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Influence of Glyphosate Formulations on the Behavior of Sulfentrazone in Soil in Mixed Applications

机译：草甘膦配方对混合应用中土壤中亚磺酮行为的影响

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摘要

The selection of weed biotypes that are resistant to glyphosate has increased the demand for its use mixed with other herbicides, such as sulfentrazone. However, when chemical molecules are mixed, interactions may occur, modifying the behavior of these molecules in the environment, such as the sorption and desorption in soil. In this study, we hypothesized that the presence of glyphosate-formulated products might increase the sorption or decrease the desorption of sulfentrazone, thereby increasing the risk of the contamination of water resources. Therefore, our work aimed to evaluate the sorption, desorption, and leaching of sulfentrazone in the soil in an isolated and mixed application with different glyphosate formulations. The sorption coefficients (Kfs) for the sulfentrazone, sulfentrazone + Roundup Ready, sulfentrazone + Roundup Ultra, and sulfentrazone + Zapp Qi foram were 1.3, 2.1, 2.3, and 1.9, respectively. The desorption coefficients (Kfd) for the sulfentrazone, sulfentrazone + Roundup Ready, sulfentrazone + Roundup Ultra, and sulfentrazone + Zapp Qi foram were 65.7, 125.2, 733.3 and 239.8, respectively. The experiments demonstrated that the sorption and desorption of sulfentrazone in combination with the other formulated glyphosate products are altered, supporting the hypothesis suggested by this work, i.e., that the presence of other molecules is a factor that affects the behavior of herbicides in the soil. This phenomenon altered the vertical mobility of sulfentrazone. Situations involving mixtures of pesticides should be evaluated in order to improve our understanding of the dynamics of these molecules and thus avoid environmental contamination.

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期刊名称 Toxics
作者
Ana Cláudia Langaro; Matheus de Freitas Souza; Gustavo Antônio Mendes Pereira; João Pedro Ambrósio Barros; Antonio Alberto da Silva; Daniel Valadão Silva; Ana Beatriz Rocha de Jesus Passos; Vander Mendonça;
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年(卷),期 2020(8),4
年度 2020
页码 123
总页数 15
原文格式 PDF
正文语种
中图分类人体病毒学（致病病毒）;病毒（滤过性病毒）;
关键词
environmental impact; leaching; pesticide dynamics; soil contamination; sorption;

机译：环境影响;浸出;农药动力学;土壤污染;吸附;

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专利

1. ESTIMATION OF SULFENTRAZONE SORPTION IN ISOLATED APPLICATION AND MIXED WITH GLYPHOSATE [J] . Chemical geology . 2019,第期

机译：分离施加亚磺脲酮吸附的估计，并用草甘膦混合
2. Adsorption mechanisms of atrazine isolated and mixed with glyphosate formulations in soil [J] . Matheus de Freitas Souza, Ana Claudia Langaro, Ana Beatriz Rocha de Jesus Passos, PLoS One . 2020,第11期

机译：亚唑嗪与土壤草甘膦配方分离的吸附机制
3. Influence of incubation temperature on the behavior of triethylamine-extractable glyphosate (N-phosphonomethylglycine) in four soils. [J] . Eberbach PL Journal of Agricultural and Food Chemistry . 1999,第6期

机译：孵育温度对四种土壤中可提取三乙胺的草甘膦（N-膦酰基甲基甘氨酸）行为的影响。
4. Modeling strategic generator behavior with conjectured transmission price responses in a mixed transmission pricing system: formulation and application [C] . Hobbs, B.F., Rijkers, . 2004

机译：在混合输电定价系统中用推测的输电价格响应对战略发电者的行为建模：公式化和应用
5. Late-season glyphosate applications in glyphosate-tolerant soybean to reduce soil seedbank. [D] . Walker, Eric Ray. 2004

机译：在耐草甘膦大豆中施用季末草甘膦可减少土壤种子库。
6. Adsorption mechanisms of atrazine isolated and mixed with glyphosate formulations in soil [O] . Matheus de Freitas Souza, Ana Claudia Langaro, Ana Beatriz Rocha de Jesus Passos, 2020

机译：亚唑嗪分离和混合土壤草甘膦配方的吸附机制
7. Season of application and glyphosate formulation as factors influencing the efficacy of glyphosate on phyllode-bearing Australian acacias [O] . P. J. Pieterse, J. B. McDermott 1994

机译：施用季节和草甘膦配方作为影响草甘膦疗效对含有藻类澳大利亚金菌的疗效的因素

Influence of Glyphosate Formulations on the Behavior of Sulfentrazone in Soil in Mixed Applications

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