云南元江岔河铜矿床稀土元素地球化学特征及意义

岔河铜矿床为"火山沉积-变质"成因矿床,对岔河铜矿床进行矿相学分析以及稀土元素分析结果表明,稀土元素配分模式曲线为右倾型,轻稀土相对富集,重稀土相对亏损。δCe、δEu指示岔河铜矿床形成于相对氧化的环境。岔河铜矿床Cu部分来自地层,经变质作用富集成矿。     

大别杂岩内灰色片麻岩系稀土元素分布模式模拟及其岩石成因

鄂东北大别杂岩内可识别出表壳岩系和灰色片麻岩系。后者又分早期层状TTG岩系和晚期底辟式英云闪长岩体。早晚二期TTG岩系的稀土元素图式不同,早期为轻稀土富集和重稀土明显亏损,晚期轻稀土稍富集而重稀土亏损不明显。地质证据和元素比值-比值图表明,本区TTG岩系主要受控于批式熔融,并伴有分离结晶。稀土元素分布的定量模拟表明,TTG岩系是由基性岩转变成的闪岩经25％～65％的批式熔融形成的;且晚期英云闪长岩还经历了22％的黑云母分离结晶。     

天津沿海排污河中稀土元素的地球化学特征

选择天津沿海的南、北排污河为对象，研究了城市排污河中稀土元素的某些地球化学特征。结果表明，在排污河水体中溶解态稀土含量仍很低，但与其他天然大河相比，Eu和重稀土溶解态含量明显偏高。原水中稀土元素含量较高，以悬浮态为主。轻稀土的溶解态与悬浮态分布模式随原子序递增有相反的变化趋势。沉积物与悬浮物中的稀土含量明显低于其他天然河流，而悬浮物中的稀土含量又明显低于沉积物。沉积物与悬浮物中的稀土分布模式相似，均为轻稀土富集、重稀土亏损、Eu正异常型。这种分布模式与其他天然河流不同，而与本地区含有机质丰富的土壤相似，表明其外源为附近土壤。排污河稀土元素地球化学特性与天然河流的差异可能主要由于其水体中含有大量有机污染物造成的。     

稀土元素在植物中的分异机制 (I) 小麦不同器官中的稀土元素分异模式及形成机制

以小麦为植物材料，利用外源稀土添加、营养液培养等人工控制手段，研究了稀土元素在植物体内的分异效应，并探讨了分异效应产生的机制。结果表明，稀土元素在小麦不同器官中出现显著分异。根系出现中稀土(MREE)富集特征和“M”型四重效应，分析是由稀土元素与PO4^3-的选择性沉淀造成。小麦地上部分稀土元素分布出现“W”型四重效应，分析也是由根部磷沉淀造成。与此同时，小麦茎部相对富集轻稀土(LREE)，叶中相对富集重稀土(HREE)。运用VMINTEQ程序计算了木质部溶液中稀土元素的结合形态主要有LnEDTA^-和Ln^3 (Ln指稀土元素)，但仅有LnEDTA^-表现出HREE相对富集特征，其他形态则表现出LREE相对富集特征。分析叶部LREE／HREE分异是吸收LnEDTA^-造成，而茎部LREE／HREE分异则是吸收Ln^3 和其他形态稀土的结果。细胞壁对Ln^3 的吸附也是导致以上分异特征的重要因素。     

苏皖四处凹凸棒石粘土矿床稀土元素地球化学研究

研究了苏皖四处凹凸棒石粘土矿床不同类型矿石的烯土元素组成及其变化特征。研究表明玄武岩首先风化形成蒙皂石族粘土矿物，在此过程中稀土元素没有明显的分馏作用，强风化的玄武岩重稀土元素强烈亏损；如果玄武岩在地表进一步风化形成红土型蒙脱石粘土，则发生明显的铈正异常，中稀土亏损而轻稀土和重稀土又重新富集，这反映了当时大陆地表特殊的氧化条件和盆地湖水溶液的胶体吸附作用。玄武岩在原地进行水－岩作用，发生递进化学风化，其稀土元素地球化学特征与玄武岩及其风化产物的稀土元素化学特征基本一致，总量略低，显示REE没有大量迁移流失，沉积型凹凸棒石粘土的稀土元素地球化学特征也与玄武岩及其风化产物的稀土元素地球化学特征相似，但同时表现出轻重稀土比值磁大，铕正异常，表明沉积型凹凸棒石粘土的物源基本上是来源于玄武岩的风化产物，但REE配分模型受玄武岩风化残积物的制约。     

河台金矿中稀土元素在韧性剪切过程中迁移行为的研究

通过对两类糜棱岩及其原岩的稀土元素含量的分析研究，结果表明稀土元素在韧性剪切过程中发生有规律的成分变异。在云母石英片岩及混合岩形成糜棱岩、超糜棱岩过程中，即随着变形强度的增强，单个稀土元素、轻稀土、重稀土和稀土总量均出现有规律的增加或减少，而稀土元素配分模式不变。通过对构造岩变形前后的等比分析，认为两类不同的糜棱岩类中稀土元素的成分变异极少，但存在少量稀土元素的迁入迁出，变化的原因是在岩石变形过程中发生了体积的改变和大量的流体作用影响，并导致轻稀土相对富集、重稀土相对亏损的分异作用。     

天津沿海潮间带沉积物中稀土元素的地球化学特征

研究了天津沿海潮间带沉积物中稀土元素(REE)的地球化学特性以及污染条件下稀土元素的环境行为特征,通过稀土分布模式特征探讨了潮间带沉积物的物质来源.结果表明(1)潮间带沉积物中14种稀土含量总和的均值为164.5mg@kg-1,但各岸段又有不同.大致以海河口为界,北部明显高于南部,均值分别为182和150mg@kg-1,均明显高于海洋沉积物稀土含量;(2)海岸带沉积物稀土形态分布特征是自北向南残渣态比例逐渐下降,铁锰氧化物态和有机结合态比例逐渐增高,与黄河、长江等大河相比,残渣态和碳酸盐态比例都显著偏低;(3)稀土元素分布模式均为轻稀土富集、铕中度亏损型,与沿海排污河及内陆大河沉积物稀土分布模式相似,而与海洋大陆架沉积物稀土分布模式有显著差别.     

湖州表层土壤稀土元素含量及分布特征

为了研究湖州表层土壤样品中稀土元素的分布特征,利用ICP-MS测定了土壤中稀土元素的含量。结果表明湖州表层土壤中稀土元素含量的大小顺序为：Ce＞La＞Nd＞Pr＞Sm＞Gd＞Dy＞Yb＞Er＞Eu＞Ho＞Tb＞Tm＞Lu,遵循Oddo-Harkins法则。湖州表层土壤中稀土元素的分量均值和总量均值皆高于全国水平,稀土元素存在显著的分馏现象,轻稀土元素明显富集。表层土壤中Ce和Eu都有部分亏损。     

酸雨胁迫及稀土农用条件下菠菜及其土壤中稀土元素的赋存

利用盆栽实验研究了酸雨胁迫、稀土农用条件下 ,菠菜及其土壤中稀土元素的含量及分布特征。结果表明 :菠菜地上部分的REE含量为 0 .5 2 7～ 0 .696μg·g- 1 之间 ,地下部 2 .668～ 3 .0 0 3 μg·g- 1 。土壤 2 2 9.0 9～ 2 5 0 .3 μg·g- 1 。酸雨明显地影响作物对REE的吸收和利用 ,酸度越大 ,影响越明显。随着酸雨酸度的增大、植株体内、土壤中的REE受淋洗的作用加强而表现出REE的总量随着pH的减小而逐渐减少。施用稀土后 ,植株的地上或地下部分及其土壤中的REE含量均与对照的土壤中的REE分配模式基本相同 ,遵循稀土元素分布丰度的奇偶 (Oddo Harkins)规则、轻稀土富集 ,Eu弱负异常 ,富铈配分型 ,表明稀土元素仍然主要来自土壤并受其影响。     

河台金矿中稀土元素在韧性剪切过程中迁移行为的研究

通过对两类糜棱岩及其原岩的稀土元素含量的分析研究, 结果表明, 稀土元素在韧性剪切过程中发生有规律的成分变异. 在云母石英片岩及混合岩形成糜棱岩、超糜棱岩过程中, 即随着变形强度的增强, 单个稀土元素、轻稀土、重稀土和稀土总量均出现有规律的增加或减少, 而稀土元素配分模式不变. 通过对构造岩变形前后的等比分析, 认为两类不同的糜棱岩类中稀土元素的成分变异极小, 但存在少量稀土元素的迁入和迁出, 变化的原因是在岩石变形过程中发生了体积的改变和大量的流体作用影响, 并导致轻稀土相对富集、重稀土相对亏损的分异作用.     

Hyphenated techniques of thermal analysis for characterisation of soil humic substances

Our aim was to investigate the thermal behaviour of humic substances extracted from temperate and tropical soils by means of hyphenated techniques of thermal analysis (e. g. simultaneous thermal analysis DSC/TG coupled with mass spectrometry, MS, for the analysis of evolved gas, EGA) in order (i) to verify whether the chemical composition of isolated humic substances also reflected the differences in microbial parameters previously measured in related soil samples and (ii) to identify suitable indices of thermal stability. Our results show that the investigation of humic substances by thermal methods can provide information on soil organic matter dynamics. Differences in thermal behaviour between the two groups of soils were found. The indices of thermal stability here proposed, IR (index of thermal recalcitrance), and ID (index of thermal decomposability) clearly showed that in humic substances from tropical soils the thermally recalcitrant organic fraction dominated, whilst in temperate humic substances the opposite held. This agrees with previous results on the microbial dynamics and organic matter turnover of the respective soils and indicates that these indices of thermal stability could represent a useful tool in soil environmental quality investigations.     

桦甸油页岩中稀土元素赋存状态研究

以吉林省桦甸油页岩为研究对象,采用电感耦合等离子质谱( ICP-MS)和化学逐级提取方法相结合,对油页岩中稀土元素的分布特征以及油页岩中稀土元素的赋存状态进行研究.结果表明,相对于中国煤,桦甸油页岩表现为轻稀土元素富集程度高于重稀土元素.油页岩中稀土元素与陆源碎屑岩关系密切,且陆源物质的供应相对比较稳定.轻重稀土间分馏...     

土壤中稀土元素的形态分析

稀土元素对土壤环境的影响不但与其总量有关,而且与其化学形态关系更为密切。分别采用酸法消解和形态连续提取法对土壤样品中稀土元素总量和稀土元素的形态进行提取分析,并利用电感耦合等离子体质谱法测定了土壤样中稀土元素含量和稀土元素各形态含量。结果表明,采集土壤样品中稀土元素含量为200~1418 mg/kg,轻稀土元素含量远高于重稀土元素;稀土元素各结合形态总和相对于总量的回收率为88.2%~110%,表明采用的连续萃取法适合土壤样品中稀土元素的分析。土壤样品中稀土元素主要以残渣态存在,为33%~80%;晶体铁锰氢氧化物共沉淀态为10%~31%;腐殖质和无定形氧化物吸附态为5.0%~18%;可交换态和碳酸盐结合态为4.0%~23%;无定形铁锰氧化物共沉淀态低于3%。分析了采样点位置和稀土元素性质对稀土元素含量的影响,并讨论了土壤性质对形态分布的影响。     

ICP-MS Measurement of Trace and Rare Earth Elements in Beach Placer-Deposit Soils of Odisha,East Coast of India,to Estimate Natural Enhancement of Elements in the Environment

Inductively coupled plasma mass spectrometry (ICP-MS) has been used to measure the concentration of trace and rare earth elements (REEs) in soils. Geochemical certified reference materials such as JLk-1, JB-1, and JB-3 were used for the validation of the analytical method. The measured values were in good agreement with the certified values for all the elements and were within 10% analytical error. Beach placer deposits of soils mainly from Odisha, on the east coast of India, have been selected to study selected trace and rare earth elements (REEs), to estimate enrichment factor (EF) and geoaccumulation index (I_geo) in the natural environment. Enrichment factor (EF) and geoaccumulation index (I_geo) results showed that Cr, Mn, Fe, Co, Zn, Y, Zr, Cd and U were significantly enriched, and Th was extremely enriched. The total content of REEs (ƩREEs) ranged from 101.3 to 12,911.3 µg g⁻¹, with an average 2431.1 µg g⁻¹ which was higher than the average crustal value of ΣREEs. A high concentration of Th and light REEs were strongly correlated, which confirmed soil enrichment with monazite minerals. High ratios of light REEs (LREEs)/heavy REEs (HREEs) with a strong negative Eu anomaly revealed a felsic origin. The comparison of the chondrite normalized REE patterns of soil with hinterland rocks such as granite, charnockite, khondalite and migmatite suggested that enhancement of trace and REEs are of natural origin.     

Mobilization and fractionation of137Cs in calcareous soils

Mobility of¹³⁷Cs was investigated in columns of calcareous loam and clay soils leached under river water, NH₄OAc, KCl, CaCl₂, and EDTA. Fractionation of Cs into ten sequential fractions was accomplished in the leached soils as well as in soil samples received carrier-free¹³⁷Cs and incubated for 60 d. At the end of 90 d of leaching with river water and CaCl₂, the bulk of Cs applied (>97%) was found to remain in the upper 1 cm of soil columns. On the other hand, the reduction in Cs concentration was approximately 30% with NH₄OAc, 18% with KCl, and 10 to 25% with EDTA. The major soil constituents appeared to be responsible for retaining Cs were clay, silt, and Fe oxides. The leaching consistently increased the magnitude of fractions bound to clay minerals and in most cases decreased the fractions of water soluble, exchangeable, carbonate, and organic matter.     

Determination of nitrite with a nano-gold modified glassy carbon electrode by cyclic voltammetry

Abstract

Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) was employed to determine the concentration of rare earth elements (REEs) in plants and soils. Sample preparation and analytical conditions were investigated to set up a simple routine procedure for measuring rare earth elements. For prompt sample decomposition, a microwave digestion technique was successfully used with an acid mixture of HCl+HNO₃+HF. Detection limits, reproducibility, accuracy and possible interference were also studied. ICP-MS provided extremely low detection limits for REEs (0.6–6ng/l). Precision was typically better than 6% RSD (relative standard deviation) for soil and 10% for plant. The potential of the method was evaluated by analysis of standard reference materials of soils and plants. A good agreement between the experimental results and certified values was observed. The spectroscopic interference of Ba with Eu and light REEs(LREEs, La-Eu) with heavy REEs(HREEs, Gd-Lu) were eliminated by the algebra correction.

The results suggested that REEs in soil samples existed mainly as light REEs, and the same concentration distribution patterns of Oddo-Hakins law were observed, showing negative gradient from La to Lu concentrations. The REE contents in plants were very low, less than 20μg/g and varied with plant species. Apart from rape leaf(Brassica juncea), the REE distribution patterns in other plant leaves were consistent with soils, indicating that these plants generally absorbed REEs from soil without selectivity. Rape leaf showed selective absorption for LREEs, especially for La. The REE concentration distribution in parts of hot pepper(Capsicum annuum) was characteriaed by root>leaf>stem>fruit. The REEs absorbed by hot pepper concentrated mainly in roots and leaves, very little migrated into fruit. Transfer factors(TFs) of REEs in plants were very low. Although the contents of LREEs were relatively more than those of HREEs, no distinct difference of TFs between LREEs and HREEs was observed, meaning that LREEs and HREEs have the same abilities of transportation. However, for rape leaf, the TFs of LREEs were one or two orders of magnitude higher than those of HREEs.     

开滦煤洗选过程中稀土元素的迁移和分配特征

以河北开滦矿区晚古生代煤及其洗选产品为研究对象，运用电感耦合等离子体质谱（ICP-MS）和逐级化学提取的方法，对稀土元素的质量分数及其在洗选过程中的迁移和分配特征进行了研究。结果表明，开滦矿区煤中稀土元素没有明显富集；稀土元素在入洗原煤及其洗选产品中，以煤泥中质量分数最高，尾煤次之，在尾煤和煤泥中均相对富集；稀土元素在精煤中的质量分数最低；同原煤相比，中煤的稀土元素质量分数没有明显变化。原煤及其洗选的4种产品中的稀土元素分配模式基本相同，主要差别是质量分数的不同。稀土元素在洗选过程中的分配行为和赋存状态主要受控于黏土矿物，其次是有机质。     

Distribution of heavy metals of agricultural soils of central Greece using the modified BCR sequential extraction method

The state of heavy metal (Cd, Cu, Ni, Zn, Pb, and Cr) pollution was studied, in 440 texturally different soil profiles in Thessaly, an intensely cultivated region in Central Greece. The study was carried out in 2004 and 2005 on 220 soil samples for each year. Soil samples were classified in three soil orders: Endisols, Alfisols, and Vertisols according to the Soil Taxonomy System. The pseudo-total concentrations of heavy metals were determined by the aqua regia procedure. Heavy metals were also determined after division into four fractions by sequential extraction with (a) acetic acid (exchangeable and specifically adsorbed metals), (b) a reducing agent (bound to Fe/Mn hydroxides), (c) an oxidizing agent (bound to soil organic matter), and (d) aqua regia (bound to mineral structures, residual). The concentrations of all the metals studied were higher in the topsoil (0–30?cm) and lower in the second soil layer (30–60?cm). Concentrations of 70–82% of Cd, 39–64% of Cu, 41–69% of Ni, 29–51% of Zn, 75–89% of Pb, and 52–87% of Cr were found in the first two fractions. Cd appeared to be the most mobile of the metals studied, while Cu and Zn were found in forms associated with soil organic matter. The chemical partitioning patterns of Pb and Cr indicated that these metals are largely associated with the Fe–Mn hydroxides, while Cr was also found in the residual fractions. Significant correlations between heavy metals fractions and soil physicochemical parameters were obtained and discussed.     

Variation of the rare earth element concentrations in the soil, soil extract and in individual plants from the same site

Samples of various types (spruce needles, blackberry leaves, soils, and soil extracts) have each been taken at 6 places from the same site. In addition, 4 whirls each from 2 spruce trees were sampled. Rare earth elements (REEs) were determined in these samples by neutron activation analysis with a chemical group separation. Variations between places were found to be small with soils and soil extracts, but large with plants. Variations between whirls were small. Plants neither reflected the soil nor the soil extract. Both plant species were dissimilar, but the logarithm of their ratio was a linear function of the atomic number of the REE. A negative Ce anomaly (with respect to soil) was found in both plant species.