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1.
The present study aims to shed light on the mechanism of formation of the Oligo-Miocene oolitic ironstones of Haddat Ash Sham area, Saudi Arabia. These ironstones are enclosed within the middle part of the Oligo-Miocene siliciclastic succession of the western part of the Arabian Shield, western Saudi Arabia. The ironstone beds were formed during marine incursion and creation of short-lived starved time periods of high organic matter activities, ferrous iron, and low clastic input. The depositional and diagenetic processes involved in the formation of Haddat Ash Sham ironstones are summarized here as follows: (1) the deposition of detrital components (i.e., amorphous iron-bearing clays admixed with silt and sand-sized quartz grains) and their distribution by the waves and current actions in areas of different water depths (bars and inter-bar areas); (2) the deposition of the iron-bearing clays in slightly reducing transgressive conditions (dysaerobic zone) led to the authigenesis of green marine chamositic clays of variable mineralogical and chemical compositions according to the predominated depositional environments; and (3) in the upper parts of the depositional cycles, the iron-bearing clays become admixed with detrital quartz grains which resulted in the formation of silty and sandy ironstones of low iron content. The diagenetic processes led to the oxidation of the green chamositic clays and formation of amorphous Fe-oxyhydroxides, ferrihydrites, goethite, and hematite. These iron mineral phases are related to each other and show progressive steps of transformation during the diagenetic processes. The iron ooids represent in situ formed irregular domains formed during the diagenetic crystallization and dehydration of the amorphous iron oxyhdroxides resulted from the diagenetic oxidation of green chamositic clays. This is supported by the absence of detrital cores of the iron ooids, the gradational contact between the iron ooids and the enclosing matrix and also by the presence of many ooids of unclear and ill-defined internal structure. 相似文献
2.
《Sedimentary Geology》1999,123(1-2):63-80
On the Baltic platform a lower Llanvirn (Ordovician) iron oolite can be traced for a distance of 1200 km from Norway to the east of Lake Ladoga in Russia. This oolite is usually thin (seldom exceeding 0.5 m) and is dominated by goethite (limonite) type ooids. The easternmost part of the oolite, from Tallinn to Ladoga, is examined here. The oolitic limestone is intercalated with oolitic clay beds. The mineralogical, chemical and isotopic composition and other indicators point to volcanic ash being the source for the clay. Similarities in REE distribution patterns and immobile element contents between ooids and the oolitic clay suggest that the ooids were also formed from volcanic ash. 相似文献
3.
The Campanian-Maastrichtian Agbaja Ironstone Formation of the Nupe basin, Nigeria, forms a major part of the about 2 billion
tons of iron ore reserves of the Middle Niger Embayment. The ironstone deposits were previously reported to be similar to
the Minette-type ironstones because of their depositional patterns, composition and inferred origin. Four rock-types are recognized
within the Agbaja Ironstone Formation: ooidal pack-ironstone, pisoidal pack-ironstone, mud-ironstone and bog iron ore. In
the ironstones, kaolinite of both the groundmass and the ooids/pisoids is of lateritic origin, whereas the associated quartz,
mica and heavy minerals are of detrital origin. Ooids and pisoids were formed by mechanical accretion of platy kaolinite crystals
by rolling on the sea floor in a near-shore environment, and were subsequently transported and deposited together with a fine-grained
kaolinitic groundmass. Pyrite (mainly framboidal) and siderite (both exclusively occurring as pseudomorphs of goethite and/or
hematite) are diagenetic whereas goethite is post-diagenetic in origin, resulting from the ferruginization of the kaolinitic
precursor. Crandallite-gorxeicite-goyazite, bolivarite and boehmite are also post-diagenetic in origin. Hematite was formed
from the dehydration of goethite, whereas gibbsite (restricted to the upper part of the deposit) is of recent and in situ lateritic origin. The presence of newly formed authigenic pyrite and siderite (now replaced by hematite and goethite) are
indicators of a reducing environment during diagenesis. The absence of diagenetic chamositic clay minerals, evidently caused
by a low Mg concentration, suggests that fully marine conditions were not established during sedimentation. This is supported
by the lack of fossils, brecciated shell materials and bioturbation features in the deposit. Reworking and redeposition of
the primary constituents are inferred from broken pisoids, nuclei of pisoidal/ooidal fragments in pisoids and high iron concentrations
present in the pisoids and ooids compared to that of the groundmass. These observations indicate that the Agbaja ironstone
deposits of the Lokoja study area exhibit some environmental and mineralogical characteristics that are markedly different
from other known deposits of Minette-type, where primary chamositic clay minerals generally form the protore for the ironstones.
The recognition of kaolinite as the precursor constituent and the occurrence of similar deposits of the same age (Late Cretaceous)
in Nigeria, Sudan and Egypt have implications for the paleoenvironmental interpretations of Phanerozoic ironstone deposits.
Received: 16 February 1998 / Accepted: 8 July 1998 相似文献
4.
5.
The Middle–Upper Jurassic boundary in the westernmost Tethyan basins is marked by a discontinuity. A thin iron crust with ferruginous ooids and pisoids and an overlying ferruginous oolitic limestone lithofacies occur in a genetic relationship to this discontinuity with a reduced thickness (< 50 cm) and very local distribution in the Prebetic Zone (Betic Cordillera).The ferruginous coated grains are subdivided into two types. Type A ooids are characterised by thin, regular lamination in concentric layers enclosing a nucleus; they are dominant in the top of the iron crust (100% of the ferruginous ooids) and in the ferruginous oolitic limestone (82%). Type B ooids typically have thick, irregular lamination in a few discontinuous concentric layers enclosing a variable nucleus including bioclasts and foraminifera; they are exclusive to the ferruginous oolitic limestone (18% of the ferruginous ooids). The bulk chemical composition varies between 80% Fe2O3 by weight in the iron crust and 67% by weight in the coated grains. In the ferruginous ooids, the contents in SiO2 (5.4%), Al2O3 (6.5%), P2O5 (3.6%), and CaO (4.7%) are higher than in the crust. Trace elements (V, Cr, Co, Ni, Zn, Y, Mo, and Pb) in both the crust and ooids show enriched values compared with the bulk composition of the upper continental crust. The mineral composition of the iron crust and ooids is primarily goethite, with small amounts of Al-hydroxide (bohemite) and apatite, whereas hematite is identified only in the iron crust.The Type A ooids are interpreted as having an origin related to the iron crust. Since there is no evidence to support a marine genesis for the iron crust, the possibility of a subaerial origin is presented here. The crust has characteristics (chemical and mineralogical composition) similar to those of ferruginous pisolitic plinthite (highly weathered redoximorphic soil), and goethite shows an Al-substitution range (5–10 mol%) that indicates pedogenic conditions. Soil processes under periodic hydrous conditions are suggested; groundwater soils with hydrous conditions are congruent with the formation of the Type A ferruginous ooids and pisoids. In this situation, a coastal plain with periodically flooded soils would be the likeliest scenario. Callovian shallow carbonate shelf was possibly emerged and weathered, followed by marine sedimentation during the Middle Oxfordian, associated with major flooding of the Prebetic shelf and the erosion of ferruginous pisolitic plinthite. The first marine deposit was ferruginous oolitic limestones. Fragments of iron crust and Type A ferruginous ooids were reworked and incorporated into the marine sediments. A second phase of ferruginous ooids (Type B) with clear marine features developed, benefiting from iron-rich microenvironments due to the redistribution from iron crust fragments and Type A ferruginous ooids. 相似文献
6.
朱伟鹏 《沉积与特提斯地质》2023,43(1):87-100
宁乡式铁矿是我国南方最具代表性的沉积型铁矿,为了探讨其沉积特征与成矿机制,本文借助偏光显微镜、扫描电子显微镜和TESCAN综合矿物分析仪,选取采自桂东北、鄂西成矿区的若干矿石样品进行岩石学和沉积学研究,深入剖析铁质鲕粒的显微组构和地球化学特征。结果显示宁乡式铁矿为混积岩,具有典型的鲕状结构,可划分为砂岩型、灰岩型和混合型等三种类型,赋存于中泥盆统信都组、上泥盆统黄家磴组和写经寺组地层中,含矿岩系总体为一套砂岩、泥页岩和泥灰岩组合,形成于区域海侵背景下的滨海、滨–浅海转换带;矿石中铁质鲕粒形态多样,粒径多集中于0.2~0.5 mm,少数铁质鲕粒的矿物相和主量元素呈圈层状分布,核心可为石英或生物碎屑充填,外部为赤铁矿、鲕绿泥石及胶磷矿环带互层。研究表明矿石的形成可划分为成矿物质准备期、铁质鲕粒形成期和铁矿沉积期三个阶段,强烈的古陆风化作用提供了成矿物质来源,成矿物质在机械沉积作用、胶体化学沉积作用和生物沉积作用下富集并沉淀,期间经历了复杂的氧化还原过程,最终压实固结为宁乡式铁矿。 相似文献
7.
龙门山区中泥盆统养马坝组底部发育丰富的铁质鲕粒。为分析该铁质鲕粒成因,本文以甘溪石沟里剖面精细实测为基础,通过详细的薄片和扫描电镜等分析,对铁质鲕粒的特征进行了研究,分析结果表明:龙门山区北川甘溪泥盆系养马坝组鲕粒类型多样,鲕粒核心包括石英碎屑颗粒、海百合碎片、黑色赤铁矿和方解石等4种类型,鲕粒圈层可分为明暗相间圈层、颜色均匀圈层和绿泥石圈层等3种类型。根据鲕粒核心和外部圈层的组合,可将甘溪泥盆系养马坝组的铁质鲕粒划分为粉砂质鲕粒、铁化鲕粒和绿泥石薄皮鲕粒等3种类型。龙门山区北川甘溪泥盆系养马坝组铁质鲕粒对古环境具有重要的指示意义,粉砂质鲕粒形成于开放近岸浅海氧化环境,而铁化鲕粒和绿泥石薄皮鲕粒则指示浅海滨岸中相对封闭的泻湖与残积鲕粒滩环境。 相似文献
8.
Miocene fluvial goethite/hematite channel iron deposits (CID) are part of the Cenozoic Detritals 2 (CzD2), of the Western Australian Pilbara region. They range from gravelly mudstones through granular rocks to intraformational pebble, cobble and rare boulder conglomerates, as infill in numerous meandering palaeochannels in a mature surface that includes Precambrian granitoids, volcanics, metasediments, BIF and ferruginous Palaeogene valley fill. In the Hamersley Province of the Pilbara, the consolidated fine gravels and subordinate interbedded conglomerates, with their leached equivalents, are a major source of export iron ore. This granular ore typically comprises pedogenically derived pelletoids comprising hematite nuclei and goethite cortices (ooids and lesser pisoids), with abundant coarser goethitised wood/charcoal fragments and goethitic peloids, minor clay, and generally minimal porous goethitic matrix, with late-stage episodic solution and partial infill by secondary goethite, silica and siderite (now oxidised) in places. Clay horizons and non-ore polymictic basal and marginal conglomerates are also present. The accretionary pedogenic pelletoids were mostly derived from stripping of a mature ferruginous but apparently well-vegetated surface, developed in the Early to Middle Miocene on a wide variety of susceptible rock types including BIF, basic intrusives and sediments. This deep ferruginisation effectively destroyed most remnants of the original rock textures producing a unique surface, very different to those that produced the underlying CzD1 (Palaeogene) and the overlying CzD3 (Pliocene – Quaternary). The peloids were derived both intraformationally from fragmentation and reworking of desiccated goethite-rich muds, and from the regolith. Tiny wood/charcoal fragments replaced in soil by goethite, and dehydrated to hematite, formed nuclei for many pelletoids. Additionally, abundant small (≤10 mm) fragments of wood/charcoal, now goethite, were probably replaced in situ within the consolidating CID. This profusion of fossil wood, both as pelletoid nuclei and as discrete fragments, suggests major episodic wild fires in heavily vegetated catchments, a point supported by the abundance of kenomagnetite – maghemite developed from goethite in the pelletoids, but less commonly in the peloids. The matrix to the heterogeneous colluvial and intraformational components is essentially goethite, primarily derived from modified chemically precipitated iron hydroxyoxides, resulting from leaching of iron-rich soils in an organic environment, together with goethitic soil-derived alluvial material. Major variations in the granular ore CID after deposition have resulted from intermittent groundwater flow in the channels causing dissolution and reprecipitation of goethite and silica, particularly in the basal CID zones, with surface weathering of eroded exposures playing a role in masking some of these effects. However, significant variations in rock types in both the general CID and the granular ore CID have also resulted from the effects of varied provenance. 相似文献
9.
RETO M. BURKHALTER 《Sedimentology》1995,42(1):57-74
Aalenian and lower Bajocian rocks in the central and northern Swiss Jura mountains comprise a series of parasequences that mainly reflect a shallowing-upward trend in a shallow, mixed carbonate/siliciclastic depositional environment. Within a parasequence, ooidal ironstones may occur at three specific types of horizons. These are: regressional discontinuities and transgressional discontinuities formed by sediment bypassing, and omissional discontinuities formed by starvation. Ooidal ironstones, which principally are autochthonous, accumulated during both sea-level rises and falls in a relatively broad bathymetric and hydrodynamic spectrum. The key physical factor for ferruginous ooid genesis is non-deposition. Ferruginous ooids and microbialites consist of goethite, chamosite and mixtures thereof, with subordinate amounts of apatite and silica. Ferruginous ooids grew stepwise on the sediment surface in an oxygenated marine environment. Ferruginous microbialites, being the product of benthic microbial communities, grew ? partly in cavities ? in aerated moderate- to high-energy environments. Thus, chamosite evolved from a precursor substance stable under oxidizing conditions. The close mineralogical and micromorphological resemblance of ferruginous microbialites and ooids suggests a common biogenic origin. Structural rearrangement of a biologically accreted gel-like precursor substance consisting of various amorphous hydroxides is considered a probable mode of mineral genesis in both ferruginous ooids and microbialites. 相似文献
10.
The late (?) Miocene non-marine to paralic Guayabo Group in northeastern Colombia and adjacent Venezuela contains as many as thirty-four thin (to 15 cm) goethitic and chamositic oolites and ooid-bearing sandstones in 1080 m of section. This eastward prograding deltaic complex consists mainly of chert-rich litharenite in fluvial, distributary channel, and shoreline facies, and of montmorillonite mudstone in floodplain and interdistributary embayment facies. Within this framework the oolites are restricted to a paralic association that developed during episodes of waning detrital sedimentation when distributary abandonment was followed by minor transgression across mudflats. Most of the multilayered and symmetrical ooids are composed of goethite, rarely with a small amount of chamosite. These are essentially spherical; many of the chamosite-rich ones have been plastically deformed. Goethitic ooids resemble those in a thin layer accumulating in brackish Lake Chad, central Africa. Chamositic ooids have affinities with those accumulating in a sea loch in western Scotland. Each of these examples is associated with detrital (silicate) sedimentation, apparently developed directly from colloidal ferric oxide and silicate precursors, and affords no evidence that primary aragonitic ooids were later placed by ironbearing oxide and clay. 相似文献
11.
K. A. Novoselov E. V. Belogub V. A. Kotlyarov K. A. Filippova S. A. Sadykov 《Geology of Ore Deposits》2018,60(3):265-276
The paper discusses the mineralogical and geochemical features of oolitic ironstones from the Sinara–Techa deposit, Transural region, Kurgan district. The ore unit is localized in the lower part of a thick Mesozoic–Cenozoic sequence of sedimentary rocks that fill the West Siberian Basin beneath calcareous clay and overlying beds enriched in glauconite and clinoptilolite. The ironstone consists of goethite ooids in smectite–opal cement. Accessory minerals are pyrite, galena, sphalerite, and monazite. The texture and structure make it possible to suggest the formation of sediments enriched in iron as a result of colloid coagulation. The most probable source of iron is related to inland drift. Deposition of iron took place in the estuaries of subtropical rivers due to mixing of colloidal solution of river water with seawater electrolyte. The chemical features of rocks are controlled by the composition of the adsorbed iron oxi/hydroxide complex. 相似文献
12.
Quartz and iron (hydr)oxide are reactive surface phases that are often associated with one another in soils and sediments. Despite the several studies on the coating of quartz with iron oxides, the reactivity of dissolved species (Si) leached from quartz with iron (hydr)oxides has received limited attention. In this study, goethite synthesized on quartz substrates were characterized using field emission scanning electron microscopy, X-ray diffraction (XRD), transmission electron microscopy, and Fourier-transform infrared (FT-IR) spectroscopy. The SEM characterization revealed that bundles of thin parallel aligned goethite rods were formed at pH?>?10, while large pseudohexagonal crystals of twinned goethite needles were synthesized at pH?≤?10 after dehydration and hydration in the alkaline media. TEM analysis showed expanded and distorted lattice spacing of the crystal structure of iron (hydr)oxide due to silica incorporation. The characterization showed that silica increased the crystallite size of the goethite and transformed its acicular texture to a larger, twinned needle structure. FT-IR and XRD analyses revealed band shifts in crystal bonds as well as new bond formations, which indicate the presence of changes in the chemical environment of Fe–O and Si–O bonds. Thus, the presence of sorbed silicates modifies the crystal and lattice structure of goethite. 相似文献
13.
巨鲕是指那些直径超过2mm、海相成因的大型鲕粒,它们在结构上与鲕粒相似,但却远没有鲕粒分布广泛,成因也与鲕粒不尽相同。豫西渑池地区寒武系第三统张夏组发育了大量的巨鲕,其核心由粒径小于2mm的放射状鲕粒或泥晶球粒组成,形成于弱搅动的水体环境中;圈层以泥晶或由Girvanella丝状体组成的暗色纹层与由微亮晶方解石组成的浅色纹层交替发育为特征。巨鲕是在低、中等能量交替的滩间海环境中由Girvanella丝状体的生长、微生物诱导的钙化作用和无机碳酸钙沉淀而成的。Girvanella丝状体在巨鲕的内、外圈层均有分布,尤以外圈层分布更为密集,显示了微生物在巨鲕形成过程中具有重要作用,这为探讨巨鲕的成因提供了一个重要的实例。 相似文献
14.
O.Adrian Pfiffner 《Tectonophysics》1980,61(4):337-362
Strain analysis based on initially uniformly oriented elliptical particles in an oolitic limestone (Blegi oolite) was used to study the homogeneity of the state of strain on various scales, kinematics of folding and deformation mechanisms. A computer (reduced means) method for strain analysis is presented which is based on deforming a population of ellipses with shape and orientation properties of measured undeformed ooids. The strain values obtained with this method are within an accuracy of about 10% (in terms of axial ratios) and are in good agreement with the ones obtained with existing graphical methods. The state of strain is homogeneous on the scale of a thin section, handspecimen and outcrop, provided that regions around relatively strong fossils and regions of marked variations in lithology are avoided. Whole rock strains and strains as indicated by ooids alone are similar. Strain patterns in folds in limestones embedded in sandstones, shales and marl are compatible with bending accompanied simultaneously with a shortening perpendicular to the axial surface. The shortening may be attributed to the shear strains related to fold asymmetry and overthrusting. Strains on the outer arcs of a competent dolomite layer compare well with theoretical and experimental fold models; strain patterns include complex contact strains and change along the fold hinge line across a transverse fault which was active during the folding process. Strains parallel to the hinge line are more or less uniform but do not necessarily represent a plane strain state. Volume change took place during deformation. It was accomplished by pressure solution processes, the pressure solved material being partly redeposited. Pressure solution accounts for only a relatively small fraction of the bulk finite strain and was accompanied by plastic flow. Intracrystalline deformation together with grain boundary sliding and/or grain boundary migration went hand in hand with recrystallization (noteably grain growth). 相似文献
15.
Climatic, oceanographic and ecological changes that control the formation and deposition of sediment in shallow and deep depositional environments commonly occur with periodicities of a few 10 000 years. Consequently, in order to interpret sedimentary sequences in the geological past, high time resolution is required. This is best obtained by cyclostratigraphy. Three sections have been studied in the Oxfordian of north-eastern Spain: one represents a shallow, siliciclastic-carbonate platform with repetitive subaerial exposures, one an intraplatform basin with sponge bioherms, and one a swell where iron ooids and glauconite formed. The platform section displays a well-defined stacking pattern of depositional sequences; the deeper-water sections are well dated by ammonites. The correlation between the three sections is a best-fit solution integrating biostratigraphy, sequence stratigraphy and cyclostratigraphy. It is concluded that the small-scale depositional sequences formed in tune with the 100-ka orbital eccentricity cycle. An additional factor was differential subsidence that ruled basin morphology. 相似文献
16.
The iron mineralization is hosted in carbonate beds of the Garagu Formation (Early Cretaceous) at Gara Mountain, Duhok Governorate, Kurdistan Region, NE Iraq. The Garagu Formation is composed of a series of limestone and siltstone beds with iron-rich beds in the middle part. The iron-rich limestones are iron-rich oolitic grainstone and bioclastic wackestone with hematite and goethite minerals. Geochemical results drawn from this study indicate that the percentage of iron in these beds reaches 19.73 %. Moreover, petrographical investigation of thin and polished sections reveals the presence of different types of fossils, indicating an open marine interior platform depositional environment. Different iron minerals, including hematite, goethite, siderite, pyrite and magnetite, were identified in the sections, and their geneses were related to syngenetic and diagenetic processes. The geochemical distribution of major and trace elements, as well as the V/Ni, V/(V+Ni), V/Cr and Sr/Ba ratios, indicates a reducing environment during the precipitation of carbonate sediments and a subsequent oxidizing condition during the concentration of iron minerals via diagenesis. 相似文献
17.
The Bitincke nickel laterite deposit, located in the south east of Albania, contains an estimated ore resource of 35.6?Mt of nickel ore with a grade of 1.2?% Ni. The deposit developed on peridotites within Late Jurassic ophiolites which were obducted in the Early Cretaceous and which form part of the Albanian Mirdita ophiolite zone. Limestones and conglomerates overlying the deposit delimit the minimum age of lateritization to the mid-Eocene. The laterite is composed of two distinct ore zones characterized by silicate nickel and iron oxide phases. Within the silicate zone, Ni concentrations reach a maximum of 1.5?wt% and although laterally and vertically variable this zone is typically characterized by olivine and serpentine at the base of the horizon which are gradually replaced by secondary silicates and iron oxides up section. The boundary between the silicate and the oxide zone above is normally sharp and characterized by an increase in Fe2O3 (from ~10 to 80?wt%), decreases in SiO2 (from ~30 to 5?wt%) and a dramatic reduction in MgO content (from ~10 to 0.1?wt%). The oxide horizon is dominated by goethite and displays relatively little variation in textural morphology or geochemistry. Nickel concentrations are greatest near the base of this zone, reaching a maximum of 2.3?wt%. Weathering profile formation and variation in the thickness of the deposit was controlled by the interaction between topography, faulting and protolith fracture density. The oxide zone formed on topographic highs was subject to increased rates of erosion, whereas the laterite profile within topographic lows, and in areas of relatively high fracture density, tends to be thicker due to increased permeability. The most substantive sections of the Ni laterite weathering profile developed in small fault controlled basins and were preserved by the deposition of a sequence of limestones and mudstones. 相似文献
18.
碳酸盐岩中的鲕粒是古沉积环境重建的重要载体之一。塔里木盆地北部露头剖面、星火1井区埃迪卡拉系奇格布拉克组潟湖相及浅滩相沉积中发现了多种类型鲕粒及其共生现象。文中通过剖面详勘、岩心观察以及薄铸片、阴极发光、环境扫描电镜等研究方法,阐明了不同类型鲕粒的基本特征及分布,探讨了鲕粒成核、生长的特殊沉积环境和成岩改造等过程。按显微结构、特殊形态、组合以及成岩改造,依次将研究区奇格布拉克组鲕粒划分出12种类型,其中大气淡水、快速拟晶白云岩化、重结晶、交代白云岩化等成岩作用主要发现于中等水动力条件形成的同心(圈)鲕、同心—放射状鲕等。近源风暴引起的底流和涡流产生的撕裂、磨损及搬运作用为泥晶(大)鲕、薄皮鲕、放射状泥晶(正常或大)鲕、脑状鲕以及部分球(或细菌)鲕、复鲕的成核和微生物作用提供了基本条件,而文石—白云石海中低能环境下的黏性软底质中广泛发育的文石—高镁方解石胶结促进鲕粒的形成; 前者发育于潮道或浅滩环境,后者发育于潮坪—潟湖环境,短暂风暴潮或底流是两者共生的可能原因。 微生物参与泥晶成核、一定水动力条件下台阶状生长、差异性成岩改造是前寒武纪多种类型鲕粒发育的主控因素。鲕模孔、粒间(内)溶孔、晶间孔、有机微孔等孔隙具有一定储集意义。对奇格布拉克组鲕粒的研究,有助于深化对前寒武纪古海洋和大气组分、黏性软底质中成核与生长中的水动力及微生物作用、早期成岩改造及孔隙形成与保存机理等的认识。 相似文献
19.
新疆雅满苏铁矿区碳酸盐岩地质地球化学特征及其对矿床成因的制约 总被引:1,自引:0,他引:1
新疆雅满苏铁矿床赋存于下石炭统雅满苏组中,矿区发育火山岩、碳酸盐岩及矽卡岩,因此,研究碳酸盐岩与矽卡岩及成矿的关系对厘定矿床成因类型和指导找矿勘查具有重要的理论和实际意义。文章在野外地质剖面测制和调查研究的基础上,对矿区及外围碳酸盐岩进行了岩相学、主量元素、稀土元素及微量元素分析,探讨了矿区碳酸盐岩的地质、地球化学特征。研究结果表明,雅满苏铁矿区的碳酸盐岩含有浅海相生物化石、鲕粒结构及内碎屑构造,与火山岩互层产出,指示沉积作用及火山喷发活动发生于浅海环境;矿区碳酸盐岩岩石类型包括微晶灰岩、细晶灰岩、大理岩、含凝灰质大理岩、糜棱岩化碳酸盐岩和方解石构造片岩,它们的主量元素含量差别不大,说明在变质变形和成矿作用过程中没有主量元素组分的明显带入带出;稀土、微量元素含量除方解石构造片岩稍有降低外,其余岩性均变化不大,也表明变质变形和成矿作用过程中没有外来物质的明显加入,包括成矿物质;与矿体毗邻的碳酸盐岩为方解石构造片岩,没有发生矽卡岩化,表明该碳酸盐岩在构造及成矿作用过程中只发生了构造片理化和热液重结晶,没有发生接触交代。因此,雅满苏铁矿床不是狭义的矽卡岩(接触交代)型铁矿床,而是海相火山岩型铁矿床。研究区的矽卡岩并非是接触交代的产物,而应是火山热液交代含碳酸盐的火山岩而成。是否有下部地层中的碳酸盐岩提供成岩成矿物质还需要进一步研究。 相似文献
20.
M.C. Frisicale F.J. Martinez L.V. Dimieri J.A. Dristas 《Journal of South American Earth Sciences》2005,19(4):433-444
A microstructural analysis was carried out on mylonitic rocks of the Azul megashear zone (AMSZ), Tandilia, which were formed in a range of metamorphic conditions from lower greenschist to amphibolite facies. Tailed porphyroclasts are common and mostly symmetric. Scarce asymmetric rotated porphyroclasts show both sinistral and dextral senses of shear. In sections parallel to the mylonitic foliation, porphyroclasts are round. The AMSZ is probably related to the late Transamazonian orogenic cycle and may be due to NNE–SSW-directed convergence. In weakly deformed protolith and protomylonites, quartz deforms by dynamic recrystallization, mainly subgrain rotation in dislocation creep Regime 2. K-feldspar porphyroclasts and plagioclase show scarce fracturation and deform by dynamic recrystallization along grain boundaries. Quartz microstructures in mylonites indicate predominantly Regime 3 grain boundary migration recrystallization. Feldspar structures indicate recrystallization through the nucleation and growth of new grains at grain boundaries. The temperatures of deformation from mineral assemblages in the CNKFMASH system in four bulk compositions are in the range of 400–450 °C, and the pressures are more than 6 kb. 相似文献