矿区周围土壤中重金属危害性评估研究

分别用总量法和连续萃取法对广东大宝山矿周围土壤、植物和沉积物中重金属的总量和化学形态进行了详细分析。结果发现，矿山废水流入的横石河沉积物中Pb、Zn、Cu和Cd的质量分数分别为1841．02、2326．28、1522．61和10.33mg／kg；经此河水灌溉的稻田中重金属(Cu、Cd、Pb和Zn)的质量分数也远远超出了土壤环境二级标准值，其中Cu、Cd超标倍数分别为14．01和4．17倍。结果还表明，生长在矿区周围的植物也受到不同程度重金属的污染且不同植物吸收和积累重金属的能力相差很大。用Tessier连续法对土壤中重金属进行萃取发现，虽然重金属主要存在于残余态中，但在Fe-Mn氧化态、有机结合态中的质量分数也很高．说明这些土壤确实受到了有毒有害重金属元素的严重污染。     

污染土壤中有机质结合态重金属的研究

用物理与化学相结合的方法研究了2个污染土壤剖面中有机质结合重金属（Cd、Cu、Pb和Zn）的分布，把有机质相结合态重金属分为颗粒状有机质（POM）结合的重金属和与细土腐殖质结合的重金属。结果表明，土壤POM对重金属有明品的富集作用，其中〉2mmPOM重金属Cd、Cu、Pb和Zn的富集系数分别在1．4～3．2、2．5～2．6、2．8—3．9和3．0～3．9之间；而0．05～2mmPOM重金属Cd、Cu、Pb和Zn的富集系数分别在2．7～7．8、3．2～6．4、3．2～9．3和3．2～5．6之间，0．05～2mmPOM组分中重金属的平均富集高于〉2mmPOM组分。POM中重金属的富集程度与土壤重金属的积累呈正相关。有机质结合态重金属占土壤重金属总最的比例随土壤有机质积累而增高，表土层约40％以上的重金属以有机质结合态存在。     

Some aspects of heavy metals contamination remediation and role of biosurfactants

Contamination by heavy metals is the result of different industrial activities. The presence of heavy metals in soil and water causes serious problems, as these materials are not biodegradable and do contaminate both biological systems and the subsoil. Biological surface-active compounds otherwise known as biosurfactants in general and rhamnolipids biosurfactants in particular have been successfully employed in the remediation of environments contaminated with heavy metal ions. The aim of the present review is to highlight potential applications of these tensioactive compounds for use in environmental heavy metals removal and bioremediation and processes involved.     

Concentrations of arsenic and heavy metals in vegetation at two abandoned mine tailings in South Korea

Untreated abandoned mines may result in hazards to ecosystems due to dispersion of various toxic elements such as arsenic (As) and lead (Pb). Phytoremediation is an alternative of remediation for large scale mine dumps. Plant species were sampled from two abandoned gold (Au) mines in South Korea. Plant samples were digested following the guidelines of US EPA Method 3050 (US-EPA, 1996) and analyzed by inductively coupled plasma mass spectrometry (ICP-MS). Concentrations and bioaccumulation factors of plants are reported and out-performing species are summarized. Poplar trees (Populus davidiana) growing on the Myoungbong tailings were suggested to be a potential species for revegetation of large scale Au mine tailings. Arsenic accumulations of bracken ferns (Pteridium aquilinum) sampled from the Duckum tailings were far lower than those of the reported hyperaccumulators, but the possible chronic adverse effects on residents through daily diet are of concern.     

Geographical distribution and risk assessment of heavy metals: a case study of mine tailings pond

ABSTRACT

In China, a large number of tailings deposited on natural surfaces, the potential risk of tailings attracts people’s attention. In this study, heavy metals distribution, geo-accumulation index, ecological risk index, microbial diversity and community were examined to evaluate the risks of a tailings pond. Results indicated the tailings pH is about 8.17, and the redox potential was lower than zero. Heavy metals could be leached and migrate from the tailings. The tailings pond had more influence on the distribution of Pb, Zn, As, Cu, and S. The influence distance of Pb, Zn, and Cu was less than 10?m, and the influence distance of As and S was less than 50?m. S and As had stronger migration capability than other elements in the soil. The biggest potential ecological risk resulted from Pb, and the distances more than 100?m had low ecological risk. The tailings decreased microbial richness and diversity of the surrounding environment. Oxidising bacteria and reducing bacteria existed in both the tailings and the surrounding soils; however, there were more oxidising and reducing microbes in the tailings than in the surrounding soils. The tailings pond currently has little impact on the environment, but the potential risk still exists.     

An evaluation of heavy metals contamination in soils from Ganzhou navel orange orchards by geoaccumulation indexes and statistical analysis

Heavy metal pollution in orchard soils is of increasing concern owing to the potential health risk via the food chain. The evaluations of the degree of heavy metal contamination and the potential sources in soils from navel orange orchards in the Ganzhou district were investigated in the present study with the geoaccumulation index and hierarchical cluster analysis. The soil samples were collected from 280 navel orange orchards located in the 18 counties of the Ganzhou district. The concentrations of heavy metals in the samples were determined using atomic fluorescence spectrometry and inductively coupled plasma atomic emission spectrometry with sample preparation by microwave digestion system. The results of the geoaccumulation index showed that the Ganzhou navel orange orchards were practically uncontaminated with Hg, As, Pb, Cd, Cr, Zn, and Cu, while uncontaminated to moderately contaminated with Ni. The results of cluster analysis indicated that four distinct clusters emerged for 18 sampling counties, and the considerable differences between clusters were derived from the different kinds of polluted substances. Results of the assessment of geoaccumulation index of heavy metals in soils will be helpful for the formulation of strategic sustainable agriculture in Ganzhou navel orchards and improvement of the navel orange yield and quality.     

Assessment of toxicity of heavy metal contaminated soils by the toxicity characteristic leaching procedure

The concentrations of Cu, Zn, Pb and Cd in soils near a lead–zinc mine located in Shangyu, Zhejiang Province, China, were determined and their toxicity was assessed using the toxicity characteristic leaching procedure (TCLP) developed by the United States Environmental Protection Agency. The TCLP method is a currently recognized international method for evaluation of heavy metal pollution in soils. The available levels of Cu, Zn, Pb and Cd were 8.2–36, 23–143, 6.4–1367 and 0.41–2.2 mg kg⁻¹, respectively, while the international standards were 15, 25, 5 and 0.5 mg kg⁻¹, respectively. Soils around the mine were more polluted with Zn and Pb, followed by Cd and Cu. Moreover, the levels of heavy metals in the soils extracted by TCLP indicated that extraction fluid 2 was more effective than extraction fluid 1 in extracting the heavy metals from the polluted soils and there was a positive correlation between fluids 1 and 2. Available heavy metal contents determined by TCLP were correlated with soil total heavy metal contents.     

神木煤矿区土壤重金属污染特征研究

通过对神府煤田开采区3个煤矿区周围土壤Cu、Cd、Cr、Mn、Ni质量分数进行测定及分析,评价了煤田开采对周围土壤的污染程度。结果表明,长期的煤炭资源开发、运输等活动,已导致周围土壤受到重金属不同程度的累积性污染,土壤中Cd、Ni质量分数高于陕西省土壤背景值,且Cd污染程度较高,Ni污染程度较低,而Cu、Cr、Mn基本不受污染。3个煤矿表层土壤各重金属元素质量分数均表现出污染区大于对照区,但这种变化幅度存在一定差异;Cu、Cr、Mn 3种重金属元素虽没有超出背景值,但已表现出一定程度的累积;煤矿周围土壤重金属污染受到开采年限、土壤质地、风向等因素的影响。3个煤矿污染区土壤剖面样品中,5种重金属元素质量分数基本上随着土壤深度的增加呈现降低的趋势,且这种趋势具有波动性。     

神木煤矿区土壤重金属污染特征研究

通过对神府煤田开采区3个煤矿区周围土壤Cu、Cd、Cr、Mn、Ni质量分数进行测定及分析,评价了煤田开采对周围土壤的污染程度。结果表明,长期的煤炭资源开发、运输等活动,已导致周围土壤受到重金属不同程度的累积性污染,土壤中Cd、Ni质量分数高于陕西省土壤背景值,且Cd污染程度较高,Ni污染程度较低,而Cu、Cr、Mn基本不受污染。3个煤矿表层土壤各重金属元素质量分数均表现出污染区大于对照区,但这种变化幅度存在一定差异;Cu、Cr、Mn 3种重金属元素虽没有超出背景值,但已表现出一定程度的累积;煤矿周围土壤重金属污染受到开采年限、土壤质地、风向等因素的影响。3个煤矿污染区土壤剖面样品中,5种重金属元素质量分数基本上随着土壤深度的增加呈现降低的趋势,且这种趋势具有波动性。     

4种鸢尾属植物对铅锌矿区土壤中重金属的富集特征和修复潜力

通过野外调查和实地修复铅锌矿污染土壤试验,研究了铅锌矿区排污渠污水及底泥中Pb、Zn、Cu、Cd含量和分布特征以及4种鸢尾属植物马蔺（Iris lactea var.chinensis）、黄菖蒲（Iris pseudacorus L.）、溪荪（Iris sanguinea Donn ex Horn.）、花菖蒲（Iris ensata Thunb.）对Pb、Zn、Cu、Cd的积累能力和土壤修复效率差异。结果表明,离污染源越近,重金属污染越严重。Pb、Zn、Cu、Cd4种重金属均大部分沉积在排污水渠的底泥中,污水中Pb严重污染,超标达120倍,底泥中Pb、Zn、Cu、Cd质量分数分别超标1.5倍、1.7倍、1.6倍和1.7倍。排污渠岸土壤Pb、Zn、Cu、Cd质量分数也明显超过了国家规定的土壤环境质量Ⅱ级标准1～5倍。种植4种鸢尾属植物后,土壤中Pb、Zn、Cu、Cd质量分数有所降低。其中,种植马蔺1个月后土壤Pb、Cu、Cd修复效率分别为8.13%、2.45%和22.3%。黄菖蒲和花菖蒲对Zn的修复效率相对较高。4种鸢尾属植物中马蔺对Pb、Cd的吸收能力最强,马蔺地上部（叶、茎）Pb质量分数达983mg·kg-1,且转运系数大于1,是一种潜在的Pb积累植物,黄菖蒲、溪荪和花菖蒲对Zn的吸收能力较强,且吸收的重金属主要积累在根系。     

Investigation and risk assessment modeling of As and other heavy metals contamination around five abandoned metal mines in Korea

Tailings, agricultural soils, vegetables and groundwater samples were collected from abandoned metal mines (Duckum, Dongil, Dongjung, Myoungbong and Songchun mines) in Korea. Total concentrations of arsenic (As) and heavy metals (Cd, Cu, Pb and Zn) were analyzed to investigate the contamination level. Several digestion methods (Toxicity characteristics leaching procedure (TCLP), synthetic precipitation leaching procedure (SPLP), 0.1 N/1 N HCl) and sequential extraction analysis for mine tailings were conducted to examine the potential leachability of As and heavy metals from the tailings. The order of urgent remediation for the studied mines based on the risk assessment and remedial goals was suggested. The Songchun mine tailings were most severely contaminated by As and heavy metals. Total concentrations of As and Pb in the tailings were 38,600–58,700 mg/kg (av. 47,400 mg/kg) and 11,800–16,800 mg/kg (av. 14,600 mg/kg), respectively. Agricultural soils having high As concentrations were found at the all mines. Average concentrations of Cd in the vegetables exceeded the normal value at all mines areas, while As only at the Dongjung, Myoungbong, and Songchun mine area. One groundwater sample each from the Dongil and Myoungbong mines, and 4 groundwater samples from the Songchun mine had values above 10 μg/L of As concentration. The TCLP method revealed that only Pb in the Songchun tailings, 6.49 mg/L, exceeded the regulatory level (5 mg/L). Employing the 1-N HCl digestion method, the concentration of As in the Songchun mine tailings, 4,250 mg/kg, was up to 3,000 times higher than its Korean countermeasure standard. Results from the sequential extraction of As in the tailings showed that the easily releasable fraction in the Myoungbong and Songchun mine tailings was more than 30% and the residual fraction was less than 40%. Based on results showing the exposure health risk employing the hazard quotient and cancer risk of As, Cd and Zn, the Dongil mine needs the most urgent remedial action. The concentration reduction factor (CRF) of As in both soil and groundwater follows the order: Songchun>Dongjung>Dongil>Myoungbong>Duckum mine.     

广州市菜园土主要蔬菜重金属背景含量的研究

研究了广州市几个主要的蔬菜生产基地种植的白菜、芥蓝、芥菜、菜薹、萝卜、大白菜、豆瓣菜、结球甘蓝、芹菜、菜豆、豌豆、结球莴苣、尖叶莴苣、菠菜、番茄等15种蔬菜中Pb、Hg、Cd、Cr和As等5种重金属的背景质量分数。其背景质量分数为：Pb 0．002～0．148mg/kg；Hg ND-0．006mg/kg；Cd 0．001～0．034mg/kg；Cr 0．002～0．150mg/kg；As 0.001～0．070mg／kg。由于不同种类蔬菜的吸收特性和遗传特性有所不同，其重金属背景质量分数也有很大差异。蔬菜中元素水平还与土壤条件等因素有关。     

土壤重金属污染的植物修复中转基因技术的应用

重金属污染的植物修复技术以其费用低廉、不污染环境等优点一度成为环境科学界研究的热点。为了克服植物修复技术中超积累植物生长缓慢和地上部生物量小等带来的限制，近年来研究者通过大量试验研究发展，外源基因在植物体内的高效表达可以提高植物吸收、运输、降解污染物的能力和修复的效率。本文首先对目前国内外重金属污染土壤植物修复的研究动态进行综述，重点论述了PCs、MTs、MerA、MerB、ArsC、γ-ECS等转基因在土壤重金属污染植物修复中的应用，最后指出在充分考虑到转基因植物给生态环境带来潜在威胁的前提下，转基因技术的研究与开发不仅可以促进多学科的交叉研究和丰富环境科学的研究领域，更重要的是在很大程度上有效地克服了目前土壤重金属污染植物修复中存在并急需解决的棘手问题，为土壤重金属污染的植物修复提供了更加广阔的应用和发展前景。     

典型铜尾矿库周边土壤重金属复合污染特征

应用了Hakanson潜在生态风险指数法、相关分析法、主成分分析法对德兴铜矿尾砂库周边土壤Cu、Zn、Ni、Pb、Cr和Cd复合污染特征进行研究,定量确定了铜尾矿库潜在生态风险程度、主要污染因子和潜在生态风险因子。结果表明:铜矿尾矿库周边土壤受到不同程度的重金属污染,该地区平均潜在生态风险污染指数超过600,具有极高的潜在生态风险;各重金属潜在生态风险参数由高至低顺序为Cd、Cu、Pb、Ni、Cr、Zn,其中Cd为主要潜在生态风险因子。进一步通过主成分分析法研究了重金属的污染特性,发现前3个主成分贡献率分别为:65.033%、18.825%、6.243%,第一主成分反映了Zn、Ni、Cr的信息,第二主成分反映了Cu和Cd的信息,第三主成分反映Pb的信息。     

典型铜尾矿库周边土壤重金属复合污染特征

应用了Hakanson潜在生态风险指数法、相关分析法、主成分分析法对德兴铜矿尾砂库周边土壤Cu、Zn、Ni、Pb、Cr和Cd复合污染特征进行研究,定量确定了铜尾矿库潜在生态风险程度、主要污染因子和潜在生态风险因子。结果表明：铜矿尾矿库周边土壤受到不同程度的重金属污染,该地区平均潜在生态风险污染指数超过600,具有极高的潜在生态风险;各重金属潜在生态风险参数由高至低顺序为Cd、Cu、Pb、Ni、Cr、Zn,其中Cd为主要潜在生态风险因子。进一步通过主成分分析法研究了重金属的污染特性,发现前3个主成分贡献率分别为：65．033％、18．825％、6．243％,第一主成分反映了Zn、Ni、cr的信息,第二主成分反映了Cu和Cd的信息,第三主成分反映Pb的信息。     

食物中重金属的生物可给性和生物有效性的研究方法和应用进展

食品安全问题是直接关系到人民健康的重大民生问题。随着民众生活质量的不断提升,人们对食物质量的关注度越来越高。目前,重金属污染问题是食品安全的一个重要议题。而且,食物中重金属的生物可给性和生物有效性的测定结果已逐渐代替重金属的全量结果进行评价。因此,本文系统介绍了生物可给性和生物有效性的定义及相关关系,综述了生物可给性和生物有效性的多种研究方法的适用性及优缺点,并着重论述了饮食习惯和肠道微生物对重金属生物可给性和生物有效性的影响。研究结果表明：研究者应根据自己的研究目的选择不同的体外消化方法,饮食习惯和肠道微生物均极大的影响着食物中重金属的生物可给性和生物有效性。最后,本文对食物中重金属的生物可给性和生物有效性的研究提出了几点展望：一、需加强食物中重金属复合污染的研究;二、进一步加强肠道微生物对食物中重金属的生物可给性和生物有效性的影响的研究;三、特别需加强中式饮食习惯下对食物中重金属的生物有效性的影响的研究。     

重金属污染物的免疫学检测技术研究进展

重金属的免疫学检测是一种新型的重金属检测方法，与传统检测方法相比，具有省时、省力、费用低廉、便于携带、易于操作等优点，能用于重金属污染物的现场快速检测和常规检测，这对于重金属污染地区的补救和恢复工作具有很大的意义，因而发展和普及应用潜力很大。国外学者通过选择或合成双功能鳌合剂鳌合重金属离子并与载体蛋白偶联制备出完全抗原，进一步制备出金属特异性单抗。目前应用免疫学检测方法检测环境中的重金属离子还处于实验室的试验阶段，初步实验结果表明KinExA免疫检测法具有用作重金属免疫检测传感器的能力，并且越来越多的重金属检测模型被开发出来。金属特异性抗体一抗原的结合属性的初步研究表明，影响抗体对抗原识别的主要因素有：金属离子的半径、电子和形态上的并协性；鳌合剂的结构；金属离子一鳌合剂复合物三维结构和价态结构；抗体中的某些氨基酸残基能与抗原中金属离子直接配位以及与抗原中的鳌合剂部分发生相互作用（疏水作用、氢键作用等）。     

An evaluation of procedures for the digestion of soils and vegetation from areas with metalliferous pollution

Various digestion or extraction processes are available for the determination of trace metals in environmental samples using diverse analytical techniques. Our research examines the most efficient and reproducible methods of digestion utilising readily available laboratory equipment, reagents and instrumentation. Extraction procedures reported in over 80 recent research works were considered and the most common methods were critically evaluated. Thus nitric acid, nitric acid/perchloric acid, aqua regia, nitric acid/hydrogen peroxide and microwave-assisted methods were investigated using soil and leaf samples collected adjacent to three old metalliferous workings. Analysis was carried out using Flame Atomic Absorption Spectrometry and the results were evaluated. Differences in efficiency of extraction relative to specific metals and different substrates are highlighted and recommendations made for a digestion procedure suitable for environmental samples. Aqua regia produced the most accurate, efficient and reproducible results; we consider methods of improving both of these factors and sample preparation. Our recommended methodology has applications in environmental surveys, environmental geology, environmental toxicology, geochemistry and provides a means of obtaining meaningful and reliable results for the determination of metals present in soils, minerals and vegetation.     

Analysis of heavy metals in ecstasy tablets by electrochemical methods

Trace amounts of heavy metals have been analysed by electrochemical techniques in ecstasy tablets obtained from different police seizures in Spain. Lead, cadmium, copper and zinc were determined by differential-pulse anodic stripping voltammetry at a hanging mercury drop electrode, whereas nickel and cobalt were determined by adsorptive differential-pulse cathodic stripping voltammetry from their dimethylglyoxime complexes, M(DMG)₂. The performance of the procedure was compared with electrothermal atomic absorption spectrometry. The procedure was applied to the determination of these elements in nine ecstasy samples, finding that Zn is the element present in the highest concentration, ranging from 0.3 to 200?mg?kg^?1, Ni, Cu appear below 15?mg?kg^?1 and Pb below 8?mg?kg^?1, while Cd and Co levels were always lower than 0.51?mg?kg^?1.