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1.
茅草铺灰岩为丁文江1928年命名,标准地点在遵义城北约2.5公里茅草铺之林山。综合其特点如下: 上部:灰至深灰色中、厚层状灰岩、白云质灰岩。中夹浅红色、淡褐色灰岩,泥质灰岩和白云质泥灰岩。局部具角砾状、蠕虫状及缝合线等构造。厚240米土 相似文献
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基于对川北米仓山西部旺苍县鼓城乡唐家河下寒武统仙女洞组露头剖面的观察与镜下分析发现,仙女洞组下段由生物碎屑泥晶灰岩(L)、粉砂质泥岩(M)、似瘤状砾屑灰岩(L')、角砾灰岩(R)、藻凝块灰岩(A)和含生屑钙质砂岩(S)组合而成,其以角砾灰岩、似瘤状砾屑灰岩和藻凝块灰岩为特征,且发育异地岩块和滑塌变形构造。进一步分析认为:L-M岩石组合为正常的斜坡环境低能沉积;L'-R岩石组合中的角砾灰岩为上斜坡生物灰泥丘崩坍滑动至下部而形成的,似瘤状砾屑灰岩可能是由于L-M岩石组合快速沉积导致沉积物失稳滑动变形、上斜坡生物灰泥丘崩落角砾致使的差异压实和滑动、以及后期物质成分差异引起的压溶作用等共同作用的结果,从而使灰质层发生破碎并被泥质包围形成断续的砾屑状,甚至轻微的位移,进而形成条带特征不明显的杂乱变形构造;微生物岩(Mb)组合为上斜坡的灰泥丘沉积;S-M岩石组合为斜坡上部的浊流沉积。根据上述分析结果建立米仓山西部仙女洞组碳酸盐岩台缘斜坡沉积模式,表明仙女洞组沉积早期米仓山西部存在台缘斜坡相沉积。 相似文献
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一种特殊瘤状灰岩的成因研究 总被引:5,自引:0,他引:5
关于瘤状灰岩的成因主要有三种观点,其中一种认为与碳酸盐结核有关,另一种则认为是差异压实所为,再一种则认为是同沉积作用形成。然而,广西德保县都安下泥盆统达莲塘组发育的一种特殊的瘤状灰岩却因其产状貌似通常意义的砾状灰岩而使得人们将其误认为砾状灰岩。作者通过对这套“砾状灰岩”的沉积岩石学、生物化石、古构造等特征的研究,发现该“砾状灰岩”既不是沉积作用形成,也非同沉积构造作用形成,而是首先在闭塞的台内洼槽环境中形成同生和成岩碳酸盐结核,然后差异压实作用导致地层表面强烈地凹凸不平或地层整体的不均匀性 (致使强度降低 ),最后在印支期的穹隆形成过程中由于翼部的剪切、弯滑、弯流作用,致使结核发生转动、移动而形成今天所见的“砾状灰岩”。因此都安“砾状灰岩”实为瘤状灰岩,它代表的是闭塞、贫氧的 (台内洼槽 )沉积-成岩环境,是沉积成岩和构造等多种因素共同作用的产物。 相似文献
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从瘤体与基质的矿物组成、岩石的结构构造出发,深入探讨了滇西施甸地区保山组瘤状灰岩的沉积环境及其形成机理。研究表明,滇西施甸地区上寒武统保山组瘤状灰岩存在3种成因:一种是呈互层状的泥质和灰质沉积物在半固结或弱固结状态下,经差异压实-压溶作用而形成瘤状构造,岩石中各组分含量及后期压溶作用强度的差异导致了瘤状灰岩不同的存在形式;另一种是泥质和灰质沉积物在半固结或弱固结状态下经斜坡滑塌作用形成串珠状、砾屑状灰岩;第三种则是泥灰质沉积层间歇性地暴露干裂,移位磨蚀,并被后期沉积物充填胶结形成瘤状灰岩。 相似文献
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兰坪盆地金顶超大型铅锌矿床广泛发育特征特殊的角砾岩和含角砾砂岩,前人对其成因有不同的认识。本文在矿区岩相构造填图的基础上,根据岩石角砾、杂基、胶结物成分和结构特点,划分出以下8类岩石:(1)层状含灰岩角砾砂岩,(2)方解石胶结灰岩砾角砾岩,(3)石膏/硬石膏胶结灰岩砾角砾岩,(4)铁泥质胶结灰岩砾角砾岩,(5)混杂状砂质胶结灰岩砾角砾岩(或称含灰岩角砾砂岩),(6)膏砂泥胶结复成分砾角砾岩,(7)砂质胶结复成分砾角砾岩,(8)含矿石砾角砾岩。其中,含矿石角砾岩形成于矿后,而其它角砾岩形成于矿前且可能近同期形成。角砾岩均处于下部"原地"和上部"外来"地层系统之间。研究认为含矿石砾角砾岩为矿后垮塌成因,其它角砾岩为(含砂)膏盐底辟成因,或含砂膏盐底辟破碎围岩、携带角砾流动的产物。目前角砾岩砂质杂基间的方解石胶结物和灰岩角砾间的方解石胶结物,可能为后期含有机质流体与先存的、作为胶结物的膏盐反应形成。这一过程同时产生H2S,对后期成矿具有重要意义。角砾岩的矿化与膏盐底辟体有关,具"单中心"分带、"多中心"叠加的特点。矿化主要为闪锌矿、方铅矿、黄铁矿等热液矿物交代角砾岩间或砂质杂基间的方解石胶结物,角砾本身弱/无矿化。比较而言,层状含灰岩角砾砂岩为含矿最普遍,次为方解石胶结灰岩砾角砾岩、铁泥质胶结灰岩砾角砾岩、含矿石砾角砾岩,混杂状砂质胶结灰岩砾角砾岩局部含矿。 相似文献
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广西桂林庙头上泥盆统融县组台地边缘相具鸟眼或溶孔砂屑生屑藻粘结灰岩中发育了大量灰岩脉,灰岩脉呈岩墙状近直立地切过围岩,露头上可见连续垂直延伸长度达十余米,脉内仍是上泥盆统融县组灰岩组分,仅比围岩稍晚或同时代的:角砾状退白云石化藻粘结灰岩、角砾状藻粘结灰岩(快速堆积,角砾多数来自围岩)、细鲕粒颗粒灰岩、含钙球砂屑粒泥灰岩、藻砂屑腹足泥粒灰岩(正常沉积或液化变形软沉积流,均高于围岩层位)及大量栉壳状方解石脉(张性环境)等,灰岩脉内可见软沉积物变形痕迹及液化脉(地震液化),晚期灰岩脉可穿插早期灰岩脉;在其西侧同层位共生有一套楔状(地裂缝)、不规则状角砾灰岩体,角砾棱角状,大小不等,成分是灰色中厚层角砾状藻粘结灰岩、含钙球砂屑粒泥灰岩等。笔者等注意到灰岩脉均出露在北东向正断层的下盘(东侧),而角砾灰岩体则均出露在该断层的上盘(西侧),事实上,灰岩脉及角砾灰岩体分布走向与北东向断层走向一致,角砾灰岩体中的角砾成分显示其来自较灰岩脉围岩稍高层位,与灰岩脉内充填岩性相近,因此,是该断层控制了当时的沉积,此断层是晚泥盆世台地边缘同沉积正断层;灰岩脉是与断层伴生的张性裂隙被围岩角砾或稍晚时段的沉积物充填;角砾灰岩体是同沉积正断层形成的断层崖崩落角砾岩,指示一个消失殆尽的晚泥盆世碳酸盐岩同沉积正断层陡崖,因而,桂林台地,至少西段台地边缘,是与右江各孤立台地边缘一样——在地质图上应标示为同沉积正断层边界。其构造意义是:庙头地区的灰岩脉、角砾灰岩体及同沉积断层是桂林台地对晚泥盆世构造伸展作用的响应,从而说明广西晚古生代的板块拉张,不是从二叠纪才开始的,而是至少从晚泥盆世就开始了;晚古生代至早三叠世持续的孤立台地与深水盆地相间的古地理格局,是在晚泥盆世就奠定了基础。 相似文献
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沉积岩中普遍发育滑塌滑移建造。贵州天柱大河边地区寒武系第二统乌训组即普遍发育滑塌滑移建造,通过地质调查分析,可见滑塌滑移角砾岩建造、瘤状灰岩建造、散布于炭质粘土岩中的“钙质结核”和灰岩中的泥岩脉,以及一系列滑移褶皱褶曲等软沉积物变形构造等类型。根据滑塌滑移角砾岩建造中的鲕粒灰岩角砾和乌训组沉积建造处于大陆斜坡环境的古地理背景分析,滑塌滑移角砾岩建造中的鲕粒灰岩角砾应来源于乌训组北西侧处于台地边缘相的清虚洞组,结合灰岩中的泥岩脉即典型震积泥岩脉现象,综合认为,乌训组普遍发育的各种类型滑塌滑移角砾岩建造和其它变形建造,系地震营力及其导致的滑塌滑移事件作用的结果。 相似文献
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华北地台上寒武统崮山组出现了大量的竹叶状灰岩。通过对山东唐王寨剖面崮山组的系统研究,识别出页岩、疙瘩状泥晶灰岩、泥质条带泥晶灰岩、薄层状泥晶灰岩、生物扰动泥晶灰岩、颗粒质(生物碎屑)泥岩-泥质颗粒岩、含交错层理鲕粒灰岩及竹叶状灰岩8种岩石类型,这些岩石类型组成了页岩盆地、深潮下带及浅潮下带岩石组合。竹叶状灰岩中砾屑和基质的特征及其沉积序列,表明砾屑和基质的来源多样并且在不同的沉积环境中其成因具有多样性。据此总结出崮山组竹叶状灰岩具有4种可能的成因类型:1)竹叶状灰岩中砾屑和基质可能均为原地形成或者仅有短距离的搬运过程;2)竹叶状灰岩中砾屑和基质可能均为近岸形成并经历了长距离的搬运过程,或者竹叶状灰岩的沉积环境经历了海平面的突然升高;3)竹叶状灰岩中基质可能来源于近岸未固结的鲕粒和生物碎屑及原地的灰泥,与原地破碎生成的砾屑和灰泥等混合沉积;4)竹叶状灰岩中砾屑可能来源于远岸的固结的泥晶灰岩,并经搬运作用与原地未固结的灰泥及骨架颗粒等基质混合沉积。 相似文献
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北京西山下苇甸中寒武统碳酸盐岩微相及沉积相研究 总被引:4,自引:0,他引:4
采用微相分析的方法,对北京西山下苇甸剖面中寒武统碳酸盐岩的生物组合、颗粒成分、基质类型及其结构等微相特征做了深入研究,区分出8种碳酸盐岩微相类型,即微角砾状生屑-岩屑泥粒灰岩,异地生屑泥粒—粒泥灰岩,含包壳鲕粒和磨圆生屑的泥粒—粒泥灰岩,含包壳鲕粒的颗粒灰岩,海百合茎泥粒灰岩,同心圆鲕粒颗粒灰岩,泥晶鲕粒颗粒—泥粒灰岩,放射鲕粒颗粒—泥粒灰岩。8种微相类型在中寒武统剖面上不等同出现构成了代表两次海平面下降—上升的演化过程,即由徐庄组下部的开阔台地相开始,向上至徐庄组上部变化为滩前斜坡相,张夏组下部又返回至开阔台地相,最后在张夏组上部又以滩前斜坡相告终。 相似文献
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11.
MAURITS LINDSTRÖM 《Sedimentology》1963,2(3):243-292
In a vast region in Scandinavia, a monotonous and extremely slow deposition of anaerobic mud persisted through the Late Cambrian. After a long time with no or very little sedimentation, deposition was recommenced in the Early Ordovician at an equally slow rate, but with calciumcarbonate as the main component. pH at the bottom was so low that the deposition of the carbonate in the long run only just outweighed the solution, which occurred frequently and sometimes during long periods. By oscil- lating solution and precipitation in the pores, lime mud could set into limestone on the sea-bed. By more definite phases of solution, most of the limestone could be reduced to a marl bed with remains of undissolved limestone. Single limestone beds formed over such marl were apt to glide and deform into anticlines, which rose from the sea- bottom to heights up to 20 cm. These folds were rarely destroyed mechanically, which speaks for a tranquil bottom environment. Their crests were, however, cheinically corroded in the same way as discontinuity surfaces, which were also formed at many intervals. The processes by which the discontinuity surfaces were formed never affected a fold mechanically. The corrosion of the fold crests and of the discontinuity surfaces took place on the bottom of the sea, at safe distance from the surface. The corrosion was most frequently associated with the formation, and maintenance, of a glauconite skin. The abundance of preserved fold structures indicates that the region was relatively deep under the sea for most of the Early Ordovician. Later on, already in the middle-Late Arenigian, the sea may have become shallower. The findings are extrapolated, with some probable interpretations and new observations, to include a hypothetical explanation for the passage from black shale to limestone facies. 相似文献
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三峡移民安置区泥灰质岩岩溶风化灾变性分析 总被引:5,自引:2,他引:3
三峡移民安置区三叠系巴东组( T2b )泥灰质岩的岩溶风化问题是新近发现的重大工程地质问题。泥灰质岩具有灰岩和泥岩双重特性,在灰质成分遭受溶蚀的同时,泥质成分遭受风化,由此引起岩性的复杂变化,由室内测试得出,深灰色泥质灰岩经岩溶风化后, CaCO3 含量呈降低的趋势, Fe2O3 含量和蒙脱石含量增高,演变为一系列风化岩和残坡积土,包括灰绿色泥灰岩、黄绿色泥灰岩、粉红色钙质泥岩、棕红色钙质泥岩、棕红色泥砾层、黄褐色膨胀土,在深处地下水富集带,泥灰质岩则被溶蚀成为杏黄色泥质条带。随着岩性的变化,岩石的力学强度不断降低、完整性不断弱化,并可能产生普遍的地面不均匀沉降、地裂缝、滑坡、崩塌、泥石流及地面塌陷地质灾害,这些问题必须在移民迁建以及将来城镇运行过程中引起高度重视。 相似文献
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R. Nagendra P. Sathiyamoorthy A. N. Reddy Harry Gilbert B. C. Jaiprakash 《Arabian Journal of Geosciences》2014,7(10):4133-4144
Grey shale Member of the Dalmiapuram Formation, Ariyalur Group, Cauvery Basin, India was studied for its stratigraphic position, age, and paleobathymetry with a re-look into the lithological relationship and foraminifer assemblages in the deepened limestone mine excavations at M/s Dalmia Cements, Dalmiapuram. Twenty grey shale samples from Kovandankurchchi (pit-4) and Kallakkudi mines yielded diversified calcareous, benthic, and rare index planktic foraminifera. The foraminiferal assemblages suggest a latest Albian age and middle neritic depositional conditions. The abundance of kaolinite and smectite clay minerals relate to warm/humid climate which corroborate with rising relative sea level during grey shale deposition. The grey shale occurs in patches within the marl bedded limestone member which exhibits cyclic deposition of limestone and marl. The limestone mine sections demonstrate that the grey shale forms part of basal marl bedded limestone, directly overlying the coral algal limestone. The present study demonstrates that the grey shale outcrops in Dalmiapuram Formation should be placed stratigraphically as part of marl bedded limestone. The member status for grey shale which is current usage stands discounted. 相似文献
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G.I. Abdel-Gawad S.G. Saber S.H. El Shazly Y.F. Salama 《Journal of African Earth Sciences》2011,59(4-5):359-372
Five radiolitid rudist species are described from the Turonian sequence of Abu Roash area. They are recognized in three rudist biostromes that occur in two informal members of Abu Roash Formation; the Rudist- and the Actaeonella-bearing limestone–marl members. The three biostromes show autochthonous and parautochthonous fabrics and moderate to high packing potential. The first rudist biostrome at the base of the Rudist-bearing limestone–marl member (Middle Turonian) contains Durania gaensis, Praeradiolites ponsianus and Bournonia fourtaui. The second biostrome in the same member consists of Bournonia roashensis. The third biostrome that recognized in the Actaeonella-bearing limestone–marl member (Late Turonian) consists of Durania arnaudi. Rudist biostromes in the Rudist-bearing limestone–marl member were deposited on subtidal rudist shoals with moderate to high energy versus that of the Actaeonella-bearing limestone–marl member that deposited in low to moderate energy on deeper part of subtidal rudist shoals. The exposed Turonian succession at Abu Roash area could be divided into three depositional sequences bounded by three sequence boundaries (paleosols and angular unconformity).The first rudist biostrome in the Rudist-bearing limestone–marl member represents the lower part of the transgressive systems tract of the first depositional sequence. The deepening upward trend of the transgressive systems tract is due to increase of accommodation space in transgressive context during relative sea-level rise episode. On the other hand, the second rudist biostrome in the Rudist-bearing limestone–marl member and the third rudist biostrome in the Actaeonella-bearing limestone–marl member are in shallowing-upward set sequence forming the highstand systems tract of the first and third depositional sequences. This indicates that, the accommodation space was being filled more rapidly than was being created during the highstand stage. 相似文献
15.
Limestone–marl alternations are usually directly interpreted to reflect cyclic palaeoenvironmental signals. However, uncertainty in such interpretations stems from the differential diagenesis that most limestone–marl alternations have undergone. Differential diagenesis results in markedly different alterations between limestones and marls and in the loss of comparability of many measurable parameters. For an unequivocal interpretation of the origin of rhythmic alternations, diagenetically robust parameters or parameters that clearly indicate the degree of diagenetic bias are required. The present study uses a multiproxy approach (independent biotic, sedimentary and geochemical parameters) in order to unravel the palaeoenvironmental signal recorded in Valanginian (Early Cretaceous) limestone–marl alternations from the Blake‐Bahama Basin (DSDP site 391). Using this approach, terrestrial and marine influences can be distinguished, changes in nutrient levels estimated and prediagenetic differences in the non‐carbonate fraction constrained. Surprisingly, no systematic variations in any of these parameters were observed between limestone and marl layers, implying that none of these was directly responsible for the formation of the rhythmic alternation. Hence, none of the current models of sedimentary formation of limestone–marl rhythmites is applicable here. Calcareous nannofossils are equally well preserved in limestone and marl layers, ruling out their dissolution in marl layers as a source of the calcite cement in the limestone beds. Sr values of 700–900 p.p.m. indicate that aragonite may have been present in the original, pelagic sediment. The assumption of fine‐grained sedimentary aragonite imported from nearby carbonate platforms as the source of the cement would explain a number of otherwise enigmatic features in these rhythmites, including the source of the calcite cement observed in the limestones, the equally good preservation of calcareous nannofossils in limestones and marls and the higher concentration of calcareous nannofossils in marl layers. The study demonstrates that examination of diagenetically inert parameters or parameters in which diagenetic effects can be filtered can yield unexpected results. Clearly, careful analysis of such parameters needs to be undertaken in order to make reliable palaeoenvironmental interpretations from rhythmite successions. 相似文献
16.
This paper focuses on the formative processes of limestone pseudoconglomerates in the Gushan and Chaomidian Formations (Late Cambrian) of the North China Platform, Shandong Province, China. The Gushan and Chaomidian Formations consist mainly of limestone and shale (marlstone) interlayers, wackestone to packstone, grainstone and microbialite as well as numerous limestone conglomerates. Seventy‐three beds of limestone pseudoconglomerate in the Gushan and Chaomidian Formations were analysed based on clast and matrix compositions, internal fabric, sedimentary structures and bed geometry. These pseudoconglomerates are characterized by oligomictic to polymictic limestone clasts of various shapes (i.e. flat to undulatory disc, blade and sheet), marlstone and/or grainstone matrix and various internal fabrics (i.e. intact, thrusted, edgewise and disorganized), as well as transitional boundaries. Limestone pseudoconglomerates formed as a result of soft‐sediment deformation of carbonate and argillaceous interlayers at a shallow burial depth. Differential early cementation of carbonate and argillaceous sediments provided the requisite conditions for the formation of pseudoconglomerates. Initial deformation (i.e. burial fragmentation, liquefaction and injection) and subsequent mobilization and disruption of fragmented clasts are two important processes for the formation of pseudoconglomerates. Burial fragmentation resulted from mechanical rupture of cohesive carbonate mud, whereas subsequent mobilization of fragmented clasts was due to the injection of fluid materials (liquefied carbonate sand and water‐saturated argillaceous mud) under increased stress. Storm‐wave loading was the most probable deformation mechanism, as an external triggering force. Subsequent re‐orientation and rounding of clasts were probably prolonged under normal compactional stress. Eventually, disrupted clasts, along with matrix materials, were transformed into pseudoconglomerates by progressive lithification. Soft‐sediment deformation is prevalent in alternate layers of limestone and mud(marl)stone and/or grainstone, regardless of their depositional environments. 相似文献
17.
18.
根据岩性及其组合特征,本文将西藏北部安多—巴青地区侏罗纪含礁地层划分为流水成因的颗粒岩岩相、流水成因的碎屑岩岩相、复成因的泥晶—泥质灰岩岩相、生物及生物化学成因的障积岩岩相、生物及生物化学成因的粘结—障积岩岩相和生物及生物化学成因的骨架岩岩相等6大类型,计16种岩相。它们构成了潮坪相组合、台地浅滩相组合、开阔台地相组合和台地生物礁相组合共4种岩相组合,并由下而上有规律地形成2种岩相序列,即陆源碎屑与碳酸盐混合台地相序列和碳酸盐台地相序列。 相似文献
19.
The Olmedo bauxite deposit occurs in the Nurra district of northwest Sardinia. It forms a stratiform horizon in Cretaceous
limestone and marl. Uplift in mid-Cretaceous had exposed recently deposited limestone to karst weathering, and a layer of
argillaceous debris accumulated on its surface and was partly converted to bauxite. Intermediate products were desiccated
marl, bauxitic argillite and argillaceous bauxite. Subsidence followed, and the bauxite was preserved by the deposition of
late Cretaceous limestone and other sediments. Uplift in Oligocene-Miocene time, with ensuing erosion, exposed the bauxite
horizon to its present configuration. Concentrations of normative minerals illustrate chemical processes and the build-up
of Al in the bauxite horizon. Plots of chemical data and correlation coefficients show that Al, Ti, Zr, Nb, Th, Cr and V were
immobile during the bauxitization process. Mass changes point to large net removal of Si, Mg and K from the system, although
some of this material and slightly mobile Al were reprecipitated in the underlying argillite and altered marl. Immobile element
ratios trace the source of the bauxite to the underlying argillaceous limestone. Al in the bauxite was accumulated from the
degradation of 25 to 50 m of the argillaceous limestone.
Received: 10 June 1996 / Accepted: 15 April 1997 相似文献