Origin and Distribution of Grain Dolostone Reservoirs in the Cambrian Longwangmiao Formation,Sichuan Basin,China

Dolostones in the Cambrian Longwangmiao Formation have become one of the most significant gas exploration domains in China. Over a trillion cubic meters of gas reservoirs have been discovered in the Gaoshiti-Moxi area; however, the origins and distribution of the dolostone reservoirs are not well understood. This work discussed the geology and geochemistry of the dolostone reservoirs in the Longwangmiao Formation to determine their origin and distribution. Two understandings are acquired： firstly, a carbonate ramp provided excellent conditions for grain beach deposition, while the presence of a hypersaline lake was favorable for the contemporaneous dolomitization of grain beach deposits. Petrographic and geochemical evidence further confirm that the Longwangmiao dolostone was formed during the contemporaneous stage. Secondly, the reservoir characteristics indicate that the grain beach sediments provide material basis for the development of the Longwangmiao dolostone reservoirs. Reservoir dissolution simulation experiments show that the porosity of the reservoirs was formed by dissolution during contemporaneous and burial stages. The dissolution pores formed during the contemporaneous stage were controlled by sequence interfaces. The large scale dissolution vugs formed during the burial stage subsequently spread along the pre-existing porosity and fracture zones. This study therefore identified that the development of grain dolostone reservoirs in a shallow water ramp under arid climatic conditions generally met the following conditions：（1） reefal beach deposits lay a foundation for reservoir development;（2） superficial conditions are an important determining factor for reservoir porosity; and（3） burial conditions provide environment for porosity preservation and modification.

Petrologic characteristics and genesis of dolostone from the Campanian of the SK-I Well Core in the Songliao Basin,China

The well SK-I in the Songliao Basin is the first scientific borehole targeting the continental Cretaceous strata in China. Oval concretions, thin laminae and beds of dolostone are found intercalated within mudstone and organic-rich black shale in the Nenjiang Formation of Campanian age. Low ordered ferruginous dolomite is composed of euhedral--subhedral rhombs with cloudy nucleus and light rims formed during the diagenesis, which are typical features of replacement. The heavy carbon isotopes （δ13CPDB -- 1.16-16.0） are results of both the fermentation of organic matter by microbes and degassing of carbon dioxide during the period of diagenesis, and the presence of light oxygen isotopes （δ18OPDB- 18.53--5.1） is a characteristic feature of fresh water influence which means the carbonate may have been altered by ground water or rainwater in the late diagenesis. Marine water incursions into the nor- mally lacustrine basin have been proved by both the salinity of Z value and the occurrence of foraminifera in the same strata where dolomite occurs. Pyrite framboids observed by SEM are usually enclosed in the dolomite crystals or in the mudstones, supporting the sulfate reducing bacteria （SRB）. The formation of both dolomite and pyrite are associated with marine water incursions, which not only supply magnesium ion for dolomite, but also result in limited carbonate precipitation in the basin. The presence of pyrite framboids indicates the development of an anoxic environment associated with salinity stratification in the lake. The dolomite in the Nenjiang Formation is the results of marine water incursions, diagenetic replacement of calcareous carbonate and sulfate reducing bacteria （SRB）.

Comparisons on Mineralogy and Lithology between Paleozoic Marine and Lacustrine Dolostones, Northern China

1 Introduction Dolomite[Ca Mg(CO3)2],a common mineral in carbonate rocks,can be found in various geological settings from Precambrian to modern age,and is widely reported in almost all sedimentary and digenetic

The Characteristics of the Hydrothermal Exhalative Dolostone of Lucaogou Formation in Santanghu basin and its Geology Setting Indication

The NW-SE trending Santanghu basin is located in Xinjiang,NW China,between Tianshan Mountains and Altai Mountains.The tectonic evolution history of north Xinjiang has long been debated,especially the question when did that area began its intraplate rift evolution stage.This abstract discusses the features and possible origin of the hydrothermal exhalative dolostone of Lucaogou Formation in Santanghu basin,aiming to provide relevant information about this question.The target dolostone are characterized by extreme thin lamina of 0.3cm–1 cm thick.Dolomite,ankerite,potassium feldspar and analcite are dominant composition.Most dolomite is poor crystallized and is in anhedral or subhedral shapes.Ankerite is generally porphyritic,few is in irregular shapes.It has to be noted that the porphyritic ankerite commonly develop zonal textures characterized by rings with various Fe O content.Potassium feldspar and analcite（<50%）are commonly observed in dolostones.Thin sections show some analcite is tetragonal trisoctahedron with harbour–like corrosion rims.Besides,few fragments of carbonatite rocks are observed in Lucaogou Formation and they perform intermittent or scattered distribution in rock layers.Previous work done by our study team showsδ13C PDB values are 4.8‰;1.4‰,6.93‰on average.Theδ18 O PDB values are between-5‰;21.1‰,-10.94‰on average.Paleosalinity calculated byδ13C andδ18 O is between 128.35 and 136.81,134.42 on average.Sr content of dolostones in study area reaches to164×10-6;37×10-6（379.1×10-6 on average）,most dolostone in target area are between 0.70457;.706194, average at 0.705360.Considering either accompanying residual tuff or residual leucite is found via electron probe,this indicates the analcite may derive form analcime phonolite.Furthermore,fragments of carbonatite rocks proves mantle-derived magmatism exist.The rapid variation ofδ18 O indicates multiple interactions of hydrothermal fluids with lake water during Lucaogou sedimentary period.87Sr/86Sr values are much lower than that of crustal silica rocks while are more close to mantle derived rocks,which indicates diagenetic hydrothermal fluid is mantle-origin.It has been reported that dolostone does not intergrow with iron-rich dolostone in study area.According to the latest X diffraction results of cores,iron-rich dolostone distributes rather locally.Given that ankerite commonly develop zonal textures characterized by various Fe O content,we confirm it is due to multiple hydrothermal fluids activities in different hydrothermal vents.There should be abundant hydrothermal vents during Lucaogou period.Deep faults and its relevant fractures built plenty paths for mantle-origin hydrothermal fluids to run up.Different vents owned various fluid properties,so did relevant sedimentation products.Hence we inclined to believe Santanghu basin was at intraplate rift evolution stage,under regional extension condition in late Carboniferous.During early-mid Permian the basin was a starved,deep lacustrine intracontinental rift basin.Accordingly,in northern Xinjiang,ocean basin may close in late Carboniferous and started continental sedimentary development in early Permian.

The nature, type, and origin of diagenetic uids and their control on the evolving porosity of the Lower Cambrian Xiaoerbulak Formation dolostone, northwestern Tarim Basin, China

The study on Lower Cambrian dolostones in Tarim Basin can improve our understanding of ancient and deeply buried carbonate reservoirs.In this research,diagenetic fluid characteristics and their control on porosity evolution have been revealed by studying the petrography and in situ geochemistry of different dolomites.Three types of diagenetic fluids were identified:(1) Replacive dolomites were deviated from shallow burial dolomitizing fluids,which might probably be concentrated ancient seawater at early stage.(2) Fine-to-medium crystalline,planar-e diamond pore-filling dolomites(Fd1) were likely slowly and sufficiently crystallized from deep-circulating crustal hydrothermal fluids during Devonian.(3) Coarse crystalline,non-planar-a saddle pore-filling dolomites(Fd2) might rapidly and insufficiently crystallize from magmatic hydrothermal fluids during Permian.Early dolomitizing fluids did not increase the porosity,but transformed the primary pores to dissolution pores through dolomitization.Deep-circulating crustal hydrothermal fluids significantly increased porosity in the early stages by dissolving and then slightly decreased the porosity in the late stage due to Fd1 precipitation.Magmatic hydrothermal fluids only precipitated the Fd2 dolomites and slightly decreased the porosity.In summary,Devonian deep-circulating crustal hydrothermal fluids dominated the porosity evolution of the Lower Cambrian dolostone reservoir in the Tarim Basin.

The Geochemical Characteristics of Stable Carbon and Oxygen Isotope and Analysis of Diagenetic Environment --A Case Study of Upper Permian Changxing Formation Dolostone in Northeast of Sichuan

四川盆地东北部上二叠统长兴组白云岩为重要的优质储层,近年来,长兴组白云岩成岩环境或成因问题成为研究者讨论的热点话题。在岩石学研究的基础上,运用稳定碳、氧同位素,对研究区长兴组白云岩进行综合研究表明,白云石化具有多期次的特点,按照成岩环境划分为蒸发环境下的准同生白云岩和埋藏条件下的早、中、晚期成岩白云岩。并划分为早、中、晚成岩阶段,结合碳、氧同位素分析结果进一步表明晚成岩阶段白云岩是构造热液白云石化的结果。

豹皮(斑)状碳酸盐岩分类与成因初探:以鄂尔多斯盆地马家沟组四段为例

豹皮(斑)灰岩是华北寒武系—奥陶系广泛发育的一种特殊形貌的海相碳酸盐岩,因具有显著的识别特征和成因机制而备受关注。鄂尔多斯盆地中奥陶统马家沟组四段发育丰富的豹皮(斑)碳酸盐岩,目前已在其中识别出遗迹化石7属8种,分别是Thalssinoides network,Thalassinoides boxwork,Planolites isp.,Palaeophycus tubularis,Phycodes isp.,Chondrites isp.,Skolithos isp., Zoophycos isp.,其以Thalassinoides的2种形态类型(水平迷宫形network和三维箱状结构boxwork)占主导,属于固底底质条件的Glossifungites遗迹相。通过野外露头、岩心的宏观和微观观察,系统调研前人关于生物扰动成因碳酸盐岩的类型,依据生物扰动、生物潜穴形态特征和方解石/白云石相对含量,笔者提出了生物扰动成因豹皮(斑)状碳酸盐岩的分类方案,将其主要分为豹皮灰岩和豹斑云岩2个大类,分别对应Thalassinoides network(水平二维迷宫)和Thalassinoides boxwork(三维箱状结构)2种形态类型。鄂尔多斯盆地马家沟组四段的豹皮(斑)状碳酸盐岩主要受生物扰动和高频海平面升降下的早期成岩作用耦合控制,表现为在固底底质条件下,生物潜穴为富Mg2+卤水的白云石化流体提供了良好的运移通道,使得潜穴内部优先发生白云石化作用,而不同类型的生物潜穴及准同生和埋藏白云石化作用,最终形成了豹皮灰岩和豹斑云岩这2种类型的生物扰动成因豹皮(斑)状碳酸盐岩。

吕梁古隆起对鄂尔多斯盆地马家沟组沉积的控制作用:基于陕西府谷剖面

中奥陶世马家沟组沉积时期,鄂尔多斯局限海周缘分布着一系列古隆起,其中吕梁古隆起对马家沟组沉积的控制作用研究相对薄弱,制约了对鄂尔多斯盆地东北部马家沟组沉积环境的认识。通过对陕西府谷剖面实测和采样,结合鄂尔多斯盆地北部的钻井、取心资料,分析了马家沟组的厚度、岩相类型及沉积微相变化,总结出吕梁古隆起对马家沟组沉积的控制作用。控制作用主要表现为:(1)吕梁古隆起的间歇性活动阻隔了鄂尔多斯局限海与华北广海的海水循环;(2)高海平面期,吕梁古隆起位于水下,对海水的阻隔作用弱,且古隆起区为开阔海灰坪,古隆起以西地层厚度变化较小,形成灰坪和云坪的沉积分异;(3)低海平面期,吕梁古隆起间歇性暴露,海水循环被明显阻隔,且古隆起区为潮间—潮上带的泥云坪,向东地层厚度减小,过渡为灰坪,而向西地层厚度迅速增加,形成泥云坪、膏云坪、膏盐湖的沉积分异。该研究成果为鄂尔多斯盆地北部马家沟组的沉积学研究提供了相关的岩石学和古环境方面的证据。

鄂尔多斯盆地马家沟组碳酸盐岩-膏盐岩共生体系沉积微相与沉积模式

碳酸盐岩-膏盐岩共生体系是化学沉积分异作用形成的岩石共生组合,对其进行微相分析和沉积模式构建,有利于揭示蒸发环境下的沉积学信息,对油气勘探具有指导意义。依据鄂尔多斯盆地奥陶系马家沟组大量钻井、岩心资料,开展岩石宏观、微观观察,识别沉积微相,分析沉积序列,构建沉积模式。结果表明:马家沟组碳酸盐岩-膏盐岩共生体系可划分出10类微相(MFT1-MFT10):盐岩、膏岩、含膏云岩、纹层状微粉晶云岩、颗粒云岩、粉—细晶白云岩、微生物云岩、生物扰动(灰)云岩、纹层状微晶灰岩、微晶颗粒灰岩;共生体系发育4类微相组合:(1)潮间上带—潮上带白云岩-含膏云岩-泥云岩组合;(2)潮间下带膏岩-藻云岩-白云岩组合;(3)潮下带纹层状灰岩-搅动灰岩-扰动灰岩组合;(4)潟湖内层状膏岩-团块状膏岩-盐岩组合。马家沟组为浅盆蒸发成盐,低海平面蒸发成盐,高海平面发育碳酸盐岩,海平面反复波动形成巨厚碳酸盐岩—膏盐岩共生组合。

陆内裂谷湖相火山-热液沉积型白云岩研究进展

以富有机质黑色页岩为代表的页岩油、页岩气资源近年来成为全球范围内油气勘探、开发领域的研究热点。该岩性在中国陆相湖盆中主要为来源复杂的细粒沉积岩,其中发育有一类特殊的纹层状泥晶白云岩。该类白云岩的岩石学、矿物学微观特征和地球化学特征既区别于常见的次生白云石化成因白云岩,又与微生物成因白云岩不同,被定义为一类新型的火山-热液沉积型白云岩。在研读大量国内外文献的基础上,综述了现代湖相白云石全球分布及形成环境特征,并展示了白云岩成因模式研究进展。重点选择了均在拉张构造背景下所形成的三塘湖盆地和准噶尔盆地芦草沟组、酒西盆地下沟组和二连盆地腾格尔组发育的火山-热液沉积型白云岩为研究对象,并进行对比研究。发现该类白云岩的特征:(1)保留有完好的原始微米级纹层结构和微晶晶体,后期受到的成岩作用较弱;(2)与半深—深湖黑色泥页岩互层且缺乏蒸发作用特征,并含有不同比例的火山-热液矿物;(3)锶同位素显示成岩流体具有深源(壳-幔混合)特征;(4)含有丰富的有机物质,并与油气分布展现出较强的耦合关系。最后,提出应加强该类白云岩研究、利用其蕴含的特殊地质信息进行构造背景示踪及探讨其与油气生成关系。

滇东—黔西中二叠统白云岩特征、成因及其主控因素

【目的】中国滇东—黔西地区中二叠统广泛发育白云岩。针对这些白云岩的成因,前人开展了一系列研究,并提出了多种白云岩形成机理。然而,关于镁离子的来源、白云化的主控因素等关键问题,至今仍无定论。这些问题严重制约了滇东—黔西地区的油气扩展勘探。【方法】综合利用露头、岩心和钻井等资料,对滇东—黔西地区中二叠统白云岩的分布规律、岩相学特征和地球化学特征进行了详细分析。【结果与结论】(1)研究区白云岩的形成机理为开放热对流白云化模式。白云化流体的镁离子主要来自海水,少部分来自深部热液流体;(2)白云化流体主要通过亮晶生屑石灰岩中的孔隙,以及断层和裂缝系统运移。在温度空间差异的驱动下,白云化流体沿循环流动路径运移,导致中二叠统石灰岩迅速且广泛的白云化;(3)白云岩发育的主控因素为滩相沉积和峨眉地幔柱(活动范围)。

川中地区震旦系“葡萄花边”白云岩的形成时代与成因

四川盆地震旦系灯影组是重要的油气勘探开发层系,复杂的成岩演化和多期流体活动导致多种类型的白云岩形成。揭示震旦系白云岩的形成时代和成因不仅可以为四川盆地震旦系下一步的油气勘探提供更加充实的科学依据,也可为理解全球大规模存在前寒武纪白云岩的原因提供有益启示。本文针对川中地区震旦系灯影组“葡萄花边”白云岩的形成时代和成因进行了综合研究。岩相学研究表明,“葡萄花边”白云岩充填于藻白云岩的孔隙内,向内对称生长,结晶程度明显好于藻白云岩。在岩相学的基础上,利用激光剥蚀-电感耦合等离子体质谱(LA-ICP-MS)微区原位U-Pb定年确定其形成时代,研究结果表明:川中地区震旦系灯影组“葡萄花边”白云岩形成时代为530±12Ma~502±12Ma,略新于灯影组地层年代。结合微量元素分析以及碳-氧-锶同位素数据,对川中地区震旦系灯影组“葡萄花边”白云岩进行成因分析。结果表明,其稀土元素总量(∑REE)相对较低(0.680×10^(-6)~8.963×10^(-6)),δ13 C VPDB(-0.1‰~1.7‰)略低于与同时期海水沉积白云岩的碳同位素值,δ18 O VPDB(-2.3‰~1.4‰)略高于与同时期海水达到氧同位素平衡的白云岩氧同位素值,87 Sr/86 Sr值(0.70876~0.70909)基本落入同时期海水范围。稀土元素配分总体为水平的模式,所有样品表现出Ce负异常。表明其形成环境既非海水沉积环境,也不完全是表生大气水岩溶条件。综合上述特征,推断川中地区震旦系灯影组“葡萄花边”白云岩是在震旦纪末-寒武纪早期海平面高频低幅度波动这一背景下,灯影组地层多次暴露与淹没,形成岩溶裂缝和孔洞的同时在溶蚀空间内结晶形成。残留孔洞为其后流体活动、油气充注提供了储集空间。本研究为认识川中地区震旦系灯影组“葡萄花边”白云岩成因、震旦纪末-寒武纪早期水化学条件、及超深层油气勘探开发提供了有益参考。

华南石炭纪中期白云岩地层分布及其形成模式

石炭纪是地质演化历史上重要的时期,发生了全球规模的海西造山运动,晚古生代大冰期(LPIA)达到峰值,全球海平面频繁波动,导致古气候和古环境的剧烈变化。在华南,石炭纪中期,浅水碳酸盐岩台地相区广泛发育一套白云岩沉积。本文系统总结华南3个主要碳酸盐台地内白云岩的厚度及时代,识别出白云岩时空分布的差异性。结合石炭纪中期全球气候环境特征,认为冰期兴盛引发了全球海平面下降,导致华南各沉积盆地形成利于白云岩化的环境,白云岩得以发育。而白云岩时空分布的差异性可能与各沉积盆地独特的构造演化以及不同成岩模式有关。中下扬子碳酸盐岩台地白云岩的形成模式主要为萨勃哈模式和成岩早期浅埋藏的渗透回流模式,形成相对较薄的白云岩沉积;中南部和西南部碳酸盐岩台地白云岩的形成模式为渗透回流模式,成岩规模较大,沉积较厚。

汉南—米仓山地区东部寒武系仙女洞组斑块白云岩特征及形成机制

斑块白云岩具有非均质性强、内部结构复杂等特点,发育特征和成因亟待理清。文中以汉南—米仓山地区东部杨家沟剖面为例,在系统野外调查工作的基础上,利用岩相学、沉积学和地球化学等方法,在寒武系仙女洞组共识别出13个岩石微相类型以及5种白云岩类型,并对不同组构碳、氧同位素和微量元素组成特征进行了分析。研究发现,斑块白云岩的分布与垂向构造破碎带及其横向延伸带的位置有关,斑块白云岩及其与围岩之间的构造缝中发育大量鞍形白云石;斑块白云岩中氧同位素组成(δ^(18)O:-8.17‰~-6.58‰)明显低于当时的海水,原位微区技术揭示白云石晶体具有高Mn/Sr值(Mn/Sr_(均值)=14.8)、Eu正异常(Eu/Eu^(*)_(均值)=1.3)以及页岩化后的中稀土元素富集配型。在排除其他可能的成因后,推测研究区斑块白云岩的形成与区域断层控制的热液流体活动有关。相关工作的开展对于查明汉南—米仓山周缘地区寒武系仙女洞组白云岩的分布和发育规律、理清斑块白云岩的特征和成因具有重要作用,也可为四川盆地北部白云岩储集层勘探提供参考。

Genesis of ultra-deep dolostone and controlling factors of largescale reservoir:A case study of the Sinian Dengying Formation and the Cambrian Longwangmiao Formation in the Sichuan Basin

This paper investigates the origin of ultra-deep dolostone and the factors influencing large-scale dolostone reservoirs,focusing on the Sinian Dengying Formation and the Cambrian Longwangmiao Formation in the Sichuan Basin.The study involves petrology,microscale X-ray diffraction,trace element analysis,and C-O-Sr-Mg isotope experiments to provide a detailed analysis.The research findings indicate that the Dengying and Longwangmiao formations comprise six types of matrix dolostone and four types of cement.The Dengying Formation,which developed under a sedimentary background of a restricted platform,contains special microbial and microcrystalline dolostones.The dolomite grains are small(<30μm)and have a low order degree(Min=0.55),with large unit cell parameters and an extremely high Na content(Max=788 ppm).The^(87)Sr/^(86)Sr value of the dolostone is consistent with contemporaneous seawater,while the δ^(13)C andδ^(18)O values are lower than those of the contemporaneous seawater.The δ^(26)Mg value is small(Min=-2.31‰).Powder crystal,fine-crystalline,and calcite dolostones with coarser and more ordered crystals exhibit similar δ^(13)C and^(87)Sr/^(86)Sr values to microbial and microcrystalline dolostone.During the sedimentary period of the Dengying Formation,ancient marine conditions were favorable for microbial survival.Microorganisms induced the direct precipitation of primary dolomite in seawater,forming microbial and microcrystalline dolostones during the seawater diagenesis period.During the subsequent diagenesis period,dolostones underwent the effects of dissolution-recrystallization,structures,and hydrothermal fluids.This resulted in the formation of dolostone with coarser crystals,a higher degree of order,and various types of cement.The Longwangmiao Formation was developed in an interplatform beach characterized by special particle dolostone.The particle dolostone has a large grain size(>30μm),high order degree(Min=0.7),small unit cell parameters,high Na content(Max=432 ppm),and low Fe and Mn content.The δ^(26)Mg and δ^(13)C values are consistent with the contemporaneous seawater,while the δ^(18)O and^(87)Sr/^(86)Sr values are higher than those of the contemporaneous seawater.There is mutual coupling between multiple-period varying δ^(26)Mg values and sedimentary cycles.The dolostone in the Longwangmiao Formation resulted from the metasomatism of limestone by evaporated seawater.The thickness and scale of the dolostone in the Longwangmiao Formation are controlled by the periodic changes in sea level.The period of dolostone development from the Sinian to the Cambrian coincides with the transition from Rodinia’s breakup to Gondwana’s convergence.These events have resulted in vastly different marine properties,microbial activities,and sedimentary climate backgrounds between the Sinian and the Cambrian.These differences may be the fundamental factors leading to the distinct origins of dolostone formed in the two periods.The distribution of sedimentary facies and deep tectonic activities in the Sichuan Basin from the Sinian to the Cambrian is influenced by the breakup and convergence of the supercontinent.This process plays a key role in determining the distribution,pore formation,preservation,and adjustment mechanisms of ultra-deep dolostone reservoirs.To effectively analyze the genesis and reservoir mechanisms of ultra-deep dolostone in other regions or layers,especially during the specific period of supercontinent breakup and convergence,it is crucial to consider the comprehensive characteristics of seawater properties,microbial activities,sedimentary environment,and fault systems driven by tectonic activities.This can help predict the distribution of high-quality and large-scale ultra-deep dolostone reservoirs.

重庆綦江观音桥剖面观音桥层的岩性新认识

重庆綦江观音桥剖面是上奥陶统观音桥层(组)的建层(组)剖面。该剖面上奥陶统和下志留统地层连续,在前人研究中被广泛提及。观音桥层是奥陶系顶部层位,含较多特征明显的赫南特贝化石,可能反映了赫南特冰期海平面下降。在前人相关文献中均提及观音桥剖面观音桥层的岩性为灰岩,但本次研究发现,对观音桥层岩石滴稀盐酸时一般起泡较微弱,显微薄片、扫描电镜、阴极发光测试均显示观音桥层白云石含量通常大于50%,呈微晶—粉晶结构,自形晶—半自形晶,方解石含量常小于15%,因此所观察到的观音桥剖面观音桥层的岩性是(灰质)白云岩。进一步分析表明:在阴极发光下白云石不发光,方解石呈现较强的红色光;扫描电镜测试显示白云石多为含铁白云石;显微薄片显示白云岩中少量白云石发生去云化作用,被方解石交代;碳、氧同位素测试显示白云石碳同位素较腕足类化石及方解石脉偏负,腕足类化石碳、氧同位素与同期海水不一致。上述分析表明观音桥层碳酸盐岩经历了较强的成岩作用影响,推测观音桥层白云石化主要发生于成岩期。这一认识与80多年来关于綦江观音桥剖面观音桥层岩性的认识不一致,对白云岩的识别有助于更深刻认识奥陶纪—志留纪界限地质事件及环境变化。

川西中二叠统栖霞组白云岩特征与成因

近期在川西地区中二叠统栖霞组斩获的多个白云岩油气发现彰显了白云岩储层的油气潜力,但该组白云岩储层非均质性极强,白云岩化机制不明确,优质白云岩储层分布预测困难。研究综合分析了该组不同类型白云岩的岩石学和地球化学特征,结合沉积相背景和峨眉山大火成岩省热事件,系统总结了不同类型白云岩化作用的期次和成因。结果显示:川西地区栖霞组白云岩多为斑状或层状分布,白云石晶体以细晶为主,中-粗晶、泥-粉晶次之,伴少量鞍状白云石胶结物。泥-粉晶白云岩主要发育在栖霞组底部,白云石晶体多为半自形-他形晶,常与草莓状黄铁矿伴生,部分泥晶白云石呈球粒状、哑铃状和花椰菜状;泥-粉晶白云岩的δ^(13)C(VPDB)为负值,δ^(18)O(VPDB)处于正常海水数值范围内,这些特征表明泥-粉晶白云岩可能为微生物介导作用的产物。细晶白云岩在栖一段和栖二段都有发育,其白云石晶体主要为自形-半自形晶,多具有雾心亮边结构,在阴极发光下晶体内部呈棕色-暗红色,向外过渡为亮红色后再变暗;细晶白云岩具有明显的残余粒屑结构,表明前驱岩岩性为颗粒灰岩;细晶白云岩的δ^(18)O(VPDB),δ^(13)C(VPDB)和^(87)Sr/^(86)Sr值均指示白云岩化流体为海水,可能为浅埋藏期中等盐度回流渗透白云岩化作用而成。中-粗晶白云岩多发育在栖二段,其白云石晶体主要为非平直晶面他形晶,阴极发光下多表现为内部暗、外部亮的特征;中-粗晶白云岩的δ^(18)O(VPDB)均低于正常海水数值范围,说明受到了后期流体的改造;部分中-粗晶白云岩的^(87)Sr/^(86)Sr值高于同期海水数值,呈斑状或斑马状,其溶蚀孔洞发育鞍形白云石,这些特征说明受到了来自或穿碎屑岩层热流体的直接影响;^(87)Sr/^(86)Sr值仍处于海水数值范围内的中-粗晶白云岩,未见鞍形白云石,可能指示细晶白云岩的重结晶或热调整。总体而言,川西地区栖霞组白云岩先后经历了同生期微生物介导白云岩化作用、浅埋藏期回流渗透白云岩化作用和晚期热流体调整改造作用,其中浅埋藏期回流渗透白云岩化作用是该区白云岩的主要成因。

塔里木盆地鹰山组白云岩成因与Mg同位素证据

中—下奥陶统鹰山组作为塔里木盆地中央隆起区潜在的重要勘探接替层系,其白云岩成因认识仍不清楚,因此制约了对该区域的进一步勘探。鹰山组由下至上依次发育白云岩、白云质灰岩和灰岩,表明发生了灰岩向白云岩的交代转化过程。交代白云岩的形成需要足够的含镁流体和长期的镁泵输送机制,而新兴的Mg同位素技术在示踪白云石化流体来源和迁移路径方面已经取得良好效果。因此,本研究通过系统采集鹰山组白云岩、白云质灰岩和灰岩,开展岩石学、微量元素、碳氧同位素和Mg同位素测试。实验结果显示,鹰山组发育6类岩石,分别是泥晶-微晶白云岩(D1)、粉晶-细晶白云岩(D2)、颗粒白云岩(D3)、中晶-粗晶白云岩(D4)、白云质灰岩(DL)和灰岩(L)。鹰山组碳酸盐岩的δ^(13)C_(V-PDB)值为-2.10‰~-0.37‰(平均值-1.37‰),δ^(18)O_(V-PDB)值为-7.51‰~-3.54‰(平均值-5.41‰),δ^(26)Mg值为-4.03‰~-1.28‰(平均值-2.55‰)。δ^(26)Mg、Na含量、Sr/Ba、Mn/Fe、δ^(13)C_(V-PDB)、δ^(18)O_(V-PDB)、古盐度(Z)和古温度(T)在垂向上显示出一定的联动性和系统性。通过综合分析与讨论得出以下几点认识:(1)鹰山组δ^(26)Mg值垂向变化趋势与沉积旋回具有密切联系,沉积旋回的顶部为富镁流体源区,旋回界面为流体迁移通道;(2)识别出4种Mg同位素变化趋势与白云石化流体迁移规律,即云灰互层结构(L→DL→D)、准同生白云岩结构(D1→D2)、渗透回流白云岩结构(D1→D2→D3→D4→L)和埋藏白云岩结构(D4→DL/D);(3)鹰山组白云岩形成主要与海平面周期性波动有关,海平面下降时,蒸发作用促使局限水体中富集Mg^(2+),并且富镁流体会沿着下伏高孔高渗的颗粒灰岩垂向迁移至下伏地层,有利于白云石化作用的持续进行,当富镁流体遇到孔隙度不发育的泥晶灰岩时,富镁流体无法进入矿物晶格中,白云石化作用停止。海平面上升时,局限水体转变为开阔水体,海水与富镁流体源区相互混合,降低了流体的白云石化驱动力,致使白云石化作用逐渐减弱,从而发育灰质白云岩和灰岩;(4)除受海平面控制外,深埋藏阶段经历的多期交代、重结晶或热液作用也有利于鹰山组白云岩的形成;(5)白云石化作用对鹰山组沉积储层具有建设性意义,早期白云石化作用有利于孔隙的继承和保存,而晚埋藏和热液白云石化对储层起破坏作用。

川东北地区晚埃迪卡拉纪灯影期海水氧化还原环境重建

晚埃迪卡拉纪全球海洋发生了大面积的缺氧,海洋化学结构呈现明显的非均质性,直接影响了埃迪卡拉型生物的演化与分布。四川盆地发育完整的晚埃迪卡拉系地层,以灯影组巨厚层碳酸盐岩沉积为代表。但是对于该套巨厚层碳酸盐岩沉积时的古海水氧化还原性质备受争议。为了解决这一问题,对川东北地区鹿池剖面的灯影组地层开展了系统的沉积学和稀土元素地球化学分析。该地区灯影组的岩石类型主要为泥微晶白云岩、黏连白云岩、叠层/层纹白云岩,以及溶蚀白云岩,沉积环境为开阔碳酸盐岩台地相。地球化学数据结果显示灯影组碳酸盐岩普遍具有较低的稀土总量(∑REE+Y值为0.4~3.3μg/g)、较低的Mn/Sr值(0.2~2.8)和较高的Fe含量(55.9~1772.6μg/g)。灯影组的REE+Y配分曲线(经页岩标准化)可划分为四个阶段,且Ce异常指示该地区经历了弱氧化到弱还原再到缺氧状态,表明埃迪卡拉纪晚期海洋浅部水体也发生了缺氧现象。

Rare earth elemental and Sr isotopic evidence for seawater intrusion event of the Songliao Basin 91 million years ago

Petrogenesis of lacustrine dolostone is closely related with paleo-lake water conditions.Here we report the high spatial-resolution petrographic and geochemical results of a lacustrine dolomite nodule from the Qingshankou Formation,the Songliao Basin.Sedimentary and elemental signatures confirm the protogenetic origin of this nodule and its effectiveness in recording geochemical characteristics of paleo-lake water during dolomitization.The low Y/Ho ratios,middle rare earth element(MREE)enrichment and subtle positive Eu anomalies within the nodule indicate a fresh water source.However,the Sr isotope values in the core of the nodule(0.7076-0.7080)are close to contemporaneous seawater(0.7074),yet different from the modern river(0.7120)and the host black shale(0.7100).On the premise of excluding the influence of hydrothermal fluids,the significantly low strontium isotope values of the lacustrine dolomite might be caused by seawater interference during dolomitization.Our findings demonstrate that lacustrine dolomite within black shales is not only a faithful tracer of diagenetic water environment,but also a novel and easily identified mineralogical evidence for episodic seawater intrusion event(91 Ma)in the Songliao Basin,which supplements other paleontological and geochemical evidence.