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北京十三陵地区前寒武纪岩石中稀土矿物的发现及对同位素测年的意义 总被引:1,自引:0,他引:1
华北中、新元古代地层的年龄数据很混乱(表1),本文建议将北京十三陵地区新发现的稀土矿物用SHRIMP方法测年,有助于问题的解决。北京十三陵地区保存了新太古代五台群和新—中元古代较完整的地层,电子耦合等离子体分析(即原子收光谱分析)(ICP)的定量分析数据表明,在这些地层中,岩石中所含钾和稀土元素含量都比北美页岩(NASC)、欧洲页岩(ES)和澳大利亚后太古宙页岩(PAAS)高出很多,经电子扫描+能谱仪+波谱仪(SEM+EDS+WDS)分析证明,在岩石中包含独居石(碎屑的和自生-成岩的)和磷钇矿(自生-成岩的),并首次发现钍石-独居石环带状混合矿物(变质的)以及显微脉状稀土硅酸盐矿物(地下流体形成的)等稀土矿物。利用激光拉曼光谱鉴定发现稀土矿物的分布状态包括:1在太古宙五台群的片麻岩中,云母、石英和长石之间有非自形晶独居石,而且在石英单晶里还有独居石的自形晶包裹体;并发现独居石和钍石-独居石环带状混合矿物,这些稀土矿物都是变质成因的;2在新太古代五台群片麻岩的准平原化风化面上,沉积的元古宙常沟组的底砾岩中发现了碎屑的独居石,这些独居石的同位素年龄对于元古宇的底界定年意义重大;3在常州沟组下部压扁-透镜状层理的粉砂岩中,普遍发现碎屑锆石的外缘生长出自生-成岩磷钇矿,磷钇矿的同位素定年对于常州沟组的地层年代有代表性意义;4串岭沟组的粉砂岩中发现了无形晶状自生-成岩独居石和磷钇矿,并且较多出现在显微缝合线内外,可作为SHRIMP测年的对象;5大红峪组粉砂岩中除了发现碎屑独居石外还发现脉状硅-铝稀土矿物,可能与后元古宙热液活动有关。事实上这些自生-成岩的稀土矿物的形成,都是源自太古宙富含稀土元素的变质岩石,其形成机理也与地下流体活动有关。笔者认为北京十三陵以及至华北地区,前寒武系富稀土元素形成的自生-成岩的稀土矿物,有助于用SHRIMP方法对前寒武纪地层的同位素测年研究。 相似文献
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青藏高原龙木错-双湖板块缝合带闭合的年代学证据——来自果干加年山蛇绿岩与流纹岩Ar-Ar和SHRIMP年龄制约 总被引:28,自引:5,他引:23
青藏高原龙木错-双湖板块缝合带从碰撞缝合何时转为羌塘盆地的沉积基底并接受沉积,一直受到地学界密切关注.羌塘中部的果干加年山主脊首次发现未变质的沉积岩以角度不整合覆盖于蛇绿混杂岩岩之上,上覆地层底部流纹岩夹层锆石SHRIMP U-Pb年龄为214±4Ma,为沉积盖层提供了可靠的年龄依据;不整合面之下强烈变形的阳起片岩(变质玄武岩)中阳起石Ar-Ar年龄为219.7±6.5Ma,与羌塘中部龙木错-双湖高压变质带获得的榴辉岩多硅白云母、蓝闪石等Ar-Ar变质年龄一致.Ar-Ar和SHRIMP定年结果表明该角度不整合的时限为220-214Ma之间.角度不整合上下岩石的定年研究,为龙木错-双湖缝合带的闭合提供了确切的时间约束:羌塘地区冈瓦纳与欧亚(扬子)板块在214Ma以前实现了闲合,古特提斯消亡,进入陆表海演化阶段. 相似文献
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中国北方元古宙沉积岩中自生稀土矿物特征及其意义--以北京、大连地区为例 总被引:4,自引:0,他引:4
大连震旦系十三里台组首次发现自生稀土元素矿物独居石后 ,在北京十三陵中元古代长城系常州沟组、串岭沟组和大红峪组又发现了自生的独居石以及其他磷酸盐和硅酸盐稀土矿物。自生稀土矿物的形成和岩石中稀土元素含量较高有关 ;电子探针背散射图像和 P、Th、L a、Ce、Nd、Y等元素面分布图像研究表明 ,沉积岩中的自生稀土矿物与岩浆岩、变质岩和碎屑成因的截然不同。本文首次报道了元古宙长城系常州沟组沉积岩中碎屑锆石边部成岩过程中形成的自生磷钇矿。中国北方元古宙泥砂质碎屑沉积岩普遍具有高稀土组合 ,许多地区都可能存在独居石等自生稀土矿物 ,如天津蓟县、辽西、辽南和宣化等地 ,为利用离子探针 (SHRIMP)确定其同位素地质年代提供了可能。此外 ,本文对比了大连震旦系自生独居石和内蒙白云鄂博矿区东矿的独居石晶形和化学成分的相似性 ,再一次提出中国北方元古宙富稀土地层可能是内蒙古白云鄂博巨型稀土元素矿床的矿源层问题。 相似文献
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阿尔泰造山带广泛分布各种变质沉积岩并发育典型递增变质带,变质沉积岩变质之前的沉积时代与物源特征对于限定成岩历史以及造山带演化具有重要意义。文章对采自阿勒泰组变质带中石英岩夹层样品进行了岩相学分析并采用LA-ICP-MS方法对其碎屑锆石进行了U-Pb年代学分析。共获得100个谐和或近于谐和的碎屑锆石年龄,表面年龄分布范围为(443±5)Ma至(2682±19)Ma。碎屑锆石年龄主要集中在寒武纪(486~540 Ma)并具有527~535 Ma的年龄峰值,可能源于区域内同时代的岩浆活动。新元古代年龄约占1/4,少量锆石具有古中元古代甚至太古宙年龄。结合年轻碎屑锆石年龄以及直接侵入该变质带中的英云闪长岩年龄可确定石英岩原岩的沉积时限为早志留世—早泥盆世,其后发生变质作用。古老碎屑锆石在该地区缺乏对应的岩石,可能源于区内隐伏的古老基底岩石或邻区古老陆块。 相似文献
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栖霞是胶东早前寒武纪变质基底的典型地区。在原1∶5万地质图中,许多TTG岩石都被作为胶东群表壳岩看待,岩石形成时代也只在少数露头被确定。根据野外地质调查和SHRIMP锆石U-Pb定年,对该区TTG岩石时空分布进行了研究。在新修编的1∶5万地质图中,太古宙变质基底的主要岩石类型为约2.9Ga、约2.7Ga和约2.5Ga的英云闪长质片麻岩,也存在少量同时代的奥长花岗质片麻岩。2.9Ga和2.5Ga左右的表壳岩(黄崖底表壳岩和胶东群)比原认为要少得多。所有岩石大致呈北西西—南东东向分布,它们在空间上共存,可能是新太古代晚期和古元古代晚期强烈构造热事件作用的结果。这是国内首次在复杂的太古宙高级变质岩区,以野外地质调查和SHRIMP锆石U-Pb定年有机结合,确定不同类型、不同时代地质体时空分布的有益尝试,对于今后类似地区开展专题地质填图具有重要的借鉴意义。 相似文献
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吉林省南部早太古宙上壳岩是太古宙高级区的组成部分,它包括变质火山岩和变质沉积岩,其中各类变质火山岩的地球化学特征与康迪统计的太古宙同类岩石大致可此。本区上壳岩随SiO_2含量增高,ΣREE逐渐增高。各类岩石普遍具Ce、Eu的负异常,表明它们具相同的成岩环境。 相似文献
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江苏省东海地区位于苏鲁造山带的西南缘,区内广泛出露片麻状碱性花岗岩.本文对东海地区磨山、虎山和房山片麻状碱性花岗岩的产状、岩石结构构造、碱性铁镁矿物、元素地球化学和锆石成因及SHRIMP定年等综合研究结果表明:该类岩石具有高硅、富碱、富铁贫镁和含碱性铁镁矿物等特征,说明其为碱性花岗岩;岩体还保留有沉积岩特有的层理(走向北东、倾向南东等一致的产状),长石等造岩矿物显示在固相条件下结晶的特征,以及继承锫石大部分是不同时代的岩浆或变质锆石碎屑等,均证实其原岩是沉积岩.SHRIMP定年对变质锆石的边部获得两组206Pb-238U加权平均年龄,分别为224.7±9.4 Ma和209.4±2.5~212±3.5Ma,反映了东海片麻状碱性花岗岩成岩时间属于印支期,相当于晚三叠世,变质锆石的核部206Pb-238U年龄变化于866~248 Ma,反映原岩时代不会早于晚古生代. 相似文献
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I. R. Fletcher B. Rasmussen N. J. McNaughton 《Australian Journal of Earth Sciences》2013,60(5):845-859
SHRIMP (Sensitive High‐Resolution Ion MicroProbe) analytical procedures have been developed to enable dating of the small, early diagenetic xenotime overgrowths that commonly occur on zircons in siliciclastic sedimentary rocks. The method will be particularly useful in Precambrian terranes, where diagenetic xenotime dating could play a role equivalent to biostratigraphic dating in the Phanerozoic. Reliable 207Pb/206Pb data are more readily obtained than 206Pb/238U, which also favours application to the Precambrian. However, it is demonstrated that 206Pb/238U dating of larger overgrowths (>10 μm) is also viable and applicable to Phanerozoic samples. SHRIMP Pb/Pb geochronology of authigenic xenotime in an unmetamorphosed Palaeoproterozoic sandstone in the Kimberley Basin has constrained diagenesis to a precision of ± 7 Ma. In contrast, greenschist‐facies metasediments of the Archaean Witwatersrand Basin, South Africa, contain both authigenic and alteration xenotime that record a complex history of growth from early diagenesis to the last major thermal event to affect the basin. 相似文献
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Gavin L. England Birger Rasmussen Neal J. McNaughton Ian R. Fletcher David I. Groves & Bryan Krapez 《地学学报》2001,13(5):360-367
SHRIMP dating of xenotime overgrowths on detrital zircon grains can constrain maximum durations since diagenesis and therefore provide minimum dates of sediment deposition. Thus, xenotime dating has significant economic application to Precambrian sediment-hosted ore deposits, such as Witwatersrand Au–U, for which there are no precise depositional ages. The growth history of xenotime in the Witwatersrand Supergroup is texturally complex, with several phases evident. The oldest authigenic xenotime 207 Pb/206 Pb age obtained in sandstone underlying the Vaal Reef is 2764 ± 5 Myr (1 σ), and most likely represents a mixture of diagenetic and hydrothermal growth. Nevertheless, this represents the oldest authigenic mineral age yet recorded in the sequence and provides a minimum age of deposition. Other xenotime data record a spread of ages that correspond to numerous post-diagenetic thermotectonic events (including a Ventersdorp event at ≈ 2720 Ma) up to the ≈2020 Ma Vredefort event. 相似文献
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Daniela A. Vallini David I. Groves Neal J. McNaughton Ian R. Fletcher 《Mineralium Deposita》2007,42(1-2):51-64
Stratabound, uraniferous diagenetic xenotime cements provide a minimum depositional age of 1,632±3 Ma for the sedimentary
Birrindudu Group in the Killi Killi Hills, Tanami Region in northern Australia. The age of xenotime formation is broadly coeval
with that recently proposed (1,650–1,600 Ma) for uranium mineralisation in the unconformity-associated deposits of the Pine
Creek Inlier, northern Australia, and Athabasca Basin, Canada. The geological setting and formation model for the uraniferous
xenotime crystals are similar to those widely proposed for unconformity-associated uranium deposits, suggesting a genetic
link between the two. However, xenotime formation in the Birrindudu Group occurred during an apparently earlier stage of diagenesis,
compared to late diagenetic formation of unconformity-associated uranium deposits. This could be explained by variations in
the thickness of sediment cover and diachronous diagenesis across the basin, at the time of the basin-wide uranium mobilisation
event, herein dated at ca. 1,630 Ma. In such a scenario, stratabound uraniferous xenotime cements could represent the remote
distal zones of a more deeply buried, uranium mineralising system. Alternatively, the xenotime layer represents a precursor
to, or a source for, later unconformity-associated ore deposition. In this case, the presence of diagenetic uraniferous xenotime
in an area prospective for unconformity-associated uranium mineralisation would be an indication of, and still provide an
approximate age for, uranium mobilisation within the cover sequence. Xenotime is a far more robust mineral than uraninite
for U–Pb geochronology and can potentially provide a more reliable and precise timeframe for uranium mineralisation and subsequent
recrystallisation events if present in the immediate uranium-ore environment. 相似文献
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老君山正长岩锆石SHRIMP定年 总被引:12,自引:2,他引:10
老君山正长岩锆石SHRIMP定年结果为34.8±1.6Ma(2σ),MSWD=0.38(可信度为0.96),相当于渐新世,属于喜马拉雅期。通过锆石定年分析结果对其成岩时代及锆石的成因进行探讨。 相似文献