湘中HJC铀矿区黑色页岩土壤重金属污染地球化学分析

本文以湘中HJC铀矿区黑色页岩土壤为研究对象,对黑色页岩土壤重金属污染进行了地球化学分析。通过测制A、B、C、D等土壤剖面并系统取样,借助ICPMS等分析技术,对土壤、成土母岩、玉米等进行了系统的主量元素、重金属和其他微量元素（稀土元素）分析。结果表明,矿区黑色页岩土壤具富Al2O3、Fe2O3,而贫CaO、Na2O的化学组成特征,其化学风化指数CIA值在79~84之间。土壤因继承成土母岩的元素富集特征而富集V、Cr、Co、Ni、Cu、Zn、Mo、Cd、Sn、Sb、Tl、Pb、Th、U等多种重金属,其中Mo、Cd、Sb、U的富集最强。土壤重金属综合富集指数（EI值）在3~9之间,各剖面EI值大小顺序是：D>A>B>C, 以D剖面土壤重金属综合富集最强。土壤重金属污染富集因子（F）评价结果显示：矿区土壤普遍存在Cd、Mo、Sn、Sb、U等重金属污染,其中Mo、Cd、Sb等的污染最强,达显著（3级,2 < F < 20）污染程度以上。重金属污染效应既表现为Sc、Cd、Sn、Sb、U、Tl、Pb等生物毒性重金属在玉米中的富集,又表现为Mo、Co、Ni、Cu、Zn等生物有用金属在玉米中的明显亏损。黑色页岩即为土壤重金属污染的污染源。土壤重金属污染与重金属在成土母岩和土壤中的富集程度(Ks、EI、F)、重金属的活动性（Change%）等多种因素有关。重金属污染主影响因子的Pearson相关系数分析显示：Cd对土壤构成持久性污染,Mo、Sn、Sb、U等的污染程度可随土壤风化的进行因淋失而趋于降低,而Zn、Mn、Ba、Co、Ni、Th等目前未达到污染水平的重金属则可因次生富集而在未来引发污染。     

湘中安化黑色页岩土壤玉米的元素地球化学分析

利用等离子质谱(ICP-MS)等分析技术,对产于安化东坪、烟溪黑色页岩土壤上的玉米进行元素地球化学分析.结果.表明:尽管东坪、烟溪黑色页岩土壤重金属元素富集的程度及其元素组合特征明显不同,但生长在其上的玉米有相似的主量元素和重金属元素的富集特征.玉米中Cd、Cr、Sc、Tl、Zn等重金属相对富集,以Cd的富集尤为明显;而Ba、Co、Cu、Fe、Mo、Ni、Pb、Sb、U、V等重金属相对亏损.黑色页岩土壤重金属污染的环境地球化学效应表现为Sc、Cr、Cd、Tl等生物毒性重金属元素在玉米中富集,而Ba、V、Co、Ni、Mo、Rb、Sr等生物必需微量金属在玉米中亏损.     

湘中桃江锰矿废矿堆环境地球化学分析

对湘中桃江锰矿废矿堆的废石进行了主量元素、稀土元素、微量元素和重金属元素的地球化学分析。野外观察及分析结果表明:组成废矿堆的岩石主要是赋矿围岩中奥陶统黑色页岩和原生碳酸锰矿石。这些废石富含Cu、Pb、Zn、Cr、Tl、Sb、U等重金属元素。废石暴露地表而遭受风化分解,导致Sc、V、Cr、U、Cd、Th等重金属元素淋滤释出,在废石样品中均表现出不同程度的迁移特征,且以V、Cd、U的迁移性最为强烈。此外,黑色页岩中Ni、Cu、Zn、Pb、Tl、Sb也明显发生淋失。这些重金属元素如Cd、Tl等毒性极强,进入矿区周围不断积聚,便可能对环境造成严重的影响。故对区内分布的废矿堆作为重金属污染源应高度重视。     

浙江省下寒武统荷塘组黑色页岩系地球化学特征

首次根据浙江省西北部荷塘组岩石样品的实测数据,提出了浙江省荷塘组黑色岩系6个岩性层的Pt、Pd、Au、Ag、Cu、As、Sb、Pb、Mo、Ni、V、P、U、B、Cd、Tl、Se、Zn元素的平均值,运用微量元素和稀土元素的配分模式探讨了成岩环境及元素高含量对环境的影响.荷塘组富集元素较多,富集程度高的有Mo、Se、Cd、Ag、Sb、U、As、P;较富集的有V、B、Cu、Tl、Zn,弱富集的为Au、Pt、Pb、Ni.综合地质地球化学特征研究认为,荷塘组黑色岩系具有寻找含钼、磷、矾和有色金属矿产的潜力.     

湘西北早寒武世黑色岩系微量元素地球化学特征

对湘西北杆子坪剖面牛蹄塘组黑色岩系进行了系统的微量元素地球化学研究，结果表明：牛蹄塘组底部黑色岩系Ni、Mo、V、U、Cu、Pb、Zn、Cd、Tl、Ba等亲硫元素与过渡元素高度富集，U／Th大于1，稀土元素具有明显的正Eu异常与正Y异常，是海底热水沉积作用的结果。牛蹄塘组上部碳质页岩与泥质页岩亲硫元素与过渡元素明显降低，而Nb、Ta、Zr、Hf、Rb等高场强与大离子元素明显增高，表明陆源碎屑来源越来越多。     

珠江三角洲平原区第四纪沉积物地球化学特征及其控制因素

在珠江三角洲经济区多目标区域地球化学调查基础上,根据珠江三角洲第四纪地质、基底地形、水系走向等方面的资料,在珠江三角洲布署了6条钻孔剖面,共44个第四纪地质钻探,对其晚更新世以来沉积物的地球化学特征进行了系统分析。结果表明:珠江三角洲平原区重金属元素富集,特别是以Cd、Hg、Cu、Pb、Zn、Ni、As为代表的重金属元素较为富集,形成高背景区。不同区域富集元素类型及富集程度呈现较大差异,其中以西北江三角洲各元素最为富集,而潭江三角洲仅U、Al2O3富集,其Cl、Cd、Cu、Sb、Ca O等元素含量明显低于全区平均含量,东江三角洲Mo、S、Th、Tl、U等元素富集,Cd、Cl、Co、Cr、Hg、Mn、Ni、Sb、Sr、Ti、V、Mg O、Ca O、Na2O等元素含量明显低于全区平均含量。元素空间分布差异的控制因素是三角洲平原物质来源差异及沉积体系变迁。     

徐州城市表层土壤中重金属环境风险测度与源解析

研究了徐州城市表层土壤的21个样品中重金属元素富集特征,结果表明,与我国土壤元素的背景值(算术平均值)相比,表层土壤中Zn、Cd、As、Hg、Sb、Sn和Ag等元素富集程度高;Se、Sc、Ba、Bi、Pb、Cu、Ni、Cr、Mn、Mo、Be、Ga和Co等元素的富集程度较低。不同城市表层土壤中重金属元素有着不同的来源,统计分析结果表明,研究区表层土壤样品中重金属元素可分成4种类别:“自然因子”类别元素(Ti、Ga、Li、V、Co、Mn、Be和Pt);“交通因子”类别元素(Ag、Se、Sc、Pb、Cu、Zn、Cd、Br、S、Mo和Au);“燃煤因子”类别元素B(i、Cr、Hg、As、Sb和Pd)和混合源类别元素(Sn和Ba)。环境风险指数的计算结果表明,表层土壤中重金属污染具有较大的环境风险,其中属于中等环境风险级别以上的样品占近40%。     

广西373铀矿床微量元素地球化学特征及其成因探讨

373铀矿床是我国南方典型碳硅泥岩型铀矿床之一,主要发育一套黑色弱硅化泥岩、粉砂岩,硅化生屑灰岩及其过渡型岩类地层,矿床明显受断裂发育影响,铀矿化于次级断裂带中.通过系统地球化学研究表明:3组不同期次脉体普遍亏损过渡元素Ti、Sc、Cr、Cu、Zn和高场强元素Nb、Ta、Zr和Hf;相对较富集Mn、Ni、As、Sr、Mo、Sb、Tl和U等微量元素.后期热液活动使脉体Ba、Sb、As和Mo等元素异常富集.后期热液叠加改造,使得岩石普遍亏损过渡元素Sc、Ti、Cr和高场强元素Nb、Ta、Zr、Hf,普遍富集Co、Ni、Zn、As、Sb、Mo、Cd、W、Tl、Pb、Bi和U,其中As、Sb、Mo、Tl和U尤为富集,富集系数平均达到100左右,U与W、As、Sb和Pb相关系数都在0.9左右,具有高度同源性,铀成矿与热液活动有关.典型剖面微量元素富集与硅化密切相关,当硅化达到一定程度后微量元素富集出现反转,即随着硅化强度增加而富集能力反而降低.V/Cr、V/Sc、Ni/Co、V/(V+Ni)、U/Th、δU、δEu和δCe等特征元素比值反应铀预富集形成于缺氧的古海洋环境.高丰度的As、Sb和Ba等元素,以及U-Th关系图解和Zn-Ni-Co三元图解均显示热水沉积成因.微量元素特征表明碳硅泥岩形成于缺氧的还原环境,铀预富集与热水沉积有关,铀成矿与热液叠加改造有关,后期热液沿运移通道上升进入储集空间,与铀预富集地层热液叠加成矿.     

三峡沉积物中重金属污染累积及潜在生态风险评估

分析了三峡库区主要支流表层沉积物样品中15种重金属元素（Cd、Cu、Pb、Zn、Cr、Tl、V、Mn、C、Ni、Sr、Ag、Sb、Sn和Mo）的含量水平和分布规律,并采用内梅罗污染指数、地累积指数法和潜在生态风险指数法,初步评价了沉积物中重金属污染状况和潜在生态风险。研究结果表明：（1）三峡库区支流表层沉积物中重金属Cd、Zn和Cu等呈现污染加剧态势,其含量范围分别为0.36-1.22 mg/kg、55.8-182 mg/kg、24.0-93.1 mg/kg;（2）内梅罗单因子污染指数（Ii）和地累积指数（Igeo）指示研究区域中Ag、Sb和Sn等多种重金属污染累积效应显著;（3）研究区域中多种重金属内梅罗多因子污染指数（Pn）和潜在生态风险指数（RI）分别为3.41-11.1和204-568,表明研究区域为重度重金属污染,潜在生态风险较高;（4）三峡库区主要支流表层沉积物呈现出以Cd为主的多种重金属复合污染特征。     

贵州开阳白马洞铀矿化岩层地球化学特征

贵州开阳白马洞铀矿是重要的蚀变型铀矿,通过对白马洞清虚洞组黑色蚀变岩及白云岩风化红粘土和寒武系牛蹄塘组黑色页岩的常量元素、微量元素和稀土元素组成的分析研究,发现铀元素含量与Re、Se、Pb、Cu、As、Sb、Tl、Zn、Ni、Mo、Co、S含量为正相关关系,铀含量高,则Re、Se、Pb、Cu、As、Sb、Tl、Zn、Ni、Mo、Co、S含量也高,其中As、Co、Mo、Ni、Re、Tl、Zn、S具有显著的正相关性,而且地表土壤中Se、V、Mo 等元素的富集是铀矿找矿的主要标志之一。根据白马洞清虚洞组、寒武系牛蹄塘组黑色页岩、灯影组硅化白云岩的稀土元素配分模式分析,硒富集和铀矿化矿源层不仅是牛蹄塘组黑色页岩,可能有更深部的矿源存在。认为硒富集区是铀矿找矿远景区域;古代炼汞矿渣富集铀矿,值得开发利用和治理。     

Release of heavy metals during weathering of the Lower Cambrian Black Shales in western Hunan,China

Weathering of heavy metal enriched black shales may be one of the most important sources of environmental contamination in areas where black shales are distributed. Heavy metal release during weathering of the Lower Cambrian Black Shales (LCBS) in western Hunan, China, was investigated using traditional geochemical methods and the ICP-MS analytical technique. Concentrations of 16 heavy metals, 8 trace elements and P were measured for samples from selected weathering profiles at the Taiping vanadium ore mine (TP), the Matian phosphorous ore mine (MT), and Taojiang stone-coal mine (TJ). The results show that the bedrock at these three profiles is enriched with Sc, V, Cr, Co, Ni, Cu, Zn, Pb, Th, U, Mo, Cd, Sb, Tl, and P. Based on mass-balance calculation, the percentages of heavy metals released (in % loss) relative to immobile element Nb were estimated. The results show significant rates of release during weathering of: V, Cr, Co, Ni, Cu, Zn, U, Mo, Cd, Sn, Sb, and Tl for the TP profile; Sc, Cr, Mn, Co, Ni, Cu, Zn, Pb, Th, Cd, and Sn for the MT profile; and Sc, Mn, Co, Ni, Zn, Th, Cd, Sn, and Tl for the TJ profile. Among these heavy metals, Co, Ni, Zn, Cd, and Sn show very similar features of release from each of the three weathering profiles. The heavy metals released during weathering may affect the environment (especially topsoil and surface waters) and are possibly related to an observed high incidence of endemic diseases in the area.     

Mineralogical and geochemical constraints on environmental impacts from waste rock at Taojiang Mn-ore deposit,central Hunan,China

The mineralogy and geochemistry of the waste rocks distributed at Taojiang Mn-ore deposit, central Hunan province, China, were studied using X-ray powder diffraction (XRD), electron microprobe analysis (EMPA) fitted with energy dispersive spectrometer (EDS) and inductively coupled plasma mass spectrum (atomic emission spectra) ICP-MS (AES), with the aim of predicting the environmental impacts of weathering of the waste rocks. The mineralogical results from microscope observation and XRD and EMPA studies show that the waste rock is composed of black shale and minor Mn carbonates. The oxidation of sulfide minerals such as galena, pyrite and chalcopyrite is accompanied by decomposition of Mn carbonates and K-feldspar during exposure to atmospheric O₂. The geochemical characteristics of major, rare earth elements (REE) and trace elements of the waste rocks also show that the waste rock can be divided into black shale and Mn carbonate, and both of them are currently under chemical weathering. The major alkalies and alkaline elements (Ca, Mg, Na, K, Rb, Sr and Cs) and major elements (Fe, S and P) and heavy metals (Sc, V, Cr, Th, U, Sn, Co, Ni, Cu, Zn, Pb, Mo, Cd, Sb, an Tl) are being released during weathering. The mobility of alkalis and alkaline elements Ca, Mg, Na, K, Rb, Sr and Cs is controlled by decomposition of Mn carbonates. The dispersion of Cr, Sc and Th (U) might be related to weathering of K-feldspar, and the release of the heavy metals Co, Ni, Cu, Zn, Pb, Mo, Cd Sb and Tl is dominated by the breaking of sulfide minerals. The REE of the waste rocks and surrounding soils and the spidery distribution patterns of heavy metals in the waste rocks, the surrounding soils and the surface waters show that weathering of the waste rocks and bedrock might be the sources of heavy metal contamination for the surrounding soils and surface water system for the mining area. This is predicted by the mass-balance calculation by using Zr as an immobile element. Therefore, it is urgently necessary take measures to treat the waste rocks distributed throughout the area for the local environmental protection.     

湘江入湖河段沉积物重金属污染及其Pb同位素地球化学示踪

湘江是我国重金属污染最严重的河流之一.本次工作利用等离子质谱(ICP-MS)和多接收同位素质谱(MC-ICP-MS)等技术,对湘江入湖河段沉积物进行了系统的重金属微量元素和Pb同位素分析.结果表明,湘江河床沉积物明显富集Bi、Sc、V、Mn、Ni、Cu、Zn、Pb、Cd、Sn、Sb等多种重金属微量元素,而湖盆沉积物重金...     

Geochemistry of trace metals and Pb isotopes of sediments from the lowermost Xiangjiang River, Hunan Province (P. R. China): implications on sources of trace metals

This paper reports a geochemical study of trace metals and Pb isotopes of sediments from the lowermost Xiangjiang River, Hunan province (P. R. China). Trace metals Ba, Bi, Sc, V, Cr, Mn, Co, Ni, Cu, Zn, Mo, Cd, Sn, Sb, Pb, Tl, Th, U, Zr, Hf, Nb and Ta were analyzed using ICP-MS, and Pb isotopes of the bulk sediments were measured by MC-ICP-MS. The results show that trace metals Cd, Bi, Sn, Sc, Cr, Mn, Co, Ni, Cu, Zn, Sb, Pb and Tl are enriched in the sediments. Among these metals, Cd, Bi and Sn are extremely highly enriched (EF values >40), metals Zn, Sn, Sb and Pb significantly highly (5 < EF < 20), and metals Sc, Cr, Mn, Co, Ni, Cu and Tl moderately highly (2 < EF < 5) enriched in the river sediments. All these metals, however, are moderately enriched in the lake sediments. Geochemical results of trace metals Th, Sc, Co, Cr, Zr, Hf and La, and Pb isotopes suggest that metals in the river sediments are of multi-sources, including both natural and anthropogenic sources. Metals of the natural sources might be contributed mostly from weathering of the Indosinian granites (GR) and Palaeozoic sandstones (PL), and metals of anthropogenic sources were contributed from Pb–Zn ore deposits distributed in upper river areas. Metals in the lake sediments consist of the anthropogenic proportions, which were contributed from automobile exhausts and coal dusts. Thus, heavy-metal contamination for the river sediments is attributed to the exploitation and utilization (e.g., mining, smelting, and refining) of Pb–Zn ore mineral resources in the upper river areas, and this for the lake sediments was caused by automobile exhausts and coal combustion. Metals Bi, Cd, Pb, Sn and Sb have anthropogenic proportion of higher than 90%, with natural contribution less than 10%. Metals Mn and Zn consist of anthropogenic proportion of 60–85%, with natural proportion higher than 15%. Metals Sc, Cr, Co, Cu, Tl, Th, U and Ta have anthropogenic proportion of 30–70%, with natural contribution higher than 30%. Metals Ba, V and Mo might be contributed mostly from natural process.     

Abundances and modes of occurrence of trace elements in the Çan coals (Miocene), Çanakkale-Turkey

This study presents the concentrations and modes of occurrence of trace elements in 81 coal samples from the Çan basin of northwestern Turkey. The concentration of trace elements in coal were determined by inductively coupled plasma-mass spectrometry and inductively coupled plasma-atomic emission spectrometry. Additionally, traditional coal parameters were studied by proximate, ultimate, X-ray diffraction, and petrographic analyses. Twenty trace elements, including As, B, Ba, Be, Cd, Cu, Co, F, Hg, Mo, Ni, Pb, Sb, Se Sn, Th, Tl, U, V, and Zn, receive much attention due to their related environmental and human health concerns. The Çan coals investigated in this study are lignite to sub-bituminous coal, with a broad range of ash yields and sulphur contents. The trace element concentrations show variety within the coal seams in the basin, and the affinities vary among locations. The concentrations of B, Ba, Be, Cd, Cu, Co, F, Hg, Mo, Ni, Pb, Sb, Se, Sn, Tl, and Zn in Çan coals are within the Swaine's worldwide concentration range, with the exception of As, Th, U, and V. On the other hand, compared with world coals, the Çan basin coals have higher contents of As, B, Cu, Co, Mo, Pb, Th, U, V, and Zn. Based on statistical analyses, most of the trace elements, except for U, show an affinity to ash yield. Elements including As, Cd, Hg, Se, Cu, Mo, Ni, and Zn, show a possible association with pyrite; however, the elements Se, B, and Mo can be have both organic and inorganic associations.     

四川省癌死亡率与土壤环境中化学元素的关系

利用中国癌死亡率与土壤坏境中化学元素的相关性成果，研究了四川省癌死亡率与土壤环境中化学元素：As、Cd、Co、Cu、Hg、Mn、Ni、Pb、Se、V、Li、Na、K、Rb、Cs、Mg、Ca、Sr、Ba、B、Al、Ga、In、Tl、Sc、Y、La、Ce、Pr、Nd、Tb、Dy、Ho、Er、Tm、Yb、Lu、Th、U、Sn、Ti、Zr、Hf、Sb、Bi、Ta、Te、Mo、W、Br、I、Fe等52个元素含量的关系     

Pedo-geochemical baseline content levels and soil quality reference values of trace elements in soils from the Mediterranean (Castilla La Mancha, Spain)

To evaluate trace element soil contamination, geochemical baseline contents and reference values need to be established. Pedo-geochemical baseline levels of trace elements in 72 soil samples of 24 soil profiles from the Mediterranean, Castilla La Mancha, are assessed and soil quality reference values are calculated. Reference value contents (in mg kg^?1) were: Sc 50.8; V 123.2; Cr 113.4; Co 20.8; Ni 42.6; Cu 27.0; Zn 86.5; Ga 26.7; Ge 1.3; As 16.7; Se 1.4; Br 20.1; Rb 234.7; Sr 1868.4; Y 38.3; Zr 413.1; Nb 18.7; Mo 2.0; Ag 7.8; Cd 4.4; Sn 8.7; Sb 5.7; I 25.4; Cs 14.2; Ba 1049.3; La 348.4; Ce 97.9; Nd 40.1; Sm 10.7; Yb 4.2; Hf 10.0; Ta 4.0; W 5.5; Tl 2.3; Pb 44.2; Bi 2.2; Th 21.6; U 10.3. The contents obtained for some elements are below or close to the detection limit: Co, Ge, Se, Mo, Ag, Cd, Sb, Yb, Hf, Ta, W, Tl and Bi. The element content ranges (the maximum value minus the minimum value) are: Sc 55.0, V 196.0, Cr 346.0, Co 64.4, Ni 188.7, Cu 49.5, Zn 102.3, Ga 28.7, Ge 1.5, As 26.4, Se 0.9, Br 33.0 Rb 432.7, Sr 3372.6, Y 39.8, Zr 523.2, Nb 59.7, Mo 3.9, Ag 10.1, Cd 1.8, Sn 75.2, Sb 9.9, I 68.0, Cs 17.6, Ba 1394.9, La 51.3, Ce 93.5, Nd 52.5, Sm 11.2, Yb 4.2, Hf 11.3, Ta 6.3, W 5.2, Tl 2.1, Pb 96.4, Bi 3.0, Th 24.4, U 16.4 (in mg kg^?1). The spatial distribution of the elements was affected mainly by the nature of the bedrock and by pedological processes. The upper limit of expected background variation for each trace element in the soil is documented, as is its range as a criterion for evaluating which sites may require decontamination.