• Title/Summary/Keyword: 유기인계

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Comparative toxicity of some pesticides on reproduction of Korean native freshwater Cladocerans, Moina macrocopa and Daphnia sp. (한국산 물벼룩 Moina macrocopa와 Daphnia sp.에 대한 수종 농약의 번식독성 비교)

  • Kim, Byung-Seok;Park, Yoen-Ki;Park, Kyung-Hun;Jeong, Mi-Hye;You, Are-Sun;Yang, Yu-Jung;Shin, Jin-Sup;Kim, Jin-Hwa;Yoon, Seong-Myeong;Ahn, Young-Joon
    • The Korean Journal of Pesticide Science
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    • v.11 no.4
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    • pp.246-253
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    • 2007
  • The reproduction toxicity of several pesticides on two Korean water flea was investigated to develop a new standard species used for ecological risk assessment of pesticide. Moina macrocopa and Daphnia sp. were exposed to 4 different types of pesticides over 10 and 21 days, respectively. No-ohserved effect concentration (NOEC) for synthetic pyrethroid, fenpropathrin on Moina macrocopa and Daphnia sp. were 0.17 and $0.06\;{\mu}g\;L^{-1}$, respectively. Diazinon, carbofuran and myclobutanil were in the order of their reproduction toxicity to cladocerans tested. There were large differences between Moina macrocopa and Daphnia sp. in their susceptibility to fenpropathrin, diazinon and carbofuran except myclobutanil. Daphnia sp. is more sensitive than M. macrocopa to pesticides tested. Therefore Daphnia sp. may be a good surrogate species to assess the reproduction effect of pesticides on aquatic invertebrates. M. macrocopa also be a good surrogate species because it is one of the most abundant cladocera in agricultural environment, especially rice paddy in Korea. In addition to it's ecological importance of wide spread distribution, it has also economical importance to make possible to shorten period for reproduction test using M. macrocopa due to it's short life cycle.

Intra-laboratory Validation of an HPLC Post-column Oxidation Method for the Analysis of PSP Toxins in Oysters and Mussels (굴과 진주담치 중 마비성 패류독소 분석을 위한 HPLC post-column oxidation method의 시험소 내 유효성 검증)

  • Song, Ki Cheol;Lee, Ka-Jeong;Yu, Hong-Sik;Mok, Jong-Soo;Kim, Ji Hoe;Lim, Keun-Sik;Lee, Mi-Ae;Kim, Mee-Hye
    • Korean Journal of Food Science and Technology
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    • v.45 no.2
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    • pp.241-247
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    • 2013
  • AOAC Mouse Bioassay Analysis (MBA) has been the gold standard for the analysis of paralytic shellfish poisoning toxin (PSP toxin) for more than 50 years. However, this method has inaccurate limit of quantification and cannot be used to determine toxic profiles. An HPLC method (PCOX) was optimized for Korean shellfish to establish an alternative or supplementary method for PSP analysis and was intended to be used for the official monitoring and regulation of food. The recovery rate of the PCOX method was 83.5-112.1% and the limit of quantification for total toxin was about $8.6{\mu}g$/100 g. A long-term comparison study showed a good correlation of the PCOX results with the AOAC MBA results: the correlation factors were 0.9534 and 0.9109 for oyster and mussel matrices, respectively. The PCOX method may be used as an alternative or supplementary method for AOAC MBA to monitor the occurrence of PSP and to analyze PSP toxin profile in oysters and mussels.

Determination of Urinary Metabolites of Methidathion after Oral Administration and Dermal Application to Rats (흰쥐를 이용한 Methidathion의 경구투여 및 피부도포 후 뇨 중 대사물질 측정)

  • Min, Kyung-Jin;Kim, Hwa-Sun;Cha, Chun-Geun
    • Journal of Food Hygiene and Safety
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    • v.18 no.3
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    • pp.153-160
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    • 2003
  • This study was performed to determine the urinary metabolites of methidathion in rats. Urine samples were collected for 24 hours in metabolic cages following after oral administration and dermal application of methidation to rats. The urinary metabolites were identified by GC/MS and the excretion time courses of urinary dialkyl phosphate metabolites were analyzed by CG/FPD. The results obtained are summarized as follows: Three dialkyl phosphate metabolites, DMP, DMTP. and DMDTP, were detected in the rat urine. Urinary dialkyl phosphate metabolites were identified on the basis of their mass spectra by GC/MS. The molecular ions of DMP, DMTP,and DMDTP, were identified at m/z 198, and m/z 158, respectively. A comparison of excretion time courses of urinary dialkyl phosphate metabolites between the orally administrated and dermally applicated rats were also established, After oral administration, 79.2% of DMP, 93.9% of DMTP, and 83.0% of DMDTP were excreted into the urine by 12, 24, and 12 hours, respectively. After dermal application, 71.1% of DMP, 82.8% of DMTP 87.7% of DMDTP were excreted into the urine by 24, 48, 48 hours, respectively. Consequently, almost all of the dialkyl phosphates in oral administration were excreted within 48 hours. However, the metabolites in dermal application were excreted up to 168 hours. In the study, three urinary metabolites of methidation, DMP, DMTP and DMDTP, were detected in the rat both after oral administraion and dermal application with methidathion. And the urinary excretion in dermal application was more delayed than that in oral administration. Based on the results, it tis suggested that three urinary dealkyl phosphates, DMP, DMTP, and DMDTP, could be used as the biomarkers of exposure for methidathion.