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PCPF-M model for simulating the fate and transport of pesticides and their metabolites in rice paddy field.
Pest Manag Sci. 2017 Dec; 73(12):2429-2438.PM

Abstract

BACKGROUND

The PCPF-1 model was improved for forecasting the fate and transport of metabolites in addition to parent compounds in rice paddies. In the new PCPF-M model, metabolites are generated from the dissipation of pesticide applied in rice paddies through hydrolysis, photolysis and biological degradations. The methodology to parameterize the model was illustrated using two scenarios for which uncertainty and sensitivity analyses were also conducted.

RESULTS

In a batch degradation experiment, the hourly forecasted concentrations of fipronil and its metabolites in paddy water were very accurate. In a field-scale experiment, the hourly forecasted concentrations of fipronil in paddy water and paddy soil were accurate while the corresponding daily forecasted concentrations of metabolites were adequate. The major contributors to the variation of the forecasted metabolite concentrations in paddy water and paddy soil were the formation fractions of the metabolites. The influence of uncertainty included in input parameters on the forecasted metabolite concentration was high during the peak concentration of metabolite in paddy water. In contrast, in paddy soil, the metabolite concentrations forecasted several days after the initial pesticide application were sensitive to the uncertainty incorporated in the input parameters.

CONCLUSION

The PCPF-M model simultaneously forecasts the concentrations of a parent pesticide and up to three metabolites. The model was validated using fipronil and two of its metabolites in paddy water and paddy soil. The model can be used in the early stage of the pesticide registration process and in risk assessment analysis for the evaluation of pesticide exposure. © 2017 Society of Chemical Industry.

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Authors+Show Affiliations

Boulange J
Department of International Environmental and Agricultural Sciences, Tokyo University of Agriculture and Technology, Tokyo, Japan.
Malhat F
Department of International Environmental and Agricultural Sciences, Tokyo University of Agriculture and Technology, Tokyo, Japan. Department of Pesticides Residues and Environmental Pollution, Central Agricultural Pesticide Laboratory, Giza, Egypt.
Thuyet DQ
Graduate School of Agricultural and Life Sciences, University of Tokyo, Tokyo, Japan.
Watanabe H
Department of International Environmental and Agricultural Sciences, Tokyo University of Agriculture and Technology, Tokyo, Japan.

MeSH

Biological TransportModels, TheoreticalOryzaPesticidesPyrazolesSoilSoil Pollutants

Pub Type(s)

Journal Article

Language

eng

PubMed ID

28580617

Citation

Boulange, Julien, et al. "PCPF-M Model for Simulating the Fate and Transport of Pesticides and Their Metabolites in Rice Paddy Field." Pest Management Science, vol. 73, no. 12, 2017, pp. 2429-2438.
Boulange J, Malhat F, Thuyet DQ, et al. PCPF-M model for simulating the fate and transport of pesticides and their metabolites in rice paddy field. Pest Manag Sci. 2017;73(12):2429-2438.
Boulange, J., Malhat, F., Thuyet, D. Q., & Watanabe, H. (2017). PCPF-M model for simulating the fate and transport of pesticides and their metabolites in rice paddy field. Pest Management Science, 73(12), 2429-2438. https://doi.org/10.1002/ps.4633
Boulange J, et al. PCPF-M Model for Simulating the Fate and Transport of Pesticides and Their Metabolites in Rice Paddy Field. Pest Manag Sci. 2017;73(12):2429-2438. PubMed PMID: 28580617.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - PCPF-M model for simulating the fate and transport of pesticides and their metabolites in rice paddy field. AU - Boulange,Julien, AU - Malhat,Farag, AU - Thuyet,Dang Quoc, AU - Watanabe,Hirozumi, Y1 - 2017/08/17/ PY - 2017/01/24/received PY - 2017/05/19/revised PY - 2017/05/28/accepted PY - 2017/6/6/pubmed PY - 2018/1/26/medline PY - 2017/6/6/entrez KW - PCPF model KW - environmental fate KW - pesticide metabolites KW - rice paddy field KW - simulation model SP - 2429 EP - 2438 JF - Pest management science JO - Pest Manag Sci VL - 73 IS - 12 N2 - BACKGROUND: The PCPF-1 model was improved for forecasting the fate and transport of metabolites in addition to parent compounds in rice paddies. In the new PCPF-M model, metabolites are generated from the dissipation of pesticide applied in rice paddies through hydrolysis, photolysis and biological degradations. The methodology to parameterize the model was illustrated using two scenarios for which uncertainty and sensitivity analyses were also conducted. RESULTS: In a batch degradation experiment, the hourly forecasted concentrations of fipronil and its metabolites in paddy water were very accurate. In a field-scale experiment, the hourly forecasted concentrations of fipronil in paddy water and paddy soil were accurate while the corresponding daily forecasted concentrations of metabolites were adequate. The major contributors to the variation of the forecasted metabolite concentrations in paddy water and paddy soil were the formation fractions of the metabolites. The influence of uncertainty included in input parameters on the forecasted metabolite concentration was high during the peak concentration of metabolite in paddy water. In contrast, in paddy soil, the metabolite concentrations forecasted several days after the initial pesticide application were sensitive to the uncertainty incorporated in the input parameters. CONCLUSION: The PCPF-M model simultaneously forecasts the concentrations of a parent pesticide and up to three metabolites. The model was validated using fipronil and two of its metabolites in paddy water and paddy soil. The model can be used in the early stage of the pesticide registration process and in risk assessment analysis for the evaluation of pesticide exposure. © 2017 Society of Chemical Industry. SN - 1526-4998 UR - https://www.unboundmedicine.com/medline/citation/28580617/PCPF_M_model_for_simulating_the_fate_and_transport_of_pesticides_and_their_metabolites_in_rice_paddy_field_ DB - PRIME DP - Unbound Medicine ER -