贵阳市城市道路灰尘重金属铅污染及评价

对贵阳市城市道路灰尘重金属铅污染进行了研究。结果表明：2008年贵阳市各行政区道路灰尘中铅的含量按南明区、乌当区、白云区、花溪区、云岩区、小河区顺序分别为81.19～174.94mg/kg、54.33～177.62mg/kg、59.75～275.93mg/kg、59.45～143.41mg/kg、61.32～106.05mg/kg、57.84～115.53mg/kg,平均含量分别为110.94mg/kg、78.49mg/kg、105.35mg/kg、96.87mg/kg、81.51mg/kg、88.11mg/kg,分别为环境背景值的3.0倍、2.1倍、2.8倍、2.6倍、2.2倍、2.4倍;不同行政区铅含量存在较大差异,铅在空间分布上也存在较大差异,其中白云区差异最大,云岩区差异最小。地积累指数及铅污染指数评价表明：贵阳市城市道路灰尘中铅污染总体上处于轻度污染水平,但局部区域处于偏中度至中度污染水平。     

铅在紫色土—水稻体系中的植物效应及形态

本文研究了酸性、中性及石灰性紫色土中铅的水稻效应、形态特征及有效性。酸性与石灰性紫色土中水稻分别在含铅量1000、2000mg/kg时出现明显受害,中性紫色土在4000mg/kg时亦无明显影响。水稻各部位含铅量是酸性>石灰性>中性紫色土,并与添加铅呈显著正相关,且其大小顺序为根>茎叶>糙米。铅90％以上积累于水稻根部;施铅使土壤中无效铅比例下降。有效性较高的铅形态比例上升。交换态、碳酸盐态或弱结合态铅含量较高的土壤上,水稻反应大。用有效态铅为指标有可能使不同土壤铅临界浓度比较接近一致。     

浑河冲洪积平原土壤及浅层地下水中铅的分布特征

为探讨浑河冲洪积扇土壤及浅层地下水中铅的含量、来源及其分布特征,对研究区50个土壤样品、5个地表水样品和22个浅层地下水样品进行了铅含量分析.结果表明,研究区土壤、地表水和浅层地下水均受到了一定程度的铅污染.表层土壤铅含量较高,在17.72—114.46 mg.kg-1之间,受人为污染影响较大;随土壤深度的增加铅含量呈现逐渐降低的趋势,其迁移规律与铬、砷、铜等重金属密切相关,受土壤性质和有机质含量的影响较大,为研究区土壤和浅层地下水环境风险评价及污染防治提供了科学依据.     

大沽排污河河口地区沉积物中重金属污染及其潜在生物毒性风险评价

本文以大沽排污河口表层沉积物为研究对象,分别运用ERL/ERM和生态危害指数两种评价方法对沉积物中6种重金属的潜在生物毒性风险进行评价,并对两种方法的评价结果进行对比。经均一化处理,重金属的含量均值由大到小的顺序排列为铬（168 mg/kg）〉锌（157 mg/kg）〉镍（60.7 mg/kg）〉铜（45.3 mg/kg）〉铅（7.31 mg/kg）〉镉（0.215 mg/kg）。经计算20个采样断面的沉积物中重金属毒性单位总和均在3~4之间,有80%的采样断面沉积物中重金属毒性单位总和大于3.5,毒性单位总和最大值为3.789。说明大沽排污河口沉积物中重金属的潜在生物毒性水平较低,可视为无生物毒性。     

三峡水库香溪河库湾氮磷分布状况及沉积物污染评价

为了解三峡大坝蓄水完成之后香溪河库湾水体及沉积物中氮、磷的分布状况以及沉积物污染水平,2013年4月对三峡水库香溪河库湾进行调查采样,测定表层水及沉积物中氮磷含量和形态组成。结果表明,香溪河库湾表层水总磷(TP)含量范围为0.20~0.51 mg·L~(-1),总氮(TN)含量范围为0.54~2.25 mg·L~(-1),TP主要由磷酸盐(PO_4~(3-))组成,TN主要由硝酸盐(NO_3~-)以及氨氮(NH_4~+)组成,TP在空间上呈现从河口向库尾逐渐升高的分布格局,TN分布从河口向库尾逐渐降低。香溪河库湾沉积物中TP含量变化范围为642~1 189 mg·kg~(-1),TN含量变化范围为867~1 718 mg·kg~(-1),沉积物TP含量分布呈现上游高下游低,沉积物TN分布趋势呈现中间高,两头低。沉积物中TP主要由无机磷(IP)组成,有机磷(OP)所占比例较小,其中IP由钙磷(Ca-P)、铁铝磷(Fe/Al-P)组成,三者含量:Ca-POPFe/Al-P,且沉积物TP含量空间变化受到三者影响(P0.05)。采用单一因子标准指数法对香溪河库湾沉积物中TN、TP污染水平进行评价,结果表明,表层沉积物中TN、TP最低级别污染指数平均值为2.0和1.6,表层沉积物中TN、TP污染指数均超过最低污染水平,且TP的严重级别污染指数达到0.5以上。三峡水库三期蓄水完成以后,香溪河库湾表层水体中氮磷含量较初期蓄水有所升高,各样点沉积物中氮磷含量表现出相同的趋势,沉积物中不稳定磷释放对水体富营养化具有影响,香溪河库湾的表层沉积物已经受到一定的污染,磷污染水平较高。     

成都市冬季PM_(2.5)中碳组分污染特征及来源解析

为研究成都市冬季PM_(2.5)中碳组分的污染特征和来源,于2019年12月7—28日在成都市进行PM_(2.5)的采集,并利用热光碳分析仪和元素分析仪-同位素质谱仪分别测定了样品中有机碳(OC)和元素碳(EC)的质量浓度以及碳同位素的组成特征。结果表明,成都市PM_(2.5)、OC和EC的平均质量浓度分别为98.23、14.50、2.19μg·m~(-3);OC和EC的相关性较高(相关系数为0.80),表明OC和EC可能具有一致的来源,也有可能是具有较高的混合程度;OC/EC比值大于2.0,表明成都市冬季有二次有机碳(SOC)的形成,且SOC/OC的比值为34.48%;主成分分析结果显示,生物质燃烧、燃煤和汽油车尾气尘混合源是成都市冬季PM_(2.5)碳组分的主要来源,贡献率为59.68%;其次是柴油车尾气尘,贡献率为22.40%;碳同位素组成结果显示,成都市冬季PM_(2.5)碳组分的来源与汽油车尾气排放相关性最强,其次为C3植物燃烧;通过IsoSource模型软件进行计算,可知不同时期各污染源的贡献比例均呈现出汽油车尾气排放C3植物燃烧柴油车尾气排放燃煤C4植物燃烧地质源(农业土壤、扬尘)的规律,但相较于清洁期来说,污染期的汽油车尾气排放和C3植物燃烧污染源所占比例增大。研究结果可为成都市大气污染治理提供理论指导。     

天津市大气颗粒物铅的同位素丰度比测定

对天津市 2 1个玻璃纤维滤膜大气颗粒物样品采用稀酸浸出法溶解后 ,测量了铅浓度、铅含量和同位素丰度比 (2 0 6Ｐｂ/2 0 7Ｐｂ) .并采用聚类分析方法对样品进行分组讨论 .1　样品的采集和测定本文旨在观察汽油无铅化进程中 ,大气颗粒物中铅来源的变化情况 .1 998年和 1 999年是汽油无铅化的关键时期 .大气颗粒物样品由天津市环境保护监测中心提供 ,采集于玻璃纤维滤膜上 .采样地点是天津市侯台站和天津市站两个国控站点 .采用ＫＢ 2 0型中流量采样器采集 2 4ｈ的ＴＳＰ样品 .从1 998年 1 1月到 1 999年 2月期间共采集样品 2 1个 .消解大气…     

宁波市回龙河表层沉积物重金属的形态分析及风险评价

为了解回龙河表层沉积物中重金属的污染状况,采集了表层沉积物样品,测定了重金属Zn、Cu、Pb、Cr、Cd和Ni的总量及其化学形态,并采用潜在生态风险指数法对重金属进行了生态风险评价。结果显示,回龙河表层沉积物中Zn、Cu、Pb、Cr、Cd和Ni均有一定程度的累积,总量分别为286.4～1277.9mg/kg、21.71～146.0mg/kg、10.33～44.20mg/kg、25.13～90.40mg/kg、0.07172～0.3901mg/kg、13.27～157.2mg/kg,其中Cu、Cr、Pb与Ni 4种重金属具有一定的同源特性;形态分析表明,Cu的形态分布以有机结合态为主,最容易迁移释放,Zn、Cr和Ni除残渣态外,铁锰氧化结合态和有机结合态占一定比例,具有潜在风险;潜在生态风险指数法分析表明,沉积物中重金属元素的单一潜在生态风险指数顺序为Cd〉Cu〉Ni〉Zn〉Pb〉Cr,潜在生态危害指数RI均小于150,总体上回龙河处于轻微的生态风险等级。     

城市工业用煤X荧光分析及重金属元素污染研究

燃煤是成都市重金属污染的一个重要来源,目前对成都燃煤中重金属元素含量与城市环境污染的相关性研究相对较少。文章以成都市城东工业区为研究对象,利用X荧光分析方法对煤样、煤渣、煤灰、表层土、深层土4种重金属元素进行定量分析,探讨了燃煤中重金属含量与城市土壤重金属污染的相关关系。结果表明,(1)成都市工业用煤原产地煤样重金属元素的含量不尽相同,因此,企业需合理选择煤源。(2)土壤重金属元素污染与工业用煤正相关,工业用煤中有害元素含量较高的对当地土壤的污染也比较严重,相反工业用煤中含量较少的元素在土壤中含量也较小。(3)热电厂燃煤对城市重金属污染的行为属性表现为,Pb属于直接污染大气和土壤,而Cu、Zn、Cr富集在煤渣样、煤灰样中在后期造成对城市土壤的污染。     

铅锌尾矿废弃地的化学性质研究

凡口铅锌尾矿废弃地的不同区位及不同深度的尾矿中铅锌含量存在着较大的差异 ,总锌为 70 3～ 19657mg/ kg、总铅 10 4 13～ 94 988mg/ kg。正常尾矿中 ,有效态锌含量达到 151.6～ 84 1.7mg/ kg,有效态铅含量很低 ( 0 .75～ 2 .50 mg/ kg) ,有机质、总氮、有效磷及速效钾等营养物质缺乏。当尾矿酸化后 ,p H降低 ,有效态 Pb、Zn含量升高 ,有效锌达到 175.8～ 2 82 8.0 mg/ kg,有效铅含量最高为 10 0 .0 mg/kg,而有机质、总氮和有效磷为零 ,使尾矿更加贫瘠。在尾矿库的边缘区位和尾矿表面的覆盖土壤区位 ,基质中营养物质含量增加 ,但是营养状况的改善又引起了有效态的 Pb、Zn含量升高。     

Environmental health in minority and other underserved populations: Benign methods for identifying lead hazards at day care centres of New Orleans

This study tests the hypothesis that exterior sources of lead dust are more important than interior sources in the route of exposure of children. Benign field methods were used to distinguish between potential and actual lead exposure problems. Utilising hand wipe and surface wipe techniques, hand and environmental samples were obtained from selected day care centres at different locations within New Orleans. Previous research has shown that soil lead is determined by location within the city. Private and public day care centres were selected from inner and outer city areas to estimate the extent of hand lead exposure. To measure and identify the extent of environmental lead exposure, hand wipes were taken before and after playing outdoors. Results of preliminary findings show that outdoor lead dust is a more potent contaminant of hands than indoor lead dust. An association was found between the amount of lead on children's hands after playing outdoors and the lead content in the exterior dust and soil. Although two girls out of forty children had exceptionally high hand lead quantities after playing outdoors, in general, boys have higher hand lead levels than girls. The private inner-city day care centre had a severe contamination problem in its outdoor play area. By contrast, the outdoor play area of the public inner city day care centre is of such a high quality that the quantity of lead dust is independent of location in the city.     

The relationship between surface dust lead loadings on carpets and the blood lead of young children

The final clean-up of residential lead abatement projects in federally-supported housing, as well as in other housing in a number of states, must meet surface dust lead clearance levels expressed as g of lead per square foot. These clearance levels were established because hand-to-mouth ingestion of lead-contaminated dust is recognised as a major pathway through which many children are exposed. A dilemma exists because many floors in housing undergoing abatement are carpeted and the established clearance levels are generally not recommended for use on carpets. These clearance levels are also used as 'action levels' to determine whether exposure reduction activities are needed. The US Environmental Protection Agency is currently in the process of issuing standards for hazardous levels of lead in interior dust and bare soil under Title X of the Housing and Community Development Act of 1992, The Residential Lead-Based Paint Hazard Reduction Act of 1992. An effort to develop a potential surface dust lead clearance level for carpets was made using an existing vacuum dust collection method that has previously been shown to be a reliable indicator of childhood lead exposure. This method was designed for use on carpeted and non-carpeted surfaces. Using data from the Cincinnati Soil Lead Abatement Demonstration Project, the suggested floor-dust lead level where an estimated 95% of the population of children would be expected to have blood lead values below the national goal of 10 g dL^–1, was more than an order of magnitude lower than the current floor-dust lead clearance level of 1080 g m^–2 (100 g ft^–2). Further comparisons of blood lead and carpet lead levels in other parts of the country should be performed before a risk-based lead loading clearance level is established.     

Current uses of the EPA lead model to assess health risk and action levels for soil

The EPA lead model predicts mean blood lead levels and risk of elevated blood lead levels in children based on lead uptake from multiple sources. In the latest model versions, environmental data from individual homes within a community can be used to predict the overall blood lead distribution and percent risk of exceeding a specific blood lead level (i.e. 10 g dl^–1). Recent criteria used by the EPA to evaluate this information include no more than 5% of houses with a greater than 5% lead risk, and a community weighted-average risk below 5%. Environmental (primarily soil) and blood lead data from a residential community near a smelter were used to illustrate recent uses of the model. Scheduled remediation in the community will remove soil for approximately 60% of the houses (i.e. those with lead levels > 1000 mg kg^–1). After remediation, the model results indicate a relatively low community risk (0.5–1.9%), although the percentage of houses with lead risks above 5% ranged from 3 to as high as 13%, depending on the variation in blood lead and assuming the model's 7 g dl^–1 increase in blood lead with each 1000 mg kg^–1 increase in soil lead level. A comparison of the limited blood lead data with soil lead levels below 1000 mg kg^–1, however, indicated no apparent relationship. Given these uncertainties, less invasive actions than additional soil removal (e.g. exposure intervention, monitoring conditions, and follow-up as necessary) may be appropriate under the new EPA guidance for lead in soil.     

Evaluation of Public Housing Lead Risk Assessment Data

A unique data set from lead risk assessments performed on 67 public housing developments from across the United States was made available for analyzes. The data set includes results of lead analysis from 5906 dust wipes and from 1222 soil samples. A total of 487 dwelling units in these developments, as well as associated common areas, were sampled, all by the same team of inspectors. The number of dwelling units within a development that were sampled reflected the guidelines then in force, the 1990 Interim HUD Guidelines, rather than those specified in the 1995 Guidelines. Median dust lead loadings for floors, 151gm^–2 (14gft^–2), and window sills, 936gm^–2 (87gft^–2), were much less than former HUD limits of 1076gm^–2 (100gft^–2) and 5380gm^–2 (500gft^–2), respectively and are only about one-third of the recently established limits of 431gm^–2 (40gft^–2) and 2690gm^–2 (250gft^–2). In contrast, the median lead loading for window troughs, 8560gm^–2 (795gft^–2), was almost identical to the HUD clearance limit of 8610gm^–2 (800gft^–2). There was a strong positive correlation between floor and window trough lead loading values for samples from the same dwelling units and those from common areas of the housing developments. Door threshold samples, which may reflect conditions exterior to the dwelling unit, were collected from 53 dwelling units. Median lead loading levels of these samples were more than ten times higher than those in floor samples from the same dwelling units, were about the same as window sill samples and about one-half of levels in window trough samples. Composite sample results, simulated by averaging results from four samples within a dwelling unit, revealed that in order to have the same rate of excedence of standards, the composite standards would have to be reduced, for example, from the single sample value of 1076gm^–2 (100gft^–2) to 527gm^–2 (49gft^–2) for floor samples and from the single sample value of 8610gm^–2 (800gft^–2) to 5160gm^–2 (479gft^–2) for window troughs. For this public housing data set, the portion of the units in developments containing more than 225 units which exceeded the established limit for window samples was the same when using either the full data set or a random one-half of the data set. This suggests that, for this data set, the number of dwelling units sampled was excessive . Thus, the required increase in the number of dwelling units to be sampled specified in the 1995 Guidelines for developments with more than 225 dwelling units, may not have been necessary if this data set is representative of public housing developments in the United States.     

Environmental Impacts of a Secondary Lead Smelter in Landskrona, Southern Sweden

Scandinavia has one secondary lead smelter that recycles lead from approximately 85% of used car batteries in Scandinavia and which has been active since the 1940s. The smelter, situated in Landskrona, has undergone a comprehensive clean up programme during the last decade, during which time production has doubled, while at the same time discharges of dust and lead to the atmosphere have decreased.Top and depth soil samples were taken on a 0.5km×0.5Km grid throughout the city of Landskrona, which covers an area of approximately 15km². Samples were analysed by ICPAES for a number of elements including Pb, Zn, Cu, Cd, As, Sb and Hg. Road dust samples from selected sites were collected and similarly analysed. Blood samples were taken from 37 volunteer schoolchildren (aged 8–11) from two schools in Landskrona. House dust samples were taken from each child's home. Soil samples were taken from homes which had gardens, public and school play areas. Elevated heavy metal concentrations were found in close proximity to the secondary lead smelter, and this soil enrichment influences the whole of the town, modified to some extent by the prevailing wind. The smelter does not influence the soil lead concentration at distances greater than 3.5km, where the soil reflects the background value for the area.Road dust samples also show decreases in lead concentrations with distance from the smelter. The average level of lead in house dust was considerably lower than that found in Birmingham, UK. Blood lead levels in the child population ranged from 1.5–5.1gdl^–1, with a mean of 3.05gdl^–1, showing a distinct decrease from those measured in 1978–82. No significant difference in blood lead concentrations with distance of the home from the smelter, nor between attenders at the two schools was revealed in the limited number of children studied.     

Source of lead in humans from Broken Hill mining community

This paper documents the first precise lead isotope measurements for men, women and children from the same family in an attempt to determine the source of lead in their blood. The subjects reside in one of the world's largest lead mining cities, Broken Hill, NSW, Australia. Biological and environmental samples have been compared using isotopic compositions and lead contents. Adult males have isotopic profiles (or compositions) which appear to be related to their occupations. Adult females have low blood leads (<10 g dL^–1) and their main source of lead is not from the mine dumps around which the city is built but probably from a mixture of petrol, food and perhaps water. The blood lead contents in children from 1 to 14 years old vary and are partly dependent on age. There is a moderate correlation of blood lead and isotopic compositions (r = 0.73) indicating that a significant component of blood lead derives from the mine dumps in children with elevated blood leads. Some children with blood leads <20 g dL^–1, however, also have a dominant component of mine lead in their blood     

Human teeth as historical biomonitors of environmental and dietary lead: some lessons from isotopic studies of 19th and 20th century archival material

The lead isotopic composition of various sections (crown, crown base, root) of teeth was determined in specimens collected from 19th century skulls preserved in museum collections and, upon extraction or exfoliation, from humans of known ages residing in Scotland in the 1990s. For most 20th century samples, calculation of accurate crown-complete or root-complete dates of tooth formation ranging from the 1920s to the 1990s enabled comparison of ²⁰⁶Pb/²⁰⁷Pb ratios for teeth sections (crown base root) with corresponding decadally averaged data for archival herbarium Sphagnum moss samples. This showed that the teeth sections had been significantly influenced by incorporation of non-contemporaneous (more recent) lead subsequent to the time of tooth formation, most probably via continuous uptake by dentine. This finding confirmed that separation of enamel from dentine is necessary for the potential of teeth sections as historical biomonitors of environmental (and dietary) lead exposure at the time of tooth formation to be realised. Nevertheless, the mean 19th century value of 1.172±0.007 for the ²⁰⁶Pb/²⁰⁷Pb ratio in teeth was very similar to the corresponding mean value of 1.173±0.004 for 19th century archival moss, although relative contributions from environmental sources – whether direct, by inhalation/ingestion of dust contaminated by local lead smelting (²⁰⁶Pb/²⁰⁷Pb~1.17) and coal combustion (²⁰⁶Pb/²⁰⁷Pb~1.18) emissions, or indirect, through ingestion of similarly contaminated food – and drinking/cooking water contaminated by lead pipes of local origin, cannot readily be determined. In the 20th century, however, the much lower values of the ²⁰⁶Pb/²⁰⁷Pb ratio (range 1.100–1.166, mean 1.126±0.013, median 1.124) for the teeth collected from various age groups in the 1990s reflect the significant influence of imported Australian lead of lower ²⁰⁶Pb/²⁰⁷Pb ratio (~1.04) and released to the environment most notably through car-exhaust emissions arising from the use of alkyl lead additives (²⁰⁶Pb/²⁰⁷Pb~1.06–1.09) in petrol in the U.K. from ca. 1930 until the end of the 20th century.     

Changes in blood lead and water lead in Edinburgh. An eight year follow-up to the Edinburgh lead study

This study aimed to measure changes in household water lead and blood lead in young people living in Edinburgh over a period of 8 years. Two hundred and twenty-three families were eligible and 207 (93%) agreed to participate. A half-hour stagnation sample of kitchen cold water was taken from each household, and 171 young people (aged 14–17 years) provided a blood sample for lead analysis. Information on plumbing changes, exposure to other sources of lead and factors which might influence blood lead was collected by questionnaire. Edinburgh is supplied with water treated in one of two treatment plants. There was a different programme of water treatment in each plant. In one (A) lime and orthophosphate was introduced in the interval between the original and follow-up studies. In the other (F) lime treatment began before the original study and orthophosphate was introduced subsequently. In water from treatment plant A, mean water lead levels fell from 34 to 4.3 gL-1 (87%). In water supplied from treatment plant F the corresponding values were 9.3 to 3.6 gL-1 (61%). These reductions were due to both water treatment and removal of lead plumbing. Houses with no lead plumbing have water lead levels 89% lower than houses with lead tanks, and 47% lower than houses with lead pipes. About one-third of households with lead tanks are predicted to have water lead levels above the current EC limit of 50 gL- 1, though only 3% or less of the remaining households would exceed this limit. If the proposed 10 gL-1 limit were introduced, 34% of households supplied from plant A and 25% from plant F would breach the limit. Blood lead levels fell from an average of 11.0 gdL-1 to 4.0 gdL-1. Males had higher values than females and the main factors influencing levels were water lead and age of house. Our results show substantial reductions in household water lead and blood lead in our sample over a period of 8 years and represent an important achievement in public health. However, more progress will be required if the proposed new limit of 10 gL-1 for water lead is to be met. There is a need for the continuing surveillance of household water lead and blood lead levels in representative samples of the population.     

White blood cell sister chromatid exchange among a sample of Thai subjects exposed to lead: Lead-induced genotoxicity

Epidemiological and experimental studies indicated that inorganic lead compounds are associated with increased risks of tumorigenesis. This study was aimed at determination for sister chromatid exchange (SCE), a marker for genotoxicity with correlation to lead blood levels in Thai exposed subjects. A total of 32 police (all males) were included into this study. The average (mean ± SD) blood lead in these police was 2.1 ± 1 µmol L^?1. The average SCE among the police with high blood lead was significant higher than those with low metal exposure. Data suggest that cytogenetic response to Pb is significantly different between the subjects with high versus low lead exposure. High exposure to lead seems related to high chromosome aberrations.     

Lead content of plants and soils from three abandoned smelter areas in and near Socorro,New Mexico

Two primary lead smelters and one secondary lead smelter have been active in the Socorro, New Mexico (USA) area in the last 110 years: the Billing smelter from 1883 to 1894, the Cuba Road smelter from 1881 to 1900, and Cal West from 1979 to 1984. Samples of plants and surface soil under each plant from all three sites were analysed for lead. The plants consisted of sparse grasses, cacti, creosote bush, snakeweed, mesquite and fourwing saltbush. Lead levels in the plants increased (2-440 g g^–1) as the lead in the alkaline soils (25-10000 ng g^–1) increased. However, the BAC (biological absorption coefficient), which is the ratio of lead content in the plant to the lead content in the soil, a measure of relative accumulation, decreased by one to two orders of magnitude, except for grasses and snakeweed. At background lead levels, there was little difference between lead in rootsversus foliage. At high lead levels, there was higher lead in roots versus foliage at the Billing and Cuba Road sites. The reverse was noted at Cal West. Because this is a recent operation, the higher lead in foliage may be due to foliar uptake. Plant growth at all sites appeared healthy.