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1.
The Ganurgarh shale, a formation belonging to the Bhander Group of Vindhyan basin is investigated using field based detailed lithofacies and petrofacies analyses in order to interpret the depositional environment in a sequence stratigraphic context. Five major lithofacies have been recognized consisting of calcareous sandstones, laminated mudstones, rippled siltstones, red-grey shales and sandy limestones characterized by small to large-scale cross-bedding, ripple cross-lamination of wave and current origin, parallel lamination, low-angle horizontal bedding, flaser and lenticular bedding, mud-cracks, salt pseudomorphs, convolute bedding and load structures. The constituent lithofacies are recurring and grouped into three lithofacies associations where, the association A is composed of fining upwards and B with coarsening upwards cycles at the lower and middle levels of the succession respectively, are dominantly arenaceous whereas, the association C occurring at upper levels is fining upwards (FU) and becomes calcareous with meager representation of clastics. Petrographically, the section offers three main petrofacies viz., (a) sandstone- (b) siltstone- (c) sandy limestone-petrofacies. Lithofacies characters complimented with petrography show that deposition occurred within the shoreface (subtidal) to foreshore intertidal domain involving tidal flats with sub-environments ranging from intertidal to supratidal. However, lithofacies associations within the Ganurgarh shale of Maihar area represent a case of normal regression during sea level transgression. In the beginning, probably because of excessive sediment supply the sea level had a falling trend during an overall transgressive phase ultimately culminating into limestone sedimentation. 相似文献
2.
Satish J. Patel Jehova L. Darngawn Jaquilin K. Joseph Apurva D. Shitole 《Journal of the Geological Society of India》2018,92(4):419-426
Chorar Island exposes ~109 m thick middle Jurassic (Bathonian-Callovian) succession in the eastern most part of the Kachchh Basin, Patan District, Gujarat and is divided into two, Khadir and Gadhada formations. It mainly comprises of mixed siliciclastic-carbonate sediments and limestones; the shales dominate the lower part of the succession while the top of the succession is marked by ferruginous sandstone which also forms the vast, prominent peripheral zone of the Chorar dome. The field and laboratory analysis of the succession reveals nine lithofacies which includes ferruginous sandstone, cross bedded white sandstone, micritic sandstone, allochemic sandstone, sandy micrite, mudstone, sandy allochemic limestone, coralline limestone and shale. The mix siliciclastic-carbonate sediments and ferruginous facies are fossiliferous in nature and display sedimentary structures, like ripple marks, cross- and planar- lamination with biogenic sedimentary structures. Coralline limestone facies comprise of large size (>1m diameter) corals, which are diagenetically modified severely and have lost its original internal structures. The sediment characteristics and associated bioclasts indicates low to moderate wave and current energy in shoreface-offshore subsequently changing to wave dominated shoreface during the deposition of the middle Jurassic sediments of the Chorar Island. 相似文献
3.
Origin of subaerial Holocene calcareous crusts: role of algae, fungi and sparmicritisation 总被引:3,自引:0,他引:3
CHARLES F. KAHLE 《Sedimentology》1977,24(3):413-435
The Pleistocene Miami Limestone that crops out on the lower Florida Keys is overlain by thin (16 cm or less), discontinuous, Holocene calcareous crusts (caliche) that are usually laminated, composed dominantly of calcite micrite and may or may not incorporate part of the underlying limestone. Both allochems and sparry calcite cement in the former unit contain endolithic algae and fungi, borings and unicellular algae. Biogenic structures identical to those in the Miami Limestone also occur in the calcareous crusts but are somewhat less abundant in the latter unit versus the former unit. The calcareous crusts were formed in the vadose diagenetic environment. Some of the CaCO3 necessary for the micrite that comprises the bulk of the crusts was probably derived from solution of carbonate from a soil cover and some from wind blown salt spray. Most of the micrite, however, was formed by replacement of the uppermost portions of the Miami Limestone. Replacement involved micritisation of allochems and a previously unreported process, sparmicritisation, the degrading recrystallization of sparry calcite to micrite. Minor sparmicritisation was caused by micrite calcification of endolithic fungi or algae within sparry calcite cement or by micrite precipitation in empty borings within such cement. Most sparmicritisation took place by dissolution of sparry calcite and concomitant precipitation of micrite in the space occupied previously by the dissolved spar. Such sparmicritisation is interpreted to be caused by chemical reactions involving the crystals, pore water which is moving slowly but steadily and organic compounds released during bacterial decomposition of fungi, algae or both. It is recognized that sparmicritisation occurs in the marine diagenetic environment and is not, therefore, necessarily indicative of vadose diagenesis. Incomplete sparmicritisation is responsible for some of the clotted textures typically found within calcareous crusts and may explain such textures in many other carbonate rock types. A combination of sparmicritisation and micritisation has probably greatly influenced the porosity of many reefs and, in some cases, led to the formation of ‘micritic reefs’. 相似文献
4.
浙江石浦下白垩统灰岩微相分析与锆石U Pb年代学研究 总被引:1,自引:0,他引:1
通过对浙江象山石浦灰岩剖面系统的岩相学研究,总结出4种基本灰岩微相类型,即生物碎屑泥晶灰岩、泥晶鲕粒灰岩或鲕粒泥晶灰岩、叠层石泥灰岩、薄层—条带状泥灰岩,其形成于潮坪、鲕粒滩和浅海等三种沉积环境。结合整个剖面岩性变化规律,划分出4个沉积旋回,反映了3次主要海侵过程。并利用LA-ICP-MS锆石U-Pb同位素定年技术,首次获得了该剖面下部凝灰岩夹层中锆石U-Pb年龄为114±2 Ma,确定了该剖面形成时代为早白垩世。这一成果对于深化我国东南沿海早白垩世构造—沉积环境的研究具有重要意义。 相似文献
5.
柴达木盆地西部地区古近系和新近系湖相碳酸盐岩主要分布于下干柴沟组上段到油砂山组,其中,下干柴沟组上段和上干柴沟组的碳酸盐岩更发育。碳酸盐岩主要岩石类型有泥晶灰岩、藻灰岩和颗粒灰岩等三大类,此外,还普遍发育由石灰质、白云质和陆源碎屑等3种组分构成的混积岩。碳酸盐岩沉积相可划分为滨湖灰泥坪、滨湖藻坪、浅湖颗粒滩、浅湖藻丘以及半深湖泥灰岩相。滨湖灰泥坪的主要岩石类型有泥晶灰岩、含陆屑泥晶灰岩、陆屑泥晶灰岩以及陆屑泥灰岩等;滨湖藻坪为藻泥晶灰岩、藻纹层灰岩、含陆屑藻泥晶灰岩;浅湖颗粒滩有亮晶或泥微晶的鲕粒灰岩、生屑灰岩和内碎屑灰岩,其次为含陆屑颗粒灰岩;浅湖藻丘为藻叠层灰岩、藻团块灰岩、藻泥晶灰岩和含陆屑藻泥晶灰岩;而半深湖泥灰岩相的主要岩石类型为泥晶灰岩、泥灰岩以及含少量陆屑泥和粉砂的泥晶灰岩或泥灰岩。碳酸盐岩沉积相表现出很强的由西南向东北的迁移性。 相似文献
6.
The lacustrine Peterson Limestone of western Wyoming and southeastern Idaho comprises six lithofacies throughout its 20,000 km2 aerial extent. These are: (1) calcareous sandstone and shale, (2) red nodular limestone, (3) pink sandy micrite, (4) biomicrite, (5) graded silty micrite, and (6) limestone conglomerate. The first two represent floodplain deposition and paleosols, whereas the remaining are shallow nearshore and deeper lacustrine sediments.This sequence was developed in a large fresh, hardwater lake surrounded by fluvial systems and associated flood plains in a warm temperate climate. Well-oxidized sandy terrigenous rocks, together with calcareous paleosol nodules, indicate that flood-plain deposition both preceded and was concurrent with lacustrine carbonate deposition. Micrite and biomicrite formed in deeper parts of the basin while sandy and silty carbonate accumulated in shallower lake-margin areas. Less-calcareous shale units which are interbedded with deeper-water carbonate were deposited either during rapid basin subsidence and deepening of the lake center or during periods of slower carbonate precipitation. Turbidity currents and subaqueous debris flows generated along steeper lake margins, resulted in the deposition of rhythmic layers of graded silty micrite and diamictic limestone conglomerate in the deepest part of the basin. The carbonate-rich sediments comprising these two lithofacies were originally deposited on shallow lake-margin benches and subsequently were transported downslope toward the lake center.Comparison with other carbonate-precipitating lacustrine systems indicates that this lake was not like modern playas. Although no known modern lacustrine system is precisely like Lake Peterson, the flora, fauna, composition, and distribution of facies within modern temperate-region lakes most closely resemble those of the Peterson Limestone. 相似文献
7.
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
8.
The Upper Silurian Keyser Limestone is a relatively thin (< 85 m) unit of lagoonal, barrier, and shallow offshore sediments that crops out in the central Appalachians. Lithologies include massive micritic limestones to calcarenites, calcisiltites, and calcareous quartz arenites. The barrier lithofacies is preserved predominantly as tidal inlet channel-fill. Its presence is supported by two lines of evidence: (1) the sequence of sedimentary textures and structures resembles that observed in modern inlets, and (2) the sequence occupies a position immediately above a disconformity, and is accompanied by an abrupt vertical change in faunal diversity, which is interpreted as representing the transgression of open marine over back-barrier environments The inlet channel sequence comprises fine- to medium-grained, well-sorted quartz arenites that disconformably overlie sediments deposited on carbonate tidal flats (laminated, mudcracked pelmicrites). The sandstone displays a fining-upward texture, and contains a broken and abraded mixed fauna. Cross-bedding is bipolar, with major modes oriented obliquely to depositional strike. Decimetre-scale sets of planar and trough cross-beds grade upward to centimetre-scale sets of ripple cross-lamination, washed-out ripples, and plane beds. This sequence represents the change from deep to shallow channel environments, and is attributed to lateral inlet migration. The inlet sequence was preferentially preserved during marine transgression because of its relative thickness and lower stratigraphic position with respect to overlying and adjacent barrier-beach sediments. The vertical relationships of this inlet-lagoon complex emphasize that care must be taken in interpreting shallow-water transgressive sequences. Vertical ‘jumps’ in faunal diversity accompanied by scour surfaces could be misconstrued as major unconformities. Instead, such sequences may represent the shoreface erosion normally associated with the transgressive migration of barrier islands. Whether or not the faunal jump is accompanied by a barrier lithosome is greatly dependent on the geometry, frequency, and migration rate of tidal inlets. 相似文献
9.
依据岩心、薄片以及实验分析资料,表明鄂尔多斯盆地中东部奥陶系马五_5亚段白云岩碳同位素分布区间与泥晶灰岩的分布区间类似,均介于-1.40‰~0.14‰,分布在同期海水值区间内;氧同位素组成介于-7.51‰~-5.98‰,较泥晶灰岩的偏正,但整体均较同期海水值偏负;稀土元素的配分模式与泥晶灰岩的相似,具有轻稀土元素富集、重稀土元素亏损的特征;锶同位素也和泥晶灰岩的分布范围大致相当,且具有少数正常、多数偏正的特征。综合古气候、古沉积格局和海平面升降变化的特征,认为:(1)马五_5亚段白云岩主要由渗透回流白云石化作用形成,部分由蒸发泵白云石化作用形成;(2)白云岩空间分布受海平面升降变化与沉积古地貌背景的共同控制,古地貌较高的中央古隆起—靖西台坪和靖东隆起带这两个区域上白云岩在相对海退期更为发育;(3)白云石的岩石结构组分之间的差异性与其形成的沉积背景有关,粉晶白云岩在中央古隆起—靖西台坪和靖东隆起带上均广泛发育,颗粒白云岩和含硬石膏结核粉晶白云岩仅零星分布在中央古隆起—靖西台坪带上,而白云石化不彻底的灰质粉晶白云岩和白云质泥晶灰岩主要分布在洼地中心和边缘地带。 相似文献
10.
11.
天津蓟县中元古界雾迷山组是一套厚度超过3000,m的叠层石碳酸盐岩沉积序列,在该序列中潮下相叠层石生物层、凝块石生物丘与潮坪相泥晶白云岩、潟湖相白云质泥页岩一起构成若干个环潮坪型米级旋回——"雾迷山旋回层"。在雾迷山组下部发育微指状叠层石,并被古生物学家定义为"Pseudogymnosolen mo-panyuensis-Scuphus-Yangzhuang columnaris"组合,即假裸枝叠层石科叠层石,沉积学家将其解释为元古代文石(灰华)海底沉淀物所构成的叠层石,代表从太古代海底结壳状文石沉淀物组成的叠层石到新元古代碎屑结构相的泥晶碳酸盐岩叠层石过渡时期的特殊产物。因此,雾迷山组巨厚的叠层石碳酸盐岩沉积序列,记录了元古代文石(灰华)海底沉淀物所构成的特殊的叠层石大规模消亡的层位,为研究前寒武纪以叠层石为代表的微生物碳酸盐岩所经历的漫长而复杂的地质历史演变提供了宝贵的材料。 相似文献
12.
安徽淮南下寒武统沉积环境以及碳酸盐岩微相分析 总被引:3,自引:0,他引:3
华北地台南缘安徽淮南老鹰山剖面下寒武统猴家山组和馒头组的沉积环境和碳酸盐岩微相指示了3期地区性海进沉积旋回序列。假整合于前寒武系凤台组冰积砾岩层之上的猴家山组蒸发相白云岩和馒头组下段的深褐色页岩、钙质页岩和深灰色、灰色中厚层至薄层灰岩构成第1个海进序列;馒头组中段的页岩和薄层灰岩及馒头组上部的深褐色页岩构成第2个海进序列;第3次海进以近馒头组顶部的页岩出现为标志,至老鹰山组下段局部地区的剥蚀面作为中下寒武统的界限和第二次海退的终结。 相似文献
13.
精确的海平面变化曲线分析一直是地质学研究的难题和前沿科学问题,原因在于:1)深时沉积记录是全球海平面变化和区域构造沉降的综合响应,如何从沉积记录中剔除区域构造运动对海平面变化的影响尚缺乏手段;2)根据深时沉积记录确定古水深还具有挑战性。晚奥陶世塔里木盆地柯坪地区经历了从盆地—盆缘—陆棚的环境演变,这是对海平面变化最为敏感的环境地带,是开展沉积微相研究的理想地区。对大湾沟剖面上奥陶统进行密集取样分析,基于岩相沉积学、古生物学等手段,划分了广海陆棚及盆地边缘两大相带。详细划分为七个微相:MF1砖/紫红色微生物泥晶灰岩、MF2灰色微生物泥晶灰岩、MF3灰绿色钙质泥岩、MF4灰色生物碎屑—岩屑微角砾岩、MF5灰色含微生物碎屑粉屑灰岩、MF6灰色生物碎屑泥微晶灰岩及MF7深灰色钙质泥岩;重建了上奥陶统坎岭组—印干组海平面变化曲线,提供一套在深时沉积记录敏感带基于高精度微相全球海平面曲线的分析方法。将研究区海平面变化与全球各地区海平面变化曲线进行对比,发现研究区与北美海平面频繁波动极其相似。前人古板块重建恢复结果显示这一时期加里东构造运动已具备全球响应特征,而相似的海平面变化则是由不同区域造山碰撞所导致。 相似文献
14.
中上扬子地区上奥陶统主要发育庙坡组、宝塔组、临湘组(涧草沟组)、五峰组和观音桥组。笔者通过对研究区野外露头及钻井剖面的考察,总结前人研究成果,利用岩石学、古生物学、生态学及室内分析等方法将其划分为潮坪相、浅海陆棚相和深水盆地相3种沉积相类型。潮坪相以沉积灰岩、白云岩、钙质粉砂岩和粉砂岩等为特征。浅海陆棚相主要沉积龟裂纹灰岩、瘤状灰岩、页岩和粉砂质页岩。深水盆地相主要岩性为黑色碳质页岩、粉砂质页岩与硅质页岩,产以营漂浮生活的笔石为主的生物组合。岩相古地理研究表明,晚奥陶世桑比-凯迪早中期,受加里东构造运动影响,华南板内碰撞挤压作用显著,汉南隆起、川中隆起、川西-滇中-黔中-雪峰隆起不断抬升扩大,中上扬子地区表现为海平面相对上升,原本镶边型碳酸盐台地被淹没,沉积了大范围的浅海陆棚相龟裂纹灰岩和瘤状灰岩。凯迪晚期-赫南特期,隆起面积继续扩大,构造围限作用加剧,中上扬子地区发育大面积黑色碳质页岩、粉砂质页岩和硅质页岩。尤其川东南宜宾-泸州,川北旺苍-南江及黔北渝东武隆道真地区五峰组黑色碳质和硅质页岩,具很好的生烃潜力,应视为下一步烃源岩及页岩气勘探开发的重点研究区域。 相似文献
15.
川南下志留统龙马溪组页岩岩相表征 总被引:1,自引:0,他引:1
页岩岩相表征是页岩气地质评价和选层、选区的基础性研究工作。本文以露头和钻井资料为基础,依据岩矿、薄片、地化和测井资料,建立了海相页岩岩相划分方法,对川南上奥陶统五峰组下志留统龙马溪组主要岩相进行了精细表征,并形成4点认识:(1)应用岩石矿物三端员法+沉积微相划分页岩岩相类型及其组合,是开展海相页岩岩相表征的有效方法;(2)川南五峰组龙马溪组页岩发育6种岩相类型和3种典型岩相组合,其中硅质页岩和钙质硅质混合页岩是(半)深水环境的特有岩相,黏土质页岩和黏土质钙质混合页岩是半深水浅水环境的主要岩相,黏土质硅质混合页岩是浅水深水环境下的共有岩相;(3)随着水体由深变浅和水动力条件逐渐增强以及陆源物质输入量增大,不同成因岩相组合的页岩矿物成分、基质组构、古生物和有机质富集程度、测井响应等基本特征均发生重大变化;(4)受海平面变化控制,主力产层为深水陆棚沉积的硅质页岩、钙质硅质混合页岩和黏土质硅质混合页岩组合,产层顶板为半深水浅水陆棚沉积的黏土质页岩、黏土质硅质混合页岩和黏土质钙质混合页岩组合;前者因富含硅质和有机质,具有良好的脆性和物性,是形成页岩气产层的优质岩相;后者因富含黏土和贫有机质,脆性和渗透性差,是形成页岩气藏区域封盖层的优质岩相;两者自下而上构成良好的自封自储型储盖组合。 相似文献
16.
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
17.
Possible seismic origin of molar tooth structures in Neoproterozoic carbonate ramp deposits, north China 总被引:21,自引:0,他引:21
The Xinmincun Formation forms the uppermost unit of a thick Neoproterozoic section which accumulated near the east margin of the North China Block and is overlain by two thin nearshore to continental formations below fossiliferous Lower Cambrian sediments. Although tectonically deformed, sedimentary structures are preserved undeformed on cleavage-parallel surfaces, and an 80 m section has been reconstructed by correlation across minor folds and faults in the Golden Stone beach area, 50 km NE of the city of Dalian, southern Liaoning province. The measured section shows 65 m of storm-dominated deposits, consisting of alternations of micrites and sharp-based graded intraclastic grainstone beds (tempestites), some with rudaceous, commonly erosional or guttered, bases. The top 15 m of section shows three alternations of similar subtidal lithofacies with partly to completely dolomitized peritidal deposits (laminated, sometimes fenestral and desiccated, micrite beds, and intraclastic rudite and grainstone beds). Tempestite beds become thinner and less abundant upwards towards a muddy upper shoreface zone. This environment was characterized in part by the occurrence of micrite with thin or streaky lamination (probable storm-resuspended sediment), interbedded tempestites, numerous erosion surfaces, and evidence of liquidization and sediment slumping into hollows. Molar tooth structures are widespread in micrite beds of the Xinmincun Formation and are present in lesser abundance in tempestites and liquefied channel-fills. Originally the structures were sub-vertical cracks, 1–20 cm long, tapering upwards and downwards. Subsequently they became filled with microspar cement and buckled rigidly during compaction of surrounding sediment during burial. Evidence of repeated episodes of cracking, presence of brecciated cracks and localization of cracking within beds, together with variable degree of development and variation of preferential alignment in plan indicates a mechanical origin. Crack generation may have been by seismic surface waves generated by movement along faults defining either the basin's margins or its internal structure, or possibly by wave action during storms. A seismic origin for molar tooth structure is consistent with other Neoproterozoic occurrences. Their preferential occurrence in Precambrian deposits arises from the relative rigidity of micritic sediment at this time related to lack of bioturbation, incipient cementation and possibly microbial binding. 相似文献
18.
The Cow Head Group is an Early Palaeozoic base-of-slope sediment apron composed of carbonate and shale. Whereas coarse-grained conglomerate and calcarenite are readily interpreted as debris-flow and turbidite deposits, calcilutite (lime mudstone), calcisiltite, and shale combine to form three distinct lithofacies whose present attributes are a function of both sedimentation and early diagenesis. Shale is the most common lithology. Black, green, and red shale colour variations reflect the abundance of organic matter in the source area and oxygenation conditions of the sea bottom. In black and green shale, millimetre- to centimetre-thick, alternating dark and light laminations represent terrigenous mud turbidites and hemipelagites, respectively. The calcisiltite/shale facies is uncommon and is composed of numerous graded carbonate-shale sequences (GCSS) deposited from waning carbonate turbidites and fall-out of terrigenous muds. Some of the characteristics of ribbon and parted lime mudstones in the calcilutite/shale facies can be explained by deposition of carbonate mud from dilute turbidity currents or hemipelagic settling. Other features are diagenetic in origin. The lack of micrite in GCSS and in the interbedded shales of the calcilutite/shale facies is interpreted to reflect early dissolution of the finer carbonate from these sediments. This remobilized carbonate was precipitated locally to: lithify lime mudstone turbidites or hemipelagites; form diagenetic lime mudstone beds and nodules; cement calcisiltites; and form dolomite. Many of the calcisiltites and calcilutites were, therefore, carbonate enriched at the expense of adjacent argillaceous sediments. These attributes characterize not only fine-grained sediments of the Cow Head Group but many other Early Palaeozoic slope carbonates as well, suggesting that the model proposed here for depositionl diagenesis has wider application. 相似文献
19.
明确塔里木盆地肖尔布拉克组储层的品质、规模及分布规律对指导寒武系盐下领域的勘探具有重要意义。通过对柯坪地区苏盖特布拉克剖面的解剖,阐明了肖尔布拉克组主要发育与藻(蓝细菌)有关的微生物白云岩(层纹石白云岩、凝块石白云岩、叠层石白云岩和藻格架白云岩)、黏结藻屑白云岩、藻砂屑白云岩、泥—粉晶白云岩和含砂屑泥—粉晶白云岩,自下而上的岩相组合指示缓坡型台地沉积特征;孔隙类型主要为溶蚀孔洞,粒(晶)间溶孔和藻格架溶孔,总体具有中高孔—中低渗的特征,孔隙的发育与岩相具有明显的相关性,其中藻砂屑白云岩和具有格架结构的微生物白云岩储层物性最好;通过二维地质建模及基于数字露头的三维地质建模,揭示了肖尔布拉克组储层具有较好的层位性、相控性和规模性,古隆起围斜部位的中缓坡丘滩体是储层发育的有利相带。 相似文献
20.
天津蓟县中元古界雾迷山组是一套厚度超过3 000 m的叠层石碳酸盐岩沉积序列,在该序列中潮下相叠层石生物层、凝块石生物丘与潮坪相泥晶白云岩、泻湖相白云质泥页岩一起构成若干个环潮坪型米级旋回--“雾迷山旋回层”。在雾迷山组下部发育微指状叠层石,并被古生物学家定义为“Pseudogymnosolen mopanyuensis-Scuphus-Yangzhuang columnaris”组合,即假裸枝叠层石科叠层石,沉积学家将其解释为元古代文石(灰华)海底沉淀物所构成的叠层石,代表从太古代海底结壳状文石沉淀物叠层石到新元古代碎屑结构相、富泥碳酸盐叠层石过渡时期的特殊产物。因此,雾迷山组巨厚的叠层石碳酸盐岩沉积序列,记录了元古代文石灰华海底沉淀物所构成的特殊的叠层石大规模消亡的层位,为研究前寒武纪以叠层石为代表的微生物碳酸盐岩所经历的漫长而复杂的地质历史演变提供了宝贵的材料。 相似文献