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1.
<正>Carbonatites are commonly related to the accumulation of economically valuable substances such as REE.Cu,and P.The debate over the origin of carbonatites and their relationship to associated silicate rocks has been ongoing for about 45 years.Worldwide,the rocks characteristically display more geochemical enrichments in Ba,Sr and REE than sedimentary carbonate rocks.However,carbonatite's geochemical features are disputed because of secondary mineral effects.Rock-forming carbonates from carbonatites at Qinling.Panxi region,and Bayan Obo in China show REE distribution patterns ranging from LREE enrichment to flat patterns.They are characterized by a Sr content more than 10 times higher than that of secondary carbonates.The coarse- and fine-grained dolomites from Bayan Obo H8 dolomite marbles also show similar high Sr abundance,indicating that they are of igneous origin.Some carbonates in Chinese carbonatites show REE(especially HREE) contents and distribution patterns similar to those of the whole rocks.These intrusive carbonatites display lower platinum group elements and stronger fractionation between Pt and Ir relative to high-Si extrusive carbonatite.This indicates that most intrusive carbonatites may be carbonate cumulates.Maoniuping and Daluxiang in Panxi region are large REE deposits.Hydrothermal fluorite ore veins occur outside of the carbonatite bodies and are emplaced in wallrock syenite.The fiuorite in Maoniuping has Sr and Nd isotopes similar to carbonatite.The Daluxiang fiuorite shows Sr and REE compositions different from those in Maoniuping.The difference is reflected by both the carbonatites and rock-forming carbonates,indicating that REE mineralization is related to carbonatites.The cumulate processes of carbonate minerals make fractionated fluids rich in volatiles and LREE as a result of low partition coefficients for REE between carbonate and carbonatite melt and an increase from LREE to HREE.The carbonatite-derived fluid has interacted with wallrock to form REE ore veins.The amount of carbonatite dykes occurring near the Bayan Obo orebodies may support the same mineralization model,i.e.that fluids evolved from the carbonatite dykes reacted with H8 dolomite marble,and thus the different REE and isotope compositions of coarse- and fine-grained dolomite may be related to reaction processes. 相似文献
2.
Chengyu Wu 《Resource Geology》2008,58(4):348-354
The Bayan Obo Fe‐REE‐Nb deposit is the world’s largest rare earth element (REE) resource and its genesis has been the subject of much debate for many years. The most popular are the carbonatite‐related and hydrothermal Fe oxide‐Cu‐Au‐(REE‐U) genetic models. Comparisons of geologic setting, lithology, mineral assemblages, metal associations, geochemistry (particularly REE and light REE/heavy REE ratios), fluid chemistry and isotopics indicate that the Bayan Obo deposit shares features of both types, which are classified differently; that is, the carbonatites model is host‐rock based, while the Fe oxide‐Cu‐Au‐(REE‐U) model is essentially mineral assemblage and metal association based. A speculative classification scheme is tentatively put forward to link the two models, but many questions remain for further studies. 相似文献
3.
《International Geology Review》2012,54(14):1720-1731
The origin of the Bayan Obo ore deposit, the largest REE deposit in the world, has long been debated and various hypotheses have been proposed. Among them is that the Bayan Obo ore deposit is correlated with and has the same origin as the Sailinhudong micrite mound in the southern limb of the Bayan Obo synclinorium. To test this model, the Bayan Obo ore deposit and the Sailinhudong micrite mound are systematically compared for their geological features, elemental geochemistry, and C, O, and Mg isotopic geochemistry. We show that the Bayan Obo ore deposit and the Sailinhudong micrite mound are both calcareous, lens-like in shape, lack bedding features, and are both hosted in a sedimentary formation that consists of clastic sediments and carbonates, unconformably overlying the Archaean–Palaeoproterozoic crystalline basement. However, their geochemical characteristics differ markedly. Compared with the Sailinhudong micrite carbonates, the Bayan Obo ore-hosting dolomite marbles are strongly enriched in LREEs, Ba, Th, Nb, Pb, and Sr, and have very different (PAAS)-normalized REE patterns. Sailinhudong micrite carbonates have higher δ13CPDB and δ18OSMOW values, falling into the typical sedimentary field, but the Bayan Obo ore-hosting dolomites are isotopically intermediate between primary igneous carbonatite and typical sedimentary limestone. The δ26 Mg values of the Sailinhudong micrite carbonates are lighter than those of normal Mesoproterozoic sedimentary dolostone, while those of the Bayan Obo ore-hosting dolomite marble are isotopically heavier, similar to δ26 Mg of mantle xenoliths and Bayan Obo intrusive carbonatite. We conclude that the Bayan Obo ore deposit is not correlated with the Sailinhudong micrite mound; it is neither a micrite mound nor an altered micrite mound. 相似文献
4.
白云鄂博碳酸岩型REE-Nb-Fe矿床——一个罕见的中元古代破火山机构成岩成矿实例 总被引:16,自引:4,他引:16
白云鄂博碳酸岩型REE-Nb-Fe矿床是世界上最大的稀土矿床。稀土矿石产于整个白云石碳酸岩体和部分脉状碳酸岩中。对比世界上20余个火成碳酸岩地区的特征后发现,白云鄂博地区完全具备国外火成碳酸岩区的地质特征。在岩石、矿石组合上,本区也发育一套碳酸岩+超基性岩+碱性基性岩(含基性熔岩)+碱性岩+稀土矿石+铁矿石组合;在矿物组合上,以白云石为主,方解石次之,伴生一套碱性闪石、长石、霓石、磷灰石、萤石、磁铁矿、稀土矿物组合;在全岩化学成分、微量元素、稀土元素和Sr、Nd、Pb、C、O同位素上,这些岩石具有一定的亲缘关系,有着共同的来源;在岩体的形态与岩石组构上,它们以岩席、岩筒和脉岩的形式出现,并发育有强烈的熔离作用与流动构造;在区域构造上,发育隐伏穹窿构造、岩筒构造和巨型断裂汇聚构造。综合分析上述特征表明:白云鄂博地区具有中元古代破火山机构的痕迹,赋矿白云石碳酸岩体则是顺层侵入的火成碳酸岩体,东矿、主矿可能是一个火山颈构造控矿,而赋矿白云石碳酸岩体西南侧的苏木图矿床则是隐伏岩筒构造控矿。 相似文献
5.
内蒙白云鄂博矿区H9中火山岩岩石特征及其意义 总被引:18,自引:1,他引:18
白云鄂博矿区H_9地层岩石被中外学者长期看作是板岩或页岩,经近期研究发现岩性极为复杂。H_9地层岩石是一套呈互层产出的粗面岩、流纹岩、流纹英安岩、变辉绿岩、白云岩、石英岩、黑云母岩、钠闪石-长石岩、钠辉石-长石岩、红柱石-黑云母角岩及碳质绢云板岩等。文中详细论述了这些火山岩石的结构构造、矿物成分和岩石化学成分,以及微量元素。对H_9地层中火山岩,尤其是粗面质火山碎屑岩的确定,对了解白云鄂博矿床的成因和白云鄂博群形成的地质背景有重要意义。 相似文献
6.
霓长岩岩石学特征及其地质意义评述 总被引:9,自引:2,他引:7
本文以几个典型实例,综合评述了与碱性岩和碳酸岩有关的碱质交代蚀变岩-霓长岩的岩石学特征。按照在霓长岩化作用过程中形成的新生矿物组合、结构构造、化学成分、空间分布及物质来源等特征,霓长岩可以分为低级、中级、高级、接触和脉状等5种类型。控制霓长岩化作用5的主要因素包括:(1)碳酸岩或者碱性岩的岩石学特征和侵位条件;(2)流体的来源、性质和成分;(3)围岩的矿物组合、结构构造和化学成分;(4)霓长岩化作 相似文献
7.
白云鄂博碳酸盐矿物的矿物化学成分标型特征 总被引:5,自引:1,他引:4
对白云鄂博地区不同产状的碳酸盐矿物进行了系统的电子探针分析,其结果表明白云鄂博REE-Nb-Fe矿床的赋矿白云岩中,无论是粗粒结构的,还是细粒结构的白云岩,其主要造岩矿物白云石或者铁白云石均具高锰(MnO〉0.5wt%)和高锶(SrO〉1.5wt%)的特征,与矿床北东方向0 ̄3.5km范围内切割五台群花岗片麻岩-混合岩及白云鄂博群碎屑岩的火成碳酸岩岩墙中的碳酸盐矿物非常相似。它们完全不同于宽沟段裂以北典型沉积石灰岩厦白云质石灰岩中的方解石和白云(MnO<0.1wt% ,SrO<0.1wt% )。赋矿白云岩中自云石的锶和锰含量系统变他反映碳酸岩浆发生了分离结晶作用,其结果可以导致其余岩浆中REE高度富集.本文认为碳酸盐矿物的锶和锰含量可以作为识别其成囡的重要标型特征,其氧化物MnO>0.15wt% 和Sr>0.15wt%为火成碳酸岩的标志。 相似文献
8.
白云鄂博矿床赋矿岩石的自交代现象及其意义 总被引:3,自引:0,他引:3
通过对白云鄂博矿床赋矿岩石(白云岩和富钾板岩)的自交代现象研究论证其成因,认为白云岩的原岩是碳酸岩质岩浆岩,富钾板岩是一套沉积-火山岩系,其中微晶-隐品质钾长石岩为粗面质火山碎屑岩或凝灰岩。 相似文献
9.
白云鄂博陆缘裂谷系沉积物源与超大型稀土矿床含矿白云岩的成因探讨 总被引:3,自引:0,他引:3
白云鄂博群尖山组H4岩性段石英砂岩中的碎屑锆石年龄纪录了华北克拉通北缘两期重要的构造岩浆事件,一组年龄集中在新太古代—古元古代初期(2379~2596Ma),另一组年龄集中在古元古代晚期(1761~1946Ma),该结果与白云鄂博地区基底岩石的锆石年龄相吻合。白云鄂博群沉积碳酸盐岩的全岩207Pb-206Pb等时线年龄1649±45Ma,代表了白云鄂博群的沉积时代。白云鄂博地区沉积灰岩、白云岩与含矿白云岩的Pb同位素组成存在非常大的差异,在Pb同位素组成和构造图解中,含矿白云岩都集中在地幔演化线附近,靠近亏损地幔端元[(206Pb/204Pb)i=15.04~16.49,(207Pb/204Pb)i=15.17~15.28,(208Pb/204Pb)i=31.20~36.40],而白云鄂博群中的灰岩、白云岩则位于造山带演化线附近,靠近深海沉积物端元[(206Pb/204Pb)i=17.28~19.35,(207Pb/204Pb)i=15.47~15.69,(208Pb/204Pb)i=36.62~37.12]。 相似文献
10.
白云鄂博——一个典型的碱性-碳酸岩杂岩的厘定 总被引:16,自引:9,他引:16
在内蒙古白云鄂博地区发育着一套由碱性-碳酸岩杂岩(原H_8)、碳酸岩岩墙群、沉积—火山岩系(原H_9)、矿区浅成中基性岩岩墙群和角砾橄榄岩体群等组成的独具特色的大型杂岩。 白云鄂博Nb-Fe-RE超大型矿床其赋矿碳酸岩(H_8),长期被误认为沉积白云岩。根据综合对比研究表明,赋矿H_8同本区典型的火成碳酸岩岩墙群和世界同类碳酸岩存在着高度的相似性。而与本区典型沉积岩剖面中的腮林忽洞微晶丘和白云岩却完全迥异。故白云鄂博矿床赋矿H_8实为一典型的碱性—碳酸岩杂岩。在岩石分类学上,采用CaO-MgO-(FeO十Fe_2O_3+MnO)三端元组分分类图解,将本区碳酸岩类划分为两大独立的岩石分区,即:以方解石碳酸岩为代表的钙质碳酸岩类(Ⅰ类)和以含铁白云石或铁白云石碳酸岩为代表的镁质碳酸岩类(Ⅱ类)。前者岩浆成分属Ca Fe质系列,后者属Mg Fe质系列,两者均具有富铁演化趋势。 对世界上主要火成碳酸类(不含Na质碳酸岩)进行的统计结果,同样给出了两大独立的岩石类型分区(即Ⅰ类和Ⅱ类)和两大岩浆成分系列(Ca Fe质和Mg Fe质)。这一结果则与本区碳酸岩实际有着惊人地一致。它反映一个无可争辨的事实,即全球碳酸岩所固有的成岩成矿专属性,这一属性不受产地、成岩时代和产状等的约束,而表现一致共有的普遍规律。 赋矿碳酸岩体 相似文献
11.
Carbonatite dykes at bayan Obo,inner Mongolia,China 总被引:17,自引:0,他引:17
M. J. Le Bas J. Kellere Tao Kejie F. Wall C. T. William Zhang Peishan 《Mineralogy and Petrology》1992,46(3):195-228
Summary Calcite-rich dykes occur in the thrust fold belt near the Bayan Obo rare earth element (REE) deposit. They cut a thrust inlier of granitic migmatite within folded Bayan Obo Group sediments of Proterozoic age. Cathodoluminescence, X-ray fluorescence and microprobe studies show that the rock is a calcite carbonatite with Sr-Mn-bearing calcite, magnesio-riebeckite, apatite, pyrochlore, K-feldspar and biotite. One dyke was chosen for detailed analysis. Its margin is strongly REE-mineralized with much monazite developed adjacent to zoned apatite. Secondary alteration is marked by the introduction of Fe and Mn. The adjacent migmatite is fenitized to a magnesio-riebeckite-albite rock. The sedimentary dolomite of the Bayan Obo Group is composed mainly of Mn-Sr-RE-hearing ferroan dolomite and contains bands of opaque grains, apatite, monazite, fluorite and taeniolite. Many trace element and isotope similarities between the carbonatite dyke and the sedimentary dolomite are revealed, and the evidence supports the possibility that the dolomite is a dolomitized carbonatite tuff. The Bayan Obo REE mineralization also shows geochemical similarities with the mineralization seen in the carbonatites, and a possible genetic connection is presented.
With 16 Figures 相似文献
Die Karbonatit-Gänge von Bayan Obo, Innere Mongolei, China
Zusammenfassung Kalzit-reiche Gänge kommen im Faltengürtel in der Nähe der Seltenen-Erd-Lagerstätte Bayan Obo vor. Es handelt sich um hellbräunliche, 1–2 m mächtige Gänge, die migmatitische Orthogneise von granitischer Zusammensetzung innerhalb der gefalteten Sedimente der Bayan Obo Gruppe durchsetzen. Chemische Daten, die auf Kathoden-Lumineszenz, Röntgen-Fluoreszenz und Mikrosondenuntersuchungen beruhen, zeigen, daß es sich hier um einen Kalzit-KazhooudimdSr-Mo-führeodem Kalzit, Magnesio-Riebeckit Apatit, Pyrochlor Alkalifelds und Biotit handelt. Einer dieser Gänge wurde für eine eingehende Untersuchung ausgewählt. Seine randlichen Partien sind stark mit SEE mineralisiert, und viel Monazit kommt in der Nähe von zonar gebautem Apatit vor. Sekundäre Umwandlung wird durch die Zufuhr von Fe und Mn markiert. Der benachbarte Migmatit ist fenitisiert und dadurch in ein Magnesio-Riebeckit-Gestein umgewandelt. Der sedimentäre Dolomit der Bayan-Obo-Gruppe besteht hauptsächlich aus Mn-Sr-SE-führenden eisenhaltigen Dolomit und enthält Lagen von opaken Mineralen, Apatit, Monazit, Fluorit und Taeniolit. Karbonatitgänge und der sedimentäre Dolomit zeigen Ähnlichkeiten, was den Spurenelementgehalt und die isotopische Zusammensetzung betrifft. Diese Daten weisen auf die Möglichkeit hin, daß der Dolomit ein dolomitisiert Karbonatit-Tuff ist. Die SEE-Vererzung von Bayan Obo zeigt auch geochemische Ähnlichkeiten mit der Vererzung der Karbonatite, und ein möglicher genetischer Zusammenhang wird diskutiert.
With 16 Figures 相似文献
12.
13.
Geochemical constraints on the genesis of the Bayan Obo Fe-Nb-REE deposit in Inner Mongolia, China 总被引:2,自引:0,他引:2
Trace element and isotopic compositions of carbonate from ore bodies, country rock which hosts the ore bodies (H8 dolomite), a carbonatite dyke exposed in Dulahala near Bayan Obo, and rare earth element (REE)-rich dolomite in Bayan Obo have been determined to understand the genesis of the Bayan Obo Fe-Nb-REE ore deposit, the world’s largest resource of REE. The REE and trace element distribution patterns of samples from the REE-rich carbonatite dykes are identical to those of mineralized carbonate rocks, indicating a genetic linkage between the REE-rich carbonatite and mineralization in this region. By contrast, carbon and oxygen isotopes in the mineralized carbonate varied significantly, δ13C = −7.98‰ to −1.12‰, δ18O = 8.60-25.69‰, which are distinctively different from those in mantle-derived carbonatite. Abnormal isotopic fractionations between dolomite and calcite suggest that these two minerals are in disequilibrium in the carbonatite dyke, ore bodies, and H8 marble from Bayan Obo. This isotopic characteristic is also found in mineralized sedimentary marine micrite from Heinaobao, ∼25 km southeast of the Bayan Obo Fe-Nb-REE ore deposit. These facts imply that the carbonate minerals in the Bayan Obo deposit have resulted from sedimentary carbonate rocks being metasomatised by mantle-derived fluids, likely derived from a REE-enriched carbonatitic magma. The initial Nd isotope values of ore bodies and carbonatite dykes are identical, indicating that ore bodies, carbonatite dykes and veins may have a similar REE source. 相似文献
14.
对白云鄂博矿床大地构造环境的几点认识 总被引:1,自引:0,他引:1
分布于华北地台北缘的白云鄂博群厚万米,EW向展布长500km,宽20-50km,以碎屑岩为主,碳酸盐岩约占1/10。1997年,我们首次确定厚千余米的含矿岩系为海相火山沉积稀有金属碳酸岩—粗面岩;1982的,李继亮确定厚320m的次闪绿帘石岩(H15)为裂陷槽中的细碧角斑岩系。从而奠定了白云鄂博群属象谷沉积的基础。世界上许多富含轻稀土和铌和碱性岩、碳酸岩多产于裂谷系中。白云鄂博矿床中的特殊元素组合和稳定同位素组成只有裂谷带下的异常地幔才能提供。大量Sm-Nd同位素年龄资料说明白云鄂博矿床稀土成矿时代主要是中元古代,更证明了矿床成矿作用与裂谷发展的同步性。 相似文献
15.
A rare earth element-rich carbonatite dyke at Bayan Obo, Inner Mongolia, North China 总被引:8,自引:0,他引:8
Summary ?A carbonatite dyke, extremely enriched in rare earth elements (REE), is reported from Bayan Obo, Inner Mongolia, North China.
The REE content in the dyke varies from 1 wt% to up to 20 wt%. The light REEs are enriched and highly fractionated relative
to the heavy REEs, and there is no Eu anomaly. Although carbon isotope δ13C (PDB) values of the carbonatites (−7.3 to −4.7‰) are within the range of normal mantle (−5±2‰), oxygen isotope δ18O (SMOW) (11.9 to 17.7‰) ratios apparently are higher than those of the mantle (5.7±1.0‰), indicating varying degrees of exchange
with hydrothermal fluids during or after magmatic crystallization. The carbonatite is the result of partial melting followed
by fractional crystallization. Primary carbonatite melt was formed by less than 1% partial melting of enriched mantle, leaving
a garnet-bearing residue. The melt then rose to a crustal magma chamber and underwent fractional crystallization, producing
further REE enrichment. The REE and trace element distribution patterns of the carbonatites are similar to those of fine-grained
dolomite marble, the ore-host rock of the Bayan Obo REE–Nb–Fe giant mineral deposit. This fact may indicate a petrogenetic
link between the dykes described here and the Bayan Obo mineral deposit.
Received November 1, 2001; revised version accepted June 16, 2002 相似文献
16.
论内蒙古白云鄂博群和白云鄂博超大型稀土-铌-铁矿床成矿的年代 总被引:13,自引:1,他引:12
白云鄂博稀土铌铁矿床具十分独特的地质、地球化学特征.所以多时代成矿是难以置信的.白云鄂博矿床成矿时间势必晚于赋矿白云岩及其下伏地层.而较多的地层古生物证据表明白云鄂博群形成于震旦纪至奥陶纪之间.基于赋矿白云岩是热水沉积形成,碳酸盐脉是同源热液交代变质岩或砂岩等形成的认识,笔者等认为,碳酸盐脉中的锆石可能是变质岩或砂岩中的锆石,它们虽被热液改造,其U-Pb年龄仍可能老于成矿年龄.已报道的白云鄂博矿床Sm-Nd等时线年龄虽然主要集中在1.2~1.6 Ga.但也有多个分别为0.4~O.5 Ga、0.8~0.9 Ga和1.O~1.1 Ga的年龄值.笔者等收集了所有已发表的98件白云鄂博矿床矿石、矿物及碳酸岩墙和上覆板岩的Sm-Nd年龄分析数据,用Isoplot程序计算,发现这些数据,除两件异常外,可以拟合成一条直线,相关系数R=0.96325,求得等时线年龄t=1125.8±32.5 Ma,εNd=-3.02.这一结果表明在1125.8±32.5 Ma白云鄂博Sm-Nd同位素时钟启动,且未再受后来的地质作用扰动,指示成矿作用应晚于或等于1.1 Ga,但地质意义尚待研究.若假定Sm-Nd同位素时钟不易被一般地质作用重置,则可以采信白云鄂博矿床辉钼矿的R.e-Os模式年龄(439±8 Ma)或黄铁矿Re-Os等时线年龄(439±86Ma)为白云鄂博的成矿年龄.这与赋矿地层的古生物化石年代相符. 相似文献
17.
稀土元素(Y+Sc+La-Lu)作为现代工业的“维生素”,是当今社会重要的战略资源。白云鄂博超大型REE-Nb-Fe矿床位于中国内蒙古,是世界上最大的稀土矿床。因此,该矿床的成岩成矿模式受到全球地质工作者的强烈关注,并对此进行了大量的分析研究工作。以往的工作主要集中在对H8赋矿白云岩全岩年代学和地球化学的研究上,但由于白云鄂博稀土矿床经历了后期复杂的变形变质作用,矿石的结构构造非常复杂,全岩的研究结果造成了对该矿床成岩成矿模式不同的认识和争论。近些年,随着现代地球化学分析技术的快速发展,人们可以直接对白云石和稀土矿物(如独居石、磷灰石、氟碳铈矿等)进行高精度的微区原位同位素组成和原位U-Th-Pb定年分析,从而获得能够明确指示矿物时代、成矿流体和成矿物质来源的重要证据。结合近年来的研究成果,本文总结了目前关于白云鄂博超大型稀土矿床成岩成矿模式的不同认识,提出白云鄂博矿床初始稀土成矿源于中元古代(1.3 Ga)的碳酸岩岩浆活动,后期经历了早古生代的大规模流体作用,矿床中稀土元素发生再活化、富集和沉淀,稀土矿物巨量堆积成矿的新认识。 相似文献
18.
《地学前缘(英文版)》2016,7(3)
Bayan Obo ore deposit is the largest rare-earth element(REE) resource,and the second largest niobium(Nb) resource in the world.Due to the complicated element/mineral compositions and involving several geological events,the REE enrichment mechanism and genesis of this giant deposit still remains intense debated.The deposit is hosted in the massive dolomite,and nearly one hundred carbonatite dykes occur in the vicinity of the deposit.The carbonatite dykes can be divided into three types from early to late:dolomite,co-existing dolomite-calcite and calcite type,corresponding to different evolutionary stages of carbonatite magmatism based on the REE and trace element data.The latter always has higher REE content.The origin of the ore-hosting dolomite at Bayan Obo has been addressed in various models,ranging from a normal sedimentary carbonate rocks to volcano-sedimentary sequence,and a large carbonatitic intrusion.More geochemical evidences show that the coarse-grained dolomite represents a Mesoproterozoic carbonatite pluton and the fine-grained dolomite resulted from the extensive REE mineralization and modification of the coarse-grained variety.The ore bodies,distributed along an E-W striking belt,occur as large lenses and underwent more intense fluoritization and fenitization.The first episode mineralization is characterized by disseminated mineralization in the dolomite.The second or main-episode is banded and/or massive mineralization,cut by the third episode consisting of aegirinerich veins.Various dating methods gave different mineralization ages at Bayan Obo,resulting in long and hot debates.Compilation of available data suggests that the mineralization is rather variable with two peaks at~1400 and 440 Ma.The early mineralization peak closes in time to the intrusion of the carbonatite dykes.A significant thermal event at ca.440 Ma resulted in the formation of late-stage veins with coarse crystals of REE minerals.Fluids involving in the REE-Nb-Fe mineralization at Bayan Obo might be REE-F-C02-NaCI-H20 system.The presence of REE-carbonates as an abundant solid in the ores shows that the original ore-forming fluids are very rich in REE,and therefore,have the potential to produce economic REE ores at Bayan Obo.the Bayan Obo deposit is a product of mantle-derived carbonatitic magmatism at ca.1400 Ma,which was likely related to the breakup of Columbia.Some remobilization of REE occurred due to subduction of the Palaeo-Asian oceanic plate during the Silurian,forming weak vein-like mineralization. 相似文献
19.
白云鄂博地区碳酸岩脉侵位序列与稀土元素富集机制 总被引:5,自引:2,他引:3
白云鄂博地区发育大量的火成碳酸岩脉。按照矿物组成,碳酸岩脉可分为白云石型、白云石-方解石共存型和方解石型。野外穿插关系表明,白云石型碳酸岩脉形成得早,而方解石型碳酸岩脉形成得晚。白云鄂博地区的碳酸岩浆存在由白云石型到共存型再到方解石型的先后结晶顺序和演化趋势。碳酸岩脉的主量、稀土和微量元素组成特征表明,随着碳酸岩脉中方解石矿物组分的增加,轻稀土元素的含量呈明显富集趋势,而长期的结晶分异作用正是稀土元素,尤其是轻稀土元素在晚期岩浆中强烈富集的内在机制。 相似文献
20.
WOOLLEY A. R.; BARR M. W. C.; DIN V. K.; JONES G. C.; WALL F.; WILLIAMS C. T. 《Journal of Petrology》1991,32(6):1143-1167
Carbonatites occur in the Uyaynah area, United Arab Emirates,within a tectonic window of oceanic metasediments beneath theSemail Ophiolite Complex at the northern end of the Oman Mountains.The carbonatites form conformable layers, pods, and lenses,up to 10 m thick, associated with deep-sea sediments that includeradiolarian cherts and pillow lavas. Although disrupted duringdeformation, the carbonatites are internally undeformed andcontain abundant lapilli, indicating an extrusive, subaerialorigin, probably on a small volcanic island. The lapilli comprisecalcite, abundant Sr-bearing apatite and iron oxides in a calcitematrix. Alkali amphiboles, biotite, chlorite, and allanite wereproduced as a result of metamorphism but otherwise the primaryigneous carbonatite mineralogy remains. One distinct group ofrocks also contains primary calcic amphibole and biotite. Niobiantitanite, strontian baryte, and albite are also present, andrare earth elements are held in abundant allanite-(Ce) and raremonazite-(Ce). Analyses of 26 rocks define two groups whichare distinguishable in the field. One group consists of silico-carbonatitescontaining primary calcic amphibole, biotite, and abundant allanite,and is chemically similar to average intrusive ferrocarbonatite.The other group corresponds chemically to average intrusivecalciocarbonatite. Unlike other extrusive carbonatites describedin the literature, the Uyaynah carbonatites have higher incompatibleelement abundances than average intrusive carbonatites and arenotably rich in rare earth elements (up to 2?6 wt.%) and P2O5(average > 7 wt.%). The two carbonatite groups are consideredto be related magmatically one to the other, and the presenceof rare ferroan chromian spinel is interpreted as evidence fora direct mantle origin. 相似文献