A simulation model (PostPLANT-Soil) for predicting pesticide concentrations in succeeding leafy vegetables: II. Validation with experimental data on plant uptake in a growth chamber

A simulation model (PostPLANT-Soil) for predicting pesticide concentrations in succeeding leafy vegetables: II. Validation with experimental data on plant uptake in a growth chamber

We validated a simulation model (PostPLANT-Soil) for predicting pesticide concentrations in succeeding leafy vegetables reported in our first paper in this series, which includes the pesticide sorption process into plant roots. As a result of the model validation with the measured data from a plant...

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Veröffentlicht in:Journal of Pesticide Science 2023/11/20, Vol.48(4), pp.175-186
Hauptverfasser: Namiki, Sayuri, Inao, Keiya, Motoki, Yutaka, Seike, Nobuyasu, Watanabe, Eiki
Format: Artikel
Sprache:eng
Schlagworte:
mathematical model
pesticide residue
plant metabolism
plant uptake
Regular
soil solution
succeeding crop
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Zusammenfassung:We validated a simulation model (PostPLANT-Soil) for predicting pesticide concentrations in succeeding leafy vegetables reported in our first paper in this series, which includes the pesticide sorption process into plant roots. As a result of the model validation with the measured data from a plant uptake study in a growth chamber, the model successfully simulated the concentration changes of pesticides in a plant shoot. However, the simulated shoot concentrations for several pesticides were overestimated compared to the measured values. The leafy vegetable (Brassica rapa) used in this study probably has a high metabolic ability for the fungicide flutolanil from the result of the uptake study under a hydroponic condition.
ISSN:1348-589X
1349-0923
DOI:10.1584/jpestics.D23-007