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In order to obtain new sedimentological data for a better understanding of the palaeo geological assembly of the various sedimentary and tectonic complexes of the Northern Apennines, the authors have re-examined and re-analysed the petrography of the main Tertiary graywacke and sandstone sequences of this mountain range. Several hundred thin sections and heavy-mineral preparations have been studied qualitatively and quantitatively. Generally, for all investigated graywackes and sandstones a source area with a more or less uniform petrographic organization can be assumed, since all different components, though in variable distributions, occur in all the studied sequences. Differences in the abundance of the components in the individual graywackes and sandstones are attributable to influences of the source area itself. The distribution of quartz-poor or quartz-free volcanic rocks, quartz—epidote—zoisite schists, and carbonatic cement in the samples and epidote and zoisite in the heavy-mineral preparations indicate, however, a certain palaeogeological succession of the original areas of deposition from the internal to the external parts of the mountain range. 相似文献
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北秦岭小寨变质沉积岩系的地质特征及其构造意义 总被引:1,自引:0,他引:1
原岩恢复、沉积建造及变形变质综合研究表明,北秦岭小寨变质沉积岩系属活动陆缘性质沉积建造,形成于二郎坪弧后盆地消减俯冲带的海沟盆地-海沟斜坡环境,是古俯冲带的重要证据之一,其变形序列反映了弧后盆地构造演化过程,并与构造混杂岩、俯冲型花岗岩及高压变质带一起构成相对完整的古俯冲带标志,为探讨秦岭古生代板块构造演化提供了重要信息。 相似文献
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《International Geology Review》2012,54(1):108-119
Mineral parageneses and distribution of secondary minerals in the sedimentary sections of the western Siberian lowland (Mesozoic), the Kuznetsk basin (coal measures) and the Minusinsk depression (Devonian), in reference to diagenesis, epigenesis, and the initial metageneses, as criteria for identification of large cycles of sedimentation (series) by means of the lithological-formatonal analysis, show among other things that the originally polymictic rocks (continental terrigenic sediments) are rendered practically oligomictic by kaolinization of their feldspars and micas; corrosion of feldspars in carbonate rocks renders them significantly quartzitic; formation of dioctahedral mica and chlorite (deep epigenesis) in all horizons homogenizes mineralogically the clay fraction of the originally clayey rocks. The sequence of changes in the ratio of secondary quartz to secondary plagioclase is essentially the same throughout the profiles as in their terrigenic analogues. An abundance of clayey cementing substance in the original sediments is conducive to conservation of their elastic fraction, so that the regeneration peaks (authigenic minerals) may develop both under and over such horizons, but not in the horizons themselves. – IGR Staff. 相似文献
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《Ore Geology Reviews》2008,33(3-4):471-499
The Rio das Velhas greenstone belt is located in the Quadrilátero Ferrífero region, in the southern extremity of the São Francisco Craton, central-southern part of the State of Minas Gerais, SE Brazil. The metavolcano–sedimentary rocks of the Rio das Velhas Supergroup in this region are subdivided into the Nova Lima and Maquiné Groups. The former occurs at the base of the sequence, and contains the major Au deposits of the region. New geochronological data, along with a review of geochemical data for volcanic and sedimentary rocks, suggest at least two generations of greenstone belts, dated at 2900 and 2780 Ma. Seven lithofacies associations are identified, from bottom to top, encompassing (1) mafic–ultramafic volcanic; (2) volcano–chemical–sedimentary; (3) clastic–chemical–sedimentary, (4) volcaniclastic association with four lithofacies: monomictic and polymictic breccias, conglomerate–graywacke, graywacke–sandstone, graywacke–argillite; (5) resedimented association, including three sequences of graywacke–argillite, in the north and eastern, at greenschist facies and in the south, at amphibolite metamorphic facies; (6) coastal association with four lithofacies: sandstone with medium- to large-scale cross-bedding, sandstone with ripple marks, sandstone with herringbone cross-bedding, sandstone–siltstone; (7) non-marine association with the lithofacies: conglomerate–sandstone, coarse-grained sandstone, fine- to medium-grained sandstone. Four generations of structures are recognized: the first and second are Archean and compressional, driven from NNE to SSW; the third is extensional and attributed to the Paleoproterozoic Transamazonian Orogenic Cycle; and the fourth is compressional, driven from E to W, is related to the Neoproterozoic Brasiliano Orogenic Cycle. Gold deposits in the Rio das Velhas greenstone belt are structurally controlled and occur associated with hydrothermal alterations along Archean thrust shear zones of the second generation of structures.Sedimentation occurred during four episodes. Cycle 1 is interpreted to have occurred between 2800 and 2780 Ma, based on the ages of the mafic and felsic volcanism, and comprises predominantly chemical sedimentary rocks intercalated with mafic–ultramafic volcanic flows. It includes the volcano–chemical–sedimentary lithofacies association and part of the mafic–ultramafic volcanic association. The cycle is related to the initial extensional stage of the greenstone belt formation, with the deposition of sediments contemporaneous with volcanic flows that formed the submarine mafic plains. Cycle 2 encompasses the clastic–chemical–sedimentary association and distal turbidites of the resedimented association, in the eastern sector of the Quadrilátero Ferrífero. It was deposited in the initial stages of the felsic volcanism. Cycle 2 includes the coastal and resedimented associations in the southern sector, in advanced stages of subduction. In this southern sedimentary cycle it is also possible to recognize a stable shelf environment. Following the felsic volcanism, Cycle 3 comprises sedimentary rocks of the volcaniclastic and resedimented lithofacies associations, largely in the northern sector of the area. The characteristics of both associations indicate a submarine fan environment transitional to non-marine successions related to felsic volcanic edifices and related to the formation of island arcs. Cycle 4 is made up of clastic sedimentary rocks belonging to the non-marine lithofacies association. They are interpreted as braided plain and alluvial fan deposits in a retroarc foreland basin with the supply of debris from the previous cycles. 相似文献
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R. Nagarajan Priyadarsi D. Roy M.P. Jonathan Rufino Lozano Franz L. Kessler M.V. Prasanna 《Chemie der Erde / Geochemistry》2014
Multi-element geochemistry and mineralogy are used to characterize the chemical composition, degree of paleo-weathering, provenance and tectonic settings of the Neogene sedimentary rocks of Borneo Basin of east Malaysia. Sedimentary rocks are classified as extremely weathered sandstones (i.e. wacke, arkose, litharenite, Fe-sandstone and quartz arenite). Wacke, arkose, litharenite and Fe-sandstone are characterized by post-depositional K-metasomatism and zircon enrichment through sediment recycling. Geochemical characteristics suggest a mixed-nature provenance for the sandstones and the variable tectonic settings possibly mirror the complexity of the basin. Enriched Cr in quartz arenite and Fe-sandstone are related to the contribution from ophiolite or fractionation of Cr-bearing minerals. 相似文献
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《International Geology Review》2012,54(6):1039-1056
Jatulian (middle Proterozoic) deposits in Karelia form isolated synclinoria, trending northwest and surrounded by blocks of granitic rocks and schists. Individual zones are 70-250 km long by 5-130 km wide. They have been traced 600 km from south to north. Jatulian deposits consist of metamorphosed sedimentary and volcanic rocks. Sedimentary rocks in central Karelia consist of polymictic conglomerates, sericitic sandstones and carbonate-bearing sandstones. Facies change gradually away from the central parts of Jatulian troughs from lacustrine to shallow-water shore facies and then to those of streams and mountain slopes. The intervals thin in the same basins. The lateral facies sequence is repeated vertically. Variations in thickness and facies were determined by contemporaneous Jatulian tectonic activity. There resulted a system of relatively narrow zones with different rates of subsidence, sedimentation and uplift.—C. G. Tillman. 相似文献
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西昆仑赛力亚克混杂堆积中砂岩块体的主要特点 总被引:2,自引:0,他引:2
西昆仑赛力亚克混杂堆积由形态、颜色和大小各异的沉积岩块体以及黑色泥质粉砂岩夹灰紫绿色钙质页岩、泥灰岩和层凝灰岩的基质组成。露头上块体和基质界线一般清楚,岩块主要是岩屑石英砂岩、凝灰质杂砂岩、长石质杂砂岩、石英质杂砂岩和碳酸盐岩类等。它们分布受麻礼-康西瓦-木孜塔格构造带的控制,是在残留海沟带,通过碎屑流、重力流的作用形成一套特殊的沉积混杂体。 相似文献
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The analysis of modal and normative composition of sedimentary rocks is widely used for studying their sources and tectonic settings. The normative calculation of the mineral composition of rocks in this study is formulated as a linear programming problem and is solved by means of the simplex method. This enables both simultaneous and successive subtraction of a set of basic minerals from a rock sample represented by its chemical composition {SiO2...LOI}. Such an approach provides a more exact calculation of the contribution of basic minerals in the rock. This mathematical approach is used to study two representative sets of sandstones and fine-grained rocks from a Meso- to Neoproterozoic marginal basin of southeastern Siberia (Uchur–Maya region, Yakutia) and a Pennsylvanian-Lower Permian uplifted continental block in Colorado, USA. The calculated normative mineral compositions of the Siberian sandstones are consistent with the observed modal compositions. These sandstones vary from K- Feldspar rich arkoses at the base of the sequence (the Uchur Group, lower Riphean) to quartz arenites or lithic sandstones and wacke in transgressive successions of the middle-upper Riphean. Arkoses and quartz arenites are dominant in Meso- to Neoproterozoic Siberia. These samples represent craton interior uplifted basement and quartzose, recycled orogen provenance of a stable craton in Rodinia. There are higher but consistent discrepancies between the calculated and observed compositions for the Pennsylvanian to Lower-Permian arkoses and quartz arenites (Sangre de Cristo, Belden, and Maroon Formations). The differences between the predicted and observed mineralogy may be due to uncertainties in the modes in the matrix and cement of the sandstones. This normative program should supplement modal calculations and provide better genetic constructions, especially in case of matrix-rich sandstones. 相似文献
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藏北羌塘奥陶纪平行不整合面的厘定及其构造意义 总被引:7,自引:5,他引:2
西藏羌塘块体有无变质基底、其前新生代构造属性与演化过程是长期争论的议题。本文报道南羌塘块体北部,中、上奥陶统塔石山组底砾岩平行不整合于浅变质中厚层石英砂岩夹薄层泥灰岩之上。近600粒碎屑锆石测年结果表明浅变质石英砂岩的最大沉积年龄为527±7Ma,300余粒碎屑锆石测年结果表明塔石山组底部石英砂岩的最大沉积年龄为471±6Ma。不整合面上、下石英砂岩最大沉积年龄之差达56Myr,表明这两套石英砂岩之间存在明显的沉积间断,证实了该平行不整合面的时代为奥陶纪早期。另一独立的证据是在邻区发现了早奥陶世花岗岩类岩石(471~477Ma)侵位于该浅变质石英岩,因此将不整合面之下的浅变质石英岩暂命名为荣玛组,归入寒武系地层。阴极发光与年代学研究进一步表明不整合面之上的碎屑锆石主要来源于在"泛非"运动晚期形成的结晶岩,为近源锆石,表明"泛非运动"晚期所形成的结晶岩在奥陶纪早期就已隆升,遭受剥蚀,为区内中上奥陶统沉积岩的形成提供物质来源。该奥陶纪平行不整合面的发现,表明南羌塘块体与喜马拉雅、拉萨等块体相似,同属冈瓦纳大陆体系。南、北羌塘早古生代地层系统之间的显著差异表明在寒武-奥陶纪之交,南、北羌塘块体就已被古大洋盆分隔开,开始各自独立演化。 相似文献
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E. F. Letnikova I. A. Vishnevskaya F. A. Letnikov N. I. Vetrova S. I. Shkolnik Yu. A. Kostitsyn E. A. Karakovskii L. Z. Reznitskii N. A. Kanygina 《Doklady Earth Sciences》2016,470(2):1071-1075
The geochemical and Sm–Nd isotope characteristics of Late Precambrian and Early Cambrian sandstones previously related to the sedimentary cover of the Dzabkhan continental block are reported. It is established that the Riphean and Vendian sedimentary rocks of the Ul’zitgol’skaya and Tsaganolomskaya Formations were accumulated within the Dzabkhan continental block as a result of recycling of the terrigenous deposits formed at the expense of destruction of basement rocks and younger granite. The formation of terrigenous rocks of the Bayangol’skaya Formation after a gap in sedimentation occurred in the sedimentary basin, where only the Late Riphean formations of the juvenile crust, probably of the Dzabkhan–Mandal block were the sources, without the contribution of the ancient crustal material. The Tsaganolomskaya and Bayangol’skaya Formations were formed in different sedimentary basins and cannot be related to the same complex. 相似文献
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右江盆地中三叠世充填了一套巨厚的复理石沉积,岩性为细砂岩、粉砂岩、泥岩及其过渡岩石,其独特的沉积特征颇受国内外地质学界关注,但目前对该套碎屑岩的物源尚有争议。文章通过对册亨地区中三叠世碎屑岩开展详细的岩石学和地球化学分析,结果显示:碎屑岩成分成熟度与结构成熟度都较低,具近源沉积特征。SiO2(平均为58.49%)含量较低,变化范围较大,说明石英含量较低;Al2O3(平均为12.46%)含量较高,说明粘土矿物及长石含量较高;Al2O3/SiO2的比值平均为0.22,与杂砂岩(0.20~0.23)一致,说明碎屑岩成熟度较差,亦具近源沉积特征;CaO(平均为7.83%)含量较高,说明含碳酸盐类物质较多。微量元素表现为富集Rb、Th、La、Nd、Hf和Pb以及相对亏损P、Ti、Sr、Nb和Ta的特点,稀土元素具有ΣREE变化范围大,轻稀土富集,Eu亏损的特点。主量、微量和稀土元素分析表明,碎屑岩的源岩以长英质岩石为主,并有少量中性岩及石英质沉积岩的混入;源区构造背景以大陆岛弧为主,兼有被动大陆边缘及活动大陆边缘特
征。化学蚀变指数(CIA)值为53.93~74.80,均值为65.12。通过CIA以及Th/U比值,表明碎屑岩源区主要经历了中等化学风化作用。 相似文献
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The Whole‐Rock Geochemical Composition of the Wudaogou Group in Eastern Yanbian,NE China–New Clues to Its Relationship with the Gold and Tungsten Mineralization and the Evolution of the Paleo‐Asian Ocean 
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下载免费PDF全文 The late Paleozoic Wudaogou Group, one of the oldest metamorphic units in the eastern Yanbian area, has important tectonic and metallogenic significance. Here, we provide new insights into their protoliths, tectonic setting of the metamorphic rocks and their relationships with the gold and tungsten mineralization, using new petrographic and whole‐rock geochemical data for various lithologies within the Wudaogou Group. The protolith of the metamorphic rocks of the Wudaogou Group was intermediate–basic volcanic rocks (e.g. basaltic andesite, trachyandesite, and basalt) and sedimentary rocks including argillaceous rocks, quartz sandstone, arkose and clayish greywacke, as well as pyroclastic sedimentary rock, covering tuffaceous sandstone. Before undergoing late Paleozoic epidote–amphibolite facies regional metamorphism, these protoliths were formed during the middle–late Permian in an island arc setting within a continental margin collage zone. Combined with the regional tectonic evolution, it can be speculated that the formation and the subsequent metamorphism of the protoliths of the metamorphic rocks from the Wudaogou Group were influenced by the change from subduction to collision of the Paleo‐Asian Ocean. Similarities of the rare earth element (REE) patterns and parameters among the metamorphic rocks within the Wudaogou Group, auriferous ores from the Xiaoxi'nancha gold (copper) deposit, and scheelites from the Yangjingou tungsten deposit, together with the favorable metallogenic element contents within the metamorphic rock series, imply that the Wudaogou Group could provide parts of metallic material for the gold and tungsten mineralization in the eastern Yanbian area, as exemplified by the Yangjingou deposit and Xiaoxi'nancha deposit, respectively. Further, the metamorphic sedimentary rocks, especially the metamorphic sandstones, quartz schists and quartz mica schists within the Wudaogou Group, have closer genetic relationships with the Yangjingou tungsten mineralization. However, the specific lithologies within this group which control the gold mineralization are still uncertain, and need further research. 相似文献
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Results of the study of noble metal specialization of Lower and Middle Riphean terrigenous rocks in the Bashkir Anticlinorium (South Urals) are reported. The study revealed their genetic differences in the relatively unaltered, i.e., “background” terrigenous rocks in type sections of the Burzyan and Yurmatau groups and in sedimentary rocks of the same stratigraphic levels from tectonic zones subjected to local dynamothermal metamorphism of the greenschist facies and intruded by mafic rocks. It has been established that Ru serves as a geochemical marker of the impact of magmatic processes on sedimentary rocks and the redistribution of noble metals during metamorphism and local metasomatism. A generalized model is proposed for the formation of noble metal geochemical specialization of Lower and Middle Riphean terrigenous rocks in the South Urals. 相似文献
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《地学前缘(英文版)》2020,11(4):1441-1459
Ordovician diorite-quartz diorite mylonite (Saganoseki quartz diorite) was discovered in Sambagawa metamorphic terrane at the northern margin of Saganoseki Peninsula, Kyushu Island, Japan. The LA-ICP-MS zircon U–Pb geochronology revealed that the intrusion age of Saganoseki quartz diorite was 473.3 ± 3.6 Ma. These rocks show the volcanic arc affinity based on the trace element composition. On the basis of geochronological and geochemical results, Saganoseki quartz diorite is considered to be a member of the Early Paleozoic igneous rocks of the Kurosegawa tectonic zone. Saganoseki quartz diorite is located just south of the Median Tectonic Line (MTL) and is in close contact with the pelitic and psammitic schist without any brittle shear zone. U–Pb ages of detrital zircon grains from two psammitic schists show the estimated sedimentation age of early Late Cretaceous, indicate that these psammitic schists are the member of Sambagawa metamorphic rocks. Together with these results and the mode of occurrence in the field, we argue that the Early Paleozoic igneous rocks of the Kurosegawa tectonic zone existed as an upper structural unit of the Sambagawa terrane. This relationship is the key to reconstruct the Mesozoic tectonics of Japan as a part of East Asia, and its evolution through time. 相似文献
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沉积物的地球化学成分在沉积岩物源分析及构造背景的研究中具有重要的作用.对研究区4口钻孔中的姚家组砂岩进行了详细的岩石学和地球化学研究,结果显示,砂岩碎屑颗粒石英含量最高,长石次之,岩屑含量最低,平均值分别为42%、37%和21%,具有锆石+钛磁铁矿+石榴子石的重矿物组合,反映源岩以酸性岩浆岩或变质岩为主,Dickinson判别图解表明物源主要来自于大陆物源区;姚家组砂岩的稀土元素以轻稀土富集、重稀土平坦、中度铕负异常为特征.砂岩CIA值为52.02~60.16,平均值为56.69,反映了干燥气候背景下弱的化学风化作用.源岩属性判别图解表明源岩为再旋回的古老沉积物及长英质火山岩.主量、微量和稀土元素的构造背景判别图解综合表明姚家组砂岩物源区为被动大陆边缘构造环境,结合区域构造演化,认为姚家组砂岩的物源为华北克拉通北缘燕山陆内造山带发育的火山-沉积岩系. 相似文献
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A study was carried out on the combination of petrographies, geochemistry (major and trace), weathering and the digenesis of 31 sandstones samples to determine their provenance and depositional tectonic setting of sedimentary basins. Based on the composition of Detrital grains (point counting), most of the Sarah sandstones were classified as quartz arenites types (99% on an average). The petrographic data indicated that the resultant mature sandstones are derived from recycled and craton interior tectonic provenance. Tectonic setting discrimination diagrams based on major elements suggest that sandstones were deposited in a passive margin and polycyclic continental tectonic setting. The relationship between K2O/Na2O ratio and SiO2 showed that the Sarah sandstone samples fall into the passive margin field. The chemical index of alteration (CIA?=?63.84%) of sandstones suggested moderate weathering or reworking in the area. The concentration of trace elements indicates that the sediments were probably derived from the mixed sedimentary-meta sedimentary provenance and changes in sedimentary process due to climatic variations. The main diagenetic events were in the form of cements, which occur as grain coats and as pore fillings. An integrated approach showed that the parent area of paleovalley-fill sediment is probably a complex of granite, metasedimentary and pre-existing sedimentary rocks. 相似文献
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S. A. Medvedeva 《Russian Journal of Pacific Geology》2014,8(4):300-314
The early Jurassic-Early Cretaceous tectonic environments were reconstructed for the first time on the basis of the study of sandstones from the Soloni-Urgal interfluve (Bureya sedimentary basin, Far East). The mineralogical-petrographic and lithochemical studies revealed that the sandstones are mostly quartz-feldspathic and feldspathic graywackes of acid composition with less common litites, graywacke arkoses, and arkoses. It was shown that the Lower-Middle Jurassic sediments were formed in active continental margin and continental volcanic arc settings, while the Upper Jurassic-Lower Cretaceous sediments were accumulated in a passive continental margin setting. Orogenic events in the Toarcian-Aalenian, Late Bajocian, and Late Oxfordian-Kimmeridgian led to sedimentation gaps. 相似文献
20.
A. A. Tretyakov A. B. Kotov K. E. Degtyarev E. B. Sal’nikova K. N. Shatagin S. Z. Yakovleva I. V. Anisimova 《Doklady Earth Sciences》2011,438(2):739-743
The volcanogenic Kuuspek Formation is a well-defined part of the succession of the Pre-Vendian complexes of the Kokchetav
massif (Northern Kazakhstan). The formation is built up of mildly metamorphosed acid lavas, tuffs, and tuffaceous sandstones.
At the reference site to the west of the Kokchetav Mountains, the rocks of the Kuuspek Formation compose hinges of small anticlinal
folds with sericite-quartz schists of the Late Riphean Sharyk Formation forming the limbs. The Kuuspek Formation lavas are
high-alumina rhyolites of high-potassium calc-alkaline series. The U-Pb zircon age of the rhyolites is 1136 ± 4 Ma, thus referring
to the Middle Riphean. The Kuuspek rhyolites form the basal part of the Precambrian sedimentary cover of the Kokchetav massif.
The cover also comprises schists, limestones, and dolomites of the Sharyk Formation, and quartzites and quartzitic schists
of the Late Riphean Kokchetav Formation. 相似文献