不同浓度柠檬酸对红壤吸附解吸磺胺类药物的影响

Effects of Different Level Citric Acid on the Adsorption and Desorption of Sulfonamides in Red Soil

  • 摘要: 研究柠檬酸对红壤吸附和解吸磺胺类药物的影响,可为抗生素污染土壤修复的研究提供科学依据。设置不同浓度柠檬酸处理红壤对磺胺类药物(磺胺嘧啶、磺胺甲噁唑和磺胺吡)啶吸附和解吸等温线试验,阐明添加不同浓度柠檬酸处理对红壤吸附和解吸磺胺类药物的等温线特性和影响。结果表明:不同浓度柠檬酸处理,红壤对不同初始浓度磺胺类药物吸附数据符合Freundlich、Langmiur和Henry模型,红壤对磺胺类药物解吸数据符合Freundlich和Henry模型;高浓度柠檬酸处理红壤吸附磺胺类药物的Freundlich模型参数 n 值和1偏离程度最大。红壤吸附磺胺类药物的 K_\mathrmF K_\mathrmd K_\mathrmL 值均表现为高浓度>低浓度≈对照,红壤解吸磺胺类药物的 K_\mathrmF K_\mathrmd 值均表现为高浓度>低浓度≈对照,高浓度柠檬酸处理提高红壤吸附磺胺类药物的吸附能力。高浓度柠檬酸处理显著提高红壤吸附磺胺类药物的吸附量,吸附量增大的幅度为59.30%~285.30%;且显著减少红壤解吸磺胺类药物的数量,解吸率为0.80%~45.88%。磺胺类药物在红壤上解吸存在滞后现象,高浓度柠檬酸处理促进磺胺类药物吸附固定在红壤中并且抑制红壤对磺胺类药物解吸行为,减小污染土壤的磺胺类药物迁移扩散污染地表水和地下水的风险。

     

    Abstract: To study the effect of CA on the adsorption and desorption of sulfonamides in red soil can provide theoretical support and scientific basis for the study of remediation of antibiotic contaminated soil. The adsorption and desorption isotherms of sulfadiazine(SDZ), sulfamethoxazole(SMZ) and sulfapyridine(SPD) on red soil treated with different concentrations of CA were set up to clarify the isotherm characteristics and effects of adding different concentrations of CA on the adsorption and desorption of SAs in red soil. The results showed that the adsorption data of red soil to SAs with different initial concentrations under different concentrations CA treatments were consistent with Freundlich, Langmuir and Henry models; the desorption data of red soil to SAs conform to Freundlich and Henry models . Freundlich model parameter n of red soil adsorption SAs with high concentration of CA deviated the farthest from 1. The K_\mathrmF , K_\mathrmd and K_\mathrmL values of red soil adsorbed SAs all showed high concentration > low concentration ≈ control, and the K_\mathrmF and K_\mathrmd values of red soil desorbed SAs all showed high concentration > low concentration ≈ control. High concentration CA treatment improved the adsorption capacity of red soil adsorbed SAs. High concentration of CA treatment significantly increased the adsorption capacity of red soil for SAs, and the adsorption capacity increased by 59.30%–285.30%; the amount of SAs desorbed by red soil was significantly reduced, and the desorption rate was 0.80%–45.88%. The desorption of SAs on red soil hysteresis. High concentration of CA treatment promotes the adsorption and fixation of SAs in red soil, inhibits the desorption of SAs from red soil, and reduces the risk of surface water and groundwater pollution caused by the migration and diffusion of SAs from contaminated soil.

     

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