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阜新萤石成矿区稀土元素地球化学特征及指示意义 总被引:1,自引:0,他引:1
为了研究阜新萤石成矿机制,对其稀土元素地球化学特征进行了分析。阜新地区萤石矿赋存于早二叠世、晚三叠世和晚侏罗世花岗岩中。地球化学分析结果显示,所有萤石均具有弱的Ce负异常,其稀土配分模式存在3种类型:Eu明显亏损型、Eu弱亏损型和Eu富集型。萤石中稀土元素的含量并不随围岩中的稀土元素含量的增加而增加,晚期侵入的花岗岩富集轻稀土元素。从成矿早期到成矿晚期,萤石的稀土元素配分型式从Eu明显亏损型向富集型演化,稀土元素总量逐渐降低。赋存于早二叠世和晚三叠世花岗岩中萤石矿流体包裹体中SO42-含量及液相成分还原参数指标指示,成矿流体由还原条件向氧化条件转变,成矿物质主要来源于赋矿花岗岩。 相似文献
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萤石是四川牦牛坪稀土矿最重要的脉石矿物之一。根据稀土含量、有关参数及配分模式,矿区萤石可分为LREE富集型、KLEE平坦型和LREE亏损型3种,不同类型萤石之间以及每种类型萤石的稀土地球化学特征具有连续变化规律。分析结果表明:矿区3种类型的萤石为同源不同阶段形成的产物;矿床成矿流体主要来源于本区正长岩-碳酸岩岩浆演化分异的相对富集LREE的流体;矿床成矿过程中较少再有相对富集LREE的流体参与;成矿环境由相对氧化向相对还原变化。 相似文献
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《矿物学报》2015,35(1)
以康滇地轴古元古代拉拉铁氧化物-铜-金(IOCG)矿床中不同期次萤石的稀土元素为研究对象,讨论其地球化学特征及指示意义.研究结果表明:拉拉IOCG矿床中有变质期和热液期2期萤石产出,变质期萤石分为早晚2个阶段,与铜钼矿化关系密切,形成温度较高,为同源不同阶段产物;热液期萤石与变质期不同源,为后期热事件产物.萤石整体表现出REE总量高的特征;从早期到晚期,萤石稀土总量呈逐渐减少趋势;变质期萤石是矿床中主要的REE载体之一.变质期成矿流体稀土含量较高,热液期成矿流体稀土含量较低.稀土配分模式呈LREE富集、HREE亏损的右倾型,轻重稀土分异明显,萤石的稀土配分模式受溶液体系中REE络合物稳定性的影响.变质期萤石继承了钠质火山岩的Ce、Eu异常特征,形成变质期萤石的高温变质流体具有负Ce异常且同时存在Eu2+和Eu3+;热液期萤石成矿流体具有温度低、氧逸度高的特征.Y的含量变化可能是引起本矿床萤石颜色变化的原因之一,其含量与颜色深浅呈负相关关系. 相似文献
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以康滇地轴古元古代拉拉铁氧化物-铜-金(IOCG)矿床中不同期次萤石的稀土元素为研究对象,讨论其地球化学特征及指示意义。研究结果表明:拉拉IOCG矿床中有变质期和热液期2期萤石产出,变质期萤石分为早晚2个阶段,与铜钼矿化关系密切,形成温度较高,为同源不同阶段产物;热液期萤石与变质期不同源,为后期热事件产物。萤石整体表现出REE总量高的特征;从早期到晚期,萤石稀土总量呈逐渐减少趋势;变质期萤石是矿床中主要的REE载体之一。变质期成矿流体稀土含量较高,热液期成矿流体稀土含量较低。稀土配分模式呈LREE富集、HREE亏损的右倾型,轻重稀土分异明显,萤石的稀土配分模式受溶液体系中REE络合物稳定性的影响。变质期萤石继承了钠质火山岩的Ce、Eu异常特征,形成变质期萤石的高温变质流体具有负Ce异常且同时存在Eu2+和Eu3+;热液期萤石成矿流体具有温度低、氧逸度高的特征。Y的含量变化可能是引起本矿床萤石颜色变化的原因之一,其含量与颜色深浅呈负相关关系。 相似文献
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笔者总结了福建余朋—南口地区火把山萤石矿床的地质特征, 并通过萤石的微量元素及稀土元素地球化学特征, 探讨了矿床的成因及成矿物质、流体来源。萤石矿石的微量元素及稀土元素结果显示: 火把山萤石呈中等Eu负异常及弱Ce异常, 稀土元素配分模式具有轻稀土富集型及轻稀土弱亏损的平缓型等两种曲线型式。根据萤石矿石特征、微量元素、稀土元素等特征及Y/Ho-La/Ho图解, 可知萤石存在至少三期成矿地质作用。依据M?ller的Tb/La-Tb/Ca成因判别图解, 结合常口萤石矿床的萤石及围岩的稀土元素特征, 认为火把山萤石成矿流体一方面与常口大型萤石矿床受同一成矿流体场控制, 并在有利的部位富集成矿; 另一方面, 成矿热液流体流经下峰岩组发生了淋滤、萃取、交换作用, 形成了不同地球化学特征的另一成矿期次的萤石。综合分析认为, 火把山萤石矿床为受断裂控制的大气降水成因的中低温热液充填矿床。 相似文献
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本文采用四极等离子质谱仪(ICP-MS)方法测定了可可塔勒铅锌矿矿物流体包裹体的稀土元素含量。研究表明,成矿流体稀土元素配分模式均为轻稀土富集,Eu具有明显正异常。矿石硫化物流体包裹体稀土特征具有3种稀土配分模式,即平滑右倾型、平坦型、倒“V”字型,矿体下盘围岩的稀土总量明显高于上盘围岩的稀土总量,具有明显的Eu的负异常,成矿流体具有多来源、成矿具有多阶段叠加特点,具有双淋滤模式特征。 相似文献
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苏莫查干敖包超大型萤石矿床的稀土元素地球化学特征及其成因意义 总被引:8,自引:1,他引:7
苏莫查干敖包萤石矿床是位于内蒙古四子王旗北部的一个世界级单一萤石矿床,产出于早二叠世大石寨组火山-沉积岩与早白垩世卫境花岗岩体的外接触带上.萤石的成矿作用分为早、晚2期,早期的萤石主要是纹层状、条带状和细晶块状萤石,晚期的萤石主要呈伟晶状、混合伟晶状;而含硫化物的纹层状、细晶块状萤石含量少且分布局限.不同类型萤石的稀土元素配分模式可以分为3类:A类是早期萤石,其稀土元素配分模式表现为略呈轻稀土元素富集的特点,配分曲线近于平坦,没有Eu异常.B类萤石的稀土元素配分模式不具有普遍性,在其配分曲线中自Tb-Er呈现顶背式突起(roof-like),并具有明显的Eu正异常,主要为含硫化物的纹层状、细晶块状矿石;C类是晚期萤石,稀土元素配分模式表现为重稀土元素富集的特点,既有Eu正异常,又有Eu负异常.A类萤石的稀土元素配分模式代表了萤石成矿作用的早期热液活动的特征,稀土元素在成矿流体中主要以吸附作用存在和运移,成矿流体主要是岩浆来源的高温、高盐度流体,成矿流体与大石寨组流纹岩、流纹质凝灰岩和大理岩的水岩反应是导致萤石从成矿流体中沉淀的主要机制;C类萤石稀土元素配分模式反映了成矿流体经历了较为长期的演化和分异,稀土元素在流体中主要以络离子形式存在和运移,其成矿流体低温、低盐度,有大气降水的加入,指示该阶段萤石从热液中沉淀结晶的主要机制是2种不同端员流体的混合,即岩浆来源的高盐度、高温流体和以大气降水为主要来源的低温、低盐度流体的混合;B类萤石的稀土元素配分模式反映了一次高含硫化物的局部热液事件,在萤石的成矿作用中不具有普遍意义,稀土元素在流体中是以络离子形式存在和运移的.微量元素研究表明各期次萤石的微量元素变化相似,都具有高的Ni含量,指示成矿物质源区的一致性.在Tb/La-Tb/Ca图解中,所有样品都分布在热液萤石区域,指示矿床属于岩浆热液型矿床. 相似文献
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为了探讨浙江天台盆地下陈萤石矿床的成矿机理、成矿物质来源与演化,对其地质背景、微量和稀土元素地球化学特征进行了研究。研究结果表明:天台盆地下陈萤石矿中围岩的稀土总量、轻稀土、中稀土和重稀土的含量远高于矿石。萤石、石英和围岩的稀土元素特征均为轻稀土相对富集,重稀土显示相对亏损,(La/Yb)_N通常多数大于8,配分曲线显示较陡的右倾斜。萤石的Eu均呈弱正异常,而石英则呈现弱的Eu负异常,萤石和石英的Ce基本不显异常。根据La/Ho-Y/Ho关系图,该成矿带上萤石的成矿物质是同源的,且萤石与石英为同期形成的产物。天台盆地下陈萤石矿的成矿物质Ca元素可能主要来自朝川组紫红色沉积岩,F的来源除了朝川组地层以外,陈蔡群变质岩系也应是F的主要来源之一。根据矿床地质特征及其Tb/Ca-Tb/La关系图可知,其为低温热液成因——断裂带充填交代型矿床。 相似文献
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黔东北沿河大竹园萤石矿赋存于下奥陶统桐梓组及红花园组碳酸盐岩内,受NW向断裂构造控制。该类萤石矿床在黔东北及渝东南一带广泛分布。本文对该萤石矿床的萤石单矿物及围岩进行了微量元素及稀土元素地球化学分析,结果显示萤石的微量元素仅Pb、Zn、Co、Ni等元素含量相对较高,Rb、Sr、Ta、Zr、Nb、V、Cr、U、Th、Hf等元素含量仅为地壳值的0.01~0.05倍。稀土元素含量很低(∑REE=2.35×10–6~4.80×10–6),相对富集轻稀土元素(LREE/HREE=3.12~6.33),具有Eu正、负异常(δEu=0.59~1.59)和Ce负异常(δCe=0.80~0.96)。萤石与赋矿围岩具有相近的微量元素配分型式,均明显亏损Nb、Zr、Hf等元素,富集Ba、U、Sr等元素。萤石与赋矿碳酸盐岩都具有轻稀土相对富集、重稀土相对亏损,明显右倾的REE配分型式。综合分析认为该萤石矿的成矿物质Ca主要来源于碳酸盐岩围岩;而碳酸盐岩围岩的F元素含量很低,结合萤石的微量元素及δEu、δCe值特征,暗示形成萤石的成矿流体经过了深部演化,成矿物质F可能主要来自深部富F地层。 相似文献
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晴隆锑矿床中萤石的稀土元素特征及其指示意义 总被引:18,自引:0,他引:18
本文系统地研究了黔西南晴隆锑矿床中萤石的稀土元素地球化学,表明不同颜色、不同矿物组合的萤石的稀土元素含量变化较大,但具有固定的REE分配模式,以明显的负Ce异常、富MREE、分配曲线相对平缓为特征;这种配分模式主要是受其晶体化学因素的控制,而与溶液中REE络合物的稳定性关系不大。萤石的稀土元素组成与其矿物共生组合关系不大,但与其颜色关系较密切。萤石的Ce、Eu异常主要是受氧逸度的控制,流体源区的氧逸度较高,矿物沉淀场所的氧逸度相对较低,从而导致该矿中萤石呈明显的负Ce异常,或正或负的Eu异常。晴隆锑矿床形成于开放体系条件下,水/岩反应很可能是导致萤石发生沉淀的主要机制。萤石中的Ca部分来自茅口组灰岩,部分来自大厂层玄武岩;而矿化剂F可能主要来自外部。 相似文献
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Gehad M. Saleh 《中国地球化学学报》2007,26(4):333-344
The field relations, mineralogy, and major and trace elements (including REE analyses of whole-rock samples and minerals) of granites and their associated molybdenite uranium mineralized aplites in Southeastern Desert, Egypt, have been studied. The granites are leucocratic and mostly peraluminous in nature with muscovite increasing at the expense of biotite. The chemical and mineralogical characteristics of the granitic rocks indicate that their melts originated from the LILE-enriched mantle wedge by partial melting and are contaminated by crustal melts, followed by thermogravitational processes. Leucogranites with higher Na2O/K2O ratios from Um Dargag and Um Maiat crystallized under H2O-saturated equilibrium conditions in which the exsolved vapor continuously migrated away. The REE patterns of the granites studied are characterized by LREE enrichments and negative Eu anomalies. In comparison, the potassic aplites and the more sodic leucogranites are depleted in LREE, enriched in HREE and show more remarkable negative Eu anomalies. Allanite and monazite are the most important REE carriers in the granites. These minerals are strongly enriched in LREE, whereas fluorite and xenotime, which are more abundant in the aplites, are enriched in HREE. The average Lu/Ce ratio represents the fractionation trend with respect to HREE. It is 0.71 for radioactive fluorite, and it increases to 1.22 for non-radioactive fluorite. The high REE contents of molybdenite represent re-deposition of the mobilized Mo and REE. Due to the strong control of accessory minerals, the REEs are of limited use in petrogenetic modelling of highly evolved granitic systems. 相似文献
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The younger granites in Finland contain more REE than the older ones. In the youngest, postorogenic rapakivi granites, the total REE concentration is highest, the light REE are more enriched, and the negative Eu anomaly is more pronounced than in the older granites. The enrichment of the light REE, the anomalous behavior of the extreme elements (La, Ce, and Lu) in normalized graphs, and the depletion of Eu indicate the degree of differentiation the rock has undergone. These features are usually more pronounced in large, homogeneous granites than in metamorphic or volcanogenic rocks. Silicic vein rocks usually contain less REE than the granites proper; the distribution pattern in many is as in granites, but in some the heavy elements are more enriched. The positive Eu anomaly in Precambrian metamorphic rocks is tentatively attributed to metamorphic differentiation and to the secretion of silicic material from the host rock. 相似文献
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Two submarine hydrothermal vent fields at 5°S, Mid-Atlantic Ridge (MAR) - Turtle Pits and Comfortless Cove - emanate vapor-phase fluids at conditions close to the critical point of seawater (407 °C, 298 bars). In this study, the concentration and distribution of rare earth element (REE) and yttrium (Y) has been investigated. Independent of the major element composition, the fluids display a strong temporal variability of their REE + Y concentrations and relative distributions at different time scales of minutes to years. Chondrite-normalized distributions range from common fluid patterns with light REE enrichment relative to the heavy REE, accompanied by positive Eu anomalies (type I), to strongly REE + Y enriched patterns with a concave-downward distribution with a maximum enrichment of Sm and weakly positive or even negative Eu anomalies (type II). The larger the sum of REE, the smaller CeCN/YbCN and Eu/Eu∗. We also observed a strong variability in fluid flow and changing fluid temperatures, correlating with the compositional variability.As evident by the positive correlation of total REE, Ca, and Sr concentrations in Turtle Pits and Comfortless Cove fluids, precipitation/dissolution of hydrothermal anhydrite controls the variability in REE concentrations and distributions in these fluids and the transformation of one fluid type to the other. The variable distribution of REE can be explained by the accumulation of particulate anhydrite (with concave-downward REE distribution and negative Eu anomaly) into a fluid with common REE distribution (type I), followed by the modification of the REE fluid signature due to dissolution of incorporated anhydrite. A second model, in which the type II fluids represent a primary REE reaction zone fluid pattern, which is variably modified by precipitation of anhydrite, can also explain the observed correlations of total REE, fractionation of LREE/HREE and size of Eu anomaly as well as Ca, Sr. The emanation of such a fluid may be favored in a young hydrothermal system in its high-activity phase with short migration paths and limited exchange with secondary minerals. However, this model is not as well constrained as the other and requires further investigations.The strongly variable REE fluid signature is restricted to the very hot, actively phase-separating hydrothermal systems Turtle Pits and Comfortless Cove at 5°S and has not been observed at the neighboring Red Lion vent field, which continuously emanates 350 °C hot fluid and displays a stable REE distribution (type I). 相似文献
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新疆蒙库铁矿床稀土元素地球化学及对铁成矿作用的指示 总被引:16,自引:4,他引:16
新疆富蕴县蒙库大型铁矿呈层状、似层状、透镜状赋存于下泥盆统康布铁堡组变质火山-沉积岩系中.矿体中发育矽卡岩,但矽卡岩并不产在侵入岩接触带上.绿帘石、石榴石和矿石的稀土配分模式具有相似性,均为轻稀土富集,正铕异常,基本上无铈异常,暗示它们之间存在成因联系.石榴石稀土配分模式呈折线型,具有明显的正铕异常,石榴石流体包裹体中熔融包裹体、熔流包裹体和气液包裹体共存,表明石榴石矽卡岩具有岩浆成因和热液成因的特征,形成于晶体 熔体 流体三相共存的岩浆-热液过渡阶段.矿床地质特征、矽卡岩矿物和矿石稀土特征表明蒙库铁矿为矽卡岩型矿床. 相似文献
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萤石经常以脉石矿物存在于各类金属矿床中,但以矿石矿物与金属矿物共存较为少见。布拖小洞子铅锌矿体和萤石矿体是赋存在震旦系灯影组不同部位的典型矿床,受四开-交际河断裂的次级断层带控制,是该区较为特殊,研究程度较低的一类矿床。其中萤石矿床产于与黑色燧石条带白云岩相关的断裂构造,矿石矿物以萤石为主。本文通过对震旦系灯影组下部萤石矿床开展稀土元素地球化学研究,结果表明轻稀土元素富集,重稀土元素略亏损,LREE/HREE介于0.96~1.61,(La/Yb)_N为1.19~3.23,稀土元素配分图表现出略微右倾的特征,具Eu正异常和Ce负异常特征。Tb/Ca-Tb/La、Y/Ho-La/Ho及La/Yb-∑REE等图解表明小洞子萤石矿床主要为同一体系不同阶段的热液产物,破碎带充填交代型矿床成因,其成矿物质来源与灯影组地层和峨眉山玄武岩热液有关。 相似文献
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The accessory minerals apatite and sphene are the main carriers of REE in alkaline rocks.Their chondrite-normalized REE patterns decline sharply to the right as those of the host rocks,In the patterns an obvious negative Eu anomaly and a positive Ce anomaly can be seen in apatite and sphene,respectively.Zircon from alkaline rocks is different in REE pattern,I,e,. a nearly symmetric“V“-shaped pattern with a maximum negative Eu anomaly.Compared with the equivalents from granites,apatite,sphene and zircon from alkaline rocks are all characterized by higher (La/Yb)N ratio and less Eu depletion,As to the relative contents of REE in minerals,apatite,sphene and zircon are enriched in LREE,MREE and HREE respectively,depending on their crystallochemical properties. 相似文献