Journal
FRONTIERS IN PLANT SCIENCE
Volume 14, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fpls.2023.930632
Keywords
antibiotics; adsorption; legume roots; CEC; zeta potential
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This study investigates the adsorption processes and mechanisms of antibiotics on roots in the plant-soil system under different environmental conditions. It finds that the electrochemical properties of roots play a significant role in antibiotic adsorption. Coexisting low-molecular weight organic acids and anions inhibit antibiotic adsorption on roots. Soybean roots show stronger adsorption ability compared to maize and wheat roots. This research highlights the importance of electrochemical interactions between antibiotics and roots, contributing to accurate risk assessment and effective pollution control of antibiotics.
The adsorption behaviors and transfer pathways of antibiotics in plant-soil system are greatly influenced by the electrochemical properties of both soil particles and plant roots. However, the effects of roots electrochemical properties on antibiotic adsorption are largely unknown. Here, the fresh soybean, maize, and wheat roots with different electrochemical properties were obtained from hydroponic cultivation, and the adsorption processes and mechanisms of doxycycline, tetracycline, sulfadiazine, and norfloxacin on roots under various environmental conditions were investigated. Results showed that the adsorption amount of antibiotics on roots increased with the initial concentration of antibiotics. The coexisting low-molecular weight organic acids and anions inhibited the antibiotic adsorption on roots. The soybean roots performed strong adsorption ability compared with the maize and wheat roots driven by the variations in root electrochemical properties. This study demonstrates the significance of electrochemical interactions between antibiotics and roots in plant-soil system and can contribute to the more accurate risk assessment and effective pollution control of antibiotics.
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