Vehicle-Induced Lead and Cadmium Contamination of Roadside Soil and Plants in Italy

Lead and cadmium concentrations in spontaneous vegetation and in soil sampled at various distances (0–208 m) from several motorways throughout Italy were measured. Lead and cadmium concentrations appear to be correlated to distance from the motorway and to traffic levels. A comparison with data from a remote and unpolluted site shows that foliar lead concentrations can be up to 40 times higher, and foliar cadmium concentrations up to 3 times higher. Plants behave differently in their accumulation of lead and cadmium; conifers present the highest levels. Also the various receptors and compartments of the roadside ecosystem differ in their accumulation of lead and cadmium; soil and bark have consistently higher concentrations, while the leaves and twigs of trees have consistently lower levels. the data recorded by ad hoc introduced bio-accumulating plants (Lolium multiflorum L.) are consistent with those of the spontaneous vegetation. the concentrations of both lead and cadmium in Lolium vary from June to November, following in part the fluctuation in traffic density.     

土壤中铅的植物可利用性化学调控研究

针对重庆市蔬菜重金属污染现状，选取Pb为研究对象，通过盆栽试验，探讨石灰、腐殖酸、硫化钠对污染土壤中Pb活性的影响及Pb在植物体内的积累效应。研究结果表明，石灰、腐殖酸、硫化钠均能降低Pb的植物可利用性。不同石灰用量均能明显抑制Pb向植物迁移；在石灰的各种加入量中，10．0g／kg的加入量对Pb的抑制效果最明显，莴笋中Pb质量分数下降了35．7％；在腐殖酸的各种加入量中，2．67g/kg的加入量对Pb的抑制效果最明显，植物中Pb质量分数下降了23．0％；在硫化钠的各种加入量中，0．47g/kg的加入量对Pb的抑制效果最明显，植物体内Pb质量分数降低了23．8％。各种添加剂均能使植物根部Pb的分配系数下降，而茎、叶Pb的分配系数上升。     

我国丹顶鹤自然保护区网络设计

针对原有丹顶鹤保护区规划缺乏系统设计思想,保护区面临严重的生境安全这一问题,根据维持生态系统地域完整性和生态过程完整性的原则,采用迭代法和整数规划2种方法,以高、中适宜性湿地面积占各自湿地类型总面积70%和60%为保护目标,研究了丹顶鹤自然保护区的网络设计,提出了丹顶鹤自然保护区网络的设计方案。     

铜尾矿复垦后土壤微生物活性及其群落功能多样性研究

对安徽铜陵五公里尾矿区三叶草复垦后的土壤微生物活性和群落的功能多样性研究表明,复垦后每克土壤微生物细菌数已达2.3×107个,并存在一定量耐Cu2 、Cd2 、Zn2 、Cr6 、Pb2 、Ni2 的菌株,但种类少,主要为芽孢杆菌属、假单胞菌属和短杆菌属。BIOLOG测试结果显示,铜镉重金属离子的复合污染使土壤微生物群落丰富度降低;外源耐铜镉微生物菌剂的添加使尾矿区土壤微生物群落代谢剖面(AWCD)变化明显,提高微生物对单一碳源底物的利用能力,增加利用不同碳底物的微生物数量,减轻了重金属污染引起的土壤微生物群落功能多样性的下降,为尾矿区生境加速恢复提供一条有效途径。     

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.     

蚯蚓在植物修复铜、镉污染土壤中的作用

以红壤和高砂土为供试土壤,分别加入3个浓度的重金属铜离子Cu2 (100,200,400 mg kg-1)或镉离子Cd2 (5,10,20 mg kg-1),每钵接种6条蚯蚓(Pheretimasp.),种植黑麦草(Lolium multiflorum),以不加蚯蚓为对照(CK),研究蚯蚓活动对Cu、Cd污染土壤中黑麦草生长及铜、镉生物有效性的影响.结果表明,添加蚯蚓显著提高了Cu2 、Cd2 污染的高砂土中黑麦草地上部分的生物量,增幅为33%~96%;仅增加了Cu2 污染浓度低于200 mg kg-1的红壤中黑麦草地上部分的生物量;添加蚯蚓显著增加了两种土壤中速效N的含量,促进了黑麦草地上部分对N的吸收,对速效P、K的含量以及黑麦草中P、K含量无显著影响;添加蚯蚓显著提高了红壤中铜(Cu)、镉(Cd)DTPA提取态的含量,对高砂土中DTPA提取态Cu、Cd的含量无显著影响;增加了高砂土中和添加Cu污染浓度低于200 mg kg-1的红壤中黑麦草地上部分吸收Cu的总量,而对黑麦草吸收Cd的量无显著影响.加入蚯蚓可以不同程度地改善植物修复技术应用中受制的两个主要因素.表4参30     

Elevated Levels of Cadmium and Zinc in Paddy Soils and Elevated Levels of Cadmium in Rice Grain Downstream of a Zinc Mineralized Area in Thailand: Implications for Public Health

Prolonged consumption of rice containing elevated cadmium (Cd) levels is a significant health issue particularly in subsistence communities that are dependent on rice produced on-farm. This situation is further exacerbated in areas of known non-ferrous mineralization adjacent to rice-based agricultural systems where the opportunity for contamination of rice and its eventual entry into the food chain is high. In the current study, an assessment of the degree of soil Cd and Zn contamination and associated rice grain Cd contamination downstream of an actively mined zone of Zn mineralization in western Thailand was undertaken. Total soil Cd and Zn concentrations in the rice-based agricultural system investigated ranged from 0.5 to 284 mg kg⁻¹ and 100 to 8036 mg kg⁻¹, respectively. Further, the results indicate that the contamination is associated with suspended sediment transported to fields via the irrigation supply. Consequently, the spatial distribution of Cd and Zn is directly related to a field’s proximity to primary outlets from in-field irrigation channels and inter-field irrigation flows with 60–100% of the Cd and Zn loading associated with the first three fields in irrigation sequence. Rice grain Cd concentrations in the 524 fields sampled, ranged from 0.05 to 7.7 mg kg⁻¹. Over 90% of the rice grain samples collected contained Cd at concentrations exceeding the Codex Committee on Food Additives and Contaminants (CCFAC) draft Maximum Permissible Level for rice grain of 0.2 mg Cd kg⁻¹. In addition, as a function of demographic group, estimated Weekly Intake (WI) values ranged from 20 to 82 μg Cd per kg Body. This poses a significant public health risk to local communities. The results of this study suggest that an irrigation sequence-based field classification technique in combination with strategic soil and rice grain sampling and the estimation of WI values via rice intake alone may be a useful decision support tool to rapidly evaluate potential public health risks in irrigated rice-based agricultural systems receiving Cd contaminated irrigation water. In addition, the proposed technique will facilitate the cost effective strategic targeting of detailed epidemiological studies thus focusing resources to specific ‘high risk’ areas.     

印度芥菜对土壤中难溶态镉、铅的吸收差异

通过根际袋法土培盆栽试验,研究了印度芥菜对石灰性土壤中难溶态Cd、Pb的吸收差异。试验结果表明,印度芥菜能吸收石灰性土壤中的难溶态Cd、Pb并对其有较高的忍耐性。印度芥菜吸收的Cd 70%以上累积在地上部而吸收的Pb 83%以上累积在根系;印度芥菜根际土壤中的DTPA提取态Cd显著高于非根际土壤,但根际与非根际土壤中的DTPA提取的Pb含量差异不显著。本试验条件下,印度芥菜对土壤Cd的净化率为0.83%~1.25%,对土壤Pb的净化率则只有0.04%~0.07%。     

Comparative adsorption of Pb(II) and Cd(II) ions on chestnut shell in aqueous system

In this study, high capacity Chestnut shell, a waste product from the chestnut sugar production industry, was successfully applied to remove Pb (II) and Cd (II) ions from aqueous solutions. Maximum adsorption capacities were found as 541.25?mg/g and 75.86?mg/g for Pb(II), and Cd(II) respectively. Several important parameters influencing the adsorption of Pb(II) and Cd(II) ions such as contact time, pH, temperature and effect of metal concentration were investigated systematically by batch experiments. Langmuir and Freundlich adsorption models were used to describe adsorption isotherms and constants. The thermodynamic parameters, such as standard free energy (ΔG°), standard enthalpy (ΔH°), and standard entropy (ΔS°), of the adsorption process were calculated. The adsorbents were characterised by scanning electron microscopy. It has been observed from the experimental results that in case of both Cd (II) and Pb (II), pseudo 2nd order kinetic model. From the results, Chestnut Shell are considered as an effective, low cost and environmental friendly adsorbent for the removal of Pb (II) and Cd (II) from wastewater.     

Cadmium and lead bioaccumulation in male chickens for high food concentrations

Cadmium and lead bioaccumulation in broilers fed on rations containing high concentrations of Cd and Pb was studied. The degree of bioaccumulation was assessed by using klark of concentration (Kc). It was established that the 100 and 200 fold increase of lead and cadmium in the ration resulted in their increase in the muscles, the bones and the liver, but the degree of bioaccumulation was considerably lower than the increase of both of the heavy elements in the ration indicated by the lower Kc. A conclusion was drawn that the organism possesses adaptation mechanisms for limitation of cadmium and lead bioaccumulation through these mechanisms are not efficient enough for high ration doses of both elements. High ration doses resulted in bioaccumulation exceeding the safe for humans concentrations of lead in the bones and of cadmium in the muscles (for doses 200 fold higher than the highest Bulgarian State standard 13426–77 permissible concentrations /HPC/) and in the liver for doses 100 fold higher than HPC.     

不同类型土壤镉含量对香芋镉吸收的影响

为探明香芋(Colocasia esculenta)镉(Cd)超标的关键原因,在湖南临武香芋主产区分别选择紫色页岩和第四纪红壤发育的Cd污染水稻土,研究土壤Cd含量、Cd活性及土壤基本理化性质对香芋Cd吸收的影响,以期为香芋的安全种植提供技术支撑。结果表明,两个试验点所有香芋Cd质量分数皆超过食品安全国家标准(0.1 mg·kg^-1),且各试验点内田块间土壤Cd含量、pH差异显著,而土壤有机质和阳离子交换量变异较小;紫色页岩发育的中碱性水稻土壤Cd活性、Cd在土壤-香芋系统中的转移系数(TFstem/taro、TFtaro/soil)皆低于第四纪红壤发育的酸性水稻土;紫色页岩发育的中碱性水稻土中,香芋Cd含量主要受土壤全Cd、TFtaro/soil的正调控;而第四纪红壤发育的酸性水稻土壤中,香芋Cd含量既受土壤全Cd、DTPA-Cd、TFtaro/soil的正调控,还受土壤pH的负调控。为实现香芋的安全生产,紫色页岩发育的中碱性水稻土中,应优先选择Cd吸收能力较低的香芋品种,或选择土壤全Cd低于0.65 mg·kg^-1的土壤进行种植;而在第四纪红壤发育的酸性水稻土壤中,则可优先选择Cd吸收能力较低的香芋品种,或选择土壤全Cd含量低于0.41 mg·kg^-1的土壤,或调理土壤pH至6.26以上,以及钝化土壤DTPA-Cd至0.19 mg·kg^-1以下的技术措施,抑制土壤Cd向香芋的迁移转运。     

Lead and cadmium bioaccumulation in fowl eggs depending on different food concentrations

Cadmium and lead bioaccumulation in eggs from four groups of laying hens was studied. The birds were fed on foods containing different quantities of cadmium and lead, exceeding the official technological standards for three of the groups. Bioaccumulation was studied using two criteria: coefficient of biological intake (CBI), which is the ratio between the concentration of the chemical element in a unit of dry biomass and its fodder concentration, and Klarck of concentration /Kc/ ‐ a dynamic value which includes both the fodder and water concentrations of the elements needed for acquiring a unit of biomass. For the high cadmium and lead concentrations, dissipation of the studied elements in the egg mass was established with lower values of both CBI and Kc.     

Arsenic, Cadmium, Lead, and Mercury in surface soils, Pueblo, Colorado: implications for population health risk

Decades of intensive industrial and agricultural practices as well as rapid urbanization have left communities like Pueblo, Colorado facing potential health threats from pollution of its soils, air, water and food supply. To address such concerns about environmental contamination, we conducted an urban geochemical study of the city of Pueblo to offer insights into the potential chemical hazards in soil and inform priorities for future health studies and population interventions aimed at reducing exposures to inorganic substances. The current study characterizes the environmental landscape of Pueblo in terms of heavy metals, and relates this to population distributions. Soil was sampled within the city along transects and analyzed for arsenic (As), cadmium (Cd), mercury (Hg) and lead (Pb). We also profiled Pueblo’s communities in terms of their socioeconomic status and demographics. ArcGIS 9.0 was used to perform exploratory spatial data analysis and generate community profiles and prediction maps. The topsoil in Pueblo contains more As, Cd, Hg and Pb than national soil averages, although average Hg content in Pueblo was within reported baseline ranges. The highest levels of As concentrations ranged between 56.6 and 66.5 ppm. Lead concentrations exceeded 300 ppm in several of Pueblo’s residential communities. Elevated levels of lead are concentrated in low-income Hispanic and African-American communities. Areas of excessively high Cd concentration exist around Pueblo, including low income and minority communities, raising additional health and environmental justice concerns. Although the distribution patterns vary by element and may reflect both industrial and non-industrial sources, the study confirms that there is environmental contamination around Pueblo and underscores the need for a comprehensive public health approach to address environmental threats in urban communities.     

施用石灰对Pb、Cd、Zn在土壤中的形态及大白菜中累积的影响

重金属的不同形态对于作物吸收重金属及受害具有十分密切的关系,通过施用石灰改变重金属的形态、毒性以及对作物的影响具有重要的意义。以大白菜(Brassica pekinensis)为研究对象,通过盆栽试验,探讨了在铅、镉和锌污染土壤上,施用石灰对土壤中不同形态镉、铅和锌含量及在大白菜中累积的影响。结果表明,施用石灰后,土壤中碳酸盐结合态Pb、Cd和Zn含量明显减少,铁、锰氧化物结合态和有机物结合态Pb、Cd和Zn含量明显增加;对大白菜吸收Pb、Cd和Zn均起到较好的抑制作用,石灰用量为5g·kg-1土时,对大白菜吸收Pb、Cd和Zn的抑制效果最好。     

不同玉米品种对重金属铅镉的富集和转运能力

通过土培试验研究了10个来自不同产地的玉米(Zea mays)品种对重金属铅和镉的累积特性。结果表明,重金属铅(400 mg·kg-1)和镉(10 mg·kg-1)复合胁迫条件下,玉米不同生育期累积铅的能力从大到小依次为成熟期、拔节期和苗期,累积镉的能力从大到小依次为苗期、拔节期和成熟期。玉米各部位铅镉吸收量从大到小依次为根、茎、叶和籽粒。供试的10个玉米品种中籽粒铅含量均超过GB 2715—2005《粮食卫生标准》中的规定(≤0.2 mg·kg-1),广甜3号、国审浚79-5、兴黄单892、晋单51和北科4号籽粒镉含量符合GB 2715—2005中的卫生标准(≤0.1 mg·kg-1)。其中,广甜3号对镉的累积量最小,可以在中、轻度污染土壤上推广种植。     

海带对镉、铅的吸附作用及其机理

利用大型海藻海带(Laminariajaponica)作为可降解性生物吸附材料,对有害重金属镉离子和铅离子的吸附作用和机理进行了研究.结果显示,通过电位差滴定法,得到海带的酸性基数量为1.25mmol·g-1,其解离常数为0.18mmol·l-1.对平衡吸附量与pH的关系进行了模型模拟.海带对于金属离子的吸附为Bidentate型,吸附平衡常数分别为5.72×103L·mol-1,6.28×104L·mol-1.同时,采用拟二次速度模型对镉离子和铅离子的吸附速度进行了模拟,得到的吸附速度常数分别为0.010min-1,0.014min-1.结论,海带对二价镉、铝离子的吸附量大于很多其它藻类吸附剂,对它的研究可为重金属化湖泊水质的改善和生态修复提供参考依据.     

Lead Contamination of Topsoil and Vegetation in the Vicinity of a Battery Factory in Nigeria

Levels of Pb, Zn, Cu, Cr, Ni and Cd were determined in topsoil and vegetation in the vicinity of a factory manufacturing lead- batteries in Ibadan, Nigeria. The samples were collected along five transects in different directions, and varying distances up to 1000m from the factory. Soil lead levels were found to be elevated around the factory, with average levels of about 2000mgkg^–1 close to the fence that declined gradually to about 50mgkg^–1 some 750m away. Soil-lead level around a primary school located about 500m from the factory was as high as 1450mgkg^–1. Lead levels were equally elevated in the vegetation, though average levels in vegetation were slightly lower than in the soil. Cadmium concentrations in soil and vegetation, though low, were more positively correlated with lead levels than any of the other metals are with lead.     

富含Cd、Pb植物焚烧处理方法的探讨

植物修复技术在重金属污染土壤修复领域有着良好的应用前景，而焚烧被认为是针对收获植物的一种有效后处理手段。采用富含Cd、Pb的野生植物铁芒萁(Dicranopteris pedata)，在450、650、850℃不同温度下进行了焚烧模拟试验，对焚烧过程中的灰分、Cd及Pb残留量的变化情况进行了探讨。结果表明，铁芒萁的灰分残留量可以降到10％以下，Cd、Pb在灰化过程中均有很大损失，直接利用底灰来进行Cd、Pb的冶炼回收不可行，烟气中的Cd、Pb可能产生二次污染，应采取措施加以防治。     

Eiseniella tetraedra (Savigny, 1826) (Oligochaeta: Lumbricidae) as a bioindicator of heavy metals

The objective of this study was to assess the potential of the earthworm Eiseniella tetraedra (Savigny, 1826) as a bioindicator for cadmium (Cd) and lead (Pb) exposure. The importance of earthworms in metal pollution monitoring is widely recognized in terrestrial ecosystems. In this study, the levels of Cd and Pb in soils and earthworm tissues were studied at two locations, Polur Falls and a riverside area located in Abali, in the Elburz Mountains in Iran. At both locations the concentration of Cd and Pb in earthworms was higher than in the surrounding soils and a significant difference was found between the two stations, the latter probably attributable to the (1) amount of pesticides that are used for crop treatment in Abali and (2) presence there of clay, which is known to be rich in Cd. Data indicate that E. tetraedra is an efficient bioaccumulator of Cd and Pb and might act thus serve as a bioindicator of exposure.     

The acidobasic and complexation properties of Humic acids

Complexation of Humic Acids (HA) of different origin, like Fluka, and especially those extracted from bohemian brown coal, with cadmium(II) and lead(II) was studied at pH 5.0 using differential pulse anodic stripping voltammetry. Conditions close to those present in the environment were chosen with 3‐ 10^‐4 moll^‐4 for HAs and 2. 10^‐8‐l . 10^‐5 moll^‐1 for Cd(II) and Pb(II). Stability constants evaluation was done assuming the electrode process is diffusion controlled and the complexes are labile. Obtained log K values were in the range 4.49–5.25 for Cd(II) and as expected the higher log K values 6.05–6.60 were found for Pb(II). There was no significant difference between complexation properties of HA extracted from bohemian brown coal and that of Fluka. The results obtained are in good agreement with the literature and those obtained by ISE in our laboratory.