铊在矿物胶体和天然有机质界面上迁移转化行为的研究进展  被引量：3

作　　者：刘娟[1] 王津[1] 陈永亨[1] 吴颖娟[1] 王春霖 苏龙晓[1] 齐剑英[3] 李祥平[1] 

机构地区：[1]广州大学"珠江三角洲水质安全与保护省部教育部共建重点实验室",广州510006 [2]广东省环境科学研究院,广州510045 [3]环境保护部华南环境科学研究所,广州510655

出　　处：《地球与环境》2013年第3期326-333,共8页Earth and Environment

基　　金：国家自然科学基金项目(41203002;41273100);广东省自然科学基金(S2012040007114;S2012040007110);广东省教育厅育苗工程(2012LYM_0102);广州市留学人员科研启动项目;广州大学人才引进科研启动费与新苗计划项目(WJ05与LJ06);广州市教育局项目(2012A026)

摘　　要：铊(Tl)是典型的毒害重金属元素之一,对生物体的毒性高于Hg、Cd和Pb等元素。铊在天然水环境相关介质中的背景含量较低,但可通过各种工业活动大量进入水体环境,借由水体迅速迁移扩散,对生态系统造成巨大的环境隐患。本文总结了铊在水体中的分布特征,并重点阐述了铊在矿物胶体和天然有机质(腐殖酸)等界面上迁移转化行为的研究进展。研究表明,铁(氢)氧化物、锰(氢)氧化物均能在一定程度上吸附水体中的Tl(I),铊在一些锰(氢)氧化物表面的吸附行为可能会涉及Tl(I)在矿物表面的氧化还原机制。矿物表面对铊离子的吸附作用不仅与矿物的组成成分有关,还可能与矿物组成成分的晶型结构密切相关。天然有机质对铊迁移转化影响作用的研究目前主要偏重天然腐殖酸对铊的络合作用。因此,要加强的研究铊分别在不同种类、不同晶型的矿物和不同类型的天然有机质界面上的迁移转化行为,并借助高精度的价态和结构分析手段从分子水平上探讨其迁移转化机理。了解铊在水体中的迁移转化有助于深入认识铊的环境地球化学行为,并为研究铊的污染治理提供理论基础。Thallium （T1） is a typical toxic heavy metal, with higher toxicity than Hg, Cd, Pb. The content of T1 is comparative- ly low in related mediums of natural aquatic systems. However, a large amount of T1 enters into the hydro environment due to various industrial activities, which seriously endangers the ecosystems. This paper summarized the recent advance on the distri- bution of T1 in waters and the transfer and transformation behavior of T1. The main focus is on the up-to-date research on transfer behavior of T1 in water systems with mineral colloid and natural organic matter （humic acid）. It was found that the Fe- （hydr）oxide and Mn-（hydr）oxide could adsorb T1 from water to some extent, and the adsorption of thallium on some Mn- （hydr）oxide minerals might be attributed to the oxidation of TI（I） on the mineral surface. The adsorption of T1 could be affect- ed not only by the different mineral components, but also by the crystal structure of the mineral. The effect of natural organic matter on the behavior of T1 transform and transfer has now been mainly focused on that of natural humie acid. Therefore, fur- ther research should be enhanced in the respect of interracial behavior of T1 with a variety of different mineral colloids, different mineral crystal structures and different kinds of natural organic matter, and the interracial transfer mechanism of T1 with aid of advanced technique to analyze oxidation state and structure at molecular level. The understanding of T1 transfer behavior in a- quatic environment is one of the key points for understanding geo-environmental chemistry of T1, and provides theoretical basis for preventing T1 pollution.

关 键 词：铊 迁移转化 腐殖酸 矿物胶体 

分 类 号：X142[环境科学与工程—环境科学]