Adsorption behaviors of atrazine and imidacloprid on high temperature aged microplastics: Mechanism and influencing factors

The migration behavior of pesticides in water under the coexistence of microplastics is not sufficiently known. In this study, the effects of main environmental factors on the adsorption characteristics of atrazine (ATZ) and imidacloprid (IMD) on aged polyethylene (PE) microplastics in aqueous solut...

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Published inDesalination and water treatment Vol. 321; p. 100931
Main Authors Wu, Hong-yan, Yuan, Qian-yin, Chen, Bo, Kong, Qiao-ping, Huang, Shuang-shuang, Cheng, Lin, Wang, Shu-hui, Lian, Jian-jun
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.01.2025
Elsevier
Subjects
Adsorption
Atrazine
Environmental factors
Imidacloprid
Microplastics
Microplastics
Environmental factors
Imidacloprid
Adsorption
Atrazine
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Abstract The migration behavior of pesticides in water under the coexistence of microplastics is not sufficiently known. In this study, the effects of main environmental factors on the adsorption characteristics of atrazine (ATZ) and imidacloprid (IMD) on aged polyethylene (PE) microplastics in aqueous solution were investigated, and the adsorption mechanisms were also discussed. The results showed that the pseudo-first-order and Freundlich models fitted the adsorption kinetics and isotherms of ATZ and IMD on PE well. The adsorption capacity of PE toward ATZ and IMD could be reached to as high as 350.40 μg/g and 327.75 μg/g, respectively, at 298 K and pH 7. Moreover, the adsorption process of the two pesticides was a spontaneous and endothermic process. The removal amount of ATZ by PE was highest at pH= 3, and the removal rate decreased with the increasing of pH; while the removal rate of IMD by PE was best under neutral conditions. The increase in HA concentration reduced the adsorption capacity of ATZ (4.79–57.2 %) and IMD (3.94–30.02 %). Besides, the main adsorption mechanism of ATZ and IMD was hydrophobic interaction. This study provides a theoretical reference for investigating the effects of aging microplastics on the migration behavior of different pesticides in water environments. [Display omitted] •The adsorption of ATZ and IMD on PE followed the pseudo-first-order kinetic model.•The adsorption of ATZ and IMD on PE conformed to the Friedrich isotherm model.•The adsorption of the two pesticides was a spontaneous and endothermic process.•The increase in HA concentration reduced the adsorption capacity of ATZ and IMD.•The main adsorption mechanism of ATZ and IMD was hydrophobic interaction.
AbstractList The migration behavior of pesticides in water under the coexistence of microplastics is not sufficiently known. In this study, the effects of main environmental factors on the adsorption characteristics of atrazine (ATZ) and imidacloprid (IMD) on aged polyethylene (PE) microplastics in aqueous solution were investigated, and the adsorption mechanisms were also discussed. The results showed that the pseudo-first-order and Freundlich models fitted the adsorption kinetics and isotherms of ATZ and IMD on PE well. The adsorption capacity of PE toward ATZ and IMD could be reached to as high as 350.40 μg/g and 327.75 μg/g, respectively, at 298 K and pH 7. Moreover, the adsorption process of the two pesticides was a spontaneous and endothermic process. The removal amount of ATZ by PE was highest at pH= 3, and the removal rate decreased with the increasing of pH; while the removal rate of IMD by PE was best under neutral conditions. The increase in HA concentration reduced the adsorption capacity of ATZ (4.79–57.2 %) and IMD (3.94–30.02 %). Besides, the main adsorption mechanism of ATZ and IMD was hydrophobic interaction. This study provides a theoretical reference for investigating the effects of aging microplastics on the migration behavior of different pesticides in water environments.
The migration behavior of pesticides in water under the coexistence of microplastics is not sufficiently known. In this study, the effects of main environmental factors on the adsorption characteristics of atrazine (ATZ) and imidacloprid (IMD) on aged polyethylene (PE) microplastics in aqueous solution were investigated, and the adsorption mechanisms were also discussed. The results showed that the pseudo-first-order and Freundlich models fitted the adsorption kinetics and isotherms of ATZ and IMD on PE well. The adsorption capacity of PE toward ATZ and IMD could be reached to as high as 350.40 μg/g and 327.75 μg/g, respectively, at 298 K and pH 7. Moreover, the adsorption process of the two pesticides was a spontaneous and endothermic process. The removal amount of ATZ by PE was highest at pH= 3, and the removal rate decreased with the increasing of pH; while the removal rate of IMD by PE was best under neutral conditions. The increase in HA concentration reduced the adsorption capacity of ATZ (4.79–57.2 %) and IMD (3.94–30.02 %). Besides, the main adsorption mechanism of ATZ and IMD was hydrophobic interaction. This study provides a theoretical reference for investigating the effects of aging microplastics on the migration behavior of different pesticides in water environments. [Display omitted] •The adsorption of ATZ and IMD on PE followed the pseudo-first-order kinetic model.•The adsorption of ATZ and IMD on PE conformed to the Friedrich isotherm model.•The adsorption of the two pesticides was a spontaneous and endothermic process.•The increase in HA concentration reduced the adsorption capacity of ATZ and IMD.•The main adsorption mechanism of ATZ and IMD was hydrophobic interaction.
ArticleNumber 100931
Author Huang, Shuang-shuang
Yuan, Qian-yin
Kong, Qiao-ping
Lian, Jian-jun
Wu, Hong-yan
Cheng, Lin
Wang, Shu-hui
Chen, Bo
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Keywords Microplastics
Environmental factors
Imidacloprid
Adsorption
Atrazine
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Snippet The migration behavior of pesticides in water under the coexistence of microplastics is not sufficiently known. In this study, the effects of main...
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SubjectTerms Adsorption
Atrazine
Environmental factors
Imidacloprid
Microplastics
Title Adsorption behaviors of atrazine and imidacloprid on high temperature aged microplastics: Mechanism and influencing factors
URI https://dx.doi.org/10.1016/j.dwt.2024.100931
https://doaj.org/article/5f3cd8beeda94a95b006af38e9906afe
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