水稻土中重金属元素Cd、Pb的竞争吸附 ——以长株潭地区水稻土为例

对中国南方的3个水稻土样品进行了Cd、Pb单一离子和混合离子吸附特点的研究。结果表明,3个水稻土样品中Cd、Pb的吸附特点都相似,Langmuir等温方程可很好地描述Cd、Pb的吸附等温线。3个土壤样品中,有较高pH值和较低有机物、CEC浓度、粘土含量、高岭石含量的2个土壤样品对Cd、Pb有较大的吸附量,且其等温吸附拟合的最大吸附量(B)也较大。在两组分混合溶液中,尽管共存离子的存在影响了土壤对单一离子的吸附,同时土壤对Cd的吸附在一定程度上受影响的程度大,但3个土壤样品都表现出对Pb有强的吸附能力。在3个土壤样品中,Langmuir等温方程中Pb的健合能常数(K)都大于Cd的健合能常数(K),混合溶液中的K值高于单一溶液的K值,表明2种金属离子对吸附位点的竞争提高了特定吸附位点的保持力,使金属离子在土壤中特定位点的吸附更加坚固。     

水稻土中重金属元素Cd、Pb的竞争吸附——以长株潭地区水稻土为例

对中国南方的3个水稻土样品进行了Cd、Pb单一离子和混合离子吸附特点的研究。结果表明,3个水稻土样品中Cd、Pb的吸附特点都相似,Langmuir等温方程可很好地描述Cd、Pb的吸附等温线。3个土壤样品中,有较高pH值和较低有机物、CEC浓度、粘土含量、高岭石含量的2个土壤样品对Cd、Pb有较大的吸附量,且其等温吸附拟合的最大吸附量(B)也较大。在两组分混合溶液中,尽管共存离子的存在影响了土壤对单一离子的吸附,同时土壤对Cd的吸附在一定程度上受影响的程度大,但3个土壤样品都表现出对Pb有强的吸附能力。在3个土壤样品中,Langmuir等温方程中Pb的健合能常数(K)都大于Cd的健合能常数(K),混合溶液中的K值高于单一溶液的K值,表明2种金属离子对吸附位点的竞争提高了特定吸附位点的保持力,使金属离子在土壤中特定位点的吸附更加坚固。     

内蒙古包头某铁矿尾矿库生态修复的植物优选研究

【研究目的】植物修复技术因其具有绿色、经济、环保的特点,在矿山生态修复中应用广泛,而调查和筛选矿山周边适应本地生境的植物物种是进行植物生态修复的关键环节。【研究方法】通过野外调查取样和室内分析测试相结合的方法,对内蒙古包头某废弃铁矿尾矿库及周边11种优势植物的重金属含量、重金属迁移富集能力及其上覆土壤重金属特征进行分析研究,以期筛选优良修复植物,为矿区生态修复提供科学依据。【研究结果】该废弃铁矿尾矿库及周边土壤Fe、Mn、Cu、Pb、Zn、Cr、Cd、F含量均远超过河套平原土壤背景值,地累积指数显示污染等级为2～7级,污染程度从轻—中度污染到极强度污染。植物地下部分各元素含量总体上高于地上部分,除Cu外各植物重金属含量大多超出了正常值范围。【结论】沙蒿和独行菜具有富集型植物特征,玉米、狗尾草、虎尾草和拂子茅属于根部囤积型,碱蓬、灰条菜、苍耳、新疆杨和红柳符合规避型植物特征。可根据植物对重金属的吸收和富集特点,科学合理地选择适宜的植物进行矿区受污染土壤植物修复。创新点：研究了废弃铁尾矿库及周边11种优势植物的重金属特征;揭示了优势植物对重金属的吸收机制。     

Hyperaccumulation of lead,zinc, and cadmium in plants growing on a lead/zinc outcrop in Yunnan Province,China

A field survey was conducted to identify potential hyperaccumulators of Pb, Zn or Cd in the Beichang Pb/Zn mine outcrop in Yunnan Province, China. The average total concentrations of Pb, Zn, and Cd in the soils were up to 28,438, 5,109, and 52 mg kg⁻¹, respectively. A total of 68 plant species belonging to 60 genera of 37 families naturally colonizing the outcrop were recorded. According to metal accumulation in the plants and translocation factor (TF), Silene viscidula was identified as potential hyperaccumulator of Pb, Zn, and Cd with mean shoot concentrations of 3,938 mg kg⁻¹ of Pb (TF = 1.2), 11,155 mg kg⁻¹ of Zn (TF = 1.8) and 236 mg kg⁻¹ of Cd (TF = 1.1), respectively; S. gracilicanlis (Pb 3,617 mg kg⁻¹, TF = 1.2) and Onosma paniculatum (Pb 1,837 mg kg⁻¹, TF = 1.9) were potential Pb hyperaccumulators. Potentilla griffithii (Zn 8,748 mg kg⁻¹, TF = 1.5) and Gentiana sp. (Zn 19,710 mg kg⁻¹, TF = 2.7) were potential Zn hyperaccumulators. Lysimachia deltoides (Cd 212 mg kg⁻¹, TF = 3.2) was a potential Cd hyperaccumulator. These new plant resources could be used to explore the mechanisms of Pb, Zn and/or Cd hyperaccumulation, and the findings could be applied for the phytoremediation of Pb, Zn and/or Cd-contaminated soils.     

长江三峡库区土壤与水系沉积物Cd地球化学特征

对长江三峡库区段不同介质中Cd的分布特征和长江水系沉积物在垂向、横向剖面上的元素分布特征的研究发现，残坡积型土壤与长江干流水系沉积物Cd含量差异较大，水系沉积物具明显的高Cd异常；各个沉积时期的水系沉积物中均存在Cd异常，上游来源的Cd是引起三峡库区水系沉积物高Cd异常的主要因素；人类活动对土壤和水系沉积物中Cd的含量影响明显，在厂矿、码头、生活垃圾场等地区土壤中Cd的含量远高于一般地区土壤中Cd的含量，城市排污水系沉积物Cd的含量也高于长江干流水系沉积物Cd的含量。自然源是沿长江流域Cd异常普遍存在的根本原因，而人为源却有可能是高Cd异常主要沿长江干流及支流两岸大中城市分布的重要影响因素。     

Environmental aspects of selected trace metals in soils and waters surrounding Singaran Nala, Raniganj Coalfield

The Raniganj Coalfield is the oldest coalfield in India that has been continuously and extensively mined since the late eighteenth century. The present study reports a geochemical investigation and environmental quality assessment using soil and water in the area surrounding a stream, locally known as Singaran Nala （Nala means storm water drains in Bengali）, in the Raniganj Coalfield. Soil （top soil, mud, silty clay and laterite） and rock samples （sandstone and shale） were collected from the study area and were analyzed for trace metals （Cr, Cu, Fe, Mn, Ni and Zn）. Surface waters from the stream and the Damodar River as well as ground waters from hand pumps and underground mine pits were collected. Water samples were analyzed for major ions （Na^＋, Ca^2＋, Mg^2＋, Cl^-, HNO3^- and SO4^2-） and trace metals （Cu, Fe, Mn, Ni, and Zn）. Trace metal concentrations in soil samples are found higher than the average world soil composition. Nevertheless, trace metal （Cr, Cu, Ni and Zn） concentrations in soils exceed or reach the maximum allowable concentrations （MAC） proposed by the European Commission for agricultural soils. In particular, Ni concentrations exceed the typical value for cultivated soils. Chromium, Cu and Ni concentrations in laterite and Cr concentration in topsoil exceed the ecotoxicological limit.     

Ultrasonically enhanced electrokinetic remediation for removal of Pb and phenanthrene in contaminated soils

Electrokinetic and ultrasonic remediation technologies were studied for the removal of heavy metal and polycyclic aromatic hydrocarbon (PAH) in contaminated soils. The study emphasized the coupled effects of electrokinetic and ultrasonic techniques on migration as well as clean-up of contaminants in soils. The laboratory soil flushing tests combined electrokinetic and ultrasonic technique were conducted using specially designed and fabricated devices to determine the effect of both techniques. The electrokinetic technique was applied to remove mainly the heavy metal and the ultrasonic technique was applied to remove mainly organic substance in contaminated soil. A series of laboratory experiments involving electrokinetic and electrokinetic and ultrasonic flushing tests were carried out. Natural clay was used as a test specimen and Pb and phenanthrene were used as contaminants. An increase in out flow, permeability and contaminant removal rate was observed in electrokinetic and ultrasonic tests. Some practical implications of these results are discussed in terms of technical feasibility of in situ implementation of electrokinetic ultrasonic remediation technique.     

Study on the background level of selenium in soils and its sources,Guizhou Province

The contents of selenium in soil samples from Guizhou Province, which cover an area of 17.6×104 km^2, have been determined. The arithmetic mean value of 947 samples is 0.39 mg/kg, the medium value is 0.30 mg/kg and the contents of selenium vary from 0.06 to 1.29 mg/kg in soils developed on the basement rocks, which are controlled by the basement rocks themselves.     

A study on the distribution characteristics and existing states of cadmium in the Jinding Pb-Zn deposit,Yunnan Province,China

The distribution characteristics and existing state of cadmium in the Jinding Pb-Zn deposit were studied. It was discovered that Cd was mainly distributed in sphalerite as an isomorphic impurity. There was a good correla-tion between Cd and Zn in the primary ore. With the oxidation and resolution of pyrite, sphalerite, sulfide, and etc., many secondary minerals, such as colloform sphalerite and smithsonite, were formed. The distribution of Cd is not symmetrical, and enrichment and dilution were observed in partial area of the oxidation zone in the deposit. Cd, except in external pore space or cracks of secondary minerals as independent minerals, such as greenockite, was mainly distributed in sphalerite as an isomorphic impurity in the secondary sphalerate and smithsonite in the oxida-tion zone. The research showed that Cd showed a very strong active transfer ability in the oxidation process, not only indicating that supergene leaching might be the main reason for Cd enrichment in some Pb-Zn deposits, but also reflecting that Cd was easily mobilizeed and transferred to pollute ore areas in the oxidation process. Furthermore, Cd in oxidation ore was more easily mobilized and transferred to induce bad hazards for ore areas with the effect from AMD which was produced from oxidation of sulfides.     

Selective chemical extraction of heavy metals in tailings and soils contaminated by mining activity: Environmental implications

Total concentrations of chemical elements in soils may not be enough to understand the mobility and bioavailability of the elements. It is important to characterise the degree of association of chemical elements in different physical and chemical phases of soil. Another geochemical characterisation methodology is to apply sequential selective chemical extraction techniques. A seven-step sequential extraction procedure was used to investigate the mobility and retention behaviour of Al, Fe, Mn, Cu, Zn, Pb, Cr, Co, Ni, Mo, Cd, Bi, Sn, W, Ag, As and U in specific physical–chemical and mineral phases in mine tailings and soils in the surroundings of the abandoned Ervedosa mine. The soil geochemical data show anomalies associated with mineralised veins or influenced by mining. Beyond the tailings, the highest recorded concentrations for most elements are in soils situated in mineralised areas or under the influence of tailings. The application of principal components analysis allowed recognition of (a) element associations according to their geochemical behaviour and (b) distinction between samples representing local geochemical background and samples representing contamination. Some metal cations (Mn, Cd, Cu, Zn, Co, Cr, Ni) showed important enrichment in the most mobilisable and bioavailable (i.e., water-soluble and exchangeable) fractions due likely to the acidic conditions in the area. In contrast, oxy-anions such as Mo and As showed lower mobility because of adsorption to Fe oxy-hydroxides. The residual fraction comprised largest proportions of Sn and Al and to a lesser extent Zn, Pb, Ni, Cr, Bi, W, and Ag, which are also present at low concentrations in the bioavailable fractions. The elements in secondary mineral phases (mainly Fe, Mn, Cu, Zn, Cd, Pb, W, Bi, Mo, Cr, Ni, Co, As and U) as well as in organic matter and sulphides are temporarily withheld, suggesting that they may be released to the environment by changes in physico-chemical conditions.     

基于镉污染风险的湖南省龙山县百合种植区安全区划

湖南省龙山县作为我国重要的百合生产基地县之一,其土壤却存在一定程度的镉(Cd)污染风险。同时,百合作为一种食药同源的植物,其食用和药用的质量安全标准不一致。因此,在龙山县提出百合种植区安全区划具有重要意义。笔者等在龙山县耕地采集326件表层土壤样品和70件百合样品(配套根系土样),在分析土壤及百合中Cd的含量和土壤中氧化物、有机质、pH等指标的基础上,探讨Cd生物有效性的影响因素,并据此建立百合Cd生物富集系数预测模型,结合土地质量地球化学调查数据预测耕地的百合Cd含量,给出百合种植区安全区划及建议。结果表明,研究区土壤存在Cd污染风险,百合具有质量安全问题。研究区Cd的生物有效性受到土壤CaO、S、P、K₂O含量和土壤pH的共同影响。与多元线性回归模型相比,随机森林模型能够更好地预测百合Cd生物富集系数。百合种植区安全区划显示,研究区食用百合优先种植区、药用百合优先种植区、药用百合次级种植区、结构调整种植区面积占比分别为1.49%、92.71%、2.88%、2.92%,建议大力开发药用百合农产品。该研究成果将Cd污染风险耕地的安全利用与食药同源农产品的质量安全有...     

土壤中铅铜锌镉的吸附特性

以徐州王庄矿（WZK）、奎河（KH）、背景-1（BG-1）和背景-2（BG-2）等4个土壤样品为供试对象，加入不同浓度梯度的铅、铜、锌、镉离子，通过静态实验研究了铅、铜、锌、镉的吸附特性。结果表明，土壤对4个重金属的吸附量与加入到土壤中的重金属离子浓度呈正相关性，它们之间大部分满足线性相关关系。在4个土壤样品中加入铅、铜、锌、镉离子的初始浓度比为10：10：10：1时，平衡浓度为Czn〉Ccu〉CPh〉Ccd，吸附量为Scd〉SPh〉Scu〉Szn，4个土壤样品对铅、铜、锌、镉离子的吸附能力依次为WZK〉KH〉BG-2〉BG-1。在所选实验条件下，土壤对铅、铜、锌、镉的吸附能力受土壤中铅、铜、锌、镉的含量、土壤有机质含量、阳离子交换量、土壤饱和含水量和土壤的pH值影响较大。     

3.50Ma BP以来河北衡水地区古植被与环境演化

依据河北衡水南张庄600 m深HS1钻孔中529块岩心样品的孢粉分析,结合古地磁、光释光测试建立的年代地层格架,初步建立了河北平原中部衡水地区3.50 Ma BP以来孢粉组合的更迭序列。在3.50~2.58 Ma BP期间,研究区沉积环境稳定,主要是极浅水泛滥平原与浅湖相沉积,孢粉不丰富,孢粉组合结构简单,反映降水、气温等变化幅度小,气候由温暖湿润逐渐过渡到冷干;2.58~0.78 Ma BP期间,植被出现频繁波动,我国东部古季风气候格局已经基本形成,表现出气候频繁变化的不稳定性,具有早期温和偏干、中期温暖湿润、晚期温凉偏干的气候演化特征;780~15 ka BP期间,孢粉带组成成分较为丰富且复杂,在不同时期乔木植物与草本-灌木植物互为消长、相互更迭,反映气候变化幅度大、频率高的特点;15 ka BP至今,气候总体表现为干,其波动频率较快,植被属森林和草原兼而有之的类型。     

安徽省宣州区土壤重金属污染风险评估及来源分析

利用1∶25万土地质量地球化学调查数据,对安徽省宣州区土壤重金属污染风险进行评估,并开展土壤重金属来源解析。结果表明:研究区土壤重金属污染风险总体较低,低污染风险的土壤占74.64％;污染风险可控的土壤占25.04％,主要影响指标为Cd、 As以及 Cu、Hg、Pb、Zn;污染风险较高的土壤占0.32％,主要影响指标为Cd。重金属形态分析结果显示:土壤Cd、Pb生态风险高于As、Hg,其中As、Hg残渣态占比最高,Cd离子交换态占比最高,Pb残渣态和铁锰氧化物结合态占比较高。通过表层土壤、深层土壤元素含量相关性分析,推断区内土壤重金属主要来源于成土母质,局部地区土壤(Hg、Cd、Cu、Zn、As、Pb等高含量)主要受矿山开采、畜牧业养殖等人为活动影响。     

承德市富硒土壤区镉的地球化学特征及生态风险评价

硒是人体必需的生命元素,开发富硒农产品是提升人体硒摄入的安全有效途径,富硒土地资源是开发富硒农产品的基础。然而,近年来全国开展的多目标地球化学调查发现,富硒土壤中重金属元素镉通常较高,不利于富硒土地开发利用,因此,研究富硒土壤区镉的地球化学特征和生态风险状况对于富硒土地开发具有重要的指导意义。文章对承德市富硒土壤区表层土壤中主要的重金属元素镉的地球化学特征及生态风险进行评价,旨在为承德市富硒土地开发利用提供科学依据。采用“七步提取法”研究了表层土壤镉的形态特征。同时,配套分析了苹果、玉米样品中的重金属元素镉的含量,以了解其生物有效性。结果显示：承德市富硒土壤区表层土壤镉在全区均较富集,在新积土和中性粗骨土、水田中显著富集。研究区圈定了4处镉轻度污染土壤,均在表层土壤镉的高值区。表层土壤镉形态平均含量大小顺序为：水溶态 < 离子交换态 < 强有机结合态 < 腐殖酸结合态 < 铁锰氧化物结合态 < 碳酸盐结合态 < 残渣态,生态风险相对较低。表层土壤镉未对苹果和玉米样品产生影响,苹果和玉米中镉均不超标。承德市富硒土壤区表层土壤镉的生态风险较低,暂不影响承德市富硒土地开发利用。     

铅锌矿山开发导致的重金属在环境介质中的积累

以连续提取法和相关性分析研究了土法冶炼锌、铅锌和矿山开采导致的重金属在废渣及环境介质土壤、溪流沉积物中的积累，并分析了其环境危害性。结果显示，贵州赫章土法炼锌导致的重金属Pb、Zn、Cd在环境介质中的积累相当高。水城杉树林铅锌矿山开采引起的重金属积累则相对较低，但也明显高于背景值；土壤和沉积物中的铁矿物对重金属有强烈的固定作用。除残渣态外，Pb、Zn在土壤、炼锌废渣中主要呈铁锰氧化物结合态，沉积物中则为碳酸盐结合态。可交换态Pb、Zn含量变异较大，但在炼锌废渣、土壤中含量明显高于河流沉积物，暗示铅锌矿开发对土壤环境的潜在危害更大。     

贫Cd碳酸盐岩发育土壤Cd的富集与超常富集现象——以贵州岩溶区为例

通过对贵州岩溶区19条风化剖面Cd分布特征的研究, 初步揭示了贫Cd碳酸盐岩发育的土壤中Cd的富集机制及Cd含量的约束因素。①贫Cd基岩发育的土壤同样可以导致Cd的明显富集, 甚至超常富集, 且含量峰值通常位于土壤层底部(T1)。②Cd在基岩中通常优先赋存在酸不溶相, 另一方面, 由于基岩酸不溶物含量一般极低, 酸溶相的Cd占全岩Cd的比例仍处于绝对优势。在富Cd的基岩酸不溶物基础上, 叠加了来自酸溶相中Cd的贡献, 是岩溶区土壤Cd普遍富集的原因。③土壤中Cd的含量与其在基岩或基岩酸不溶物中的含量均不相关。T1中Cd的含量受制于Cd在基岩酸不溶物中的含量、基岩酸溶相Cd占全岩中Cd的质量百分数、T1中Cd的亏损率的共同约束。有利于Cd在T1中超常富集的最佳条件是: Cd在基岩酸不溶物中含量高、基岩酸溶相Cd占全岩中Cd的比例大、T1中Cd的亏损率小。另外, 对于由基岩酸不溶物残余累积形成的土壤层, T1为其发育起点, Cd在T1中含量高, 通常在土壤层中也高, 反映出一般风化剖面的发育特征。研究结果可以深化对岩溶环境Cd地球化学行为的认识, 为区域上基于地质成因开展Cd污染风险评价及建立其清洁水平提供参考。     

浙江临安东部地区土壤硒分布特征及影响因素

对浙江临安东部地区表层土壤进行地质调查,发现了大面积富硒土壤,并总结了表层土壤硒的分布特征及影响因素.研究区表层土壤硒含量平均值为0.38×10-6;不同土壤类型硒含量差异较大,其中黄壤硒含量最高,平均值为0.58×10-6.概率累积曲线表明,土壤硒主要来源于自然背景,受外源输入组分影响较小.土壤硒含量与V、Mo、Ni、Cr含量呈显著正相关,与有机质关系密切,与pH值相关性较好.荷塘组碳质页岩、硅质岩和宁国组碳质页岩是该区富硒土壤的主要来源.     

川东北地区水稻镉积累与生态健康风险评价

【研究目的】重金属镉主要通过“土壤-植物”系统进入食物链进而影响人体健康,开展农作物镉积累研究对保障人类健康安全具有重要意义。【研究方法】系统采集了四川省东北部南充市、巴中市、广安市等地的土壤及水稻样品,采用ICP-MS方法检测了土壤和水稻中的镉含量,并运用CART决策树和相关系数法进行了数据分析。【研究结果】结果显示,川东北地区表层土壤镉含量相对较低,为0.071~0.92 mg/kg,平均0.254 mg/kg,几乎所有（99.9%）样品镉含量都低于标准限值;水稻（糙米）镉含量差异性较大,为0.002~0.803 mg/kg,平均0.076 mg/kg,超标率达14.0%;水稻镉超标区成人每日通过稻谷摄入的镉达90.4 μg/d,已超过允许摄入量标准60 μg/d。【结论】土壤镉不超标而农作物镉超标的现象可能与土壤的低pH、低CaO、高SiO₂等特点有关,这一认识对于指导区域内粮食安全生产具有重要指导意义。创新点：土壤和水稻综合调查发现土壤镉不超标但农作物超标的现象,CART和相关系数法分析了其原因。