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本文采用双变法测定了花岗岩、片麻岩中一批低温斜长石的折光率色散曲线,总结有以下几个特征: 1.斜长石的折光率色散曲线特征与其主要成份无关,甚至An差值在20以上,只要在相似的生成条件与相近的生成年代,折光率色散曲线具有相互近于平行的特点。 2.地质年龄不同的斜长石,折光率色散曲线特征不同。 3.地质年龄相以、构造条件不同,折光率色散曲线不同。 相似文献
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在我国冀东迁安,安子岭地区的太古代花岗质混合片麻岩中出现一种暗化斜长石。过去曾有人描述和讨论过这种暗化斜长石。有人认为斜长石的暗化是一种水化,还有人认为它是一种钾化。但到底是属于什么性质的变化还没有被证实过。 相似文献
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阿那巴尔地质是西伯利亚地台结晶基底的北部窗口。年龄为2.7Ga的太古代阿那巴尔麻粒岩杂岩是分布范围最广者之一,而年龄为1.9Ga的元古代Lamujka杂岩约占地质区的五分之一。它沿着麻粒岩的断层带在角闪岩条件下转变而形成,并由变晶构造岩、角闪混合片麻岩(由麻粒岩退化变质形成)、混合岩和花岗岩组成。测温法,低温测定法、电子显微镜和显微探针分析方法用于研究阿那巴尔杂岩中成分为斜长石—石英—紫苏辉石—磁铁矿组成的紫苏花岗闪长岩中混合岩石英内流体包体和由钾长石—斜长石—石英—黑云母—角闪石—钛铁矿组合组成的Lamujka混合岩中石英内流体包体。 相似文献
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前寒武纪地球动力学(Ⅶ):早期大陆地壳的形成与演化 总被引:1,自引:0,他引:1
《地学前缘》2015,(6)
冥古宙到太古宙大陆地壳主要由花岗质片麻岩区和绿岩带构造单元组成。大量的研究表明,以花岗质岩石出现为标志的大陆地壳最早的碎屑锆石记录为约4.4Ga,最早的英云闪长质-花岗闪长质片麻岩形成于约4.03Ga,最早的绿岩带层序形成于约3.8Ga。冥古宙到始—古太古代时期的花岗质片麻岩区主要由英云闪长质-奥长花岗质-花岗闪长质片麻岩组成(TTG片麻岩),中—新太古代,尤其是新太古代晚期TTG片麻岩仍然为花岗质片麻岩区的主要岩石组成,但是花岗质片麻岩的成分出现了明显的多样化趋势,最明显的标志就是出现了大量的花岗闪长岩-二长花岗岩-碱长花岗岩组合。绿岩带的组成较为复杂,早期科马提岩、拉斑玄武岩等铁镁质火山岩占主导地位,组合有BIF等沉积层序,尤其是科马提岩的出现标志着高温地幔岩浆作用占主导作用。而晚期绿岩带科马提岩占的比重已经明显较少,大量出现拉斑玄武质-钙碱性玄武质到英安质火山岩和副变质沉积层序,局部出现类玻安岩、埃达克岩的变质火山岩记录。地球动力学体制研究表明,冥古宙到古太古代以地幔柱构造体制占主导地位,从始太古代到古太古代(3.0Ga)地幔柱活动和地幔对流使岩石圈不断加厚。在地幔对流沉降部位,由于地幔对流的拖曳使其铁镁质地壳逆冲堆垛并不断增厚,其深部发生麻粒岩相-榴辉岩相变质、部分熔融形成初始的大陆地壳花岗质岩石,并孕育了早期高温状态的板块热俯冲。中太古代晚期和新太古代初期形成了以榴辉岩为标志的类现代板片俯冲的构造体制,新太古代末期尽管地幔柱构造体制在局部仍起重要作用,但是类现代板片俯冲构造体制已经成为这一时期主导的动力学体制。 相似文献
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康定片麻岩岩石化学特征的初步研究 总被引:5,自引:0,他引:5
川西地区康定片麻岩(原称澄江—晋宁期岩浆岩第Ⅳ期的酸性岩)的主体是富钠质的英云闪长质-奥长花岗质片麻岩(灰色片麻岩);尚有少量花岗质片麻岩,系灰色片麻岩遭受钾质交代而成。其岩石化学特征与太古代花岗地体一致.灰色片麻岩属低铝型,以相对富铁和不具Eu异常为特征。它与川滇交界区晚太古代垭口片麻岩等一起构成川西滇中地区的片麻岩基底. 相似文献
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海底玄武岩中斜长石研究及其岩石学意义 总被引:6,自引:1,他引:6
冲绳海槽海底玄武岩中存在着三种不同世代的斜长石 :斑晶、微晶和基质斜长石 ,它们的平均粒径分别为 10 0 μm±、13μm±和 2μm±。斑晶斜长石在结构上存在核部与边部之分 ,在成分上反映为 An值出现明显的两级“台阶”,即 An值在80~ 90间波动的核部“平台”和 An值在 60~ 70间波动的边部“平台”,边部“平台”的成分与微晶斜长石一致。斜长石的结晶温度显示 ,斑晶核部温度为 12 50℃± ,边部温度为 10 50℃± ,而基质斜长石的结晶温度在 950℃±。笔者认为斜长石的这些特征 ,基本反映了该玄武岩浆的活动过程 :斑晶斜长石的核部记录了源区特征 ,边部及微晶斜长石反映了岩浆房中活动的特征 ,基质斜长石则记录了岩浆喷出洋壳后的过程。 相似文献
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印度南部 Tamil Nadu,Madras 地区典型紫苏花岗岩产地的太古代麻粒岩是由一套基性和酸性两种形式的正片麻岩组成的,并伴随有沉积变质片麻岩(孔兹岩系).紫苏花岗岩是一种主要的岩石类型。基性麻粒岩表现出一种具有明显富铁拉斑玄武岩的特点,伴随着稀土元素(REE)浓度的增加,并出现了铕(Eu)负异常.这些特点被认为是反映了辉石——斜长石组合在氧逸度(fo_2)低的条件下的低压分离结晶作用。超 Fe—Mg 质麻粒岩可能代表着这个过程的堆积物.酸性麻粒岩(紫苏花岗岩)一般是富 K_2O 的,而在大多数麻粒岩相地段占主要地位的酸性片麻岩则显然不同,K_2O 都低。然而,紫苏花岗岩中 REE 丰度具有在富 K 和贫 K 的两种太古代片麻岩中所观察到的整个范围。在这个地区大量前麻粒岩相钾质伟晶岩的出现,表明在原来钾含量较少的岩石组合中产生了钾质交代作用。微量元素产生了这样一个模式,即在麻粒岩相变质事件之前产生了酸性片麻岩的交代作用和局部熔融。这种事件的顺序是与地壳深部变质流体的成分的波动有密切的关系. 相似文献
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研究I型花岗岩中再循环晶的成分和结构特征,对揭示岩浆系统的形成和演化历史以及壳源和幔源岩浆的相互作用具有重要的意义。本文以西秦岭北西段三叠纪过马营复式岩体内的不同造岩矿物为主要研究对象,通过对具有不同结构特征的斜长石"粗晶"和黑云母展开电子探针(EMPA)、LA-ICP-MS微量元素面扫描、原位Sr同位素分析,来探讨含高An斜长石的成因,示踪不同岩浆房端员的属性,约束岩浆演化过程并建立多级岩浆房模型。过马营复式岩体的岩性分为偏铝质花岗岩类和过铝质花岗闪长岩类,两类岩性中均存在An值呈突变的筛状结构斜长石,即高An(72~85)区与低An(20~55)区在同一颗粒中并存,其对应主、微量元素也存在截然变化。与低An区相比,高An区具有高Fe、Mg,高Ba的特征。高钙区斜长石可进一步分为两类,第1类高钙区斜长石(An80-85),和第2类高钙区斜长石(An72-78)。第1类高钙区比第2类高钙斜长石区具有更高的Ca、Al、Fe、Mg、Ba含量。本研究中斜长石晶体存在核高An-边低An与核低An-幔高An-边低An两种不同类型的环带结构,表明其各自的生长过程有所不同。高An区与低An区之间An值跳跃式的变化与对应主、微量元素Fe、Mg、Sr、Ba含量特征均指示斜长石成分差异并非晶内扩散、动力学作用以及物理条件的变化造成的,更可能形成于开放的岩浆系统。本文认为斜长石粗晶为再循环晶,其内部的高An区形成于深部富H2O玄武质岩浆,低An区形成于浅部酸性岩浆房(偏铝质与过铝质)。两种不同高钙区斜长石及其对应的主、微量元素差异指示它们很可能结晶于两批次不同的玄武质岩浆,其中第1类高钙区斜长石的母岩浆相对更富Fe、Mg、Ba。两种玄武质岩浆携带高An斜长石沿岩浆通道向上运移,上升过程熔蚀先前结晶的高An斜长石,将其带入浅部酸性岩浆房后与内部花岗质/花岗闪长质岩浆发生混合。混合之后的岩浆沿高An斜长石残晶边部继续结晶生长,同时高温玄武质岩浆的注入导致浅部岩浆房已结晶的低An斜长石被熔蚀形成筛状结构,随后玄武质岩浆、混合后岩浆依次沿其边部继续生长。我们认为两批次的玄武质岩浆体积较小并未对浅部酸性岩浆房成分造成大的影响。 相似文献
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三个干燥加热斜长石的分析晶格参数表明,它们具有像合成斜长石那样“高”的有序度。它们的晶体结构分析证明,在过渡成分的高温斜长石中,具有一种意想不到的 Al、Si 有序度(Kroll 1978)。特别是 An27.8(于1160℃加热22天),在 T_1O 四面体位置有 t_1o—0.4Al,其它三个位置各自具有 t_1o—0.3Al[即〈t_1m〉=1/3(t_1m t_2O t_2m)—0.3Al。An52(于1255℃加热29天),具有 t_1o—0.48.Al,〈t_1m〉—0.35Al。An68.7(于1365℃加热42天),具有 t_1o—0.52Al,〈t_1m〉—0.39Al。这些数据需要用测量斜长石中 Al,Si 分配的图解,根据人们熟知的△131=20(131)—20(1 )参数以及晶格角γ进行估算。用△131和γ作为钙长石分子百分比的函数作图,并绘制 t_1o—〈t_1m〉图。用γ绘制的图可得到比较精确的结果,如果斜长石中正长石含量尚不知道的话,应使用这种图,但是晶格参数必须慎重地精选.△131值的测定是要容易得多,利用它确定结构状态的精确度却稍许差一些,但是要求正长石的含量必须是已知的.此外,如果不同样品的 t_1o—〈t_1m〉值对比较是富有意义的,还要求必须修正钙长石含量对△131的影响. 相似文献
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Emily Keeble David I. Whiteside Michael J. Benton 《Proceedings of the Geologists' Association. Geologists' Association》2018,129(2):99-119
Pant-y-ffynnon Quarry in South Wales yielded a rich cache of fossils in the early 1950s, including articulated specimens of new species (the small sauropodomorph dinosaur Pantydraco caducus and the crocodylomorph Terrestrisuchus gracilis), but no substantial study of the wider fauna of the Pant-y-ffynnon fissure systems has been published. Here, our overview of existing specimens, a few described but mostly undescribed, as well as freshly processed material, provides a comprehensive picture of the Pant-y-ffynnon palaeo-island of the Late Triassic. This was an island with a relatively impoverished fauna dominated by small clevosaurs (rhynchocephalians), including a new species, Clevosaurus cambrica, described here from a partially articulated specimen and isolated bones. The new species has a dental morphology that is intermediate between the Late Triassic Clevosaurus hudsoni, from Cromhall Quarry to the east, and the younger C. convallis from Pant Quarry to the west, suggesting adaptive radiation of clevosaurs in the palaeo-archipelago. The larger reptiles on the palaeo-island do not exceed 1.5?m in length, including a small carnivorous crocodylomorph, Terrestrisuchus, and a possible example of insular dwarfism in the basal dinosaur Pantydraco. 相似文献
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Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
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The effect of water on accessory phase solubility in subaluminous and peralkaline granitic melts 总被引:4,自引:0,他引:4
The solubilities of columbite, tantalite, wolframite, rutile, zircon and hafnon were determined as a function of the water contents in peralkaline and subaluminous granite melts. All experiments were conducted at 1035 °C and 2 kbar and the water contents of the melts ranged from nominally dry to approximately 6 wt.% H2O. Accessory phase solubilities are not affected by the water content of the peralkaline melt. By contrast, solubilities are affected by the water content of the subaluminous melt, where the solubilities of all the accessory phases examined increase with the water content of the melt, up to 2 wt.% H2O. At higher water contents, solubilities are nearly constant. It can be concluded that water is not an important control of accessory phase solubility, although the water content will affect diffusivities of components in the melt, thus whether or not accessory phases will be present as restite material. The solubility behaviour in the subaluminous and peralkaline melts supports previous spectroscopic studies, which have observed differences in the coordination of high field strength elements in dry vs. wet subaluminous granitic glasses, but not for peralkaline granitic glasses. Lastly, the fact that wolframite solubility increases with increasing water content in the subaluminous melt suggests that tungsten dissolved as a hexavalent species. 相似文献
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Emmanuel Skourtsos Daniel Vachard Alexandra Zambetakis-Lekkas Rossana Martini Louisette Zaninetti 《Comptes Rendus Geoscience》2002,334(12):925-931
Some olistolites reworked in a Tertiary flysch of Mount Parnon (Peloponnesus, Greece) exhibit a Late Permian assemblage, dominated by Paradunbarula (Shindella) shindensis, Hemigordiopsis cf. luquensis and Colaniella aff. minima. This association corresponds to the Late Wuchiapingian (=Late Dzhulfian), a substage whose algae and foraminifera are generally little known. Contemporaneous limestones crop out in the middle part of the Episkopi Formation in Hydra, but they are rather commonly reworked in Mesozoic and Cainozoic sequences. The palaeobiogeographical affinities shared by the foraminiferal markers of Greece, southeastern Pamir, and southern China, are very strong (up to the specific level), and are congruent with the Pangea B reconstructions. To cite this article: E. Skourtsos et al., C. R. Geoscience 334 (2002) 925–931. 相似文献
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正20141596 Liu Yunhuan(School of Earth Sciences and Resources,Chang’an University,Xi’an 710054,China);Shao Tiequan Early Cambrian Quadrapyrgites Fossils of Xixiang Boita in Southern Shaanxi Province(Journal of Earth Sciences and Environment,ISSN1672-6561,CN61-1423/P,35(3),2013,p.39-43,3 illus.,20 refs.) 相似文献
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正20141719 Chen Zhijun(State Key Laboratory of Geological Processes and Mineral Resources,China University of Geosciences,Wuhan 430074,China);Chen Jianguo Automated Batch Mapping Solution for Serial Maps:A Case Study of Exploration Geochemistry Maps(Journal of Geology,ISSN1674-3636,CN32-1796/P,37(3),2013,p.456-464,2 illus.,2 tables,10 refs.) 相似文献
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正20140962 Chen Fenning(Xi’an Institute of Geology and Mineral Resources,Xi’an710054,China);Chen Ruiming Late Miocene-Early Pleistocene Ostracoda Fauna of Gyirong Basin,Southern Tibet(Acta Geologica Sinica,ISSN0001-5717,CN11-1951/P,87(6),2013,p.872-886,6illus.,56refs.) 相似文献
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正1.IGNEOUS PETROLOGY20142008Cai Jinhui(Wuhan Center,China Geological Survey,Wuhan 430205,China);Liu Wei Zircon U-Pb Geochronology and Mineralization Significance of Granodiorites from Fuzichong Pb-Zn Deposit,Guangxi,South China(Geology and Mineral Resources of South China,ISSN1007-3701,CN42-1417/P,29(4),2013,p.271-281,7illus., 相似文献
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正20141205Cheng Weiming(State Key Laboratory of Resources and Environmental Information System,Institute of Geographic Sciences and Natural Resources Research,CAS,Beijing 100101,China);Xia Yao Regional Hazard Assessment of Disaster Environment for Debris Flows:Taking Jundu Mountain,Beijing as an 相似文献
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正20141266Fan Chaoyan(Guangdong Provincial Key Laboratory of Mineral Resources and Geological Processes,Guangzhou 510275,China);Wang Zhenghai On Error Analysis and Correction Method of Measured Strata Section with Wire Projection Method(Journal of 相似文献