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1.
依据鲕粒的形态、结构及方解石组成,将豫西宜阳地区寒武系馒头组鲕粒灰岩中的鲕粒分为4种类型:不规则放射状泥晶鲕粒、泥晶套亮晶表皮鲕粒、同心放射状泥晶鲕粒和规则放射状微亮晶鲕粒。这些鲕粒多由泥晶方解石组成,且泥晶方解石可出现在鲕粒的不同部位,从而与研究区张夏组的鲕粒明显不同,后者由亮晶方解石组成。在电子显微镜下,鲕粒中的泥晶方解石表现为六边形蜂格和片状壁,而这种结构被认为是细菌或蓝细菌的细胞结构,是由附着的微小晶粒呈切向围绕细菌或蓝细菌排列所致。构成蜂格结构的矿物主要为碳酸钙,其被认为是蓝细菌死亡后灰泥化的结果。由此可见,鲕粒中泥晶方解石的形成与微生物的生命活动密切相关,这对于阐明鲕粒在其形成过程中受到微生物的影响具有重要意义。 相似文献
2.
准噶尔盆地吉木萨尔凹陷中二叠统芦草沟组云质岩沉积环境及白云石成因探讨* 总被引:1,自引:1,他引:0
准噶尔盆地吉木萨尔凹陷中二叠统芦草沟组发育一套陆内裂谷背景下,由粉砂级-泥级陆源碎屑、凝灰碎屑、碳酸盐及热液矿物组成的湖相细粒云质岩。本研究以云质岩为研究对象,通过岩石学、矿物学及地球化学研究探讨其形成环境和白云石形成机理。云质岩岩矿特征和主、微量元素特征表明,在中二叠世为处于干旱气候的浅水咸化湖盆,区域火山活动强烈,湖盆内幔源热液活动发育。云质岩中的白云石主要呈自形-半自形的微粉晶颗粒,形成细纹层或与其他组分混合,局部可见自形-半自形的细晶白云石,微粉晶白云石为低有序度白云石(0.46),成分均匀,被纹层包绕,细晶白云石交代残留结构发育,为成岩交代的产物;两类白云石均富锶贫镁,细晶白云石较微粉晶白云石更富铁和锰。微粉晶白云石具有较低的δ18OPDB(平均为-4.72‰),基于白云石的形成流体由湖水和幔源热液混合的假设,所计算得到的形成温度介于54.61~186.46 ℃之间;δ13CPDB偏高(平均为8.79‰),推测其与芦草沟组高的有机质埋藏量及产甲烷古菌的代谢活动有关。微粉晶白云石为同生期-准同生期沉淀或交代的原白云石,其Mg2+来自于咸化湖水、凝灰碎屑和幔源热液,热液带来的高温和产甲烷古菌的代谢活动打破了白云石形成的动力学屏障。 相似文献
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黔南桂西早中三叠世碳酸盐台地边缘和斜坡沉积模式及其演化 总被引:3,自引:0,他引:3
牟传龙 《沉积与特提斯地质》1989,9(2):1-10
黔南桂西地区(东经105°-107°,北纬24°20'-26°40')地跨扬子准地台和加里东褶皱带(华南褶皱带)两个一级大地构造单元。属于南盘江沉积盆地的北部或西北边缘。区内早、中三叠世碳酸盐地层出露良好、层序完整,为台地边缘和斜坡沉积。详细研究该区碳酸盐台地边缘和斜坡沉积,对了解台地边缘特征和演化、海平面变化以及边缘的构造作用等有着重要的理论意义,为确定三叠糸南盘江沉积盆地的西北或北部边缘的构造性质提供可靠的沉积学依据。 相似文献
4.
新疆库车坳陷古近系库姆格列木群为与广海连通不畅的半封闭局限海湾-蒸发潟湖环境沉积,它应是新特提斯洋向北的延伸部分,其中的碳酸盐岩主要为海相蒸发潮坪环境的潮上带膏云坪,潮间带生屑滩、砂屑滩、鲕滩和潮下带泥晶灰岩、泥岩、泥晶云岩等。白垩系巴什基奇克组底部的灰黑色泥灰岩为深湖环境的沉积,分布较局限,仅见于克拉201井;白垩系巴什基奇克组中部的浅灰色透镜状泥灰岩结核是典型干旱陆上暴露环境的产物,仅在库车河剖面见零星分布。侏罗系湖相碳酸盐岩主要分布在恰克马克组,其次是阳霞组和克孜勒努尔组,在卡普沙良河剖面的恰克马克组上部,可见到大量的叠层石灰岩,它们主要形成于能量较强的浅湖环境;深灰色泥晶灰岩常与灰黑色泥岩伴生,是深湖-半深湖环境产物。以上这些不同时期不同沉积环境的碳酸盐岩具有不同规律的微量元素和碳、氧同位素特征,它们对于研究库车坳陷的沉积环境变迁和盆地演化具有重要意义。个别样品地球化学数据的偏差不能代表对整体沉积环境的判别,所以碳酸盐岩沉积环境的判别需要结合共生岩石沉积构造、沉积组合序列、古生物和沉积地球化学等资料进行综合分析。 相似文献
5.
Mixed siliciclastic and carbonate sediments: a proposed first-order textural and compositional classification 总被引:6,自引:0,他引:6
JEFFREY MOUNT 《Sedimentology》1985,32(3):435-442
6.
川东北飞仙关组白云岩岩石结构演化 总被引:1,自引:1,他引:0
根据矿物结晶学理论,白云石可按照晶体大小和晶边形貌划分为不同的结构,其结构的演化主要受原岩化学组成、岩石结构和白云岩化流体的影响。白云岩原岩可分为不同化学组分的泥灰岩和含颗粒泥灰岩,泥灰岩可细分为成分均匀的和含溶孔、胶结物的泥灰岩;含颗粒泥灰岩可细分为未接受任何改造的、发生溶蚀胶结作用的和发生泥晶化等作用的含颗粒泥灰岩。以川东北飞仙关组白云岩为例,在不同浓度的白云岩化流体条件中,讨论不同结构白云岩岩石的演化。结果表明:泥晶化及溶蚀作用是白云石岩石结构演化和形成的基础;大多数鲕粒白云岩在低浓度白云岩化溶液中形成;糖粒状白云岩为外来高浓度的白云岩化流体改造形成。 相似文献
7.
探讨了鄂尔多斯盆地中奥陶统马家沟组海相碳酸盐岩储集层岩石物理相特征及储集层分类方法。应用露头、岩心、薄片分析及储集层物性测试及压汞实验方法开展了碳酸盐岩储集层岩性、孔隙结构及物性研究,应用储集层流动带指标FZI开展了储集层岩石物理相特征及储集层分类方法研究。马家沟组碳酸盐岩储集层岩石类型主要为岩溶角砾泥晶—粉晶白云岩、膏盐溶蚀角砾泥晶—粉晶白云岩、含膏盐或膏盐质白云岩、粉晶—细晶白云岩、残余结构中晶—细晶及粗晶—中晶白云岩、次生灰岩、泥晶灰岩及白云岩,发育洞穴、溶洞、孔隙及裂缝4种储集空间,主要发育晶间孔型、裂缝型、裂缝—晶间孔型、裂缝—晶间孔—溶洞型4类储渗类型。依据流动带指标将储集层划分为6类岩石物理相及24类亚相,据此将储集层分为5类7亚类:一类储集层是天然气赋存的优质储集层,主要分布于马五1、马五4及马五6段;二、三类储集层是马家沟组主要储集层类型,以孔隙为主的二1、三1类储集层主要分布于马五1—马五6段,以裂缝为主的二2、三2类储集层主要分布于马四段;四类储集层物性差,见于各段;五类为非储集层。研究结果表明,基于岩石物理相的储集层研究方法是揭示碳酸盐岩储集层特征及开展储集层定量分类与评价的有效途径。 相似文献
8.
G. TOPUZ A. I. OKAY R. ALTHERR H.-P. MEYER L. NASDALA 《Journal of Metamorphic Geology》2006,24(7):603-613
Pelagic micritic limestones within an upper Cretaceous accretionary complex in the Tavşanlı Zone, NW Turkey, preserve textures indicating incomplete prograde transformation of micritic calcite to aragonite, representing the only known example of this type. Aragonitization starts at the central parts of the micritic limestone beds and advances towards the lower and upper parts of the layers at the expense of micrite. Micrite is very fine grained (<0.003 mm) and contains radiolaria, foraminifera and thin shell fragments. Aragonite forms large crystals, up to 3 cm across, with straight grain boundaries and c-axis mostly subparallel to the carbonate beds. Relict micritic portions are devoid of any aragonite grain. Stylolites characterized by the accumulation of clay minerals, Fe-Mn-hydroxides and quartz are concentrated in the upper and lower parts of the beds. Stylolite formation precedes aragonitization. Conditions of aragonitization are estimated as 200 ± 50 °C and 0.45–0.65 GPa, based on metamorphic mineral assemblages observed in associated basalts. Several features such as (i) constant composition of micritic calcite (98–99 mol.% CaCO3 ) throughout individual beds, (ii) enormous grain size difference between micritic calcite and aragonite (up to 1200 times), and (iii) absence of any aragonite grains within the relict micritic portions suggest that kinetic rather than thermodynamic factors controlled selective aragonite formation in the central portions of carbonate layers. 相似文献
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11.
V.N. Viswanathan D.V. Ramana Rao K. Kumar S.J. Raina 《International Journal of Mineral Processing》1979,6(2):73-83
By use of a recarbonation process, it is possible to separate magnesium carbonate and calcium carbonate from dolomites/dolomitic limestones. Magnesium carbonate can be used for manufacturing basic refractories and magnesium chemicals; the portion rich in calcium carbonate can be used for cement manufacture if the MgO content is below 3%. In this paper the process developed for the purpose and the results of bench scale tests are reported. The results indicate that, under optimum conditions, both objectives can be fulfilled by the recarbonation process. 相似文献
12.
R. J. Taj 《Arabian Journal of Geosciences》2013,6(4):1011-1031
The studied carbonates are present within the middle part of the Tertiary siliciclastic dominated succession in Haddat Ash Sham area. This succession consists of conglomerates, sandstones, siltstones, mudstones, and ironstones arranged in upward coarsening and fining cycles of intermittent depositional environments ranging from fluvial coastal plain to shallow marine. The carbonates represent deposition in slightly restricted depositional environments during periods of very low clastic input. The studied two carbonate sections show a pronounced lateral and vertical changes from predominantly dolostones in the west to mixed dolostones and limestones in the east. Both sections began by egg yellow dolomitic lime mudstones and fine crystalline dolomite which indicate the formation of dolomite by late depositional to early diagenetic recrystallization of precursor Fe and Mg lime mud. During this time period, the western part of the study area continues in the deposition of Fe and Mg lime mud in slightly restricted depositional environments and formation of interbedded fine and coarse crystalline dolostones in coarsening-upward cycles. In the eastern part, the depositional environments become deeper and more circulated with short-lived periods of fluctuation in sea level and hence the deposition of foraminiferal wackestone, bioclastic packstones, and bioclastic rudstone in coarsening and shallowing-upward cycles. Both the western and eastern parts of the study area are terminated by characteristic yellow coarse crystalline phosphatic dolomite which indicate ultimate stages of shoaling and increasing the level and concentration of phosphorous in the restricted water and hence the formation of in situ and reworked phosphatic components. The diagenetic processes affected the dolostones and limestones microfacies associations include: dolomitization of Fe and Mg-rich lime mud, hematitization, calcitization, gypsification, and phosphatization of dolomite. Neophormation and recrystallization of micritic matrix and micritic intraclasts as well as shell fragments are the main diagenetic processes affected the limestones. 相似文献
13.
S. W. Mao J. M. Li W. Liu Z. C. Wang Z. L. Huang 《Australian Journal of Earth Sciences》2018,65(4):535-555
The Middle Ordovician Kelimoli Formation carbonate reservoirs in the northern Tianhuan area, Ordos Basin, China are main exploration targets. Subsurface core samples, logging, drilling and production data from the area were used to characterise the carbonate reservoir and to construct a genetic model for exploration. The sedimentary facies identified include trough–continental rise, upper–lower slope, platform margin reef-shoal, open platform and evaporation-restricted platform. The slope and platform margin facies are potential zones for high-quality reservoirs. Porosity in the study area comprises intergrain, intercrystal, intragrain and intracrystal pores, fractures and vughs. The Sr/Ba (0.40–4.87) and V/(V + Ni) (0.64–0.97) ratios indicate deposition in a brackish water-dominated environment under reducing conditions, associated with sea-level fluctuations during the deposition of the Kelimoli Formation. The Sr/Ba, V/(V + Ni), 87Sr/86Sr ratios, δ18O values and crystal texture of dolomite samples suggest that meteoric water was involved in the diagenetic fluid in the near-surface depositional environment. Isotopes (δ13C and δ18O) and trace elements (Fe and Mn) allowed the identification of seepage-reflux and mixed-water dolomitisation. The crystal textures of the samples consist of micritic, bioclastic and reefal limestones, and dolomite with gypsum, which were easily dissolved during the early diagenetic stage. The epidiagenetic stage was the key period for the development of high-quality reservoirs because of large-scale bedding-parallel karstification from meteoric water. The reservoir zones, dominated by partially filled and unfilled vughs, and fractures, are favourable exploration targets in the northern Tianhuan area. 相似文献
14.
豫西登封寒武系第三统灰岩中的鲕粒自下而上个体直径与鲕核逐渐变小、形态变得更加浑圆、鲕粒间胶结程度更高,反映了从深水不稳定鲕粒灰岩到浅水高速建造鲕粒滩的演变过程。研究区鲕粒灰岩发育可以分为3个阶段:(1)台地深斜坡鲕粒灰岩建造阶段(A段),主要发育放射鲕及同心—放射鲕,鲕粒形态多样、粒径大,粒间多为灰泥充填;(2)滩前缓斜坡鲕粒灰岩建造阶段(B段),主要发育同心—放射鲕、同心鲕,鲕粒含量极不稳定,粒径差异大,粒间由微亮晶及亮晶方解石胶结;(3)台内鲕粒滩高速建造阶段(C段), 主要发育白云化的同心鲕和微晶鲕,鲕粒含量极高、粒径极小,鲕核也很小,粒间由亮晶方解石胶结。由A段到C段,相对水深逐渐变浅,成鲕环境变得成熟而稳定,鲕粒沉积规模逐渐扩大。 相似文献
15.
The Table Mountain Santa Barbara, consisting of the Mio-Pliocene Seroe Domi Limestone Formation, was probably covered with a guano layer in the Pleistocene (?). Solutions, carrying guano-derived phosphate, percolated downwards, resulting in partial phosphatization of the underlying limestones. Only two phosphate minerals are present in the Table Mountain: apatite, and whitlockite.Phosphatization includes both replacement of the original carbonate or (pre-phosphate) dolomite, and cementation in primary- as well as secondary porosity (cryptocrystalline, isotropic phosphate cement, (micro)crystalline apatite, isopachous apatite fringe cement, multiple-zoned apatite crusts, rhombic whitlockite cements). Two factors controlled the final distribution of the phosphate within the Table Mountain. Firstly, changing positions of the sea level (and, therefore, of the diagenetic environments) determined the overall distribution of the phosphatized interval, a horizontal layer (98–128 m above sea level) sandwiched between two non-phosphatized limestone units.Original carbonate facies and -mineralogy was the second controlling factor causing the final variations in degree of phosphatization. The limestones comprise two lithofacies: (a) coralliferous limestone lenses erratically distributed amidst; and (b) micritic limestones. These coralliferous limestones are phosphatized preferentially forming so-called “phosphate pockets”, sharply outlined within a non-phosphatized micritic limestone “host”. These pockets are characteristically organized into five zones which are described in detail. Higher original porosity/permeability of the coralliferous limestone lenses as compared to the micrites, additionally enhanced by a phase of pre-phosphate dolomitization, determined preferential phosphatization of this facies type.A second controlling factor was the original carbonate mineralogy and resulting dia- 相似文献
16.
The stratigraphic and palaeoenvironmental implications of a section in the Upper Senonian to Lower Eocene carbonates of the Tripolitza Platform in central Crete are discussed in this paper. The lower part (upper Campanian–lower Maastrichtian) of the succession consists of about 75 m of thickly bedded, light to dark grey limestones, dolomitic limestones and dolomites that were deposited on an inner carbonate platform. It is characterized by stratified bioclastic rudist facies (shelly limestone) associated with foraminifera and especially with species of the Rhapydioninidae family. These are overlain by 35 m of crystalline light grey dolomites that were deposited on a very restricted internal platform, characterized by intertidal-supratidal facies. The overlying 75-m-thick light grey dolomitic limestones and dolomites are characterized by the presence ofRhapydionina liburnicaStache, and in the uppermost part byNeobalkhania bignotiCherchi, Radoicic & Schroeder, dating it as Late Maastrichtian. The facies, cryptalgal laminites with fenestrae of varying dimensions, suggest relatively extensive subaerial exposure. Possible pedogenic textures are common in this sequence and especially in the uppermost part, which coincides with the K/T boundary. The presence ofPseudonummoloculina heimi(Bonet) at two levels in the Maastrichtian succession suggests transportation of Middle-Late Cenomanian sediments from emergent blocks of the platform during this period. A gap is suspected, for regional stratigraphic reasons, between this horizon and the next which containsSpirolinasp. and “Pseudochrysalidina” sp., dating it as Early-Middle Eocene. 相似文献
17.
兴山下奥陶统由西陵峡组、南津关组、分乡组、红花园组、大湾组和牯牛潭组组成。岩石类型包括泥晶灰岩、生物碎屑灰岩、鲕粒灰岩、内碎屑灰岩、白云岩等,为一套典型的台地或沉没台地型陆表海碳酸盐沉积。颗粒灰岩在剖面中占绝大多数,其中,鲕粒灰岩、内碎屑灰岩和多数生物碎屑灰岩均为亮晶方解石胶结。鲕粒和砂屑的粒度参数和曲线分布特征说明,砂屑和鲕粒在形成过程中均经历了较强的水动力搬运或搅动。早奥陶世从西陵峡组沉积开始到牯牛潭组沉积结束,沉积环境经历了从局限台地潮坪环境到开阔台地再到浅海陆棚的演化。其中,潮坪环境包括云坪、灰坪、灰云坪等,而开阔台地环境为各种颗粒滩和生物礁。环境的演化反映了从早到晚海水逐渐加深的过程。 相似文献
18.
Stefano Tavani Stefano Vitale Celestino Grifa Alessandro Iannace Mariano Parente Stefano Mazzoli 《地学学报》2016,28(3):195-201
Bedding‐parallel dolomite seams occur in a clay‐poor carbonate succession of the Apennines. The seams are composed of a high concentration of dolomite crystals compared to the hosting dolomitic limestone. SEM images document microcracking, and in many cases even crushing and fragmentation, of dolomite crystals and accumulation of non‐carbonate insoluble material both along micro‐stylolites within the seams and around dolomite crystals of the seams. We interpret the seams as hybrid structures between pressure‐solution seams and compaction bands, which formed during burial. The euhedral dolomite crystals scattered in the micritic matrix represent the insoluble residue produced by the progressive dissolution of calcite. As calcite dissolution proceeds, the concentration of dolomite crystals increases, eventually resulting in a dolomite seam in which locally a dolomite crystal‐supported texture is attained. At this stage, the dolomite crystals within the seam start to collide, crush and fragment, so that the dolomite seam behaves like a compaction band. 相似文献
19.
The Lebanese crustal segment is part of a much larger carbonate platform deposited along the northwestern margin of the Arabian Plate, in the eastern Mediterranean region. It is made up mainly of Jurassic–Cretaceous carbonate rocks. Most of this stratigraphic sequence is exposed in the Nahr Ibrahim canyon and surrounding areas in central Lebanon. The various formations, from the oldest unit (the Lower Jurassic Kesrouane Formation) to the Upper Cretaceous Chekka Formation, are made up of different types of carbonate rocks including micritic limestone, medium‐ to coarse‐grained dolostone, biomicritic (chalk), biosparrudite limestone, micritic dolostone, pelmicrite, marl and marly limestone. Results of this first chemical investigation on the Lebanese carbonate platform show that the micritic limestone of the Kesrouane Formation is relatively enriched in Ca, Na and Sc, and has low rare‐earth element (REE) contents. The marl units of the Hammana Formation are enriched in Al, Fe, K, Ti, Rb, Ga, Nb, U, Th and REE. The chalk of the Chekka Formation shows the highest phosphorus content. A significant increase in P and Sr contents with time (from the Lower Jurassic to the Upper Cretaceous carbonate units) characterizes the Lebanese sequence; this is interpreted to be related to a possible increase in continental weathering rates during the Mesozoic. Enrichment in Ni, Ti and Nb in some formations is interpreted to be linked to Mesozoic volcanism in central Lebanon. The Cretaceous formations are subdivided according to their REE patterns into two distinct groups: limestones (Mdairej, Sannine and Maameltain formations) which are depleted in REE; and marl/chalk (Hammana and Chekka formations) which are significantly enriched in REE. On several geochemical variation diagrams, such as the K–Ti–P triangular plot, the Lebanese Mesozoic carbonate formations are found to occupy distinct compositional fields. Thus, carbonate geochemistry could prove to be a powerful tool (especially when combined with petrographic data) in characterizing and correlating carbonate formations (chemical stratigraphy), particularly in regions where field evidence may be limited. Results of this study have significant implications for the entire carbonate platform that covers a large part of the eastern Mediterranean region. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
20.
在西藏措勤打加错地区新发现上三叠统江让组,其为一套海相碎屑岩及碳酸盐岩沉积建造,岩性主要为不等厚层状石英质砾岩、深灰色薄层状—块状生物碎屑微晶灰岩、含砂粉砂质微晶灰岩、含石英砾质生物碎屑灰岩、砂屑灰岩夹钙质细砂岩,产珊瑚Distichophyllia sp.,Volzeia sp.,Montlivaltia sp.,M.cf.xainzaensis、海绵:Hartmanina sp.和双壳类Xenocardita?sp.,时代为晚三叠世卡尼期-诺利期,与下二叠统昂杰组呈角度不整合接触。江让组在该地区的发现,完善了冈底斯西部三叠纪的地层系统,为研究印支运动对冈底斯西部的影响和古特提斯洋的演化提供了依据。 相似文献