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1.
四川大陆槽稀土矿床碳酸岩-英碱正长岩锆石U-Pb年代学和Hf同位素性质及其地质意义 总被引:5,自引:2,他引:3
川西冕宁-德昌稀土成矿带是中国最重要的稀土成矿带之一,所有稀土矿床均与碳酸岩-正长岩杂岩体有关.前人研究表明,牦牛坪、木落寨和里庄碳酸岩-碱性杂岩体成岩年龄与其相应矿床的成矿年龄基本一致,而大陆槽正长岩年龄与REE矿床的成矿年龄相差甚远.本文对大陆槽碳酸岩、英碱正长岩进行了SHRIMP U-Pb锆石年代学和LA-MC-ICPMS锆石Hf同位素原位测量,它们的形成年龄分别为12.99±0.94Ma、14.53±0.31Ma,表明两者是同时形成的,且与其成矿年龄基本一致.碳酸岩和正长岩的εHf(t)值、Hf模式年龄与它们的εNd(t)值、Nd模式年龄所展现出来的特征一致,说明在其形成过程中有地壳物质的加入. 相似文献
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川西冕宁-德昌REE成矿带成矿年代学研究:热液系统维系时限和构造控矿模型约束 总被引:4,自引:2,他引:2
川西冕宁-德昌REE成矿带是中国最重要的REE成矿带之一,包括牦牛坪超大型REE矿床、大陆槽大型REE矿床、木落寨中型REE矿床和里庄小型REE矿床以及一系列矿点和矿化点.REE成矿作用与碳酸岩-碱性杂岩体有关,受印度-亚洲大陆碰撞带的一系列新生代走滑断裂系统控制,岩体主要侵位于元古代结晶基底岩石和古生代一中生代沉积盖层中.40Ar/39Ar快中子活化分析表明,大陆槽白云母、里庄黑云母和木落寨金云母的40Ar/99Ar坪年龄分别为13.2 Ma、30.6 Ma和35.5 Ma,结合前人成岩成矿年龄资料,牦牛坪矿床岩浆-热液活动时限约12 Ma.大陆槽矿床约5Ma,而里庄矿床则为2Ma,热液活动持续时间与矿床的REE储量存在正相关关系.研究发现,冕宁-德昌REE矿带从北到南,成岩成矿年龄逐渐变新,时间跨度长达27 Ma;碳酸岩-正长岩岩浆初始活动时间与雅砻江左旋走滑断裂开始活动时间相一致,成岩成矿年龄的系统变化,有可能是由于雅砻江左旋走滑断裂右侧板片在相对固定的幔源岩浆"热点"上从南至北滑移造成的(相对于左侧板片). 相似文献
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<正>川西冕宁-德昌喜马拉雅期稀土元素成矿带长约270 km,宽15 km,包括牦牛坪超大型、大陆槽大型、木落寨中型和里庄小型REE矿床以及一系列矿点和矿化点。REE成矿作用与喜马拉雅期碳酸岩-碱性杂岩体有关,受印度-亚洲大陆碰撞带东部一系列新生代走滑断裂系统控制。碳酸岩-碱性杂岩体 相似文献
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川西冕宁-德昌喜马拉雅期稀土元素成矿带:矿床地质特征与区域成矿模型 总被引:11,自引:5,他引:6
川西冕宁-德昌喜马拉雅期稀土元素成矿带长约270 km,宽15 km,包括牦牛坪超大型、大陆槽大型、木落寨中型和里庄小型REE矿床以及一系列矿点和矿化点.该矿带在空间上位于攀西二叠纪古裂谷中,但岩体和矿体均形成于喜马拉雅期,年龄为40~10 Ma.REE成矿作用与喜马拉雅期碳酸岩-碱性杂岩体有关,受印度-亚洲大陆碰撞带东部一系列新生代走滑断裂系统控制.碳酸岩-碱性杂岩体主要侵位于元古代结晶基底和古生代-中生代沉积盖层内.矿区蚀变以霓长岩化为特征,在杂岩体和矿体中形成规模不等的霓长岩蚀变晕.REE成矿作用主要有3种样式,即大陆槽式、牦牛坪式和里庄式.大陆槽式以爆破角砾岩筒矿化为特征,牦牛坪式以典型的脉状矿化系统为标志,里庄式则以浸染状矿化为特色.主要矿石类型有伟晶岩型、碳酸岩型、角砾状和网脉状,矿物组合主要为重晶石 萤石 霓辉石 方解石 氟碳铈矿.流体包裹体和稳定同位素研究表明,成矿流体来源于碳酸岩-正长岩不混溶岩浆系统,但在流体演化的晚期阶段有外部流体的加入.根据综合分析研究,笔者提出了一个可能的REE成矿作用模式.该模式强调,成矿热液流体系统经历了一个复杂的演化过程:从不混溶碳酸岩-正长岩岩浆系统分离出高温、含硫酸盐富RISE的NaCl-KCl卤水,到流体沸腾导致REE-氟碳酸盐和硫酸盐有效沉淀,最后与雨水混合导致少量硫化物沉积.在空间上形成了一个"三层楼"式的REE成矿系统:在深部层位,形成细脉-浸染状矿体(如里庄式矿床);在中部层位,形成脉状矿体(如牦牛坪式矿床);在上部层位,形成角砾岩筒矿体(如大陆槽式矿床).成矿系统发生于喜马拉雅期大陆碰撞带从压扭向张扭转变过渡的构造背景下,新生代大规模走滑断裂及其派生的拉分构造和张性裂隙带促进了含REE岩浆-热液系统的形成. 相似文献
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四川冕宁里庄稀土元素矿床矿石类型及金云母Ar-Ar年龄 总被引:1,自引:1,他引:0
四川冕宁-德昌稀土元素成矿带长约270 km,宽15 km,该成矿带包括牦牛坪超大型、大陆槽大型、木落寨中型和里庄小型稀土元素矿床及一系列矿点和矿化点。里庄稀土元素矿床作为矿带中唯一矿化特征以细脉浸染状为主的矿床,该矿床细脉浸染状矿化特征的成因和围岩蚀变特征尚未得到详细研究。文章将通过详细野外调查和室内研究,总结矿石类型和碳酸岩、正长岩蚀变特征,揭示细脉浸染状矿化特征的成因。研究表明,里庄矿床矿石类型以细脉浸染状为主,兼有少量角砾状。细脉浸染状矿石呈致密块状,矿物共生组合主要为氟碳铈矿+方解石+萤石+天青石+金云母,大规模的氟碳铈矿形成于热液阶段晚期并叠加在早期方解石、萤石和天青石等脉石矿物之上。细脉浸染状矿石全岩稀土元素配分显示LREE富集(33430×10~(-6)~46530×10~(-6)),HREE亏损(160×10~(-6)~192×10~(-6)),稀土元素总量高(33620×10~(-6)~46690×10~(-6)),全岩稀土元素配分特征与碳酸岩和正长岩相似,但后两者稀土元素总量较低。与牦牛坪发育脉状矿化系统、大陆槽角砾岩筒系统相比,里庄矿化特征以细脉浸染状为主,其可能是由于张性裂隙不发育造成的。区内正长岩-碳酸岩杂岩体广泛发育强烈的蚀变作用。正长岩发育典型霓长岩化,这种蚀变以钾长石被钠长石交代为特征,并形成次生鳞片状黑云母,少量半自形氟碳铈矿叠加在钠长石和黑云母之上。碳酸岩广泛发育红化,其原生表面洁净的方解石被流体交代,大量氟碳铈矿叠加在蚀变方解石之上。矿区矿体赋存在正长岩-碳酸岩杂岩体中,BSE图像及显微镜观察显示氟碳铈矿叠加在蚀变碳酸岩-正长岩之上,结合已有数据发现矿石及部分脉石矿物与碳酸岩-正长岩在微量元素和Sr-Nd-Pb同位素组成特征的一致,表明碳酸岩-正长岩杂岩体提供了本矿床稀土元素矿化的物质来源。此次研究中发现,在里庄矿床中大量发育与氟碳铈矿密切共生的金云母。文章对该金云母进行了Ar-Ar同位素测年,获得金云母形成年龄为(26.0±1.1)Ma,误差范围内与已报道的氟碳铈矿SIMS Th-Pb年龄和正长岩的锆石SHRIMP U-Pb年龄一致,进一步说明REE成矿与正长岩-碳酸岩在成因上具有一致性。 相似文献
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青藏高原东部碳酸岩-正长岩杂岩体型REE矿床成矿模式——以大陆槽REE矿床为例 总被引:8,自引:3,他引:5
冕宁-德昌稀土(REE)矿带位于青藏高原东部,受川西一系列走滑断裂控制,大陆槽矿床是矿带中唯一位于南部的大型REE矿床。在前人研究基础上,结合近年来对整个稀土矿带地质填图和室内研究,重点对大陆槽矿床的成矿特征、赋矿围岩及其蚀变、矿石类型、成矿流体来源和流体包裹体演化等方面与同一矿带内的其它矿床进行了详细对比,进一步总结了碳酸岩型(含碳酸岩-正长岩杂岩体)REE矿床的成矿过程。大陆槽矿床的No.1号和No.3号矿体均位于碳酸岩-正长岩杂岩体内,分别由不同隐爆角砾岩筒所控制。以往研究认为两个矿体的碳酸岩-正长岩杂岩体侵位的年龄都在12Ma左右,本次研究发现在26.49±0.63Ma已经存在碳酸岩-正长岩杂岩体岩浆活动。大陆槽REE矿床受隐爆角砾岩构造活动和风化作用的影响,矿石类型以角砾岩型和风化型为主,脉石矿物和矿石矿物在手标本尺度和镜下很难辨认。通过野外观察、镜下矿物共生组合、包裹体显微测温等研究发现,大陆槽矿化过程和牦牛坪矿床相似,只是矿化规模较小,矿化阶段分为岩浆岩阶段-伟晶岩阶段(600℃)-高温热液阶段(450~350℃)-低温热液阶段(350℃),氟碳铈矿形成于热液阶段的晚期。根据伟晶岩阶段至热液阶段氟碳铈矿中流体包裹体的特征,发现多期次隐爆角砾活动导致大气降水和碳酸岩中脱出的CO_2的加入,使得成矿流体的密度(0.732~0.631g/cm~3)、压力(2436~101bar)逐渐降低,直至成矿。此外,岩相学观察和拉曼测试分析也表明包裹体从熔融包裹体过渡到含重晶石、萤石、天青石子晶的富CO_2包裹体、气液两相包裹体,显示了成矿流体由岩浆至热液的转化过程。大陆槽矿床中的包裹体阴离子以SO_4~(2-)为主,气体以CO_2为主,成矿流体中阳离子主要为K~+、Na~+、Ca~(2+)、Sr~(2+)、Ba~(2+)和稀土元素阳离子,表明流体属于SO_4~(2-)-CO_2-H_2O体系,与矿带中其它矿床的成矿流体体系一致。成矿流体的主要成分是岩浆水、大气水和碳酸岩脱碳作用形成的CO_2,后者导致热液方解石和氟碳铈矿的O同位素(氟碳铈矿和方解石:δ~(18)O=5.8‰~12.5‰)值升高。已有研究显示矿带中不同矿床的脉石矿物如重晶石、天青石的Sr-Nd-Pb同位素与碳酸岩-正长岩杂岩体的相关数值基本一致,表明这些脉石矿物来源于碳酸岩-正长岩杂岩体。多期次隐爆角砾岩化作用及大陆槽断裂相关的构造活动促进了成矿流体的循环,直接或间接导致了大陆槽隐爆角砾岩型和风化型矿石的形成。尽管在大陆槽和牦牛坪矿床可以识别出表生氧化阶段,但这一过程并不伴随稀土矿化,热液阶段才是稀土沉淀的主要阶段。研究还强调了碳酸岩发育的大陆槽No.3矿体和里庄矿床主要出现的霓长岩化与矿化无关,而牦牛坪矿床地表并无霓长岩化蚀变。在以往和本次研究的基础上,建立了川西碳酸岩-正长岩型稀土矿床的成矿模式。 相似文献
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四川冕宁木落寨稀土矿床稀土矿化与围岩特征 总被引:1,自引:0,他引:1
木落寨矿床是冕宁—德昌稀土元素(REE)矿带内的主要稀土矿床,位于矿带北段,雅砻江断裂以西。该稀土矿床的形成与正长岩-碳酸岩杂岩体密切相关。与冕宁—德昌REE矿带中其它矿床例如牦牛坪、大陆槽矿床不同的是,牦牛坪和大陆槽矿床的围岩主要是石英闪长岩,而木落寨REE矿床中围岩较复杂,主要有大理岩、绿片岩、碱性花岗岩等。已有研究表明石英闪长岩并不是牦牛坪和大陆槽矿床稀土元素的主要来源,对木落寨矿床来说,围岩对成矿的作用还需进一步研究。采用ICP-MS与XRF,对大理岩和绿片岩这两种主要的围岩进行主微量元素分析,全岩稀土配分曲线显示轻稀土亏损(大理岩3×10~(–6)~20×10~(–6),绿片岩62×10~(–6)~74×10~(–6)),重稀土平坦,总稀土含量低(大理岩4×10~(–6)~21×10~(–6),绿片岩86×10~(–6)~97×10~(–6)),与本次研究的木落寨正长岩中稀土含量(592×10~(–6)~2 026×10~(–6))和以往研究的冕宁—德昌成矿带其他三个矿床的碳酸岩-正长岩杂岩体中稀土含量(碳酸岩2 470×10~(–6)~40 807×10~(–6),正长岩630×10~(–6)~3 233×10~(–6))相比,大理岩和绿片岩中稀土元素含量过低,显示在稀土物质来源上,这两种围岩可能对成矿贡献不大,根据剖面展示,矿体大部分出现在正长岩裂隙中,极少部分出现在正长岩和大理岩接触面中,大理岩可能提供碳酸根离子,促进交代和成矿作用的进行。木落寨矿石类型主要是细脉浸染型,少量为条带型。通过手标本、镜下和BSE图像观察,脉石矿物主要有萤石+方解石+重晶石+石膏+黄铁矿+方铅矿+石英+金云母等,矿石矿物为氟碳铈矿,氟碳铈矿叠加在已形成的脉石矿物之上,显示矿床主要形成于热液阶段最晚期。 相似文献
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巴西与碱性岩- 碳酸岩杂岩体相关的关键矿产成矿作用与规律 总被引:1,自引:0,他引:1
在巴西,与碱性岩- 碳酸岩杂岩体相关成矿作用复杂,产出了世界上唯一的霞石正长岩型斜锆石矿床、全球最大的铌矿床以及巴西最大的铀矿和镍矿集区,资源储量丰富,具有重要的经济价值和战略意义,同时也是关键矿产成矿作用研究的殿堂。本文在前人研究基础之上,整理分析了35处与碱性岩- 碳酸岩相关的关键矿产地质特征。根据成矿作用特征,划分了4个成矿系列:①霞石正长岩碱性杂岩相关的U- Zr- Mo- REE 和萤石成矿系列;②碱性岩- 碳酸岩杂岩(正长岩+辉石岩+霓霞岩+碳酸岩等)相关的Nb- P- Ti- REE和蛭石成矿系列;③阿拉斯加型超基性岩- 碱性杂岩体相关的Ni成矿系列;④交代正长岩相关的U- P成矿系列。根据关键矿产资源时空分布规律,划分了5个成矿带:(Ⅰ)Lancinha- Cubato碱性岩- 碳酸岩相关REE- P- U- Zr- Ni- Mo- 蛭石成矿带;(Ⅱ)Rio de Janeiro- Rondnia碱性岩- 碳酸岩- 金伯利岩相关的Nb- REE- Ti- Zr- P- 金刚石成矿带;(Ⅲ)Ceará- Mato Grossodo Sul 超基性岩- 碱性岩- 碳酸岩相关的Ni- U- P- 蛭石成矿带;(Ⅳ)亚马逊地区碳酸岩相关Nb- REE- Th- Ti- P成矿带;(Ⅴ)巴伊亚地区与变正长岩相关的U成矿带。本文还详细介绍了典型矿床成矿地质特征和成矿条件,为走出去寻找关键矿产资源基地提供了理论支撑。 相似文献
9.
四川冕宁木落寨稀土矿床成岩成矿的^40Ar/^39Ar年代学研究 总被引:3,自引:0,他引:3
杞落寨稀土矿床位于四川省冕宁县境内,雅砻江西侧。矿体产于英碱正长岩与变质辉绿岩和大理岩接触的构造破碎带中此前,英碱正长岩被认为形成于燕山期,但没有任何同位素年龄资料的报道本文通过~(40)Ar/~(39)Ar 快中子活化分析,得出英碱正长岩微斜长石的~(40)At/~(39)Ar 坪年龄为31.2±0.56Ma,等时线年龄为30.6±2.6Ma。矿石金云母的~(40)Ar/~(39)Ar 坪年龄为35.5±0.5Ma,等时线年龄为35±1Ma。微斜长石的年龄比金云母年龄偏小,是因为两者的 Ar 同位素封闭温度不同,前者约为170℃,而后者为350℃。两者年龄差较大表明在35.5~31.2Ma 之间,矿体和岩体均进入了较慢冷却阶段,冷却速率约为41.9℃/Ma。因此,木落寨矿床的矿石与英碱正长岩的形成年龄接近,均属新生代喜马拉雅期木落寨矿床成岩成矿年龄的确定,对于进一步了解该区域偏碱性火成岩的形成时代及拓宽区域稀土找矿远景,具有很大意义。 相似文献
10.
川西冕宁-德昌稀土矿带霓长岩的地球化学特征及地质意义 总被引:2,自引:0,他引:2
霓长岩化作用是指碳酸岩(或碱性岩)流体对围岩的交代蚀变,它是碳酸岩型稀土(REE)矿床常见的蚀变类型,其所形成的岩石即为霓长岩。对霓长岩的深入研究可以鉴别碳酸岩体的存在,厘定碳酸岩岩浆(或流体)的地球化学性质及源区特征,这对于找寻碳酸岩相关的矿产资源(尤其是REE)以及剖析矿床成因机制有着重要的地质意义。川西冕宁-德昌稀土矿带是中国最重要的轻稀土矿带之一,包括牦牛坪超大型、大陆槽大型、木落寨和里庄中小型REE矿床以及一系列矿点。REE矿化与碳酸岩-碱性岩杂岩体密切相关,受一系列新生代走滑断裂的控制。该矿带广泛发育霓长岩化蚀变带,尤以大陆槽及里庄矿床为显著。岩相学分析表明,大陆槽和里庄霓长岩中的矿物多呈他形粒状结构,主要由长石、黑云母、霓辉石以及少量副矿物组成;主微量元素分析表明,霓长岩的碱质(K_2O+Na_2O)、MgO、Fe_2O_3T含量较高,且富集REE、Sr、Ba等微量元素;电子探针分析表明,霓长岩中的霓辉石Fe OT含量较高,长石Na_2O及K_2O含量较高,Ca O含量极低。An-Ab-Or三角图解显示长石主要为透长石和钠长石,属碱性长石系列;黑云母的地球化学成分图解表明云母的成因类型为交代型且具有相对富镁、贫铁等特征,属镁质黑云母。霓长岩化作用的交代流体含有较高的CO_2组分,且富含碱质、Mg、Fe及REE、Sr、Ba等元素。对比霓长岩与原岩的主微量元素发现:相比于正长岩原岩,在主量元素中,霓长岩的Fe、Mg、Ca等元素含量增加,Si、Al等元素含量降低;微量元素中,霓长岩的REE及Sr、Ba等元素显著增加。这意味着交代流体含有的Fe_2O_3T、MgO、CaO等组分在霓长岩化过程中被带进了围岩,而SiO_2和Al_2O_3等从围岩中被逐出。大陆槽及里庄矿区发育的角砾岩指示了矿区曾经历过频繁的角砾岩化事件,这提高了霓长岩作用的强度,并且为矿脉的穿插及REE矿物的沉淀提供了空间。在霓长岩化过程中,流体-围岩的组分交换反复发生,这削弱了REE络合物的稳定性,伴随多期次的热液活动及构造事件,最终完成REE活化→迁移→沉淀的过程。 相似文献
11.
The Himalayan Mianning–Dechang (MD) rare earth element (REE) belt in western Sichuan Province, southwestern China, is approximately 270 km long and 15 km wide, and contains total reserves of more than 3 Mt of light REEs (LREEs), comprising one giant (Maoniuping), one large (Dalucao), two small–medium-sized (Muluozhai and Lizhuang), and numerous smaller REE deposits. The belt occurs within the eastern Indo-Asian collision zone (EIACZ), where its location is controlled by large-scale strike-slip faults and tensional fissure zones. Himalayan carbonatite–syenite complexes consist predominantly of alkaline syenite stocks and carbonatite sills or dikes that host REE mineralization. Previous studies have reported inconsistent ages for alkaline magmatism syenite formation and REE mineralization. Here, we present new results of sensitive high-resolution ion micro-probe U–Pb dating of zircons from syenites from the Dalucao, Maoniuping, Lizhuang and Diaoloushan areas, the first systematic and precise age determinations for these rocks in the MD belt. The new data give concordant ages of 12.13 ± 0.19 and 11.32 ± 0.23 Ma for the Dalucao deposit, 22.81 ± 0.31 and 21.3 ± 0.4 Ma for Maoniuping, 26.77 ± 0.32 Ma for Muluozhai, and 27.41 ± 0.35 Ma for Lizhuang. These ages, which should be regarded as maximum ages for the REE mineralization in the study area, can be split into two groups, i.e. 11–12 Ma in the southern part of the MD belt and 12–27 Ma in the northern part, suggesting a progression of magmatism from north to south. These data suggest that the majority of carbonatite–syenite magmatism within the EIACZ occurred during the main stage of Himalayan metallogenesis. The ages presented in this study suggest that strike-slip shear along the MD belt was initiated at ca. 27 Ma and ended ca. 12 Ma. This timing is consistent with movements along the adjacent Ailaoshan–Red River strike-slip fault in southeastern Tibet (to the south of the MD belt) and one of the three Cenozoic strike-slip faults in eastern Tibet. Ascent of an asthenospheric mantle diapir beneath the EIACZ in the Cenozoic may have provided a thermal mechanism for the generation of magmas that formed the carbonatite–syenite complexes in the study area. Alternatitvely, the magmas may have been generated by decompression melting associated with the transition from a transpressional to a transtensional regime at 38–40 Ma. The precise age results for syenite magmatism in the study area indicate that this transition occurred prior to carbonatite–syenite magmatism and the formation of the MD REE belt, which is consistent with the regional tectonic model. 相似文献
12.
四川德昌大陆槽稀土矿床地质特征 总被引:10,自引:5,他引:5
为查明德昌大陆槽稀土矿床的成矿地质特征和稀土元素的赋存状态,通过对大量岩石、矿石光(薄)片的观察鉴定以及对矿体形态、矿石的物质组分、结构构造的研究,表明该矿床受喜马拉雅期富稀土碱性杂岩的构造控制,成矿地质特征与牦牛坪矿床极为相似。大陆槽稀土矿床为攀西稀土成矿带上最年轻的稀土矿床,矿床类型新,稀土品位高,主要稀土矿物氟碳铈矿粒度较粗,可选冶。 相似文献
13.
A Special Orogenic-type Rare Earth Element Deposit in Maoniuping, Sichuan, China: Geology and Geochemistry 总被引:8,自引:0,他引:8
Denghong WANG Jianmin YANG Shenghao YAN Jue XU Yuchuan CHEN Guangping PU Yaonan LUO 《Resource Geology》2001,51(3):177-188
Abstract: The Maoniuping REE deposit is the second largest light rare earth elements deposit in China, explored recently in the northern Jinpingshan Mountains, a Cenozoic intracontinental orogenic belt in southwestern China. It is a vein-type deposit hosted within, and genetically related to, carbonatite-alkalic complex. Field investigation and new geochemical data of the carbonatites from the carbonatite-alkalic complex support an igneous origin for the Maoniuping carbonatites and related REE mineralization. Carbonatite itself carries rare earth elements which were enriched by hydrothermal solution.
It is known that most of the REE deposits related to carbonatite-alkalic complexes were formed in relatively stable tectonic setting such as cratonic or rifting environment. The Maoniuping deposit, however, was formed during the processes of Cenozoic orogeny. Although the Maoniuping deposit is located in the north sector of the Panxi paleo-rift zone, the rift had been closed before early Cenozoic and evolved into an intracontinental orogenic belt, i.e., the Jinpingshan Orogen, which was formed since later Mesozoic to early Cenozoic. Geochronological and geochemical data also prove that the Maoniuping REE deposit was formed in an intracontinental orogenic belt instead of rift system or stationary block.
The Maoniuping REE deposit is similar to the Mountain Pass REE deposit in many respects such as the high contents of bastnaesite and barite, the low content of niobium, and the common occurrence of sulfides. The discovery of the Maoniuping deposit and other REE deposits during the past two decades suggest a good potential for prospecting REE deposits along the alkalic complex belt located on the eastern side of the Qinghai–Xizang–West Sichuan Plateau. 相似文献
It is known that most of the REE deposits related to carbonatite-alkalic complexes were formed in relatively stable tectonic setting such as cratonic or rifting environment. The Maoniuping deposit, however, was formed during the processes of Cenozoic orogeny. Although the Maoniuping deposit is located in the north sector of the Panxi paleo-rift zone, the rift had been closed before early Cenozoic and evolved into an intracontinental orogenic belt, i.e., the Jinpingshan Orogen, which was formed since later Mesozoic to early Cenozoic. Geochronological and geochemical data also prove that the Maoniuping REE deposit was formed in an intracontinental orogenic belt instead of rift system or stationary block.
The Maoniuping REE deposit is similar to the Mountain Pass REE deposit in many respects such as the high contents of bastnaesite and barite, the low content of niobium, and the common occurrence of sulfides. The discovery of the Maoniuping deposit and other REE deposits during the past two decades suggest a good potential for prospecting REE deposits along the alkalic complex belt located on the eastern side of the Qinghai–Xizang–West Sichuan Plateau. 相似文献
14.
川西冕宁-德昌REE矿带中的风化型矿石研究相对缺乏.根据近几年的野外地质调查,采用电子探针、X光粉晶衍射、全岩分析等对大陆槽、牦牛坪和木落寨矿床中疑似风化矿的样品进行类型和成因分析.结果表明:大陆槽风化型矿石中大量粘土矿物(达40%)和矿石矿物(达60%)发育,风化程度高;相反,牦牛坪和木落寨疑似风化型矿石中几乎没有粘土矿物,风化程度低.通过对牦牛坪和木落寨疑似风化型矿石进行地球化学特征、矿物组成分析并与围岩、矿脉的组成和产状对比,表明疑似风化型矿石主要是由矿脉和围岩在强烈的构造作用下发生机械风化形成.频繁的角砾构造使大陆槽矿石发生强烈的机械风化作用,并加速了矿石发生一定的水岩反应,促进矿石发生中等强度的化学风化作用.目前整个矿带中未发现明显的生物风化作用.整个稀土矿带的风化型矿石比南岭离子吸附型稀土矿石的风化程度低,形成时间较晚(11 Ma),氟碳铈矿大量保存,还没有形成离子吸附型矿床. 相似文献
15.
<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
16.
四川牦牛坪稀土矿床萤石Sr、Nd同位素对地幔成矿流体的指示意义 总被引:14,自引:0,他引:14
萤石是四川牦牛坪稀土矿床主要的脉石矿物之一,其形成贯穿了整个稀土成矿过程,因此同位素的研究对探讨萤石和稀土成矿流体的来源具有重要的价值。矿区6件萤石样品的Sr、Nd同位素组成没有明显差异,结合围岩(碳酸岩-正长岩,花岗岩)同位素组成特征研究表明,不同颜色、来自不同矿石类型、具有不同REE类型的萤石为同源产物,稀土成矿流体来源于富集地幔,与区内碳酸岩-正长岩岩浆活动密切相关。 相似文献
17.
与碱性正长岩有关的热液脉型稀土矿床成矿特征 总被引:1,自引:0,他引:1
通过牦牛坪,大陆槽,郗山等矿区实例综述了中低温热液脉型稀土矿床主要地质特征。从富含稀土的正长岩岩浆活动,浅成热液作用和断裂构造分析了矿床成矿条件。最后提出川西等3个地区作为今后稀土找矿区带。 相似文献