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Journal Abstract Search

188 related items for PubMed ID: 18500665

  • 1. Variation of 4,5,6,7-tetrachlorophthalide in water after aerial application to rice cultivation area.
    Maeda T, Iwashita M, Hori T, Asada T, Oikawa K, Kawata K.
    Bull Environ Contam Toxicol; 2008 May; 80(5):399-402. PubMed ID: 18500665
    [Abstract] [Full Text] [Related]

  • 2. Decrease of 4,5,6,7-tetrachlorophthalide in paddy field soil after aerial application.
    Iwashita M, Maeda T, Hori T, Asada T, Oikawa K, Kawata K.
    Bull Environ Contam Toxicol; 2008 Oct; 81(4):383-6. PubMed ID: 18670728
    [Abstract] [Full Text] [Related]

  • 3. Runoff of aerially applied phthalide from paddy fields.
    Shiota N, Hori T, Nissato K, Asada T, Oikawa K, Kawata K.
    Bull Environ Contam Toxicol; 2006 Oct; 77(4):508-15. PubMed ID: 17123009
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  • 5. Alternative water management for controlling simetryn and thiobencarb runoff from paddy fields.
    Phong TK, Nguyen MH, Komany S, Vu SH, Watanabe H.
    Bull Environ Contam Toxicol; 2006 Sep; 77(3):375-82. PubMed ID: 17033864
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  • 7. Behavior of bromobutide in paddy water and soil after application.
    Morohashi M, Nagasawa S, Enya N, Suzuki K, Kose T, Kawata K.
    Bull Environ Contam Toxicol; 2012 Apr; 88(4):521-5. PubMed ID: 22297629
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  • 9. Daily variation of pesticides in surface water of a small river flowing through paddy field area.
    Tanabe A, Kawata K.
    Bull Environ Contam Toxicol; 2009 Jun; 82(6):705-10. PubMed ID: 19290454
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  • 10. Exposure risk assessment and evaluation of the best management practice for controlling pesticide runoff from paddy fields. Part 1: Paddy watershed monitoring.
    Vu SH, Ishihara S, Watanabe H.
    Pest Manag Sci; 2006 Dec; 62(12):1193-206. PubMed ID: 17099930
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  • 11. The potential of pesticides to contaminate the groundwater resources of the Axios river basin. Part II. Monitoring study in the south part of the basin.
    Papadopoulou-Mourkidou E, Karpouzas DG, Patsias J, Kotopoulou A, Milothridou A, Kintzikoglou K, Vlachou P.
    Sci Total Environ; 2004 Apr 05; 321(1-3):147-64. PubMed ID: 15050392
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  • 13. Dissipation of epoxiconazole in the paddy field under subtropical conditions of Taiwan.
    Lin HT, Wong SS, Li GC.
    J Environ Sci Health B; 2001 Jul 05; 36(4):409-20. PubMed ID: 11495019
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  • 15. Monitoring tricyclazole residues in rice paddy watersheds.
    Padovani L, Capri E, Padovani C, Puglisi E, Trevisan M.
    Chemosphere; 2006 Jan 05; 62(2):303-14. PubMed ID: 15996714
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  • 16. Simulation of mefenacet concentrations in paddy fields by an improved PCPF-1 model.
    Watanabe H, Takagi K, Vu SH.
    Pest Manag Sci; 2006 Jan 05; 62(1):20-9. PubMed ID: 16261540
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  • 17. Residues of the fungicide epoxiconazole in rice and paddy in the Chinese field ecosystem.
    Yan B, Ye F, Gao D.
    Pest Manag Sci; 2015 Jan 05; 71(1):65-71. PubMed ID: 24550150
    [Abstract] [Full Text] [Related]

  • 18. Behavior of herbicide pyrazolynate and its hydrolysate in paddy fields after application.
    Kubo T, Ohno M, Nagasawa S, Kose T, Kawata K.
    Bull Environ Contam Toxicol; 2012 Nov 05; 89(5):985-9. PubMed ID: 22914901
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  • 19. Monitoring of selected pesticides residue levels in water samples of paddy fields and removal of cypermethrin and chlorpyrifos residues from water using rice bran.
    Bhattacharjee S, Fakhruddin AN, Chowdhury MA, Rahman MA, Alam MK.
    Bull Environ Contam Toxicol; 2012 Aug 05; 89(2):348-53. PubMed ID: 22627618
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  • 20. Runoff and degradation of aerially applied dinotefuran in paddy fields and river.
    Yokoyama S, Ito M, Nagasawa S, Morohashi M, Ohno M, Todate Y, Kose T, Kawata K.
    Bull Environ Contam Toxicol; 2015 Jun 05; 94(6):796-800. PubMed ID: 25917847
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