Abstract
Residue dynamics of fosthiazate in tomato and soil was studied in this paper utilizing liquid chromatography with tandem mass spectrometry (LC–MS/MS). The field trial was conducted in three sites: Beijing, Liaoning, Hubei in China. Fosthiazate dissipated with the half-life 0.75–2.6 days in tomato or tomato plants and 2.5–11.6 days in soil. In the terminal residue experiment, no higher residue than 0.023 mg kg−1 in tomato and 0.27 mg kg−1 in soil was detected. Residues of fosthiazte in tomato were far below Japan maximum residue levels (0.2 mg kg−1).
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References
Ferrari V, Caioni M, Piccinini E, Campanelli G, Ficcadenti N, Prencipe N (2008) A two-year study of the efficacy of a liquid formulation of fosthiazate against root-knot nematodes in tomato and muskmelon. Redia 91:177–179
Giannakou IO, Karpouzas DG, Anastasiades I, Tsiropoulos NG, Georgiadou A (2005) Factors affecting the efficacy of non-fumigant nematicides for controlling root-knot nematodes. Pest Manage Sci 61(10):961–972
Ingham RE, Hamm PB, Williams RE, Swanson WH (2000) Control of Meloidogyne chitwoodi in potato with fumigant and nonfumigant nematicides. J Nematol 32S(4):556–565
Karpouzas DG, Pantelelis I, Menkissoglu-Spiroudia U, Golia E, Tsiropoulos NG (2007) Leaching of the organophosphorus nematicide fosthiazate. Chemosphere 68:1359–1364
Kimpinski J, Arsenault WJ, Sanderson JB (1997) Fosthiazate for suppression of Pratylenchus penetrans in potato on Prince Edward Island. J Nematol 29S(4):685–689
Koyanagi T, Imai O, Yoshida K (1998) Development of a new nematicide, fosthiazate. J Pestic Sci 23(2):174–181
Lawrence GW, McLean KS (1995) Reniform nematode management on cotton with fosthiazate, 1992. Fung Nemat Tests 50:197–198
Lin K, Zhang F, Zhou S, Liu W, Gan J, Pan Z (2007) Stereoisomeric separation and toxicity of the nematicide fosthiazate. Environ Toxicol Chem 26(11):2339–2344
Melton TA, Wood K, Porter D (1994) Comparison of fosthiazate to commonly used nonfumigant and fumigant nematicides, 1993. Fung Nemat Tests 49:188
Minton NA, Brenneman TB, Bondari K, Harrison GW (1993) Activity of fosthiazate against Meloidogyne arenaria, Frankliniella spp., and Sclerotium rolfsii in peanut. Pean Sci 20(1):66–70
Pantelelis I, Karpouzas DG, Menkissoglu-Spiroudi U, Tsiropoulos N (2006) Influence of soil physicochemical and biological properties on the degradation and adsorption of the nematicide fosthiazate. J Agric Food Chem 54(18):6783–6789
Qin SJ, Gan JY, Liu WP, Becker JO (2004) Degradation and adsorption of fosthiazate in soil. J Agric Food Chem 52(20):6239–6242
Rich JR, Dunn RA, Thomas WD, Breman JW, Tervola RS (1994) Evaluation of fosthiazate for management of meloidogyne-javanica in Florida flue-cured tobacco. J Nematol 26S(4):701–704
Toki T, Imai O (1994) Nemathorin (fosthiazate IKI-1145, ASC-66824), a new nematicide. Agrochemicals Jpn 65:13–15
Tsiropoulos NG, Likas DT, Karpouzas DG (2005) Liquid chromatographic determination of fosthiazate residues in environmental samples and application of the method to a fosthiazate field dissipation study. J AOAC Int 88(6):1827–1833
Woods SR, Haydock P, Edmunds C (1999) Mode of action of fosthiazate used for the control of the potato cyst nematode Globodera pallida. Ann Appl Biol 135(1):409–415
Acknowledgments
This study was sponsored by Yifan Chemical Technology Limited (Zhejiang Province, China) and the Institute for the Control of Agrochemicals, Ministry of Agriculture of the People’s Republic of China.
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Wu, J., Wang, K. & Zhang, H. Residues and Dissipation Dynamics of Fosthiazate in Tomato and Soil. Bull Environ Contam Toxicol 89, 664–668 (2012). https://doi.org/10.1007/s00128-012-0594-y
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DOI: https://doi.org/10.1007/s00128-012-0594-y