" 한국식품위생안전성학회 26 (26): 273-282, 2011

    5 고현정, "조리조건에 따른 가지(Solanum melongena L.)의 영양 및 항산화 특성 연구" 한국식품영양과학회 45 (45): 1747-1754, 2016

    6 이희동, "재배환경, 품종 및 가공 방법에 따른 고추와 고춧잎 중 농약의 잔류 특성" 한국농약과학회 10 (10): 99-106, 2006

    7 김종걸, "인삼의 재배 및 가공단계 별 Azoxystrobin 잔류성" 한국농약과학회 13 (13): 232-240, 2009

    8 노현호, "인삼 및 가공품 중 difenoconazole의 잔류특성 및 가공계수" 한국농약과학회 16 (16): 35-42, 2012

    9 이재윤, "인삼 가공품 중 azoxystrobin의 가공계수" 한국농약과학회 16 (16): 222-229, 2012

    10 임무혁, "인삼 가공중 잔류농약의 감소계수연구" 한국농약과학회 10 (10): 22-27, 2006

    1 임무혁, "홍삼 가공중 azoxystrobin, fenhexamid 및 cyprodinil 농약의 감소율" 한국식품과학회 39 (39): 575-579, 2007

    2 노현호, "홍고추 중 matrine의 가공계수" 한국농약과학회 17 (17): 244-248, 2013

    3 박건상, "포장 및 침지실험 당근의 건조에 의한 농약 가공계수 산출 연구" 한국농약과학회 13 (13): 209-215, 2009

    4 남민지, "파프리카의 농산물우수관리제도(GAP)적용을 위한 재배단계의 위해요소 분석" 한국식품위생안전성학회 26 (26): 273-282, 2011

    5 고현정, "조리조건에 따른 가지(Solanum melongena L.)의 영양 및 항산화 특성 연구" 한국식품영양과학회 45 (45): 1747-1754, 2016

    6 이희동, "재배환경, 품종 및 가공 방법에 따른 고추와 고춧잎 중 농약의 잔류 특성" 한국농약과학회 10 (10): 99-106, 2006

    7 김종걸, "인삼의 재배 및 가공단계 별 Azoxystrobin 잔류성" 한국농약과학회 13 (13): 232-240, 2009

    8 노현호, "인삼 및 가공품 중 difenoconazole의 잔류특성 및 가공계수" 한국농약과학회 16 (16): 35-42, 2012

    9 이재윤, "인삼 가공품 중 azoxystrobin의 가공계수" 한국농약과학회 16 (16): 222-229, 2012

    10 임무혁, "인삼 가공중 잔류농약의 감소계수연구" 한국농약과학회 10 (10): 22-27, 2006

    11 정형욱, "위해성평가에 근거한 농산물 중 22종 농약의 잔류허용기준설정" 한국환경농학회 30 (30): 156-162, 2011

    12 이종화, "시설 내 오이 재배 중 살균제 Boscalid의 잔류특성" 한국농약과학회 12 (12): 67-73, 2008

    13 정명근, "수출입 농산물의 잔류농약 검사를 위한 유기인계 농약 8종의 동시 분석" 한국국제농업개발학회 31 (31): 150-163, 2019

    14 김민기, "상추 재배토양 중 잔류 Azoxystrobin의 작물흡수" 한국응용생명화학회 60 (60): 343-349, 2017

    15 박미란, "부위 및 조리 방법에 따른 가지의 glycoalkaloid와 ascorbic acid 함량 변화" (사)한국조리학회 12 (12): 247-258, 2006

    16 박소영, "밀의 제분에 따른 밀가루 중 농약 가공계수 산출 연구" 한국농약과학회 13 (13): 70-78, 2009

    17 노현호, "동결건조에 따른 마늘 중 azoxystrobin과 flutolanil의 가공계수 및 감소계수" 한국농약과학회 14 (14): 235-240, 2010

    18 서정미, "깻잎의 재배, 저장 및 세척에 따른 잔류농약 분해특성" 한국식품위생안전성학회 22 (22): 199-208, 2007

    19 이은영, "구기자와 대추 중 잔류농약의 건조에 따른 가공계수 및 감소계수" 한국농약과학회 13 (13): 159-164, 2009

    20 임무혁, "과일류 가공 중 잔류농약 가공계수에 관한 고찰" 한국응용생명화학회 59 (59): 189-201, 2016

    21 이미경, "고추씨 중 농약 잔류와 고추씨 기름으로 농약의 이행" 한국식품과학회 48 (48): 317-322, 2016

    22 김준영, "결구 배추의 부위별 Chlorantraniliprole 및 Ethaboxam의 잔류수준과 배추 겉잎의 수세 및 열처리에 의한 잔류량 감소" 한국농약과학회 18 (18): 330-335, 2014

    23 박소연, "건조 대파의 잔류농약 가공 및 감소계수 연구" 한국농약과학회 13 (13): 249-255, 2009

    24 정명근, "Valinamide carbamate계 살균제 iprovalicarb의 잔류 분석법 개발" 한국국제농업개발학회 31 (31): 25-33, 2019

    25 Turner JA, "The Pesticide Manual A World Compendium Seventeenth Edition" BCPC 2015

    26 National Agriicultural Products Quality Management Service and National Institute of Agriicultural Science, "Test Manual for Pesticide Persistence" 2012

    27 MFDS, "Studies to Imporove the Tolerance Setting System of Pesticide Residues in Foods" 2001

    28 Kim IK, "Studies on pesticide tolerance limits in minor vegetable crops" Chonnam Nat. University 2017

    29 Park KS, "Studies for the processing factors of pesticides during the drying and processing of raw agricultural commodities" Chonnam Nat. University 2009

    30 Lee YJ, "Risk assessment of pesiticide residues in grinseng and processed ginseng products considering the processing factors of pesiticides" Chungnam Nat. University 2013

    31 Radwan MA, "Residual behaviour of profenofos on some field-grown vegetables and its removal using various washing solutions and household processing" 43 : 553-557, 2005

    32 Jung HH, "Residual Characteristics of triazole pesticides in spinach during cultivation and cooking process" Kyungpook Nat. University 2016

    33 Ryu JS, "Residual Characteristics of Triazole Rungicides during Cultivation period and Processing of Korean Cabbage" Kyungpook Nat. University 2017

    34 MFDS, "Research of Pesticide Inspection for Safety Management of Imported Foods" 2017

    35 MFDS, "Practical commentary of Residual Pesticide Analysis Method in Food Code" MFDS 2017

    36 A A.Z. Rodrigues, "Pesticide residue removal in classic domestic processing of tomato and its effects on product quality" 1-8, 2017

    37 Fong WG, "Pesticide Residues in Food: Methods, Technologies and Regulations" 3-, 1999

    38 "Pesticide"

    39 AOAC, "Official method of analysis" AOAC International 1-88, 2000

    40 KHIDI, "National Food & Nutrition Statistics I: based on 2014 Korea National Health and Nutrition Examination Survey" 2016

    41 KHIDI, "National Food & Nutrition Statistics"

    42 MFDS, "Korean Food Standards Codex. Pesticide MRLs"

    43 MFDS Pess Release, "How can you effectively remove pesticides from vegetables and fruits"

    44 Lee YD, "Hemophilia Life"

    45 안경근, "HPLC-UVD/MS를 이용한 농산물 중 Amisulbrom의 잔류분석" 한국농약과학회 18 (18): 321-329, 2014

    46 Korean Crop Protection Association, "Guidance Document of Crop Protection Products(Pesticide)" 2017

    47 MFDS, "Food standard and specification" Ministry of Food and Drug Safety 35-, 2018

    48 Kaushik G, "Food processing a tool to pesticide residue dissipation°© A review" 42 (42): 26-40, 2009

    49 Camara MA, "Effect of processing on the disappearance of pesticide residues in fresh-cut lettuce: Bioavailability and dietary risk" 52 (52): 880-886, 2017

    50 Bonnechere A, "Effect of household and industrial processing on levels of five pesticide residues and two degradation products in spinach" 25 : 397-406, 2012

    51 Zhibo H, "Effect of Chinese traditional cooking on eight pesticides residue during cowpea processing" 170 : 118-122, 2015

    52 Fenoll J, "Dissipation rates of procymidone and azoxystrobin in greenhouse grown lettuce and under cold storage conditions" 88 (88): 737-746, 2008

    53 김서홍, "Difenoconazole과 Pymetrozine의 미나리 중 잔류특성 및 가공계수" 충북대학교 대학원 2013

    54 Itoiz ES, "Deposition and residues of azoxystrobin and imidacloprid on greenhouse lettuce with implications for human consumption" 89 : 1034-1041, 2012

    55 Lee JK, "Current status for management of pesticide maximum residue limits in foods" 43 : 2-23, 2010

    56 Miller JM, "Chromatography : Concepts and contrasts" 286-287, 2005

    57 FAO, WHO, "CODEX alimentarius commission procedural manual" Food and Agriculture Organization, World Health Organization 2015

    58 유주현, "Azoxystrobin과 kresoxim-methyl의 오이 엽면 침투성과오이 흰가루병 방제 효과" 한국응용생명화학회 51 (51): 108-113, 2008

    59 노현호, "Azoxystrobin과 difenoconazole의 인삼 중 잔류 특성" 한국농약과학회 16 (16): 131-136, 2012

    60 Park MR, "A study on removal efficiency of residual pesticides in vegetables(agricultural products) by washing methods" Kyungwon University 2010

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    2023 평가 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
    2020-01-01 등재 등재학술지 유지 (해외등재 학술지 평가) KCI등재
    2010-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2008-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2007-05-09 학술지명변경 한글명 : Agricultrual Chemistry and Biotechnology -> Journal of Applied Biological Chemistry
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