Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil

Boulange Julien; Dang Quoc Thuyet; Jaikaew Piyanuch; Ishihara Satoru; Watanabe Hitozumi

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Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil

机译：SPEC模型的开发和验证，该模型用于模拟日本陆地农业土壤上农药的结局和运输

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A pesticide fate and transport model, SPEC, was developed for assessing Soil-PEC (Predicted Environmental Concentrations in agricultural soils) for pesticide residues in upland field environments. The SPEC model was validated for predicting the water content and concentrations of atrazine and metolachlor in 5-cm deep soil. Uncertainty and sensitivity analyses were used to evaluate the robustness of the model's predictions. The predicted daily soil water contents were accurate regarding the number of observation points (n=269). The coefficient of determination (R-2) and Nash-Sutcliffe efficiency (N-sE) were equal to 0.38 and 0.22, respectively. The predicted daily concentrations of atrazine and metolachlor were also satisfactory since the R-2 and N-SE statistics were greater than 0.91 and 0.76, respectively. The field capacity, the saturated water content of the soil and the Q(10) parameter were identified as major contributors to variation in predicted soil water content or/and herbicide concentrations. (C) Pesticide Science Society of Japan

机译：开发了农药归宿和运输模型SPEC，用于评估土壤PEC（预测的农业土壤环境浓度）中高地田间环境中的农药残留。验证了SPEC模型可预测5厘米深土壤中的含水量和at去津和异丙甲草胺的浓度。不确定性和敏感性分析用于评估模型预测的鲁棒性。关于观测点的数量，预测的每日土壤含水量是准确的（n = 269）。测定系数（R-2）和纳什-苏特克利夫效率（N-sE）分别等于0.38和0.22。由于R-2和N-SE统计值分别大于0.91和0.76，因此预测的阿特拉津和异丙甲草胺的日浓度也令人满意。田间持水量，土壤的饱和水含量和Q（10）参数被确定为预测的土壤水含量或/和除草剂浓度变化的主要因素。（C）日本农药学会

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《Journal of pesticide science》 |2016年第4期|共11页
作者
Boulange Julien; Dang Quoc Thuyet; Jaikaew Piyanuch; Ishihara Satoru; Watanabe Hitozumi;
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正文语种 eng
中图分类农药防治（化学防治）;
关键词
SPEC model; pesticide; fate and transport; upland soil;

机译：SPEC模型农药命运与运输陆地土壤;

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1. Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil [J] . Boulange Julien, Dang Quoc Thuyet, Jaikaew Piyanuch, Journal of pesticide science . 2016,第3a4期

机译：SPEC模型的开发和验证，该模型用于模拟日本陆地农业土壤上农药的结局和运输
2. Development and validation of a basin scale model PCPF-1@SWAT for simulating fate and transport of rice pesticides [J] . Julien Boulange, Hirozumi Watanabe, Keiya Inao, Journal of Hydrology . 2014,第Null期

机译：流域规模模型PCPF-1 @ SWAT的开发和验证，用于模拟稻米农药的去向和运输
3. 2-D Simulation of Non-isothermal Fate and Transport of a Drip-applied Fumigant in Plastic-mulched Soil Beds. I. Model Development and Performance Investigation [J] . Wonsook Ha, Robert S. Mansell, Dilip Shinde, Transport in Porous Media . 2009,第1期

机译：地膜覆盖床中滴灌熏蒸剂非等温命运和迁移的二维模拟。一，模型开发与绩效调查
4. Development and Validation of a Watershed Scale Pesticide Fate and Transport Model by Coupling SWAT and PCPF-1 Models [C] . Julien E.S.Boulange, Hirozumi Watanabe, Keiya Inao, Proceedings of 4th international symposium on pesticides and environmental safety amp; 5th pan Pacific confernce on pesticide science amp; 8th international workshop on crop protection chemistry and regulatory harmonization . 2012

机译：SWAT和PCPF-1耦合模型开发和验证分水岭规模的农药归宿和运输模型
5. Computer models for simulating pesticide fate and transport in soil. [D] . Bera, Pubalee. 2003

机译：用于模拟农药在土壤中的命运和运移的计算机模型。
6. Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil [O] . Julien Boulange, Dang Quoc Thuyet, Piyanuch Jaikaew, 2016

机译：SPEC模型的开发和验证该模型用于模拟日本陆地农业土壤上农药的命运和运输
7. Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil [O] . Julien Boulange, Dang Quoc Thuyet, Piyanuch Jaikaew, 2016

机译：模拟杀虫剂的规范模型的发展与验证应用于日本旱地农业土壤

Development and validation of the SPEC model for simulating the fate and transport of pesticide applied to Japanese upland agricultural soil

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