EDTA对污染土壤中金属解吸的影响

重金属污染是当今土壤污染中的污染面积最广、危害最大的环境问题之一，有关污染土壤的修复研究正日益受到重视。现以黄土体土壤为对象，以铜、铅为代表，研究有机配体EDTA（乙二胺四乙酸）对土壤被重金属污染的解吸的影响。并分别讨论土壤中的单元素金属污染以及复合金属污染的解吸过程。结果表明，EDTA的加入，对Cu或Pb的单一污染土壤，可以大幅度增加金属的解吸量，但在Cu—Ph复合污染土壤中，由于两种金属离子同时存在，却出现Cu、Pb对EDTA的竞争性反应，彼此互为影响。     

土壤及土壤-植物系统中复合污染的研究进展

土壤复合污染是土壤污染的主要存在形式，在分析中，主要从土壤重金属复合污染和土壤重金属-有机污染物复合污染方面进行了较为全面的综述，评价了土壤复合污染的多种表征方法，并且讨论了该研究当前仍存在的一些问题。     

不同活化剂对镉、铅单一及复合污染土壤的修复效果影响

选取柠檬酸(CA)、木醋液(WV)、聚天冬氨酸(PASP)、羟基乙叉二磷酸(HEDP)和FeCl_3作为活化剂,以镉、铅单一和复合污染土壤为研究对象,采用振荡淋洗法结合形态分析技术研究活化剂对重金属污染土壤的修复效果。结果表明:(1)重金属单一污染时,5种活化剂对镉、铅均有一定的淋出效果,淋出效率均随活化剂浓度的增大而增大。活化剂通过淋洗实验主要淋出酸溶态和可还原态重金属。(2)重金属复合污染时,金属离子间的竞争作用会不同程度地影响重金属在土壤中的存在形态,进而影响重金属的淋出效率,多数情况下,铅的存在会促进镉的淋出,但镉的存在会抑制土壤铅的释放。     

用水生生物对重金属污染土壤进行生态毒理评价

应用斜生栅藻（Scenedesmus obliquus）和明亮发光杆菌T3（Photobacterium phosphoreum）急性毒性实验方法对重金属污染土壤的进行生态毒理评价，结果表明，斜生栅藻的生长繁殖率和发光菌的相对发光度与土壤中的重金属含量明显相关，并且随重金属投加量的增加，其生长繁殖率和发光度逐渐降低。对3种测试参数进行比较可知，斜生栅藻细胞数增长率是最敏感的土壤毒性检测指标。土壤的毒性在复合污染的条件下比在单一污染的条件下高很多。本研究的结果可以为污染土壤的优先修复提供理论依据。     

重金属离子Cd^2＋、Pb^2＋污染对土壤酶活性的影响

通过对土壤中比较重要的两种酶（过氧化氢酶、脲酶）活性的测定，研究了重金属离子（Cd^2＋、Pb^2＋）单因素污染、复合污染对两种酶活性的影响，进而找出重金属污染程度与土壤酶活性的关系，为建立土壤中的酶活性可以表征重金属污染程度的生化指标平台提供试验依据。结果表明，在Cd^2＋、Pb^2＋单因素污染影响中，在一定浓度下的重金属离子对土壤酶活性会有激活效应，但大多表现为抑制效应；Cd^2＋、Pb^2＋复合污染对两种土壤酶活性的影响存在着明显差异，其复合污染对脲酶表现出协同抑制负效应的特征；对过氧化氢酶表现出一定的屏蔽作用。通过重金属离子形态对土壤酶有效性影响的研究，脲酶活性可以作为土壤重金属离子（Cd^2＋、Pb^2＋）单因素和复合污染程度的主要生化指标。     

酒石酸强化重金属复合污染模拟土壤电动修复过程及机理分析

为提高电动修复重金属复合污染土壤的效率,通过配制重金属复合污染模拟土壤,构建电动修复实验装置,利用2因素完全随机实验设计研究了酒石酸浓度和时间对重金属去除效果的影响;采用BCR法对土壤金属赋存形态进行了分析表征。结果表明:与对照相比,以酒石酸为电解液显著提高了重金属的去除率;重金属去除率受酒石酸浓度和修复时间影响显著;以0.05 mol·L~(-1)酒石酸为电解液修复120 h后,重金属去除效果最好,重金属总去除率为86.15%,Cu~(2+)、Mn~(2+)、Cd~(2+)、Pb~(2+)、Zn~(2+)的去除率分别为75.67%、98.11%、85.1%、70.75%和90.9%。BCR分析表明,酒石酸有助于提高土壤中弱酸提取态重金属含量,提高了重金属的迁移性能,从而有利于电动修复过程。     

土壤及土壤-植物系统中复合污染的研究进展

土壤复合污染是土壤污染的主要存在形式 ,在分析中 ,主要从土壤重金属复合污染和土壤重金属 有机污染物复合污染方面进行了较为全面的综述 ,评价了土壤复合污染的多种表征方法 ,并且讨论了该研究当前仍存在的一些问题     

可渗透反应复合电极法对土壤重金属的电动去除

将零价铁(Fe0)、沸石等活性材料附着在电极上形成可渗透反应层并构成可渗透反应复合电极,采用不同的复合电极对Cd2+、Ni 2+、Pb2+和Cu2+等4种阳离子型重金属污染土壤进行了电动力学修复。研究了不同可渗透反应复合电极对土壤pH的控制效果以及对重金属的去除作用,分析了迁移到复合电极中的重金属形态变化。结果表明,复合电极中添加酸、碱性沸石并适时更换,可有效中和、截留阴阳极电解产生的OH-和H+,避免或减缓土壤酸碱迁移带的形成,防止重金属离子的过早沉淀及土壤过度酸化,极大提高了重金属的去除率。复合电极中Fe0可将迁移进来的重金属离子进行还原稳定,实现重金属污染物的捕获与固定,与迁移到沸石复合电极中的4种重金属不稳定态相比,"Fe0+沸石"复合电极中重金属不稳定态分别下降了61.4、60.5、61.4、57.1百分点。结果还显示,阴极采用"Fe0+沸石"复合电极并适时进行更换,施加1.5V/cm的直流电压修复10d后,土壤中Cd、Ni、Pb、Cu的总去除率分别为44.5%、41.5%、33.5%和36.7%,且进一步延长修复时间和持续更换电极可获得更为理想的修复效果。     

重金属污染土壤旋流洗脱设备的设计及性能评估

针对高浓度重金属污染土壤,尤其是污染负荷较高的黏土土壤,传统的物化方法难以实现其高效的洗脱。利用旋流场中土壤颗粒高速自转/公转,实现土壤颗粒污染物的强化快速脱附。土壤旋流洗脱实验分为旋流器的分离性能和单一/复合污染物的脱附性能2部分。在土壤-水体系下,旋流器的最优操作条件为:进口流量0.7 m~3·h~(-1),分流比0.12,固液比为1:20。对于Pb污染物,底流脱附效率均能达到近85%,溢流也能够达到70%,对于Cu污染物,底流和溢流脱附均能达到90%左右。对于Cr(Ⅵ)污染物,底流脱附最高能达到60%左右,但溢流洗脱效率极低。复合污染能够在单次通过后脱除Pb、Cu、Cr(Ⅵ)等多种重金属污染,且洗脱效果与单一污染洗脱时基本一致。对实际的场地修复具有指导意义。     

观赏植物与驯化污泥联合修复垃圾渗滤液污染土壤

垃圾填埋场渗滤液污染土壤具有重金属-有机物复合污染的特性。研究了观赏植物广东万年青、白掌、孔雀竹芋和经垃圾渗滤液驯化的污泥对该污染土壤的修复效果,结果表明:采用单一植物修复时,广东万年青较白掌和孔雀竹芋对土壤污染物具有更强耐性,能在污染土壤中生长良好,对重金属Cd和Pb的富集能力也更强;驯化污泥能明显提高污染土壤中有机污染物的降解率,并使重金属Cd和Pb稳定态比例分别提高了34.7%和36.6%,降低了重金属的生物有效性。当采用广东万年青和驯化污泥联合修复时,污泥能促进植物的生长,且当污泥添加量为480 mg·kg~(-1)时,联合修复对土壤中Cd、Pb及有机污染物的去除率分别较不加污泥的对照提高了51.7%、25.5%和40.2%。     

粘土矿物修复重金属污染土壤

简要介绍了我国土壤重金属污染的现状与危害.通过粘土矿物在重金属污染土壤中净化功能的阐述,提出利用粘土矿物修复土壤重金属污染的观点.继而从天然和改性粘土矿物特性,叙述了粘土矿物修复土壤重金属污染的机制与应用进展及其影响因素.最后讨论了粘土矿物在修复土壤重金属污染过程中值得注意的几个问题,并展望了粘土矿物在该领域应用中的发展方向.     

In situ fixation of metals in soils using bauxite residue: biological effects

Soils polluted with heavy metals can cause phytotoxicity and exhibit impared microbial activities. In this paper we evaluate the responses of different biological endpoints to in situ remediation processes. Three soil amendments (red mud, beringite and lime) were applied to two soils polluted by heavy metals. Oilseed rape, wheat, pea and lettuce were grown successively in pots on the untreated and amended soils and their yield and metal uptake were determined. A suite of microbial tests (lux-marked biosensors, Biolog and soil microbial biomass) were performed to determine the effect of the soil amendments on the functionality and size of the soil microbial community. In both soils all three amendments reduced phytotoxicity of heavy metals, enhanced plant yields and decreased the metal concentrations in plants. The red mud treatment also increased soil microbial biomass significantly. The microbial biosensors responded positively to the remediation treatments in the industrially-contaminated soil used in the experiment. Red mud applied at 2% of soil weight was as effective as beringite applied at 5%. The results also showed that since the biological systems tested respond differently to the alleviation of metal toxicity, a suite of biological assays should be used to assess soil remediation processes.     

Using biochar for remediation of soils contaminated with heavy metals and organic pollutants

Soil contamination with heavy metals and organic pollutants has increasingly become a serious global environmental issue in recent years. Considerable efforts have been made to remediate contaminated soils. Biochar has a large surface area, and high capacity to adsorb heavy metals and organic pollutants. Biochar can potentially be used to reduce the bioavailability and leachability of heavy metals and organic pollutants in soils through adsorption and other physicochemical reactions. Biochar is typically an alkaline material which can increase soil pH and contribute to stabilization of heavy metals. Application of biochar for remediation of contaminated soils may provide a new solution to the soil pollution problem. This paper provides an overview on the impact of biochar on the environmental fate and mobility of heavy metals and organic pollutants in contaminated soils and its implication for remediation of contaminated soils. Further research directions are identified to ensure a safe and sustainable use of biochar as a soil amendment for remediation of contaminated soils.     

Effects of remediation train sequence on decontamination of heavy metal-contaminated soil containing mercury

When a contaminated site contains pollutants including both nonvolatile metals and Hg, one single remediation technology may not satisfactorily remove all contaminants. Therefore, in this study, chemical extraction and thermal treatment were combined as a remediation train to remove heavy metals, including Hg, from contaminated soil. A 0.2 M solution of ethylenediamine tetraacetic acid (EDTA) was shown to be the most effective reagent for extraction of considerable amounts of Cu, Pb, and Zn (>50%). Hg removal was ineffective using 0.2 M EDTA, but thermogravimetric analysis suggested that heating to 550°C with a heating rate of 5°C/min for a duration of 1 hr appeared to be an effective approach for Hg removal. With the employment of thermal treatment, up to 99% of Hg could be removed. However, executing thermal treatment prior to chemical extraction reduced the effectiveness of the subsequent EDTA extraction because nonvolatile heavy metals were immobilized in soil aggregates after the 550°C treatment. The remediation train of chemical extraction followed by thermal treatment appears to remediate soils that have been contaminated by many nonvolatile heavy metals and Hg.

ImplicationsA remediation train conjoining two or more techniques has been initialized to remove multiple metals. Better understandings of the impacts of treatment sequences, namely, which technique should be employed first on the soil properties and the decontamination efficiency, are in high demand. This study provides a strategy to remove multiple heavy metals including Hg from a contaminated soil. The interactions between thermal treatment and chemical extraction on repartitioning of heavy metals was revealed. The obtained results could offer an integrating strategy to remediate the soil contaminated with both heavy metals and volatile contaminants.     

In situ fixation of metals in soils using bauxite residue: chemical assessment

Contamination of soils with heavy metals and metalloids is a widespread problem all over the world. Low cost, non-invasive, in situ technologies are required for remediation processes. We investigated the efficiency of a bauxite residue (red mud) to fix heavy metals in two soils, one contaminated by industrial activities (French soil), and one by sewage sludge applications (UK soil). This Fe-oxide rich material was compared with lime, or beringite, a modified aluminosilicate that has been used for in situ fixation processes. Four different crop species were successively grown in pots. Metal concentrations in the soil pore waters were analyzed during the growing cycles. At the end of the experiment fluxes of heavy metals were measured using a diffusive gradient in thin film technique (DGT). Furthermore, a sequential extraction procedure (SEP) and an acidification test were performed to investigate the mechanisms of metal fixation by different soil amendments. In both soils, the concentrations of metals in the soil pore water and metal fluxes were greatly decreased by the amendments. An application of 2% red mud performed as well as beringite applied at 5%. Increasing soil pH was a common mechanism of action for all the amendments. However, the red mud amendment shifted metals from the exchangeable to the Fe-oxide fraction, and decreased acid extractability of metals. The results suggest that specific chemisorption, and possibly metal diffusion into oxide particles could also be the mechanisms responsible for the fixation of metals by red mud.     

用水生生物对重金属污染土壤进行生态毒理评价

应用斜生栅藻(Scenedesmusobliquus)和明亮发光杆菌T3(Photobacteriumphosphoreum)急性毒性实验方法对重金属污染土壤的进行生态毒理评价,结果表明,斜生栅藻的生长繁殖率和发光菌的相对发光度与土壤中的重金属含量明显相关,并且随重金属投加量的增加,其生长繁殖率和发光度逐渐降低。对3种测试参数进行比较可知,斜生栅藻细胞数增长率是最敏感的土壤毒性检测指标。土壤的毒性在复合污染的条件下比在单一污染的条件下高很多。本研究的结果可以为污染土壤的优先修复提供理论依据。     

低成本含磷材料修复环境重金属污染的研究进展

低成本含磷材料包括磷灰石、骨粉、无机磷肥及无机磷酸盐,其对环境重金属污染的修复值得引起生态学、环境学更广泛的重视.详细介绍了:(1)各类低成本含磷材料结构性质;(2)含磷材料在修复土壤、沉积物、水体重金属污染方面的应用;(3)含磷材料修复环境重金属污染的机理及影响因素;(4)含磷材料修复环境重金属污染的效果评价等方面的研究进展及发展前景.     

土壤重金属的植物污染化学研究进展

针对中国土壤重金属污染加剧的趋势,为改善土壤环境质量和保障农产品安全,提出了土壤重金属的植物污染化学研究领域.结合多年的研究工作,从土壤重金属的植物根际化学行为、土壤重金属的植物吸收与解毒机制和重金属污染土壤的植物-微生物交互作用等方面简要阐述了土壤-植物系统中重金属的分布、存在形态、迁移转化、累积及生物学效应和控制规律的研究进展,并对将来的植物污染化学理论研究提出了展望.     

不同土壤重金属复合污染的有效态离子冲量表征

选择红壤、黄棕壤和潮土为对象，依据中国土壤环境质量二级和三级标准确定土壤重金属铜、锌、镉的污染浓度，通过生物盆裁试验研究在重金属Cu、Zn、Cd复合污染条件下牧草（黑麦草、紫花苜蓿）体内重金属含量和土壤中重金属有效态含量的相关性，结果表明，在3种不同性质的污染土壤上，牧草体内重金属的离子冲量与其对应土壤中重金属有效态的离子冲量之间均存在明显的相关性。校正土壤pH、牧草品种等因素后，土壤有效态离子冲量可以有效表征不同土壤-牧草系统的重金属复合污染。