Abstract
BackgroundEnvironmental behavior of pesticide in soils is a key current research focus. Studying the adsorption characteristics of pesticides in soils as a parameter for evaluating the risk of groundwater pollution by pesticides is commonly applied in agriculture.ResultsTo provide a theoretical basis for environment risk assessment and pollution remediation, the thermodynamics and kinetics of the equilibrium of atrazine adsorption in the Three-Gorges Reservoir area were assessed and analyzed via batch experiments. Results showed that the sorption of atrazine was an exothermic and spontaneous process at temperatures of 298–318 K. Atrazine was more easily adsorbed by soils at concentrations of 0–30 mg L−1, with low-temperature adsorption being more effective than high-temperature adsorption. The adsorption of atrazine to the two assessed soils was well fitted by the Freundlich and Langmuir models. The adsorption kinetics of atrazine in soils were consistent with the quasi-second-order kinetic model and intraparticle diffusion was found not to be the only control step. The monolayer adsorption occurred with non-uniform energy distribution on the soil surface, indicating that the adsorption of atrazine by the two kinds of soil was controlled by internal diffusion surface adsorption and liquid film diffusion, leading to the complexity of its adsorption kinetics. The values of standard free energy Delta rG_{m}^{0} < 0, indicated that the adsorption of atrazine in soils was spontaneous and dominated by physical adsorption. Changes in standard enthalpy (Delta {text{r}}H_{m}^{0}) indicated that the adsorption was exothermic.ConclusionsAtrazine exhibited a weak adsorption capacity in both soils, indicating it is highly mobile in the soil–water environment and can easily cause groundwater pollution. Therefore, much attention should be paid to the environmental behavior of pesticide soil moisture fluctuations, potentially leading to the broad transfer and spread of pollution.
Highlights
Environmental behavior of pesticide in soils is a key current research focus
Adsorption isotherms To understand the interactions between atrazine and soil, as well as revealing the adsorption mechanism, adsorption isotherms were quantitatively established to analyze the process of atrazine transfer from the solid phase to the liquid phase [40]
Results revealed that the adsorption capacity of atrazine was significantly different in the two soils, which might be attributed to the difference in physical and chemical properties between the two soils [21, 29, 30]
Summary
Environmental behavior of pesticide in soils is a key current research focus. Studying the adsorption characteristics of pesticides in soils as a parameter for evaluating the risk of groundwater pollution by pesticides is commonly applied in agriculture. Pesticides are widely used in agriculture to increase crop yields and quality [1]. Atrazine is one of the most widely used pesticides worldwide, being a long-term and. High-water solubility and hazard associated with atrazine pollution, its large-scale and excessive use in agriculture presents a serious risk to both environmental and human health [12,13,14]. Atrazine’s environmental behavior, its transportation and fate, has received extensive research interest [7, 16, 17]
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