洋河流域不同时空水体重金属污染及健康风险评价

确定水体重金属污染及健康风险时空变化趋势,对流域水环境管理具有重要指导意义。基于1995年、2005年和2015年洋河流域10个监测断面的重金属监测数据,采用健康风险评价模型,对洋河流域As、Cd、Pb、Hg和Cu的浓度及其引起健康风险的时空变化进行了评价。结果表明,洋河流域重金属污染及其健康风险在时间上呈降低趋势,超过地表水质量标准三类标准的重金属由1995年的Cd、Pb和Hg变为2005年和2015年的Cd、Pb。致癌物质As和Cd所引起的个人年均风险远远高于非致癌物质Pb、Hg和Cu。重金属健康风险总和在1995年所有监测断面均超过国际辐射防护委员会(ICRP)推荐的最大可接受风险水平,2005年全部在最大可接受风险水平以下,2015年只有响水铺略微高于该水平。在空间分布上,重金属污染较为严重及其健康风险较大的区域集中于南洋河下游城区段、清水河下游张家口市区段和洋河干流下游段。     

典型石油城市道路积尘重金属污染及健康风险评价

从新疆典型石油城市克拉玛依市采集52个道路积尘样品,测定其中As、Cd、Cr、Cu、Pb和Hg 6种重金属元素的含量,采用地质累积指数法与美国环境保护署(USEPA)推荐的健康风险评价模型,分析了道路积尘重金属污染及潜在健康风险。结果表明,克拉玛依市道路积尘中As、Cd、Cr、Cu、Pb、Hg的平均值分别为新疆土壤背景值的1.62、1.75、0.99、1.50、1.24、2.94倍,道路积尘中6种重金属元素的地质累积指数(I_(geo))平均值排序为HgAsCuPbCrCd。其中,Hg处于轻度污染,其他5种元素均处于无污染水平。总体上,As、Cu、Hg的I_(geo)从西北向东南呈减小趋势;Cd的I_(geo)空间分布较为离散,出现两个同心圆状分布格局;Pb、Cr的I_(geo)呈现均匀分布格局。健康风险评价结果表明,克拉玛依市道路积尘中重金属元素的非致癌风险及致癌风险均处于安全范围内,主要暴露途径为手-口摄入,儿童受到的健康风险高于成人,As是克拉玛依市道路积尘中最主要健康风险元素。     

煤矿复垦区土壤重金属分布特征与质量评价

为保证煤矿复垦区种植农作物的充填复垦土壤的生态安全,以淮南矿区煤矸石充填复垦地为研究对象,通过对研究区内Cd、Cr、Ni、Pb、Cu、Zn和Hg 7种重金属不同深度含量分析,总结其纵向分布特征,并将研究区土壤重金属含量与淮南市土壤背景值、《土壤环境质量标准》(GB 15618-1995)作比较,分析这7种重金属的污染程度.结果表明,这7种重金属都有不同程度的污染,其中土壤受Cd污染最严重,土壤中重金属垂直方向上无确定分布规律.总体而言,土壤重金属潜在生态风险属于强生态危害.从垂直方向来看,重金属潜在生态风险指数(RD随着深度的增加出现先下降后升高的趋势,其中40～60 cm深度的RI最大.重金属生态危害程度依次为Cd＞ Hg＞ Ni＞ Cu＞ Cr＞ Pb＞ Zn,其中Cd为矿区土壤中最主要的重金属污染生态风险因子.     

南方某铅锌锰冶炼区周边大气降尘重金属污染水平及风险评价

于2016年8月至2017年1月分别对南方某铅锌锰冶炼区周边(污染区)及大新村(对照区)进行大气降尘干法采集,测定了大气降尘中Cd、Zn、Pb、Mn、Cu、As、Ni、Cr含量,采用富集因子法、潜在生态风险指数法和健康风险评价对大气降尘重金属污染进行源解析与风险评价。结果表明,污染区大气降尘中Cd、Cr、Mn、Ni、Pb、As、Zn、Cu均值分别为166.6、104.5、6 109.0、80.9、635.9、53.6、8 838.5、180.3mg/kg,分别为背景值的691.3、2.1、11.6、2.4、24.5、2.9、106.6、6.9倍。富集因子法分析得出,污染区大气降尘中Cd、Zn和Pb主要来源于铅锌冶炼以及电解锰企业;Mn、Cu、As和Ni在大气降尘中富集程度次之,既受自然源,也受人为源影响。生态风险评价表明,污染区大气降尘中Cd为极强生态危害,Pb、Zn属于强生态危害,Cu、As、Ni、Cr均为轻微生态危害,综合潜在生态风险达到很强生态危害等级。健康风险评价表明,污染区大气降尘中重金属主要健康风险来源于非致癌风险,致癌风险可忽略。大气降尘中Pb、As、Cd经手-口摄入途径对儿童存在非致癌风险,应采取措施降低污染区大气降尘中Pb、As、Cd含量,控制手-口摄入途径对儿童的非致癌风险。     

雷州半岛土壤重金属分布特征及其污染评价

在雷州半岛采集了106个土壤表层样品,分析了其中8种重金属元素(Cu、Pb、Zn、Cr、Ni、Cd、Hg和As)的全量.结果表明,雷州半岛土壤重金属污染由高到低排序为Ni＞Cr＞Hg＞Cu＞Zn＞Cd＞As＞Pb,Zn、Cd、As和Pb质量浓度均没有超标,Hg和Cu质量浓度超标率亦不高,但Ni和Cr平均质量浓度达49.81、87.13 mg/kg,高于国内外其他对照区域,超标率分别为25.47%和24.53%;重金属元素在雷州半岛各土壤利用类型中分布规律不明显,按4种主要土壤利用类型受重金属污染程度大小排序为甘蔗地＞果园土＞水田＞菜地;雷州半岛土壤综合污染指数总平均为0.970,土壤总体上尚清洁,重金属污染处于警戒水平;雷州半岛各区域中,徐闻、雷州两地土壤重金属质量浓度明显高于其他地区,其主要原因是徐闻、雷州两地成土母质主要为玄武岩,造成土壤Cr、Ni及其他重金属背景值较高.     

北京高校校园道路灰尘重金属污染特征及健康风险评价

为了解高校校园道路灰尘重金属污染特征及其可能带来的健康风险,在北京10所高校共采集了50个道路灰尘样品,测定了灰尘中Cr、Ni、Cu、Zn、Cd和Pb的浓度,采用美国环境保护署(USEPA)推荐的健康风险评价模型对高校道路灰尘重金属做了初步的健康风险评价。结果表明,北京10所高校校园道路灰尘中Cr、Ni、Cu、Zn、Cd和Pb的平均质量浓度分别为0.77、85.07、82.41、34.03、54.30、308.31mg/kg,均高于北京土壤重金属背景值。10所高校的重金属平均地累积指数(Igeo)排序为ZnCdCuCrPbNi,其中Zn、Cd和Cu处于中度污染水平,Cr和Pb处于轻度污染水平,Ni处于无污染水平。对于非致癌风险,呈现摄食皮肤接触呼吸吸入的特征,摄食是主要的暴露途径,Cr和Pb是主要的风险元素。对于致癌风险,Cr、Ni、Cd的致癌风险均低于风险阈值。高校校园道路灰尘重金属引起的健康风险处于较低水平。     

新疆准东地区降尘重金属污染分析及健康风险评价

使用单因子污染指数及污染负荷指数计算重金属污染水平,应用美国环境保护署人体暴露风险评价方法对6种降尘重金属(Zn、Cu、Cr、Pb、Hg、As)进行健康风险评价。结果表明:(1)新疆准东地区降尘中6种重金属均值都高于昌吉土壤背景值。(2)健康风险评价表明,手-口摄食途径是儿童和成人致癌及非致癌的最主要暴露途径。As是致癌风险的主要贡献者。对于成人而言,降尘重金属的总非致癌和总致癌风险都在可接受的范围内,但儿童总非致癌风险、总致癌风险分别是成人的7.20、1.34倍,且儿童的总非致癌风险已大于安全阈值。     

浙江南部近岸海域表层沉积物中重金属污染评价

对浙江南部近岸海域表层沉积物中重金属Cu、Pb、Zn、Cd、Cr、Hg、As的浓度进行了分析,25%的采样点Cu浓度超出了《海洋沉积物质量》(GB 18668—2002)的第一类标准限值,其余6种重金属的浓度均未超过GB 18668—2002的第一类标准限值。相关性分析表明,有机质是影响沉积物中重金属分布的重要因素,Cu、Zn、Cr、Cd、Pb、As表现出同源性。采用单因子指数法和潜在生态风险指数法评价沉积物中重金属污染现状及其潜在生态风险,结果表明,重金属污染现状和潜在生态风险均处于较低水平,Hg为首要潜在生态风险因子。     

贵阳南部近郊蔬菜重金属污染状况及健康风险评估

于贵阳花溪区蔬菜种植基地及零星菜地采集叶菜类、茎菜类和果菜类样品及对应土壤样品,测定土壤与蔬菜样品中Zn、Cd、Pb和Cu含量,分析土壤理化性质、土壤重金属全量、有效态含量与蔬菜中重金属含量之间的关系,通过污染指数和暴露风险健康评估指数分析城郊蔬菜中重金属污染状况以及摄入人群的健康风险。结果表明:部分菜地土壤样品Zn、Cu含量超出农用地土壤污染风险筛选值,超标率分别为8.82%、11.76%;蔬菜中重金属含量主要取决于土壤重金属有效态含量;研究区蔬菜均处于清洁水平,但有8.82%的蔬菜样品Pb处于Ⅱ级警戒值,且均为叶菜;Pb是叶菜类暴露健康风险的主要元素,而Cu是茎菜类与果菜类暴露健康风险的重要元素;蔬菜重金属对儿童和成人的危害指数均小于1.0,表明食用该地区的蔬菜不会对人体健康产生不良影响。     

X市土壤重金属污染空间特性分析与风险评价

主要采用内梅罗综合指数和潜在生态风险指数对X市土壤重金属Cd、Hg、As和Pb污染程度进行评价,并通过地统计学、地理信息系统(GIS)评价法以及空间自相关分析法研究土壤重金属分布空间特性。结果表明:X市土壤中Cd、Hg、As和Pb质量浓度均值分别为0.509 8、0.162 8、8.774 7、34.601 5mg/kg,受人为影响较大,特别是As和Pb;内梅罗综合污染指数得出,有8.8%、5.2%、7.8%样点分别属于轻度、中度和重度污染;总潜在生态风险指数得出,有8.7%、5.2%样点分别存在中等危害和强危害生态风险;Cd、Hg、As和Pb都存在较强的空间自相关性,总体上呈现南高北低或东高西低分布的现象,东南部的p镇有较严重的土壤重金属污染问题。     

Heavy metals exposure of children from stairway and sidewalk dust in the smelting district,northeast of China

The aim of this work was to study metals accumulation in stairway (inside the residential building) and sidewalk (outside the residential building) dust, and health risk of children due to dust exposure. The investigation included the: (a) spatial distributions of Hg, Pb, Cd, Zn and Cu in stairway and sidewalk dust, (b) source analysis of metals in stairway and sidewalk dust, and (c) assessment of the children health risks due to metals exposure from stairway and sidewalk dust. In the smelting district of Huludao, the maximum Hg, Pb, Cd, Zn and Cu contents in stairway dust were 5.324, 4594, 936.8, 48 253, 1377 mg kg^?1, respectively, and were 144, 213, 8674, 760 and 69.5 times as high, respectively, as the background values in soil. A strong positive relationship was shown between the stairway and sidewalk dust for each metal (p < 0.01). The trends for Hg, Pb, Cd, Zn and Cu in the stairway and sidewalk dust were similar and with higher concentrations trending Huludao Zinc Plant (HZP). Atmospheric deposition due to metal smelting from HZP was the common source of heavy metals in the sidewalk and stairway dust. Vehicular traffic affected the metal accumulation in dust, but their contribution was slight comparing with atmospheric emission from HZP. Almost all hazard indexes (HIs) for metals due to stairway dust exposure in this study were lower than 1. The health risk for children was low if they would not play in the stairway. However, children were also experiencing the potential health risk from Cd and Pb exposure from sidewalk dust outside residential building, especially near HZP.     

Risk assessment of potentially toxic element pollution in soils and rice (Oryza sativa) in a typical area of the Yangtze River Delta

Soil pollution with potentially toxic elements (PTEs) resulting from rapid industrial development has caused major concerns. Selected PTEs and their accumulation and distribution in soils and rice (Oryza sativa) collected from Changshu, east China, were analyzed to evaluate the potential health risk to the local population. The soils were primarily contaminated with Hg, followed by Cu, Cd, Pb, and Zn. The concentrations of Pb, Hg, and Cd of 46, 32, and 1 rice samples exceeded their national maximum allowable levels in foods, respectively. Spatial distributions of total Cr, Cu, Pb, Zn, and Cd in soils shared similar geographical trends. The risk assessment of PTEs through rice consumption suggests that the concentrations of Cu, Pb, and Cd in some rice samples exceed their reference oral dose for adults and children. In general, there was no target hazard quotient value of any individual element that was greater than 1, but hazard index values for adults and children were 1.726 and 1.523, respectively.     

Ecological risks and potential sources of heavy metals in agricultural soils from Huanghuai Plain, China

A total of 224 agricultural soil samples from Huanghuai Plain in China were investigated for the concentrations of seven heavy metals (As, Cd, Cr, Hg, Ni, Pb, and Zn). The mean concentrations of the metals were 12, 0.17, 79, 0.04, 35, 25, and 74 mg/kg, respectively. These values are similar or slightly higher than background values in this region, except for Cd with a mean nearly twice the background value. The estimated ecological risks based on contamination factors and potential ecological risk indexes are also mostly low, but considerable for Cd and Hg. Multivariate analysis (including Pearson's correlation analysis, hierarchical cluster analysis, and principal component analysis) clearly revealed three distinct metal groups, i.e., Cr/Ni/Zn, As/Cd/Pb, and Hg, whose concentrations were closely associated with the distribution and pollution characteristics of industries in and around the plain. The main anthropogenic sources for the three metal groups were identified as atmospheric deposition, sewage irrigation/fertilizers usage, and atmospheric deposition/irrigation water, respectively. The present results are well suited for planning, risk assessment, and decision making by environmental managers of this region.     

Trace metal element pollution of soil and water resources caused by small-scale metallic ore mining activities: a case study from a sphalerite mine in North China

Trace metal element contamination in mining areas is always a huge environmental challenge for the global mining industry. In this study, an abandoned sphalerite mine near the Yanshan Mountains was selected as subject to evaluate the soil and water contamination caused by small-scale mining. The results show that (1) Pearson correlation matrix and principal component analysis (PCA) results reveal that Zn, Cu, Cd, and Pb were greatly affected by the operation of mines, especially mineral tailings. The contents of trace metal elements decrease with the increase of the distance from the mining area. Zinc, Pb, and Cd were discovered in almost all soil samples, and Zn accounted for about 80% of pollution of the topsoil. (2) The trace element pollution levels in the topsoil of the three villages were ranked as follows: Cd?>?Cu?>?Pb~Zn. The potential ecological risk of farmland around the mine ranges from lower to higher, with Cd being the most harmful. (3) Human health risk assessment results show that trace elements in the mining area pose obvious non-carcinogenic health risks to children while the risks to adults are not equally obvious. The carcinogenic risk of Cd and Cr is within a safe range and does not pose an obvious cancer risk to the population.

     

Health risk assessment of heavy metal exposure through vegetable consumption around a phosphorus chemical plant in the Kaiyang karst area,southwestern China

The phosphorus chemical industry is an important source of heavy metals in farmland. Vegetables grown on contaminated soil potentially impose adverse effects on human health. In this study, the pollution status and health risks of heavy metals in vegetables around a phosphorus chemical plant in Kaiyang County, Guizhou Province, southwestern China, were assessed, and the low-accumulation vegetables were screened by bioaccumulation factor (BAF) and cluster analysis. Results showed the average concentrations of Hg, As, Cd, Pb, Cr, Mn, Co, and Zn in vegetables were 0.015, 0.728 0.382, 0.227, 0.850, 27.227, 0.525, and 6.438 mg/kg, respectively. The single-factor pollution index showed that Cd was moderately polluted, and Cr, Hg, As, and Pb were slightly polluted. The Nemerow pollution index showed that the overall heavy metal pollution was classified as moderately polluted. The accumulation of heavy metals in different vegetables varied greatly, and chard, crown daisy, chayote, pumpkin, eggplant, white radish, sweet potato, carrot, and potato were selected as the low-accumulator vegetables. The consumption of all vegetables except chayote poses both carcinogenic and noncarcinogenic risks; among them, the consumption of sweet potato leaves has the highest health risks. The local population needs to adjust plantation structure and change dietary habits, and government should strengthen the management of phosphorus chemical plant pollution.

     

Health risk assessment of exposure to organic matter from the use of reclaimed water in toilets

To estimate the carcinogenic and non-carcinogenic risks of six volatile organic compounds (VOCs) found in reclaimed water used for flushing toilets, a probabilistic health risk assessment based on Monte Carlo simulations was used. Before Monte Carlo simulations, the contaminant volatilization model was applied to estimate the concentration of the pollutants in air. Moreover, a questionnaire was used to acquire daily exposure time and the Batch Fit tool of Crystal Ball software was applied to find the best-fitting distribution of a part of the input parameters. The risk analysis indicated that the health risks from six VOCs were lower than the negligible risk level (1?×?10^?8) in all cases, and the health risk for females was slightly higher than that for males. Overall, exposure to organic pollutants in reclaimed water during toilet flushing does not currently pose a significant carcinogenic risk to humans. In this study, we want to provide some information on the health risk from reclaimed water used for toilet flushing in China and hope that it will be useful to promote the application of reclaimed water in water-deficient areas.     

聊城市城区河湖水中Hg、As浓度分布特征及健康风险评价

为了解聊城市城区河湖水中Hg、As浓度分布,于2010年12月19日采集、分析了20个表层水样中Hg、As浓度,并采用美国环境保护署推荐的健康风险评价模型对其进行了初步评价.结果表明:城区河湖水中Hg、As的质量浓度分别为0.016～0.366、0.494～23.438 μg/L,各主要河湖水中Hg的平均浓度大小为周公河＞东昌湖＞小运河＞徒骇河；As的平均浓度大小为周公河＞徒骇河＞小运河＞东昌湖；东昌湖Hg浓度超过《地表水环境质量标准》(GB 3838-2002)的Ⅲ类水标准值,超标率为71.4％.各主要河湖水中Hg、As浓度的空间分布差异显著,Hg主要来源于大气沉降和沿岸生活污水的排放,As主要来源于工业废水,两者均受到上游来水的影响.As通过饮水途径产生的健康风险值在10-6～10-4 a-1,是Hg的103～106倍,高于部分机构推荐的最大可接受风险水平(1.0×10-6 a-1).建议有关部门应加强对聊城市城区河湖水中Hg、As的监测和环境风险管理.     

层次分析法与地理信息系统在农田土壤重金属污染评价中的应用

以《土壤环境质量标准》(GB 15618—1995)二级标准作为评价标准,采用以改进层次分析法确定权重的加权平均法对南京市郊典型蔬菜地的土壤重金属污染状况进行了评价。结果表明,研究区土壤中Cu、Pb、Cr的单因子污染指数平均值均小于1,含量超标率均不超过10.32%,而Cd的单因子污染指数平均值达2.15,含量超标率为84.13%,急需对该区土壤和受体做进一步的Cd污染深入调查或风险评估;研究区土壤重金属综合污染指数平均值为1.28,属玷污水平;利用ArcGIS 8.3软件进行土壤重金属污染的空间分布特征分析结果表明,研究区各元素的污染程度为Cd>Pb>Cu>Cr,各元素的污染格局较为相似,城市化活动对土壤污染贡献较大;研究区有81.16%的土壤重金属污染级别为玷污,3.78%处于本底级,15.06%处于安全级。     

Pollution status and risk assessment of trace elements in Portuguese water,soils, sediments,and associated biota: a trend analysis from the 80s to 2021

Pollution of water bodies and sediments/soils by trace elements remains a global threat and a serious environmental hazard to biodiversity and human’s health. Globalization and industrialization resulted in the increase and availability of these substances in the environment posing unpredictable adverse effects to living organisms. To determine pollution status and risk contamination by trace elements, data available in the literature of the last 40 years on trace elements occurrence in three environmental matrices (water bodies, sediments/soils, and biota) from Continental Portugal were collected (about 90 studies). Data were compared to water and sediment quality guidelines to assess potential ecological risks. Most environmentally relevant hazardous elements include Zn, Cu, Cd, Pb, and As. Various studies found trace elements at levels higher than those considered safe by environmental guidelines. In surface waters, Al, Zn, Se, and Ag were found above aquatic life limits in about 60% of the reviewed papers, while Cu, Zn, and As exceed those values in more than 60% of mining waters. Hg and Cd in sediments from mining areas exceeded aquatic life limits and potential ecological risk showed extremely high risk for most of the elements. The data compiled in this review is very heterogenous, varying in terms of sampling schemes, trace elements analysed, and spatiotemporal settings. This heterogenicity leads to data differences that make meaningful comparisons difficult. Nevertheless, the compilation of scattered environmental spatial and temporal trace elements data, of either natural sources or human activity as well as the ultimate effect on biological systems, is of the upmost importance to broaden its knowledge, risk assessment, and implementation of mitigation measures.

     

Use of the landfill water pollution index (LWPI) for groundwater quality assessment near the landfill sites

The purpose of the paper is to assess the groundwater quality near the landfill sites using landfill water pollution index (LWPI). In order to investigate the scale of groundwater contamination, three landfills (E, H and S) in different stages of their operation were taken into analysis. Samples of groundwater in the vicinity of studied landfills were collected four times each year in the period from 2004 to 2014. A total of over 300 groundwater samples were analysed for pH, EC, PAH, TOC, Cr, Hg, Zn, Pb, Cd, Cu, as required by the UE legal acts for landfill monitoring system. The calculated values of the LWPI allowed the quantification of the overall water quality near the landfill sites. The obtained results indicated that the most negative impact on groundwater quality is observed near the old Landfill H. Improper location of piezometer at the Landfill S favoured infiltration of run-off from road pavement into the soil-water environment. Deep deposition of the groundwater level at Landfill S area reduced the landfill impact on the water quality. Conducted analyses revealed that the LWPI can be used for evaluation of water pollution near a landfill, for assessment of the variability of water pollution with time and for comparison of water quality from different piezometers, landfills or time periods. The applied WQI (Water Quality Index) can also be an important information tool for landfill policy makers and the public about the groundwater pollution threat from landfill.