西藏北部西雅尔岗地区白垩-第三系红层的成岩作用及成岩环境

西雅尔岗地区位于羌塘高原腹地，地理范围为东经88°00′至89°00′，北纬32°40′至33°40′.大地构造位置从属于羌塘地块的玛依岗日一阿木冈基底隆断带.在晚白坚一第三纪时期，受青藏高原整沐抬升的影响，沉积了一套巨厚的红色陆屑建造，其基本特征为沉积厚度大、粗粒沉积所占比例高、沉积类型复杂、横向及纵向上相变快、岩石的颜色多为红色及紫色.沉积相类型主要为冲积扇、扇三角洲及湖泊.化石类型卖要为植物〔柏型枝)，孢粉和鸟足印化石.反映了在干操气候条件下，快速堆积的沉积特征. 根据对该区岩石学的研究，发现岩石的矿物组合和结构类型皆因成岩作用的影响而发生了很大的变化.矿物组合的变化是由于沉积后附加的陆源机械渗人粘土，在地表条件下不稳定矿物及岩屑的溶解作用以及在成岩过程中自生矿物的形成作用所造成的.导致结构类型改变的原因是(1)机械渗人的碎屑粘土及自生的粘土矿物形成孔隙间的粘土质“成岩杂基”.而这些孔隙在最初沉积时则没有杂基存在;(2)松散沉积物在成岩过程中，结构颖粒的溶解作用;(3)由于压实及压溶作用而形成粉砂级及其它细小的颗粒;(4)交代作用及重结晶作用.这些成岩过程明显地反映了整个区域岩石的演化历史. 显微镜、扫描电镜的观察以及红外光谱的侧定结果表明该区红层的形成是由于在成岩过程中赤铁矿的沉淀而造成的.在扫描电镜下可清楚地识别出赤铁矿的自生晶形.由此可以断定赤铁矿在其形成过程中显然是起了染色剂的作用.它的形成主要受孔隙水的氧化还原条件所控制，似乎于气候的关系不大，尽管它是产于干旱条件的沉积物中. 基于对该区岩石的成岩作用及成岩历史演化序列的研究，建立了该区沉积后的成岩环境模式，亦即(l)早期的表生成岩浅埋藏环境，该环境明显受到沉积环境、沉积作用控制以及气候因素的影响;(2)晚期的成岩深埋藏环境，该环境则主要受地温梯度、压力、温度和孔隙水的地球化学条件的控制.     

碎屑质韧性动力变质岩结构构造分类

根据新疆觉罗塔格碎屑质韧性动力变质岩的形变相变方式、构造、结构组成和粒度结构,将碎屑质韧性动力变质岩划分为６大类：片岩类、板状变粒岩类、糜棱岩类、压扁拉长岩类和布丁岩类,讨论了碎屑质韧性动力变质岩的组合与命名。     

Complex interplay between depositional and petrophysical environments in Holocene tidal carbonates (Al Ruwais,Qatar)

Carbonate rocks can be classified in terms of those properties relating to the pore system of lithified sediments, so‐called ‘petrophysical rock types’, or ‘depositional rock types’ which are categorized based on characteristics directly reflecting their original depositional environment. Whereas petrophysical rock types are typically used to identify and distribute rock bodies within a reservoir with similar flow characteristics, depositional rock types ignore pore types and capture sedimentary structures, lithology and fossils. Both classification systems are extensively used to describe reservoir rocks, but the degree of plurality between them remains poorly understood and is the motivation for this study. To examine the degree of congruency between the two classification schemes, a field assessment was conducted for a 175 km² area situated offshore Al Ruwais, northern Qatar, encompassing depositional environments spanning supratidal, intertidal, shallow subtidal and open marine conditions. A total of 350 surficial sediment samples were collected along 24 shore‐normal transects. Each sample was assigned a ‘petrophysical rock type’ class based on analysis of sedimentary texture (grain size and sorting). ‘Depositional rock type’ classes, by contrast, were defined with reference to faunal content and, in turn, classes of mineralogy were delimited by weighting this content against the mineralogy of each faunal category. Of course, the samples studied correspond to unconsolidated sediments and not to indurated rocks. However, considering only primary porosity and permeability preservation, it is reasonable to assume that the classified sediments would become petrophysical rock types and depositional rock types when consolidated, following their primary grain size, sorting and grain type distribution. Therefore, the term ‘rock type’ is retained here for ease of terminology but, for clarity, these are sediment samples. The discrete samples were interpolated into continuous surfaces describing the distribution of depositional rock types, petrophysical rock types and mineralogy, and spatial correspondence between those surfaces was statistically evaluated. In order to link these parameters with environment of deposition, their correlation with water depth (as audited from airborne light detection and ranging) and ecological habitat (mapped from DigitalGlobe satellite imagery) was also assessed. The data reveal that spatial distributions of sedimentary faunal, petrographic and mineralogical properties do not show exactly congruent patterns. Other meaningful trends do exist, however. For example, the occurrence of certain depositional rock types is indicative of particular petrophysical rock types, and vice versa. Further, connections between petrophysical rock types and mineralogy are emphasized and offer insight as to how the evolution of matrix porosity might be predicted via diagenetic models tuned to specific sediment textures. Useful relationships are also identified between the occurrence of petrophysical rock types and depositional rock types, and both ecological habitat and water depth. The potential of such dualities is two‐fold. Firstly, they can be applied to more realistically distribute petrophysical rock types and depositional rock types by environment of deposition in reservoir models and, secondly, the use of modern carbonate systems as subsurface analogues might be enhanced.     

冀西北铁岩类型与沉积环境

冀西北铁岩的结构和构造类似于碳酸盐岩,因此,借鉴于现代碳酸盐相模式与沉积环境,有可能恢复古代铁岩的沉积环境。本文对铁岩分类及其沉积环境进行了探讨。     

湖北兴山大峡口剖面二叠系岩石特征及沉积环境分析

湖北兴山大峡口剖面二叠系自下而上可以分为栖霞组、茅口组、吴家坪组和长兴组,总厚度为43372 m。该剖面岩石以石灰岩为主,含少量的白云岩、硅岩和页岩。石灰岩可进一步分为生屑石灰岩、生屑质石灰岩、含生屑石灰岩、泥（粉）晶石灰岩和眼球状石灰岩。眼球状石灰岩主要分布于栖霞组下部和茅口组中下部,为沉积作用和成岩作用的共同产物。白云岩主要是呈斑块状分布的石灰质白云岩,主要分布于长兴组上部,其可能为石灰岩经埋藏白云化作用而形成。硅岩呈结核状、团块状、条带状,为交代成因。根据岩性、古生物化石、沉积构造等相标志分析,划分出了滨岸、碳酸盐岩台地、盆地边缘和盆地等4种沉积环境,其中碳酸盐岩开阔台地内局部出现浅滩环境。沉积演化表明,该地区二叠纪发生了两次较大规模的海进、海退旋回,第1次海侵始于中二叠世栖霞组沉积初期,结束于茅口组沉积末期;第2次海侵始于吴家坪组沉积初期,直至长兴组沉积期末结束。初步分析表明,研究区二叠系具有良好的烃源岩条件和储集条件。     

沉积盆地物质来源综合研究——以南堡老第三纪亚断陷盆地为例

重矿物分析对于判断沉积盆地的物源方向和物源区的母岩性质是有效的,但具有局限性：①对无重矿物或者仅能提供极少量重矿物的母岩判别力较差;②它不能准确判断物源区沉积物的主要运移通道。因此,进行盆地物源分析还需要重视综合研究,即①通过重矿物的矿物学、重矿物组合研究,判断物源区的母岩类型,推测母岩岩性演化;②通过沉积岩矿物成分与结构研究,判别物源区是否存在重矿物无法辨认的母岩类型和沉积物的搬运距离;③通过沉积体系分析,尤其是砂分散体系的编图,能有效地判断物源区的方位和圈定各物源的具体影响范围;④利用古构造图判别物源区的主要沉积物运移通道及其方位;⑤编制沉积盆地－物源区古环境图,以此来弥补重矿物分析物源所带来的缺陷。     

宁夏固原凹陷岩盐矿床后生改造成矿作用—来自矿物学的证据

为深入理解岩盐矿床复合成矿作用,研究宁夏固原凹陷岩盐矿成矿规律和成矿模式,在野外地质调查的基础上,通过镜下观察、扫描电镜分析、电子探针能谱分析、X射线粉晶衍射分析,结合岩石学和矿物学研究,对该矿床矿石结构构造特征和矿物特征进行对比研究,并对其岩盐矿成矿期次进行了划分。结果表明,固原凹陷岩盐矿矿石具有原生沉积和后生改造结构构造。矿石结构中自形细晶结构为原生沉积结构,自形粗晶、港湾和蠕虫交代结构为后生改造结构。矿石构造中纹层、条带、团块状构造为原生沉积构造,块状、角砾状和网脉状构造为后生改造构造。岩盐矿床矿物组合主要有石盐、钙芒硝、硬石膏、无水芒硝以及粘土矿物、钠长石、白云石,具有原生沉积和后生改造的矿物组合特征,盐类矿物均可见原生沉积型和后生改造型矿物。岩相学和矿物学研究证实,固原凹陷岩盐矿床是一个典型的原生沉积-后生改造型矿床。钙芒硝和硬石膏矿主要由早期沉积作用形成矿化体,经历了后期微弱的改造作用;而石盐矿主要由早期沉积作用形成矿体,在后期盆地构造变化中发生塑性流动、溶解-重结晶或构造变形而充填于围岩的裂隙或构造活动形成的有利空间中成矿,表明矿床经历了原生沉积成矿期和后生改造成矿期两个...     

The South Faizuly manganese deposit in the southern Urals: Geology,petrography, and formation conditions

The South Faizuly manganese deposit hosted in cherty rocks of the Magnitogorsk paleovolcanic belt has been studied. The geology, mineralogy, and chemistry of ores and host silicites (jasperites, jaspers, and cherty siltstones) are characterized. The deposit was formed in the following four consecutive stages: (1) sedimentation and diagenesis of ore-bearing sediments in the Middle Devonian, (2) metagenesis of Mn-bearing rocks in the Middle Devonian-Early Carboniferous, (3) hydrothermal-metasomatic stringer ore mineralization during tectonic deformation of volcanosedimentary rocks in the Middle Carboniferous-Permian, and (4) supergene alteration and partial denudation of the deposit in the Mesozoic-Quaternary. Models of Mn-bearing rock deposition in the proximal and distal zones of the hydrothermal solution discharge area are considered.Translated from Litologiya i Poleznye Iskopaemye, No. 1, 2005, pp. 35–55.Original Russian Text Copyright 2005 by Brusnitsyn, Zhukov.     

甘肃酒西盆地青西凹陷下白垩统下沟组湖相喷流岩物质组分与结构构造*

甘肃酒西盆地青西凹陷下白垩统下沟组广泛发育的暗色纹层状细粒岩,以其富含铁白云石、钠长石、重晶石、方沸石、黄铁矿和有机质,局部含有微量萤石、透闪石、石盐和呈碎屑状、浸染状产出的微量闪锌矿、黄铜矿、方铅矿等矿物组分吸引着众多沉积地质学家和石油地质学家的高度关注。在以往的研究中,大多数研究者认为此类细粒岩的成因与火山活动有关,将其确定为火山物质蚀变作用的产物。通过地质背景、物质组分、岩石结构构造、包裹体和地球化学特征的研究,提出此类细粒岩属于新型的湖相“白烟型”喷流岩,可识别出6种热水矿物组合、3种主要结构类型和4种常见的原生沉积构造。6种热水矿物组合包括: Ⅰ钠长石—铁白云石(或铁白云石—钠长石)组合,Ⅱ重晶石—钠长石—铁白云石组合,Ⅲ石英—重晶石—钠长石—铁白云石组合,Ⅳ石英—方沸石—钠长石—铁白云石组合,Ⅴ地开石—铁白云石组合,Ⅵ单一铁白云石组合。3种主要结构类型包括: ①泥晶—微晶结构,②内碎屑结构,③石盐假晶结构。4种常见的原生沉积构造包括: ⅰ纹层状和条带状构造,ⅱ网脉状充填构造,ⅲ旋涡状喷管结构,ⅳ同生变形层理结构。在物质组分和岩石结构分析的基础上,划分出网脉状充填型、水爆型、盆地沉积型和区域扩散型4种喷流岩产状类型,建立了下沟组湖相喷流岩分带性沉积模式,探讨了喷流岩研究意义。     

Petrographic and geochemical characteristics of iron-rich rocks and their significance in exploration for massive sulfide deposits, Bathurst, New Brunswick, Canada

About 25 economically significant, Kuroko-type massive sulfide bodies lie in a metamorphosed volcano-sedimentary complex (probable Middle Ordovician) known as Tetagouche Group, in Bathurst area, New Brunswick. Despite unresolved structural complexities, it does appear that they were deposited during a particular phase of volcanic activity and are, therefore, contemporaneous. Most of the sulfide bodies are closely associated with iron-rich rocks representing various facies of iron formation, and together with sulfides it constitutes the “ore horizon‘ which, therefore, is highly magnetic. Aero-magnetic and ground-magnetic techniques are useful to locate the ore horizon but problems are created because of the occurrence of iron-rich rocks with no sulfide, along another horizon in the Tetagouche Group.Petrographic and geochemical characteristics of various types of iron-rich rocks have been studied to see if the iron-rich rocks of the ore horizon can be distinguished from the iron-rich rocks of the other horizon. The iron-rich rocks found in the Tetagouche Group can be classified into five types: (1) cherty magnetitic rocks; (2) iron-rich chloritic rocks; (3) sideritic rocks; (4) basic iron formation; and (5) maroon shale. The basic iron formation, which is quite magnetic, gives a false indication of the ore horizon wherein the presence of any of the first three types of rocks is expected. Moreover, the basic iron formation is generally similar in appearance and mineralogy to some of the cherty magnetitic and chloritic rocks.Regarding major element composition, TiO₂, Na₂O, Al₂O₃ and CaO are higher whereas Fe₂O₃, FeO and MnO are lower in the basic iron formation than in the other iron-rich rocks. These geochemical characteristics can help distinguish the barren rocks of the basic iron formation from those of the ore horizon during the exploration programs.     

Iron-formation and glaciogenic rocks of the Rapitan Group,Northwest Territories,Canada

In northwestern Canada, iron-formation occurs as part of the Rapitan Group, a dominantly sedimentary succession of probable Late Precambrian age. The Rapitan Group contains abundant evidence of glaciogenic deposition. It includes massive mixtites which contain numerous faceted and striated clasts. Finely bedded and laminated sedimentary rocks of the Lower Rapitan contain many large isolated (ice-rafted?) intra- and extra-basinal clasts. The Lower and Middle Rapitan are interpreted as products of a glacial marine regime. The iron-formation is interbedded with thin mixtite beds and contains large exotic clasts which are probably indicative of the existence of floating ice at the time of deposition of at least part of the iron-formation. If the apparently low paleolatitudes are confirmed, then glacial marine interpretation of the Rapitan, and the probably correlative Toby Conglomerate of southern British Columbia, support the postulate of a very extensive Late Precambrian ice sheet in North America.Similar iron-formations of similar age are present in South America (Jacadigo Series), in South-West Africa (Damara Supergroup) and in South Australia (Yudnamutana Sub-Group). All of these iron-formations are associated with glaciogenic rocks. In addition to the iron-formations, dolostones, limestones and evaporites (?) are intimately associated with Late Precambrian mixtites, considered by many to be glaciogenic.Huronian (Early Proterozoic) and correlative sequences of North America, and rocks of similar age in South Africa also contain closely juxtaposed undoubted glaciogenic rocks, iron-formations, dolostones and aluminous quartzites. The dolostones and aluminous sedimentary rocks have been interpreted as having formed under warm climatic conditions, but might also be explained by invoking higher P_CO2 levels in the Early Proterozoic atmosphere. By analogy with the Huronian succession, preservation of “warm climate” indicators in mixtite-bearing Late Precambrian sequences does not preclude a glacial origin for the mixtites.     

Burial diagenesis and crystal diminution. The origin of crystal diminution in some limestones from South Wales

ABSTRACT Carboniferous speleothem calcites in un-metamorphosed limestones from South Wales exhibit crystal diminution (degrading neomorphism) textures. These textures result from processes which have been considered only important under metamorphic conditions. The textures are interpreted as the result of recrystallization associated with dislocation processes. These processes relate to low temperature creep associated with low strain rates extended over long periods of time. The textures described here occur in unusually large crystals but similar textures have been described in limestones from deep boreholes. Dislocation processes, recovery and recrystallization are likely to be important processes operating during deep burial diagenesis.     

沉积矿物学在古环境恢复中的应用进展

沉积矿物学是界于沉积学与矿物学之间的边缘交叉学科,它通过沉积物（岩）中矿物的组成、含量、组合特征、成因和单矿物化学成分、晶体结构、形态、性质的分析,研究沉积物在搬运、风化剥蚀、沉积过程和成岩过程中矿物的物理、化学行为特征．进而研究它们在时间、空间上的分布特征与规律,从而探讨物质来源、成因、形成演化历史与环境变迁等。近些年来沉积矿物学在研究古气候、物质来源、沉积环境、油气勘探以及构造演化中发挥着重要作用,成为古环境恢复与重建的重要研究手段之一。在阐述粘土矿物、重矿物、碳酸盐类矿物等的古环境意义的基础上,对其近20a来在湖泊、黄土、海洋古环境恢复当中的应用进展进行了回顾和评述。随着新的沉积矿物研究方法的不断出现和应用,结合沉积物的物理指标、化学指标以及古生物学等其他指标,沉积矿物学将在古环境重建中发挥越来越重要的作用,具有广阔的应用前景。     

Calcareous crust (caliche) profiles and early subaerial exposure of Carboniferous carbonates, northeastern Kentucky

Sequences of laminated limestones found within thin Carboniferous carbonate strata of northeastern Kentucky were studied to determine their origin and palaeo-environmental significance. These laminated zones are strikingly similar to Holocene and Pleistocene surficial calcareous crusts (caliche) profiles that occur in various parts of the world. Carboniferous laminated carbonates are associated with shallow marine carbonate units, palaeokarst, and overlying palaeosol zones. A typical laminated profile ranges in thickness from 1 to 2 m and contains brecciated, light olive-grey to brown micrite that lacks distinctive bedding. Structures and textures common in most profiles include: (1) calcareous and silicious laminae (laminae form diffuse, alternating light and dark bands that generally parallel bedding but often fill fractures and vugs within the rocks); (2) particles (allochems, and micrite and microspar fragments) coated by brown microcrystalline calcite; (3) brecciated texture; (4) circular to elliptical fossil moulds (occur in sinuous patterns and fill fractures within the rocks); (5) large and small scale fracture patterns. Subaerial weathering and vadose diagenesis of carbonate mud banks or islands is suggested as a mechanism for the formation of these Carboniferous calcareous crust profiles. These ‘crusts’ formed by a combination of solution (karsting), brecciation, and soil development that transformed an exposed marine biomicrite (‘host’ rock) into a porous subsoil rubble. Laminated ‘crusts’ and coated particles developed as the result of dissolution and reprecipitation of CaCO₃ and SiO₃ from the soil and carbonate bedrock. Carboniferous laminated carbonates in northeastern Kentucky are often referred to as ‘algal limestones’ because of their superficial similarity to some modern and ancient algal structures. This study, however, reveals numerous characteristics that can only be explained by diagenesis in a subaerial environment.     

Algal-bacterial fabrics of ores and their genetic implications in the longtang lead-zinc deposit at Yanbian,Sichuan

The Longtang Pb-Zn deposit occurs in the Upper Sinian Guanyinyan Formation. The host rocks include sandy shale, cherty limestone and dolomitic limestone. The deposit is a typical one of thallogen origin. The mineral assemblage in the ore is made up of sphalerite, galena, pyrite, enargite, tennantite, seligmannite, asphalt, etc. The ore-forming process is possessed of multiepisode and multi-stage characters. Generally, sphalerites exhibit algal stromatolitic, bacterial and algal colloidal textures, providing evidence for the direct involvement of algae and bacteria in mineralization of ore-forming elements during sedimentary diagenesis. This is the first transmigration of ore-forming elements. However, pyrite embracing bacteria and galena replacing/filling trichomes are typical organic textures, which are related to organic carbon and bitumen that can adsorb or reduce ore-forming elements. This is an indirect process of organic mineralization, i.e., the second transmigration of ore-forming elements. δ³⁴S values are all greater than 5%., indicating the dominance of the heavy sulfur isotopes. The ore-forming temperature deduced from fluid inclusions ranges from 100°C to 150°C±. All this goes to show that the Longtang Pb-Zn deposit is of thallogen origin. This project was granted by the National Natural Science Foundation of China.     

Molar tooth structures and origin of peloids in proterozoic carbonate platforms (Middle Riphean of the Turukhansk Uplift,Siberia)

Structures and textures of the peloidal wackestones, as well as size, shape, and composition of peloidal grains, from the Mesoproterozoic (Middle Riphean) Sukhaya Tunguska carbonate platform in the Turukhansk Uplift (Siberia) are considered. It is shown that these grains formed in the course of diagenesis were closely associated with the microsparitic replacement and the formation of molar tooth (MT) structures. Diagenetic transformations of rocks were related to the activity of anaerobic microbial communities inside the buried carbonate silt layers. The microbial activity during diagenesis was governed by the carbonate sediment composition and conservation mechanism of the high-molecular organic matter of primary producers therein, since this organic matter was the nutritious substrate for the primary anaerobe communities.     

Mineralogy and Petrology of the Gunflint Iron Formation, Minnesota-Ontario: Correlation of Compositional and Assemblage Variations at Low to Moderate Grade

Near the Ontario—Minnesota boundary, the middle Precambriansedimentary Gunflint Iron Formation has been contact metamorphosedby the Duluth Complex to the pyroxene hornfels facies. Threemetamorphic zones have been recognized based on mineralogicalchanges observed within the aureole; a fourth zone correspondsto essentially unmetamorphosed iron formation. Each zone maybe recognized by the dominant iron silicate present: zone 1—greenalitezone (unmetamorphosed), zone 2—minnesotaite zone (slightlymetamorphosed), zone 3—grunerite zone (moderately metamorphosed),zone4—ferrohypersthene zone (highly metamorphosed). Granule bearing cherty rocks of zone 2 are characterized bythe reduction of hematite to magnetite and reaction of greenaliteand siderite to minnesotaite ± magnetite. Relict texturesare well preserved in zone 2 and retrograde reactions are minimal.Grunerite first appears in banded slaty rocks of zone 3. ‘Slaty’grunerite formed principally by reaction between carbonate andstilpnomelane, while in cherty rocks grunerite formed by reactionbetween greenalite and silica. Original bulk chemical differencesbetween cherty and slaty iron formation is reflected by amphibolechemistry as shown by the higher Al content and lower Fe/Fe+ Mg ratio of slaty grunerite, and by the greater ahundanceof Na, Al-bearing amphiboles such as ferrotschermakite in slatyrocks. Hedenbergite and fayalite appear in the upper part ofzone 3; both formed by silication of carbonates and both arepartially retrograded to amphibole. Prograde grunerite-cummingtoniteis partially replaced by minnesotaite in cherty rocks of zones3 and 4. In zone 4, greenalite and siderite-bearing assemblagesreacted to ferrohypersthene, fayalite (±quartz), pigeoniteand grunerite-cummingtonite. Retrogradation is widespread andresulted mainly in the formation of grunerite. Primary textureswere destroyed in slaty rocks but are still recognizable incherty rocks. Preservation of sedimentary textures within the contact aureoleis a characteristic feature of cherty rocks. In zone l theserocks typically consist of the following textural-mineralogicalassociation: granules (greenalite, quartz, hematite), cement(quartz, siderite, ankerite, calcite) and mottles (various carbonates).Retention of these textural elements, combined with compositionaldata for assemblages in the low to moderate grade rocks, enablesidentification of numerous metamorphic reactions. In the absenceof relict phases or relict textures sedimentary assemblagescan sometimes be inferred from abundances of minor elementssuch as Al and Mn. In some slaty rocks the presence of carbonaceous or graphiticmaterial has preserved perfectly premetamorphic structures suchas siderite spherules and ankerite rhombs, enabling the recognitionof several amphibole-forming reactions. Chemographic analysis of simplified subsystems for cherty rocksof zone 1, zone 2, and the lower part of zone 3, are consistentwith observed assemblages and reactions.     

中国东部古生界沉积-改造型铁矿床地质及成生机制

中国东部古生界沉积—改造型铁矿床含矿岩系基本上由细碎屑—碳酸盐岩组成,而且常与富铁白云岩共生。矿体产状多与围岩一致,呈沉积整合接触。矿床中普遍发育有后生“再造”型矿体,呈脉状叠加在层状矿体之上,有明显的穿层现象。 海解作用是沉积成矿的重要因素,再造成矿作用是在沉积富铁碳酸盐建造的基础上发生富铁碳酸盐矿物的重溶,铁质被搬运、迁移,最后在碱性或偏碱性围岩中重新沉淀出来。     

地下孔隙率和渗透率在空间和时间上的变化及影响因素

地下岩石孔隙率和渗透率在空间和时间上的变化受众多因素控制,总的说来,包括沉积与成岩两个最为主要的因素。沉积盆地的性质和沉积环境控制了沉积物的组成、岩石的结构和原生孔隙。沉积作用所经历的时间相对较短而进程较快;成岩作用所经历的时间相对较长而进程较慢。从对孔隙率和渗透率的控制作用来说,成岩作用的研究难度相对较大。近年来,一些传统的形成地下岩石次生孔隙的机制受到挑战,这些传统机制中最为主要的是有机酸对铝硅酸溶解形成次生孔隙,但这会造成介质pH值的升高,碳酸盐矿物和高岭石的沉淀。地下岩石中碳酸水溶解产生的次生孔隙也是有限的。新的机制如大气淡水的溶解作用,深部冷却地下水的溶解作用,硅酸盐的水解都得到了人们的普遍接受,这对于次生孔隙成因的解释及地下岩石孔隙率和渗透率的预测十分重要。对于碳酸盐岩来说,与不整合面附近的古喀斯特有关的油气藏得到了更多的关注。深埋藏过程中碳酸盐岩成岩作用的研究中,温度和压力的影响对不同碳酸盐矿物溶解及沉淀作用的差异性控制了地下碳酸盐岩孔隙率和渗透率分布.     

微生物碳酸盐岩油气储层研究现状与展望

微生物碳酸盐岩是一种重要的油气储集岩。在中国古老深埋碳酸盐岩地层中它们是主要的岩石类型。微生物碳酸盐岩通常可划分为叠层石、凝块石、树枝石、均一石和核形石等五种类型。储层孔隙系统与微生物岩的沉积结构和构造密切相关,窗格孔（洞）和格架孔（洞）是主要储集空间类型。全球中新元古界至中生界都发现了以微生物碳酸盐岩为储层的油气田,资源潜力巨大。 微生物岩储层的岩石类型、沉积构造、相序结构、沉积模式和储层有利相带尚有许多不明晰之处,是今后进一步深化研究的重点方向。