• Title/Summary/Keyword: Partition recovery

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Analytical Methods of Fenpyroximate in Herbal Medicines (생약 중 Fenpyroximate의 분석법 연구)

  • Lee, Ju-Hee;Lee, Yoon-Jeong;Kang, In-Ho;Kim, Do-Hoon;Kang, Shin-Jeong;An, Kyung-A;Lee, Ryun-Kyung;Suh, Sang-Chul;Lee, Jeong-Rim
    • The Korean Journal of Pesticide Science
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    • v.18 no.3
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    • pp.141-147
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    • 2014
  • Fenpyroximate is acaricide of pyrazole group. This acaricide have already been permitted for herb cultivation. This experiment was conducted to establish a determination method for fenpyroximate residue in herbal medicines using HPLC-PDA and HPLC-MS/MS. Fenpyroximate residue was extracted with acetone from samples of herbal which Liquorice Root (Glycyrrhiza uralensis) and Safflower Seed (Carthamus tinctorius Linne). The extract was diluted with saturated saline water and dichloromethane liquid-liquid partition (extraction) was followed to recover fenpyroximate from the aqueous phase. Amino propyl ($NH_2$) and florisil column chromatography was additionally employed for final clean up of the extract. The fenpyroximate was quantitated by HPLC-PDA and HPLC-MS/MS. The herbals were fortified with fenpyroximate at 2 or 3 levels per crop. Mean recovery ratio were ranged from 72.0 to 106.4%. The coefficients of variation were ranged from 0.2 to 4.4. Therefore, this analytical method was reproducible and sensitive enough to determine the residue of fenpyroximate in herbal medicines.

Simultaneous Pesticide Analysis Method for Bifenox, Ethalfluralin, Metolachlor, Oxyfluorfen, Pretilachlor, Thenylchlor and Trifluralin Residues in Agricultural Commodities Using GC-ECD/MS (GC-ECD/MS를 이용한 농산물 중 Bifenox, Ethalfluralin, Metolachlor, Oxyfluorfen, Pretilachlor, Thenylchlor 및 Trifluralin의 동시 분석)

  • Ahn, Kyung Geun;Kim, Gi Ppeum;Hwang, Young Sun;Kang, In Kyu;Lee, Young Deuk;Choung, Myoung Gun
    • Korean Journal of Environmental Agriculture
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    • v.37 no.2
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    • pp.104-116
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    • 2018
  • BACKGROUND: This experiment was conducted to establish a simultaneous analysis method for 7 kinds of herbicides in 3 different classes having similar physicochemical property as diphenyl ether(bifenox and oxyfluorfen), dinitroaniline (ethalfluralin and trifluralin), and chloroacetamide (metolachlor, pretilachlor, and thenylchlor) in crops using GC-ECD/MS. METHODS AND RESULTS: All the 7 pesticide residues were extracted with acetone from representative samples of five raw products which comprised apple, green pepper, Kimchi cabbage, hulled rice and soybean. The extract was diluted with saline water and directly partitioned into n-hexane/dichloromethane(80/20, v/v) to remove polar co-extractives in the aqueous phase. For the hulled rice and soybean samples, n-hexane/acetonitrile partition was additionally employed to remove non-polar lipids. The extract was finally purified by optimized Florisil column chromatography. The analytes were separated and quantitated by GLC with ECD using a DB-1 capillary column. Accuracy and precision of the proposed method was validated by the recovery experiment on every crop samples fortified with bifenox, ethalfluralin, metolachlor, oxyfluorfen, pretilachlor, thenylchlor, and trifluralin at 3 concentration levels per crop in each triplication. CONCLUSION: Mean recoveries of the 7 pesticide residues ranged from 75.7 to 114.8% in five representative agricultural commodities. The coefficients of variation were all less than 10%, irrespective of sample types and fortification levels. Limit of quantitation (LOQ) of the analytes were 0.004 (etahlfluralin and trifluralin), 0.008 (metolachlor and pretilachlor), 0.006 (thenylchlor), 0.002 (oxyfluorfen), and 0.02 (bifenox) mg/kg as verified by the recovery experiment. A confirmatory technique using GC/MS with selected-ion monitoring was also provided to clearly identify the suspected residues. Therefore, this analytical method was reproducible and sensitive enough to determine the residues of bifenox, ethalfluralin, metolachlor, oxyfluorfen, pretilachlor, thenylchlor, and trifluralin in agricultural commodities.

Gas Chromatographic Method for Multiresidue Analysis of Unregistered Pesticides in Imported Agricultural Commodities (가스 크로마토그래피를 이용한 수입농산물 중 국내 미등록 농약의 다성분 동시분석법 적용)

  • Lee, Ji-Won;Kang, Jeong-Kyun;Kwon, Hyeyoung;Ro, Jin-Ho;Jin, Yong-Duk;Lee, Je Bong;Hong, Su-Myeoung;Kim, Teak-Kyum;Cho, Nam-Jun
    • The Korean Journal of Pesticide Science
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    • v.19 no.3
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    • pp.161-173
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    • 2015
  • The multiresidue method 4.1.2.2 in Korea Food Code was extended for the analysis of 24 unregistered pesticide residues. The method includes acetonitrile extraction, liquid-liquid partition, Florisil SPE clean-up and GC analysis. The limits of quantification (LOQ) range of the method was 0.02~0.05 mg/kg for orange, brown rice and banana. The linearity for targeted pesticides were $R^2$ > 0.99 at the level ranged from 0.05 to 5 mg/L. Recovery test was performed at two concentration levels of LOQ and 4~10 times of LOQ. Recoveries and relative standard deviations (RSDs) of target pesticides were acceptable, showing 70~120% range and less than 20%, respectively, except for ethiprole, picloram and sulcotrion. This method is effectively applicable to routine analysis of target pesticides in orange, brown rice and banana.

Determination of Fomesafen Residue in Agricultural Commodities Using HPLC-UVD/MS (HPLC-UVD/MS를 이용한 농산물 중 fomesafen의 분석)

  • Lee, Su-Jin;Hwang, Young-Sun;Kim, Young-Hak;Nam, Mi-Young;Hong, Seung-Beom;Yun, Won-Kap;Kwon, Chan-Hyeok;Do, Jung-A;Im, Moo-Hyeog;Lee, Young-Deuk;Choung, Myoung-Gun
    • The Korean Journal of Pesticide Science
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    • v.14 no.2
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    • pp.95-103
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    • 2010
  • Fomesafen is a selective herbicide, and used to control annual and perennial broad-leaf grass on soybean and fruit fields in USA and China, but not introduced in Korea yet. So, MRL (Maximum Residue Level), and analytical method of fomesafen were not establishment in Korea. Therefore, this experiment was conducted to establish a determination method for fomesafen residue in crops using HPLC-UVD/MS. Fomesafen residue was extracted with acetone from representative samples of five raw products which comprised hulled rice, soybean, apple, green pepper, and Chinese cabbage. The extract was diluted with saline water, and dichloromethane partition was followed to recover fomesafen from the aqueous phase. Florisil column chromatography was additionally employed for final clean up of the extract. The fomesafen was quantitated by HPLC with UVD, using a Shiseido CAPCELL-PAK UG C18 column. The crops were fortified with fomesafen at 3 levels per crop. Mean recovery ratio were ranged from 87.5% for a 0.4 ppm in hulled rice to 102.5% for a 0.4 ppm in apple. The coefficients of variation were ranged from 0.6% for a 2.0 ppm in hulled rice to 7.7% for a 0.04 ppm in green pepper. Quantitative limit of fomesafen was 0.04 mg/kg in representative 5 crop samples. A LC/MS with selected-ion monitoring was also provided to confirm the suspected residue. Therefore, this analytical method was reproducible and sensitive enough to determine the residue of fomesafen in agricultural commodities.

Analysis of Pesticide Residues in Rice Straw for Livestock Feed (사료용 볏짚 중 잔류농약 분석)

  • Gil, Geun-Hwan;Kim, Jin-Bae;Kim, Chan-Sub;Son, Gyeong-Ae;Gwon, Hye-Yeong;Park, Jea-Eup;Lee, Kyu-Seung
    • The Korean Journal of Pesticide Science
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    • v.16 no.4
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    • pp.273-281
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    • 2012
  • This study was conducted for the establishment of the analytical method of pesticide residues in rice straw for 9 pesticides; etofenprox, tricyclazole, diazinon, edifenphos, propiconazole, carbaryl, carbofuran, 3-hydroxy carbofuran and 3-keto carbofuran and for the monitoring of these pesticides in rice straw for livestock feed in Korea. These pesticides were classified into 4 groups according to analytical instrument condition. Group 1 (HPLC-UVD1) included tricyclazole and etofenprox while group 2 (HPLC-UVD2) included propiconazole and edifenphos. Group 3 (HPLC-FLD) included carbaryl, carbofuran, 3-hydroxy carbofuran and 3-keto carbofuran. Group 4 (GC-NPD) included Diazinon. The dried rice straw samples were extracted with acetone and purified by liquid-liquid partition and solid phase extraction (SPE): Combination of Florisil SPE and amino-propyl SPE was used for group 1 and group 2, amino-propyl SPE for group 3, and Florisil SPE was for group 4. Recovery was in the ranged 70~110% and the limits of quantitation (LOQ) were lower than the half of maximum residue limits. Therefore this method was proved to be efficient for monitoring of these pesticides residue in rice straw. A total of 18 rice straw samples from 6 provinces in Korea in 2010 were analyzed using established method and, only 3-keto carbofuran was detected in one sample at concentration of 0.04 mg/kg.

Development of Analytical Method for Fenoxycarb, Pyriproxyfen and Methoprene Residues in Agricultural Commodities Using HPLC-UVD/MS (HPLC-UVD/MS를 이용한 농산물 중 fenoxycarb, pyriproxyfen 및 methoprene의 분석법 확립)

  • Lee, Su-Jin;Kim, Young-Hak;Song, Lee-Seul;Hwang, Yong-Sun;Lim, Jung-Dae;Sohn, Eun-Hwa;Im, Moo-Hyeog;Do, Jung-Ah;Oh, Jae-Ho;Kwon, Ki-Sung;Lee, Joong-Keun;Lee, Young-Deuk;Choung, Myoung-Gun
    • The Korean Journal of Pesticide Science
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    • v.15 no.3
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    • pp.254-268
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    • 2011
  • Fenoxycarb, pyriproxyfen and methoprene are juvenile hormone mimic insecticide. These insecticides have been widely used for mosquito, fly, scale insects, and Lepidoptera. The purpose of this study was to develop a simultaneous determination procedure of fenoxycarb, pyriproxyfen and methoprene residues in crops using HPLC-UVD/MS. These insecticide residues were extracted with acetone from representative samples of four raw products which comprised brown rice, apple, green pepper, and Chinese cabbage. The extract was diluted with saline water, and then n-hexane/dichloromethane partition was followed to recover these insecticides from the aqueous phase. Florisil column chromatography was additionally employed for final clean up of the extract. The analytes were quantitated by HPLC-UVD/MS, using a $C_{18}$ column. The crops were fortified with each insecticide at 3 levels per crop. Mean recovery ratios were ranged from 80.0 to 104.3% in four representative agricultural commodities. The coefficients of variation were less than 4.8%. Quantitative limit of fenoxycarb, pyriproxyfen, and methoprene was 0.04 mg/kg in crop samples. A HPLC-UVD/MS with selected-ion monitoring was also provided to confirm the suspected residues. The proposed simultaneous analysis method was reproducible and sensitive enough to determine the residues of fenoxycarb, pyriproxyfen and methoprene in the agricultural commodities.

Determination of cyromazine residues in agricultural commodities using HPLC-UVD/MS (HPLC-UVD/MS를 이용한 농산물 중 Cyromazine의 잔류분석법)

  • Song, Lee-Seul;Kim, Young-Hak;Lee, Su-Jin;Hwang, Young-Sun;Kwon, Chan-Hyeok;Do, Jung-Ah;Oh, Jae-Ho;Im, Moo-Hyeog;Chang, Woo-Suk;Lee, Young-Deuk;Choung, Myoung-Gun
    • The Korean Journal of Pesticide Science
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    • v.16 no.3
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    • pp.202-208
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    • 2012
  • A high-performance liquid chromatographic (HPLC) method was developed to determine residues of cyromazine, a triazine insecticide, in agricultural commodities. Cyromazine was extracted with 90% aqueous methanol from representative crops which comprised brown rice, oyster mushroom, oriental melon, watermelon, and Chinese cabbage. Following to evaporation of methanol in the extract, the aqueous concentrate was acidified to form the protonated cyromazine. Dichloromethane partition was then applied to remove nonpolar co-extractives in the aqueous phase. Strong cation-exchange chromatography using Dowex 50W-X4 resin was employed for final purification of the extract. Cyromazine was successfully separated on a Zorbax SB-Aq $C_{18}$ column showing high retention for polar compounds. Cyromazine was sensitively quantitated by ultraviolet absorption at 214 nm. Limit of quantitation (LOQ) of the method was 0.04 mg/kg irrespective of sample types. Each crops were fortified at 3 different concentrations of cyromazine for recovery test. Mean recoveries from samples fortified at LOQ~2.0 mg/kg in triplicate ranged 80.2~103.3% in five agricultural commodities. Relative standard deviations in recoveries were all less than 6%. A selected-ion monitoring LC/MS method with electrospray ionization in positive-ion mode was also provided to confirm the suspected residue. The proposed method was reproducible and sensitive enough to routinely determine and inspect the residue of cyromazine in agricultural commodities.