四川汉源-峨边地区上震旦统灯影组藻白云岩特征及成因研究

"藻白云岩"术语的提出已有五十年历史,震旦系藻白云岩以其巨大的厚度,精美的原生结构、构造,以及丰富的微生物化石和矿产资源而闻名,但至今其成因仍存在争议。以四川汉源-峨边地区上震旦统灯影组藻白云岩为研究对象,对其宏观的剖面、岩石学、原生构造特征,微观的白云石和微生物化石形态、原生结构特征,以及相应的地球化学特征进行了详细研究。结果表明:研究区灯影组藻白云岩为一套在潮坪和潟湖环境下形成的微生物（碳酸盐）岩的岩石类型组合,以藻黏结型的叠层状、纹层状、葡萄状和均一状（藻）白云岩为主要的次级类型;藻白云岩中主要发育原生的隐晶状微生物白云石和次生的纤维状拟晶白云石,其形成与蓝细菌、硫酸盐还原细菌、中度嗜盐好氧细菌和红藻等微生物的矿化作用密切相关:沉积-同生阶段,主要由微生物诱导矿化作用形成大量纳米似立方体粒状和（亚）微米级片状微生物白云石,同时共（伴）生纤维状文石和高镁方解石;同生-准同生阶段,主要由微生物影响矿化作用形成纳米球粒状和微米级不规则状、球状和卵状微生物白云石,同时纤维状文石和高镁方解石因微生物催化矿化作用和拟晶白云石化作用形成纤维状拟晶白云石;随后微生物白云石与拟晶白云石一起组成具纹层状、叠层状、均一状等构造的藻白云岩。对藻白云岩特征及成因的研究有助于理解微生物-矿物交互作用和过程的复杂性、多样性,也为前寒武纪微生物矿化作用、微生物白云石和拟晶白云石研究提供了新的实例。     

塔里木盆地下古生界白云岩类型及成因*

塔里木盆地下古生界白云岩勘探潜力巨大。在下古生界构造演化、沉积背景分析的基础上, 结合前人的白云岩分类方案, 首先根据形成时期将塔里木盆地下古生界白云岩分为准同生白云岩和准同生后白云岩两大类。在此基础上, 综合运用岩心、薄片、阴极发光、扫描电镜、碳氧稳定同位素资料, 对上述两类白云岩进一步细分。其中准同生白云岩, 可进一步分为云坪型准同生白云岩、潟湖型准同生白云岩与微生物白云岩, 云坪型、潟湖型准同生白云岩是在准同生阶段由蒸发泵白云化形成的;本次研究首次在膏模孔内发现完整哑铃状白云石, 拓宽了微生物白云岩的存在范围。准同生后白云岩包括浅埋藏白云岩、中—深埋藏白云岩和热液白云岩3类, 浅埋藏白云岩由调整白云化及渗透回流白云化形成;中—深埋藏白云岩主要为埋藏白云化的产物;热液白云岩由沿断裂或裂缝的热液白云化所形成。     

豫西南淅川震旦系灯影组白云岩特征及成因分析

晚前寒武纪扬子克拉通及其周缘保存了一套比较完整的白云岩地层（灯影组）。扬子北缘（南秦岭） 地区的灯影组白 云岩与典型灯影组白云岩在成岩组合和沉积序列有较大差别，有待进一步研究。该研究在野外剖面实测、镜下鉴定基础 上，运用阴极发光和X射线衍射有序度分析对扬子北缘（南秦岭） 淅川地区灯影组白云岩进行了岩石学分类及成因机制研 究。研究区灯影组白云岩类型主要为泥—粉晶他形白云岩、细晶自形—半自形白云岩、以中—粗晶白云石为主的细—粗晶 半自形—他形白云岩、鞍形白云岩和岩溶角砾白云岩。其中泥—粉晶他形白云石为准同生阶段蒸发海水白云石化作用产 物；细晶自形—半自形白云石形成于早成岩浅埋藏阶段，成岩过程与蒸发海水回流渗透白云石化作用有关；细—粗晶半自 形—他形白云石和鞍形白云石属晚成岩期中—深埋藏环境下由碳酸盐岩矿物经过热液白云石化或重结晶作用所形成；岩溶 角砾白云岩是通过白云岩层的溶蚀—垮塌和砾间胶结作用形成。因此，由于相对海平面升降、上覆地层沉积厚度增加引起 的成岩环境变化以及后期流体的改造作用促使了研究区不同类型白云岩的发育。     

准噶尔盆地东部中二叠统幔源热液沉积白云岩*

准噶尔盆地东部吉木萨尔凹陷中二叠统芦草沟组,沉积于陆内裂谷背景下岩浆—热液活动强烈的咸化湖盆中。在芦草沟组中发现一类与湖底热液活动有关的幔源热液沉积白云岩,包括方沸钠长白云岩、硅质白云岩与含水铵长石钠长白云岩。作者对该类白云岩开展微米级尺度的岩相学研究,结合同位素地球化学研究,探讨成矿流体性质与详细成因机理。岩矿特征和同沉积变形构造指示白云岩形成于沉积期。白云石为有序性较差的原白云石,呈微米级球状、葡萄状晶体,与方沸石、水铵长石、钠长石及玉髓等热液矿物彼此镶嵌结晶,高温下发生了白云石对钠长石碎屑的交代作用;白云岩锶同位素(平均为0.705 687)显示成矿流体中幔源组分较多;白云岩具有重δ¹³ C_PDB (平均为6.94‰)和轻δ¹⁸ O_PDB (平均为-8.12‰)。基于成矿流体由幔源热液与湖水混合的假设,利用δ¹⁸ O_PDB计算估计,研究区白云岩的形成温度较普通云质岩高25~50 ℃。研究表明白云石为幔源热液喷出湖底后直接沉淀形成,并提出可能的成因模式。热液沉积白云岩是一种不可或缺的白云岩成因类型,研究成果对促进人们理解白云石的形成规律、推动完善成因岩石学理论具有重要意义。     

鄂尔多斯盆地奥陶系马五段低孔低渗岩溶白云岩储层特征及孔隙成因

针对鄂尔多斯盆地大牛地气田马五段低孔低渗岩溶白云岩储层发育特征,展开对致密岩溶白云岩储层孔隙成因进行研究。通过岩心、薄片观察,结合扫描电镜、CT扫描分析,明确了白云岩储层岩石学类型、孔隙类型及成因。结合测井及地球化学分析,认为表生期孔隙主要为膏溶孔、溶孔及地开石晶间孔隙;白云石含量及结构控制了白云岩晶间孔隙;残留有机质保护了藻云岩残余晶间孔隙。通过岩溶白云岩孔隙成因分析,最后认为:(1)白云石化作用及成因模式是造成岩溶白云岩储层低孔低渗的主要原因,准同生期-浅埋藏期形成的白云石晶粒普遍较为细小,晶粒结构以半自形-它形为主,晶间孔隙为微孔,造成孔隙喉道较窄;泥微晶白云岩与粉-细晶白云岩(储集岩)分布在纵向上具有不均匀性,造成白云岩整体上孔渗较低;(2)岩溶作用增加了白云岩储层的非均质性,裂缝、溶洞及较大扩溶孔被泥质、方解石充填,很大程度上降低了岩溶白云岩储层的孔渗性能,正因为膏质泥微晶白云岩和粉-细晶白云岩为低孔低渗特征,使得地表水携带的泥质不易充填孔隙。     

Formation of lacustrine dolomite in the late Miocene marginal lakes of the East Mediterranean (Northern Israel)

The study focuses on the formation of lacustrine dolomite in late Miocene lakes, located at the East Mediterranean margins (Northern Israel). These lakes deposited the sediments of the Bira (Tortonian) and Gesher (Messinian) formations that comprise sequences of dolostone and limestone. Dolostones are bedded, consist of small‐sized (<7 μm), Ca‐rich (52 to 56 mol %) crystals with relatively low ordering degrees, and present evidence for replacement of CaCO₃ components. Limestones are comprised of a wackestone to mudstone matrix, freshwater macrofossils and intraclasts (mainly in the Bira Formation). Sodium concentrations and isotope compositions differ between limestones and dolostones: Na = ~100 to 150 ppm; ~1000 to 2000 ppm; δ¹⁸O = ?3·8 to ?1·6‰; ?2·0 to +4·3‰; δ¹³C = ?9·0 to ?3·4‰; ?7·8 to 0‰ (VPDB), respectively. These results indicate a climate‐related sedimentation during the Tortonian and early Messinian. Wet conditions and positive freshwater inflow into the carbonate lake led to calcite precipitation due to intense phytoplankton blooms (limestone formation). Dry conditions and enhanced evaporation led to precipitation of evaporitic CaCO₃ in a terminal lake, which caused an increased Mg/Ca ratio in the residual waters and penecontemporaneous dolomitization (dolostone formation). The alternating lithofacies pattern reveals eleven short‐term wet–dry climate‐cycles during the Tortonian and early Messinian. A shift in the environmental conditions under which dolomite formed is indicated by a temporal decrease in δ¹⁸O of dolostones and Na content of dolomite crystals. These variations point to decreasing evaporation degrees and/or an increased mixing with meteoric waters towards the late Messinian. A temporal decrease in δ¹³C of dolostones and limestones and appearance of microbial structures in close association with dolomite suggest that microbial activity had an important role in allowing dolomite formation during the Messinian. Microbial mediation was apparently the main process that enabled local growth of dolomite under wet conditions during the latest Messinian.     

Genesis of Dolomite from Ma55–Ma510 Sub-members of the Ordovician Majiagou Formation in the Jingxi Area in the Ordos Basin

We clarified three stages of dolomitization and secondary changes by studying the petrology and geochemistry characteristics of dolomite from the Ma55–Ma510 sub-members of the Ordovician Majiagou Formation in the Jingxi area in the Ordos Basin: (1) Syngenetic microbial dolomitization is characterized by formation of dolomite with a mainly micrite structure and horse tooth-shape dolomite cements. (2) Seepage reflux dolomitization during the penecontemporaneous period superposed adjustment functions such as recrystallization and stabilization in the middle-deep burial stage, forming dolomites mainly consisting of micro crystal and powder crystal structure. (3) Powder dolomite, fine dolomite, and medium-coarse crystalline dolomite formed in pores and fractures in the middle-deep burial stage. The secondary concussive transgression-regression under a regressive background is an important condition for the occurrence of many stages of dolomitization in the study area. The basin was an occlusive epicontinental sea environment in the Ma5 member of the Ordovician Majiagou Formation sedimentary period. In the sediments, sulfate content was high, which is conducive to the preservation of microbial activity and microbial dolomitization. Micritic dolomite formed by microbial dolomitization provides good migration pathways for seepage reflux dolomitization. Affected by evaporation seawater with increased Mg/Ca ratio, seepage reflux dolomitization was widely developed and formed large-scale dolomite, and underwater uplifts and slopes are favorable areas for dolomite. In the middle-deep burial stage, dolomitizing fluid in the stratum recrystallized or stabilized the previous dolomite and formed a small amount of euhedral dolomite in the pores and fractures.     

Types and Origin of Dolostones in Tarim Basin, Northwest China:Petrographic and Geochemical Evidence

In the Tarim Basin of northwestern China hydrocarbon deposits have been discovered in parts of the thick strata of Cambrian dolostones. Based on petrographic study, six types of dolostone have been distinguished: Type-1, pink mud-bearing silty crystalline dolostone (PMSD); Type-2, gypsum- and salt-bearing fine crystalline dolostone (GSFD); Type-3, fine crystalline dolostone with dolomite crystals with cloudy core and clear rim (CCFD); Type-4, deep gray mud-bearing silty crystalline dolostone (GMSD); Type-5, euhedral coarse crystalline dolostone (ECD); and Type-6, xenotopic coarse crystalline dolostone (XCD). Applying petrographic and geochemical methods, the genesis of the dolostones is studied in this paper. Normally, Type-1 dolostone shows U- and Mo-depleted characteristics, reflecting a more oxidized formation environment; High δ18O and the purple color are consistent with formation of Sabkha dolostones on a supratidal flat. Types 2, 3, 4 dolostones show strata formation, similar REE patterns and 87Sr/86Sr ratios with contemporaneous limestones, suggesting a penecontemporaneous origin from seawater. Types 5 and 6 dolostones commonly occur as interbedded rocks, indicating secondary genesis after diagenesis. Type-6 dolostone has the highest order degree (OD) values (average 0.86), the lowest oxygen isotope values and positive Eu anomalies, which are consistent with previously reported hydrothermal dolostones. Differently, Type-5 shows euhedral texture, higher δ18O value, similar REE characteristic and 87Sr/86Sr ratios in comparison with contemporaneous limestones, suggesting that this type might have been dolomitized by down-transferring evaporated seawater during shallow burial stage. Dolostone fluid sources, formation environments and crystallizing dynamics are summarized and possible genetic models for the six types are proposed.     

渤海沙西北构造带下古生界碳酸盐岩潜山白云岩形成机制研究

通过岩心薄片、扫描电镜、碳氧锶稳定同位素、X衍射有序度及微量元素特征分析,系统研究了渤海湾盆地沙西北 构造带碳酸盐岩潜山白云岩的地球化学特征及成因机制。结果表明,沙西北构造带下古生界白云岩可划分为泥晶白云岩、 颗粒白云岩、泥质/灰质白云岩和鞍状白云岩四类,各类白云石特征差异明显。泥晶和颗粒白云岩δ18O大于-7‰,87Sr/86Sr值 与海水值接近,为0.7090~0.7120,Na2O含量较高,大于0.06%,有序度偏低,薄片中可见石膏,为准同生成因。泥质/灰质 白云岩为细晶结构,δ18O偏负,为-8‰~-10‰,87Sr/86Sr为0.7120~0.7140,Na2O含量降低,有序度变大,镜下见次生加大亮 边,为埋藏成因。鞍状白云岩为中粗晶结构,贫δ18O,87Sr/86Sr较高,薄片中见辉绿岩,为热液成因。本区白云岩以准同生 和埋藏成因为主,局部沿断裂可能存在热液成因。奥陶系沉积时期主要发生埋藏白云石化和溶蚀作用,是增加白云岩有效 孔隙的重要阶段,为优质储层形成起到了建设性作用。     

Microbial primary dolomite from a Norian carbonate platform: northern Calabria, southern Italy

The origin of fine‐grained dolomite in peritidal rocks has been the subject of much debate recently and evidence is presented here for a microbial origin of this dolomite type in the Norian Dolomia Principale of northern Calabria (southern Italy). Microbial carbonates there consist of stromatolites, thrombolites, and aphanitic dolomites. High‐relief thrombolites and stromatolites characterize sub‐tidal facies, and low‐relief and planar stromatolites, with local oncoids, typify the inter‐supratidal facies. Skeletal remains are very rare in the latter, whereas a relatively rich biota of skeletal cyanophycea, red algae and foraminifera is present in the sub‐tidal facies. Some 75% of the succession consists of fabric‐preserving dolomite, especially within the microbial facies, whereas the rest is composed of coarse dolomite with little fabric preservation. Three end‐members of dolomite replacement fabric are distinguished: type 1 and type 2, fabric retentive, with crystal size <5 and 5–60 μm, respectively; and type 3, fabric destructive, with larger crystals, from 60 to several hundred microns. In addition, there are dolomite cements, precipitated in the central parts of primary cavities during later diagenesis. Microbialite textures in stromatolites are generally composed of thin, dark micritic laminae of type 1 dolomite, alternating with thicker lighter‐coloured laminae of the coarser type 2 dolomite. Thrombolites are composed of dark, micritic clotted fabrics with peloids, composed of type 1 dolomite, surrounded by coarser type 2 dolomite. Marine fibrous cement crusts are also present, now composed of type 2 dolomite. Scanning electron microscope observations of the organic‐rich micritic laminae and clots of the inter‐supratidal microbialites reveal the presence of spherical structures which are interpreted as mineralized bacterial remains. These probably derived from the fossilization of micron‐sized coccoid bacteria and spheroidal–ovoidal nanometre‐scale dwarf‐type bacterial forms. Furthermore, there are traces of degraded organic matter, probably also of bacterial origin. The microbial dolomites were precipitated in a hypersaline environment, most likely through evaporative dolomitization, as suggested by the excess Ca in the dolomites, the small crystal size, and the positive δ¹⁸O values. The occurrence of fossilized bacteria and organic matter in the fabric‐preserving dolomite of the microbialites could indicate an involvement of bacteria and organic matter degradation in the precipitation of syn‐sedimentary dolomite.     

新疆三塘湖盆地中二叠统芦草沟组湖相白云岩成因*

新疆三塘湖盆地中二叠统芦草沟组发育湖泊背景下的白云岩、灰岩、黑色泥岩、页岩及碎屑岩的互层沉积。白云岩主要有两类：一类为粉—泥晶白云岩,主要由含量约70％的泥晶白云石和含量约30％的粉晶白云石构成,白云石有序度为0.48,扫描电镜下主要有菱形、他形、球状和管状4种微形态,自形程度较好的菱形晶体多为含铁白云石;另一类为方沸钾长白云岩,主要由晶粒为0.08～0.35mm的细粒方沸石、泥晶钾长石（透长石）、泥晶白云石和铁白云石构成,个别为粗晶白云石,白云石有序度0.58。与粉—泥晶白云岩中的白云石相比,方沸钾长白云岩中的白云石以高的铁、锰含量为特征,扫描电镜下多为半自形的菱形晶体。两类白云岩中白云石的有序度均较低,且均为富Sr白云石,内部均缺乏次生交代证据。通过对两类白云岩成分、微量元素及稳定同位素的差异性分析,认为尽管两类白云岩都形成于浅—半深湖相强还原沉积环境,但是它们的形成机制有所不同,粉—泥晶白云岩具有原生沉淀白云石的特征,其中球状及管状的白云石可能与微生物吸附作用有关,而他形及菱形的白云石为直接沉淀的原生白云石;另一类方沸钾长白云岩中的白云石及铁白云石可能与湖底热泉的喷流沉积作用有关。     

白云岩化作用类型及机理——以歧口凹陷古近系沙河街组一段为例

通过镜下鉴定和地球化学分析对歧口凹陷古近系沙一段白云岩进行了研究,综合分析了研究区发育的岩石类型及其成因。结果表明:研究区发育泥-微晶白云岩、灰质白云岩、白云质灰岩及少量颗粒白云岩;Sr/Ba值为0.44.9,V/Ni值为1.37.1,Z值(盐度指数)分布在122.6162.5;87Sr/86Sr值和同期海水极为接近,因此推断湖盆遭受了海侵作用,海侵为白云岩化作用提供了Mg~(2+);有序度分布在0.22 0.53,整体较低;Mg/Ca值为0.730.91,反映了富钙低镁的特征,表明白云岩形成于准同生阶段。碳氧同位素分析表明,研究区白云岩形成于浅埋藏环境,并且受到了发酵作用的影响,异常高的Sr值也反映了微生物活动的存在。通过以上证据推断本区白云岩是在准同生期、浅埋藏环境、经渗透回流作用形成的,并且受到了发酵作用的影响。     

塔里木盆地巴楚隆起寒武系及奥陶系白云岩类型及形成机理

采用染色薄片鉴定、阴极发光显微镜观察、微量元素分析、碳氧稳定同位素测定及包体侧温等手段，对塔里木盆地巴楚断隆区寒武系和奥陶系白云岩的特征及成因进行了研究，共划分出四种类型的白云岩：①泥粉晶白云岩，其m(Ca)/m(Mg)平均为3-10，Sr含量高（>300×10-6 ），m(Sr)/m(Ba)>>1，?13C值较高（-1‰-+1‰），₁₈O值较低（-5‰--8‰），沉积环境为潮上带云坪，为准同生作用阶段潮上萨布哈白云化作用形成。②含雾心亮边白云石的细晶白云岩，其m(Ca)/m(Mg)较低（1-2），Sr含量中等（100×10-6-200×10-6），m(Sr)/m(Ba) >1，?13C值在-2‰左右，₁₈O值低，在-7‰左右，沉积环境为开阔台地浅滩，为准同生或早期成岩作用阶段回流渗透白云化作用形成。③含明亮白云石晶体及钙质残余的钙质白云岩，其m(Ca)/m(Mg)较低（1左右），Sr含量最低（100×10-6左右），m(Sr)/m(Ba) < 1，?13C值最低（-1‰--3‰），?18O值较低（-6‰左右），沉积环境为灰坪、云坪及开阔台地，为准同生或早期成岩作用阶段混合水白云化作用形成。④砂糖状白云岩，其m(Ca)/m(Mg)较低（1-2），Sr含量低（<100×10-6），m(Sr)/m(Ba)<1，?13C值较高（-1‰-+3‰），₁₈O值较低（-5‰--8‰），沉积环境多为浅滩，为晚期成岩作用阶段埋藏白云化作用形成。     

柴西地区始新统湖相白云岩储层地球化学特征及形成机理

近年来柴西地区始新统致密碳酸盐岩中的油气勘探获得重大突破,其中白云岩为最优质的储集岩。通过岩石学、结构学和地球化学等多方面的综合研究,详细描述和论证了柴西地区两种湖相白云岩的成因及特征：一种是数量较少的原生生物成因的藻云岩,电子探针能谱面扫描分析结果显示其Mg元素富集区与藻纹层分布高度吻合,充分显示了其微生物成因特征,因微生物活动能够克服动力学障碍,为白云石形成营造出有利的微环境;另一种为研究区广泛分布的准同生交代成因的泥晶白云岩,偏光显微镜观察和X射线衍射分析结果显示,其中均含有碎屑颗粒和泥质组分,由周缘辫状三角洲带来的碎屑物质与其混积而成,电子探针岩石组分分析结果显示,其FeO的平均质量分数为0.942%,MnO的平均质量分数为0.052%,明显低于热液白云岩,且富含SiO2和Al2O3,充分显示其准同生交代成因特征。岩石地球化学数据显示：泥晶白云岩微量元素蜘蛛网图较为离散,表明了混积的湖相白云岩的物质来源的多样性,其∑REE平均值小于平均上地壳∑REE值(146.37×10-6),但远大于球粒陨石∑REE值(2.56×10-6),且不具有Eu负异常。碳同位素负偏移主要受其自储的有机质氧化解体产生的CO2和周缘辫状三角洲供给的地表水影响,增加了其轻碳组分;氧同位素发生正偏移主要受咸化湖盆沉积环境影响,蒸发作用使得湖水δ18O增加,虽然周缘河流水系能带来部分轻氧组分,但收效甚微。这揭示了准同生交代成因的白云岩与热液造成氧同位素偏负截然相反。泥晶白云岩在形成过程中产生大量弥散性晶间孔,孔隙半径小而数量众多是形成“中孔特低渗”型储层的主要原因,这类孔隙抗压实能力强,为研究区最好的油气储集体。这一研究成果对柴达木盆地深层致密碳酸盐岩的油气勘探具有重大意义。     

中国中西部盆地海相白云岩主要形成机制与模式

塔里木、四川及鄂尔多斯盆地是中国中西部海相白云岩的主要发育地区。三大盆地重点层系海相白云岩新近的成因研究表明,大规模准同生白云岩和埋藏成因白云岩的发育均与蒸发台地密切相关。蒸发台地中由海水浓缩形成的富Mg~(2+)卤水一方面在准同生期,通过蒸发泵和下渗机制交代碳酸钙沉积物而形成与蒸发岩共生的准同生白云岩,另一方面作为富含Mg~(2+)的地层孔隙水,在准同生-浅埋藏期乃至中、深埋藏期,通过侧向渗透、侧向与垂向压实排挤和垂向热对流机制与粗结构的碳酸钙沉积物发生交代反应,在蒸发岩系周边和上下形成广泛分布的埋藏成因白云岩。与热流体作用有关的白云石化主要依靠构造断裂、裂缝、不同级次的层序界面、孔洞层等输导体系发生,分布较局限。热流体云化常表现为对先期白云岩进行叠加改造而形成热水改造白云岩。热流体性质不一,可以是深埋藏混合热水、深部循环水、地幔深部的岩浆热液等。白云石(岩)的生物成因不仅表现为微生物作用导致白云石直接沉淀,还表现为生物的存在与活动为白云石化作用提供Mg~(2+)和云化流体通道。由微生物和宏观藻释放出Mg~(2+),在埋藏期对方解石进行交代是各种富含藻类的灰岩中部分白云石的重要形成机制。生物扰动可明显改善岩石的孔渗性,从而显著促进白云石化作用的发生。     

中国南方地区奥陶系热液-岩溶改造型白云岩储层发育机理——以黔中地区下奥陶统为例

以黔中地区下奥陶统为例,通过野外剖面观测、实验分析等工作,揭示了白云岩的热液-岩溶改造特征,并探讨了其发育机理。研究区下奥陶统红花园组和桐梓组以白云岩为主,在白云岩构造裂缝和溶蚀孔洞中见白云石、方解石、沥青的充填,具有典型的斑马纹状构造。充填白云石为粗晶粒状的鞍形白云石,具有弯曲晶面和波状消光的特征,阴极发光呈现较强的红色。充填白云石的碳同位素δ~(13)C在-2.2‰~-0.8‰之间,平均值为-1.47‰,氧同位素δ~(18)O在-12.2‰~-7.6‰之间,平均值为-9.4‰,与围岩白云石相比明显偏轻。充填白云石的稀土元素具有典型的Eu正异常特征,δEu最高达91.9。根据地质演化背景和流体作用类型,奥陶系白云岩储层发育过程为:早奥陶世沉积过程中发生同生/准同生白云石化作用;中晚奥陶世至早志留世,受都匀运动影响,白云岩暴露至地表遭受岩溶作用,形成岩溶孔洞型白云岩储层;中泥盆世遭受构造热液进一步对白云岩进行的溶蚀改造,所形成的溶蚀孔洞为天然气的主要储集空间。     

塔里木盆地塔中地区下奥陶统白云岩成因

塔里木盆地塔中地区下奥陶统白云岩广泛发育,岩石类型复杂多样,主要包括结晶白云岩、残余颗粒白云岩、残余灰质白云岩、藻云岩、亮边雾心白云岩、环带白云岩及少量膏云岩等结构类型。白云岩交代现象明显,δ18O普遍为中—高负值（-3.2‰～-8.7‰）;δ13C值基本为低中负值（-3‰～-0.77‰）,Z值大多集中在118～123...     

埋藏环境白云石结构类型

近年来我国在白云岩储层油气勘探方面取得了重大进展,这些白云岩储层绝大多数为埋藏阶段形成的白云岩,同时大量研究也证实地层中大部分白云岩形成于埋藏环境。国际学术界对埋藏环境白云石的成因结构分类比较细致,但在我国这方面的研究还不够深入,因此本文借助国际上对埋藏环境白云石成因结构的分类方法,并结合中国白云岩研究的实际情况尝试提出埋藏环境白云石结构分类方案。该方案首先以白云石在岩石中的产状分为基质白云石和胶结白云石两大类,再以晶粒大小、晶型、晶面特征、接触关系为分类依据,将埋藏环境白云石分为六种结构类型。     

雪峰山西侧重点白云岩储层成岩、储集特征 及质量影响因素

雪峰山西侧地区下古生界中—上寒武统和震旦系灯影组白云岩是潜在的重要油气储集层。作为主要目的层段,本区的白云岩类型主要包括结晶白云岩、残余颗粒白云岩、灰质白云岩和藻白云岩四大类。白云岩储层总体上均属于低—特低孔、低—特低渗储层。影响储层发育的成岩事件包括重结晶作用、白云岩化作用、溶蚀作用、破裂作用等。研究表明,白云岩结晶程度可以影响其初始孔隙的发育程度,具粉晶—细晶结晶程度的白云岩具有最好的孔渗性。白云岩化作用的强弱对储层物性具有较为直接的影响。最佳白云岩储层中主要储集空间包括晶间孔隙(包括剩余晶间孔和晶间溶蚀孔)、次生溶孔、洞和裂缝。总体上,较强的白云岩化作用、一定程度的重结晶、较发育的微裂缝、较好的区域渗透性、晚期压溶缝合线发育和晚期较大构造缝不发育等因素有利于白云岩储层的发育。     

华北秦皇岛地区柳江盆地马家沟组碳酸盐岩多期白云化作用

华北秦皇岛地区的中奥陶统马家沟组以广泛发育海相白云质灰岩、灰质白云岩和白云岩为特征。在石门寨奥陶系亮甲山剖面,马家沟组自下而上识别出四类碳酸盐岩:含白云石泥晶灰岩（类型I）、细-粉晶白云岩（类型II）、“麦粒状”细-粉晶白云岩（类型III）和钙质泥晶白云岩（类型IV）。类型I主要由泥晶方解石构成,含三叶虫和介形类生物碎片,少量自形的粉晶白云石呈“漂浮状”分布于压溶缝合线内,基质中少见。岩相学和地球化学特征表明此类白云石形成于埋藏成岩期压溶作用之后,压溶缝为云化流体提供通道,压溶缝内泥质组分的成岩转化可能为白云化作用提供了部分镁离子来源;类型II白云岩主要由自形、半自形不等粒粉晶-细晶白云石构成,白云石普遍具有“雾心亮边”,在背散射和阴极发光照片中白云石可见清晰的多圈亮、暗相间环带。环带和带间主量元素的差异表明白云石经历了埋藏成岩期多期成岩流体的改造;类型III白云岩中白云石呈单向延伸的“米粒”或“麦粒”状,粉晶为主,晶体长轴方向具有垂直结晶轴c的特点,白云石具富铁、贫锰、锶的特点,长、短对角线上钙、镁离子的微小差异以及阴极发光特征表明此类白云石也经历了埋藏成岩期的改造,成岩流体使白云石发生微溶作用可能是导致白云石晶体单向延伸且光学性质固定取向的主要原因;类型IV为钙质泥晶球粒白云岩,含石膏假晶,白云石多为微晶和微亮晶,球粒也多由微晶白云石构成,溶孔发育,但全被亮晶贫铁方解石充填,此类岩石的白云化作用发生得很早,可能形成于潮上带澙湖或潮坪环境。综上所述,研究区马家沟组碳酸盐岩具有经历了不同类型及多期白云化作用的特点。自剖面底部向顶部,白云石的有序度由0.8降至0.47,而去云化作用则呈现逐渐增强的趋势。