中文摘要：

采用振荡平衡法研究了相对分子质量〈3 500的低分子量腐殖酸改性蒙脱土对黄曲霉素（AFB1）的吸附作用及机制.吸附动力学实验结果表明,0～24 h内,蒙脱土原土快速吸附AFB1,在2 h处吸附量即至最大值,而后吸附量持续降低,12 h后趋于稳定、吸附量为1.01μg.g-1;0～24 h内,改性蒙脱土对AFB1的吸附量则持续增加,12 h时吸附量达最大值（1.60μg.g-1）,其后吸附达平衡.用腐殖酸改性后,蒙脱土对AFB1的等温吸附曲线由Langmuir型转变为Freundlich型,平衡浓度较高条件下,AFB1在改性蒙脱土上的吸附量明显高于蒙脱土原土.蒙脱土改性后晶层坍塌,出现不规则和絮状松散结构,与其表面聚集的腐殖酸形成较为稳定的＂矿物-腐殖酸＂复合体,增强了其对疏水性AFB1的吸附能力.随溶液pH值的增大,原土和改性蒙脱土对AFB1的吸附量均增大,但AFB1在改性蒙脱土上吸附量的增加幅度较大,这可能主要与溶液碱性的提高促进了AFB1与蒙脱土矿物的氢键及电性结合有关.研究结果可为进一步阐明AFB1在土壤中的界面过程和环境归趋提供依据.

英文摘要：

The adsorption of a typical biogenic toxin aflatoxin B1 on montmorillonite modified by low-molecular-weight humic acids（Mr3 500） was investigated.The montmorillonite rapidly adsorbed the aflatoxin B1 until amounting to the maximal capacity,and then the adsorbed aflatoxin B1 slowly released into solution and reached the sorption equilibrium state after 12 h.The sorption isotherm of aflatoxin B1 by montmorillonite could be well described by Langmiur model,while the sorption isotherm by humic acid-modified montmorillonite was well fitted by using the Freundlich model.The modification of the montmorillonite with humic acids obviously enhanced its adsorption capacity for aflatoxin B1,and the amounts of aflatoxin adsorbed by modified montmorillonite were obviously higher than those by montmorillonite.The sorption enhancement by humic acid modification was attributed to ① the enlarged adsorption sites which owed to the surface collapse of crystal layers induced by organic acids,and ② the binding of aflatoxin with the humic acid sorbed on mineral surface.In addition,the adsorption amounts of aflatoxin by montmorillonite and modified montmorillonite increased with the increase of pH values in solution,and more significant enhancement was observed for the latter than the former,which attributed to the release of humic acids from the modified montmorillonite with the high pH values in solution.This indicates that increasing the pH values resulted in the enhanced hydrophilic property and the release of the organic acids presented in modified montmorillonite,and more sorption sites were available for aflatoxin on the modified montmorillonite.Results of this work would strengthen our understanding of the behavior and fate of biological contaminants in the environment.