湘江悬浮物REE地球化学特征

在湘江长、株、湘潭河段采集悬浮样,利用ICP-MS进行REE分析.结果表明,湘江长株潭断及各河段的河心与两岸水体悬浮物中稀土分布不均匀;稀土分布模式基本相同,均为LREE相对HREE富集,曲线呈明显的右倾状,且与长江、黄河的稀土分布模式相似;Eu、Ce亏损在各河段基本相同,表明湘江悬浮物中的REE主要来源于沉积岩的风化产物,外源性稀土的污染不是很显著.     

南黄海中部泥质沉积区DLC70-3孔稀土元素及环境意义

通过对南黄海中部泥质区北缘DLC70-3孔沉积物全岩组分的∑REE、分布模式和分异参数及其他地球化学相关指标的分析,讨论了沉积物物源以及ω(∑REE)变化的控制因素.分析结果表明DLC70-3孔沉积物稀土元素上陆壳标准化分布模式均为轻稀土元素适度富集缓右倾斜型、Eu呈负异常模式,与现代黄河沉积物的分布模式一致;[ω( ...     

湘江悬浮物的稀土元素地球化学研究

在湘江及其支流采集了44件悬浮物样品进行稀土元素 ICP—MS分析。研究表明,湘江悬浮物中稀土总量(∑REE)、轻稀土(LREE) 和重稀土(HREE)含量分别为63～387 μg/g,58.2～353 μg/g和4.8～34μg/g。尽管湘江悬浮物中稀土分布不均匀,稀土含量相差很大,所有样品的球粒陨石标准化曲线均呈向右倾斜的富LREE的模式,北美页岩标准化模式为LREE稍富集的平坦型。湘江中下游河心与两岸水体悬浮物中稀土发生了明显分异。湘江悬浮颗粒物中REE受多方面因素控制,其源区控制了REE分配模式,而其稀土元素含量与颗粒中粘土矿物及重矿物有关。支流捞刀河悬浮物稀土的分布模式为Eu正异常型,与北美页岩有显著差别,捞刀河的悬浮物物源及成因有待进一步研究。     

北京平原沉积物稀土元素地球化学特征及物源意义

文中总结了北京平原永定河、潮白河流域钻孔沉积物中稀土元素分布特征,两流域沉积物稀土元素总量∑REE、轻重稀土比(LREE/HREE)及轻(La/Sm)N、重(Gd/Yb)N稀土分馏特征差异较为显著。粒度对沉积物稀土分布(总量、轻重稀土比及分馏特征)有一定影响;各流域沉积物均表现为轻稀土相对富集、弱Eu负异常的球粒陨石标准化曲线。细颗粒沉积物稀土分馏特征(La/Yb)N有较好的物源示踪意义。根据沉积物(La/Yb)N值对永定河、潮白河交互沉积区不同深度沉积物进行了物源示踪,不同深度上沉积物来源不同。此外,同一流域上、中、下游沉积物稀土分馏特征不同。常量元素Al2O3/Fe2O3与稀土元素(La/Yb)N划分结果相符,但精度低于稀土元素物源分析。     

三水盆地古近系下部湖相沉积的稀土元素地球化学特征及其古气候意义

通过分析三水盆地古近系下部岩心的稀土元素丰度和分布模式,并结合其它地球化学指标(Fe/Mn, Mg/Ca),重建了古近纪早期的古气候条件。岩心中稀土元素总量（∑REE）变化于7.06~230.01 μg /g之间,平均值为142.32 μg/g。接近全球平均大陆上地壳成分（UCC）,略低于北美页岩。沉积物显示轻稀土相对富集、右倾斜型、Eu中度亏损以及Ce异常不明显的稀土元素分布模式。岩心各深度处稀土元素分布模式非常相似,且与UCC的稀土元素分布模式基本一致。表明沉积物具有较为一致的物质来源和形成机理,而且源区具有大陆上地壳性质。岩心沉积时期古气候变化经历了较为干燥—温湿—温湿与干旱气候交替出现—以温湿气候条件为主的四个阶段。总体上显示明显的变湿趋势。     

渤海西部表层沉积物的稀土元素分布特征与物源约束

对渤海西部44个表层沉积物样品进行电感耦合等离子体质谱法测试,分析了稀土元素(REE)含量,探讨了渤海西部稀土元素分布特征及其物源约束。结果表明,渤海西部表层沉积物的稀土配分模式与中国黄土的接近,表明研究区沉积物主要来自于周边大陆。渤海西部表层沉积物稀土元素富集与粒度效应研究表明,∑REE与Mg、Ti、Co、Cr、Li和细粒沉积物呈明显正相关,而与砂质沉积物呈显著负相关,与Zr无明显正或负的相关性。渤海西部表层沉积物稀土元素参数特征值离散图和Q-型聚类分析结果,可将研究海域沉积物划分为3个不同的地球化学分区,研究区中部和西北部海域为∑REE高值区,其物质主要来源于海河和黄河;研究区南部、东南部沉积物主要来源于黄河物质输入;研究区东北部滦河口外沉积物主要来源于滦河物质。     

北部湾东部海域表层沉积物稀土元素组成及物源指示意义

对北部湾东部海域70个表层沉积物样品的稀土元素(REE)分析结果表明,研究区沉积物 REE 呈现轻稀土元素(LREE)富集、重稀土元素(HREE)平坦以及中等程度的 Eu 异常等特征.REE 组成受沉积物粒度和生物碳酸盐含量的制约,具有典型风化上陆壳 REE 特征,其源岩以上陆壳的长英质岩石为主.根据研究区沉积物 REE 分布规律,研究区可划分为4个地球化学分区,各区域上陆壳标准化曲线明显的不同.物源判别显示研究区的西部、海南岛西南侧(Ⅰ区)呈多源沉积特征,来自以下几个物源区:(1)海南岛西南侧河流沉积物和沿岸侵蚀物;(2)由南向北输入的外海沉积物(冬季);(3)夏季或冬季由北部湾西北部和西部搬运来的沉积物.研究区中部粗粒沉积区(Ⅱ区)与北部湾西部沉积物来源是相同的,主要来源于红河输砂.东北部砂质区(Ⅲ区)沉积物可能来源于雷州半岛西北部近岸基岩侵蚀.研究区东北部(Ⅳ区)沉积物主要来自北部湾北部沿岸侵蚀、琼州海峡和雷州半岛西部的沿岸侵蚀.此外,部分沉积物还可能来自珠江流域以及南海北部陆架区和北部湾西北部     

伦坡拉盆地丁青湖组油页岩稀土元素特征及其地质意义

野外地质调查与研究发现伦坡拉盆地有大规模的油页岩出露,通过伦坡拉盆地丁青湖组油页岩的稀土元素地球化学分析,结果表明油页岩中稀土元素总量较高,LREE/HREE及(La/Yb)N比值等显示了轻稀土元素与重稀土元素分异明显,REE分布模式为明显的轻稀土元素富集、重稀土元素亏损,轻稀土元素段呈显著的右倾,重稀土元素段呈平坦状,Eu负异常很明显。Ceanom值反映了水体介质的还原性,表明油页岩形成于还原的古湖泊环境;δEu值与古气候特征分析表明,油页岩形成于湿润的古气候环境。∑REE质量分数与Al2O3、SiO2及TiO2质量分数呈正相关关系,与CaO质量分数呈负相关关系,结合微量元素的聚类分析,表明油页岩稀土元素主要来源于陆源碎屑,而非水体自身沉积。     

准噶尔盆地东南缘芦草沟组黑色泥页岩稀土元素地球化学特征及其地质意义

对准噶尔盆地东南缘中二叠统芦草沟组上、中、下三段黑色泥页岩进行稀土元素地球化学特征研究,并讨论其地质意义。结果表明,芦草沟组黑色泥页岩的稀土元素总量∑REE为(51.39~138.27)×10~(-6),平均值为94.23×10~(-6),较全球平均大陆上地壳成分(UCC)和北美页岩(NASC)的平均值均偏低。∑LREE/∑HREE、(La/Yb)N、(Ce/Yb)N等地化参数及稀土元素配分模式均反映轻、重稀土元素的明显分异,呈现LREE富集、HREE亏损的特征,趋势曲线较为平坦。黑色泥页岩具有明显的δEu负异常和弱的δCe负异常。Ce异常值均大于-0.1,反映研究区在中二叠世水体为较强且稳定的还原环境。REE的明显分异指示沉积速率总体较低,呈现逐渐变慢的趋势,反映了沉积时期水体加深的过程,这也与滨浅湖-半深湖-深湖的沉积相吻合。根据δEu的异常情况和(La/Yb)N与∑REE的关系,认为芦草沟组沉积物的母岩为沉积岩和花岗岩的混合。黑色泥页岩物源主要来自南部的伊连哈尔比尕山。     

长江与黄河沉积物稀土元素随粒度变化对比研究

依据Stoke定律将长江小于63 μm的沉积物分成4个粒级.将黄河小于63 μm的沉积物分成6个粒级.采用ICP-MS法分别测试了分粒级沉积物的REE含量,结果显示：相同粒级中长江沉积物的∑REE均高于黄河沉积物.长江沉积物REE的丰度遵循元素的“粒度控制律”,即随粒度变细∑REE含量依次增高;黄河沉积物∑REE呈“高-低-高”的不对称马鞍型分布;北美页岩标准化分布曲线均呈右倾状,轻重稀土分馏明显,相对富集LREE,具弱Ce亏损,明显的Eu正异常.长江与黄河沉积物REE组成特征差异与两条河流流域的风化作用及沉积物的矿物组成密切相关,黄河∑REE的马鞍型分布是细粒级中黏土矿物吸附及粗粒级中相对高含量的重矿物富集作用的结果,而长江沉积物随粒级增大∑REE的衰减趋势主要是随粒级增大逐步增加的石英和长石含量的稀释作用所造成.     

Rare earth geochemistry in the dissolved, suspended and sedimentary loads in karstic rivers, Southwest China

The watershed in the central Guizhou Province (Guizhou Province is called simply Qian) (CQW) is a karstic area. Rare earth elements (REEs) of dissolved loads, suspended particulate material (SPM) and sediments of riverbed are first synthetically reported to investigate REE geochemistry in the three phases in karstic watershed during the high-flow season. Results show that the low dissolved REE concentrations in the CQW are attributed to these rivers draining carbonate rocks. The dissolved REE have significant negative Eu anomaly and coexistence of middle and light REE (MREE??PAAS-normalized La _N /Sm _N and Gd _N /Yb _N ; LREE??PAAS-normalized La _N /Yb _N )-enrichment, which are due to the dissolution of impure Triassic carbonates. REE concentrations in most of SPM exceed that of sediments in the CQW and the average continental crust (UCC). The SPM and the sediments show some common features: positive Eu, Ce anomalies, and MREE enrichment. The controls on the patterns seem to be from weathering profiles: the oxidation state, the REE-bearing secondary minerals (cerianite, potassium feldspar and plagioclase), which are also supported by the evidence of Y/Ho fractionations in the three phases.     

松辽盆地钱家店地区姚家组赋矿砂岩的组成、地球化学特征及其构造背景

松辽盆地钱家店地区姚家组砂岩矿物、地球化学成分与源区岩石性质和沉积构造环境密切相关。岩相学观察和矿物化学分析表明,所研究的岩石主要碎屑矿物由石英、岩屑和长石组成,含少量的黄铁矿、炭屑和重矿物等矿物。地球化学特征上,这些岩石普遍具有高SiO2含量(68.4%~79.61%)、相对高的K2O/Na2O比值(1.83~2.03)和较低的Fe2O3T+MgO含量(1.48%~4.22%),稀土元素标准化配分曲线呈现轻稀土富集,重稀土平坦和弱Eu、Ce负异常特征。较低的CIA(57~63)和PIA(60~71)指数、A-CN-K以及AK-C-N分布模式还说明源区经历了相对较弱的风化作用。Zr/Sc和Th/Sc比值共同表明姚家组的碎屑组成不具备沉积再旋回的特征,说明其为近源沉积,具有较差的分选性。砂岩物源区组成判别图研究表明,姚家组砂岩的物源区主要出露长英质岩浆岩。砂岩形成构造环境判别图解及特征指数分析表明,姚家组主要形成于被动大陆边缘沉积环境。     

Geochemistry of rare earth elements in the mainstream of the Yangtze River,China

Water, suspended matter, and sediment samples were taken from 8 locations along the Yangtze River in 1992. The concentration and speciation (exchangeable, bound to carbonates, bound to Fe–Mn oxides, bound to organic matter, and residual forms) of rare earth elements (La, Ce, Nd, Sm, Eu, Tb, Yb, and Lu) were determined by instrumental neutron activation analysis (INAA).The contents of the soluble fraction of REEs in the river are low, and REEs mainly reside in particulate form. In the particles, the chondrite-normalized distribution patterns show significant LREE enrichment and Eu-depletion. While normalized to shales, both sediments and suspended matter samples show relative LREE enrichment and HREE depletion. REEs are relatively enriched in fine-grained fractions of the sediments.The speciation characteristics of REEs in the sediments and suspended matter are very similar. The amount of the five forms follows the order: residual>>bound to organic matter∼bound to Fe–Mn oxides>bound to carbonates>>exchangeable. About 65 to 85% of REEs in the particles exist in the residual form, and the exchangeable form is very low. High proportions of residual REEs reveal that REEs in sediments and suspended matter are controlled by their abundances in the earth's crust. Carbonate, Fe–Mn oxide and organic fractions of REEs in sediments account for 2.4–6.9%, 5.2–11.1%, and 7.3–14.0% of the total contents respectively. They are similar to those in the suspended matter. This shows that carbonates, Fe–Mn oxides and organic matter play important roles during the particle-water interaction processes. By normalization to shales, the 3 forms of REEs follow convex shapes according to atomic number with middle REE (Sm, Eu, and Tb) enrichment, while light REE and heavy REE are depleted.     

Geochemistry of trace and rare earth elements during weathering of black shale profiles in Northeast Chongqing,Southwestern China: Their mobilization,redistribution, and fractionation

In this study, the mobilization, redistribution, and fractionation of trace and rare earth elements (REE) during chemical weathering in mid-ridge (A), near mountaintop (B), and valley (C) profiles (weak, weak to moderate, and moderate to intense chemical weathering stage, respectively), are characterized. Among the trace elements, U and V were depleted in the regolith in all three profiles, Sr, Nb, Ta, Zr, and Hf displayed slight gains or losses, and Th, Rb, Cs, and Sc remained immobile. Mn, Ba, Zn, Cu, and Cr were enriched at the regolith in profiles A and B, but depleted in profile C. Mn, Pb, and Co were also depleted in the saprock and fractured shale zones in profiles A and B and enriched in profile C. REEs were enriched in the regolith and depleted at the saprock zone in profiles A and B and depleted along profile C. Mobility of trace and REEs increased with increasing weathering intensity. Normalized REE patterns based on the parent shale revealed light REE (LREE) enrichment, middle REE (MREE), and heavy REE (HREE) depletion patterns. LREEs were less mobile compared with MREEs and HREEs, and this differentiation increased with increasing weathering degree. Positive Ce anomalies were higher in profile C than in profiles A and B. The Ce fractionated from other REE showed that Ce changed from trivalent to tetravalent (as CeO₂) under oxidizing conditions. Minimal REE fractionation was observed in the saprock zone in profiles A and B. In contrast, more intense weathering in profile C resulted in preferential retention of LREE (especially Ce), leading to considerable LREE/MREE and LREE/HREE fractionation. (La/Yb)_N and (La/Sm)_N ratios displayed maximum values in the saprock zone within low pH values. Findings demonstrate that acidic solutions can mobilize REEs and result in leaching of REEs out of the highly acidic portions of the saprock material and transport downward into fractured shale. The overall behavior of elements in the three profiles suggests that solution pH, as well as the presence of primary and secondary minerals, play important roles in the mobilization and redistribution of trace elements and REEs during black shale chemical weathering.     

Distribution and fractionation of rare earth elements and Yttrium in suspended and bottom sediments of the Kali estuary,western India

Concentrations of rare earth elements (REE) and yttrium (Y), and major metals (Al, Fe and Mn) were measured in suspended particulate matter (SPM) and bottom sediments of the Kali estuary, western India, for their distribution and fractionation. The contents of SPM and metals in it were more uniform along the longitudinal transect during the monsoon. During the post- and pre-monsoons, low SPM in the upper/middle estuary coincided with high Fe and Mn and total REE (∑REE). But in the lower estuary SPM and its ∑REE content increased seaward, while Fe and Mn decreased. The Y/Ho ratios decreased seaward during the monsoon but increased during the post-monsoon. Sm/Nd ratios were more uniform along the transect during monsoon but decreased marginally seaward in other seasons. The Post-Archean Average Australian Shale (PAAS)-normalized REE patterns exhibited middle REE and heavy REE enrichment with positive Ce (\({\text{Ce}}/{\text{Ce}}^{*}\)), Eu (\({\text{Eu}}/{\text{Eu}}^{*}\)) and Y anomalies. The \({\text{Ce}}/{\text{Ce}}^{*}\) increased but \({\text{Eu}}/{\text{Eu}}^{*}\) decreased marginally seaward. The fine-grained sediments showed higher ∑REE and lower Y/Ho ratios than in coarse-grained sediments. The PAAS-normalized REE patterns of sediment were similar to that of SPM. The results revealed two processes, colloidal flocculation and coagulation of metals in the low-salinity zone and an estuarine turbidity maximum in the high salinity zone. Rare earths and yttrium (REY) in SPM and sediments primarily reflected the source rock composition than that of chemical weathering. Apart from physico-chemical processes, the mineralogy and grain size of sediments controlled the distribution and fractionation of REY in the estuary.     

Mobility of rare earth elements in the system soils–plants–groundwaters: a case study of an arid area (Oman)

Groundwater samples from six wells and various species of plants from soils developed on ophiolites were collected from an arid area (AlKhod area, Oman) and analyzed for trace elements including rare earth elements (REEs). The distribution patterns of REEs in plants indicated an enrichment in middle REEs (MREEs?=?Sm to Dy) and heavy REEs (HREEs?=?Ho to Lu), when they are normalized to the REE composition of the Post Archean Australian Shale (PAAS), with a significant negative anomaly in Ce and a positive anomaly in Eu. Compared to Oman ophiolites, the REEs in different species of plants are depleted in Ce and enriched in MREEs and slightly enriched in light REE (LREE?=?from La to Nd). Relative to PAAS, the distribution of REEs in groundwaters revealed similar patterns to the REE distribution in plants. The distribution patterns of REEs in plants relative to those in waters are nearly flat. These patterns suggest that the transfer of REEs from soil solutions to the groundwaters in Oman occurs without any significant fractionation.     

Geochemistry of red residua underlying dolomites in karst terrains of Yunnan-Guizhou Plateau: II. The mobility of rare earth elements during weathering

The aim of this study is to characterize the evolution of the rare earth elements (REE) in the Pingba red residua on karst terrain of Yunnan-Guizhou Plateau. The in-situ weathering and the two-stage development of the profile had been inferred from REE criterions. The REE were significantly fractionated, and Ce was less mobilized and separated from the other REEs at the highly enriched top of the profile. This is consistent with the increase of oxidation degree in the regolith. And it is also suggested that the wet/dry climate change during chemical weathering caused Ce alternative change between enrichment and invariance in the upper regolith. Chondrite-normalized REE distribution patterns for samples from dolomites and the lower regolith are characteristic of MREE enrichment and remarkable negative Ce-anomalies patterns (similar to the convex-up REE patterns). The following processes are interpreted for the patterns in this study: (1) the accumulation of MRRE-rich minerals in dolomite dissolution, (2) water–rock interaction in the weathering front, and (3) more leaching MREE from the upper part of the profile. The latter two explanations are considered as the dominant process for the formation of the REE patterns. Samples from the soil horizon exhibit typical REE distribution patterns of the upper crust, i.e., La_N/Yb_N=10 and Eu/Eu*=0.65. All data indicate that the leaching process is very important for pedogenesis in this region. The experiments demonstrating that abnormal enrichment of REE at the upper regolith–bedrock interface is caused by a combination of volume change, accumulation of REE-bearing minerals, leaching of REE from the upper regolith, and water–rock interaction during rock–soil alteration processes. Our results support the conclusion that the weathering profile represents a large, continental elemental storage reservoir, whereas REE enrichment occurs under favorable conditions in terms of stable tectonics, low erosion and rapid weathering over sufficiently long time.     

辽东湾东南部海域柱状沉积物稀土元素地球化学特征与物源识别

对辽东湾东南部海域LDC30孔沉积物稀土元素（REE）、粒度等指标进行了分析,研究了其沉积物中稀土元素组成特征及其控制因素,并对其物质来源进行了探讨。结果表明,LDC30孔沉积物ΣREE平均值为149.49 μg/g,略高于黄海和东海,但是低于渤海和南海,并且低于全球沉积物ΣREE的平均值。研究区沉积物REE配分模式表现为明显的轻稀土富集、重稀土相对亏损;δEu的平均值为0.71,为中度亏损,δCe无异常;轻稀土与重稀土之间的分异作用较强,且轻重稀土内部分异明显。根据沉积物REE垂向变化特征,可将LDC30岩芯以51cm为界划分为两段,上段（0~51 cm）ΣREE含量随着深度的减小而呈增加的趋势,下段（51~99 cm）ΣREE含量在垂向上没有明显的波动变化,并且上段较下段稀土分异明显。δCe整体上比较稳定,但是在上段（0~51 cm）呈现下降的趋势。δEu垂向上也相对稳定的趋势。该孔沉积物REE参数与粒度之间无明显的相关性,REE组成不受粒度的控制,但重矿物对REE的组成和分布状况有重要的影响。LDC30孔沉积物物质来源比较稳定,并且具有强烈的陆源特征,其沉积物主要来源于辽东湾北部河流（大辽河、小凌河、双台子河等）,同时辽东湾西部河流滦河可能对LDC30孔上段沉积物有一定贡献。     

Rare-earth elements in Luochuan loess section,Shaanxi province

TheΣ REE in loesses of different ages in the Luochuan section shows a narrow range of variation, indicating the homogeneity of loessic materials in chemical composition. The REEs in loess are concentrated mainly in silt-sized detrital minerals. Loesses and paleosols of different ages all are relatively enriched in rare-earth elements of the Ce family, and show similar REE distribution patterns. The fractionation among various REEs in the loess is different from that in morainic, marine and lacustrine sediments, but is similar to that in sand samples from deserts in Northwest China. The ratios of Ce/Ce* and Eu/Eu* reflect that the provenance of loessic materials and their accumulating area are all in an oxidation environment with weakly basic mediums under arid or semi-arid climate.     

长江与黄河沉积物REE地球化学及示踪作用

长江与黄河沉积物的稀土元素（ＲＥＥ）组成特征不同。长江沉积物ＲＥＥ含量较高,元素含量变化也大于黄河样品;球粒陨石标准化模式表明长江沉积物的（Ｌａ／Ｌｕ）Ｎ、（Ｌａ／Ｙｂ）Ｎ、（Ｇｄ／Ｙｂ）Ｎ的值也相应地比黄河沉积物中的高１０％左右,分布曲线均呈明显的石倾状,轻重稀土分馏明显,相对富集ＬＲＥＥ。且长江样品比黄河样品更富集ＬＲＥＥ,但Ｅｕ亏损不及黄河样品;两者的北美页岩标准化曲线均呈平坦稍右倾状,具有