松辽盆地泰康地区青山口组沉积相及与油气分布关系研究

系统地研究了松辽盆地泰康地区青山口组沉积相类型及沉积特征,其中对青一段与青二、三段的沉积相平面分布与垂向演化规律做了较深入地探讨。研究表明,青山口组主要发育湖泊相与三角洲相2种沉积相类型,其中湖泊相包括2种亚相与4种微相,三角洲相包括2种亚相和2种微相。沉积演化分析表明,青一段以深湖、半深湖相泥岩沉积为特征,青二、三段以浅湖相与三角洲相砂泥岩互层为特征。区内青山口组主要存在三种类型的储层砂体,分别为三角洲前缘河口坝砂体、三角洲前缘远砂坝砂体和浅湖砂体,其中浅湖砂体是最好的含油砂体,浅湖砂体发育的优势区也即浅湖沉积亚相发育区是区内最重要的油气富集区,是今后油气勘探的有利地区。     

Constraints on Cation Order in Calcium-rich Sedimentary Dolomite

Most sedimentary Ca-rich dolomite in pre-Holocenerocks is known to exhibit a fine-scale modulation inTEM images, reflecting a domain structure of which onecomponent is a low-symmetry variant of dolomite. Thevarious structural models proposed for thelow-symmetry component involve Ca–Mg order patternsthat are different from that in dolomite. Caution istherefore required for interpretation of X-raydiffraction data, which average over the entirestructure. The average structures of two Ca-richdolomites having a structural modulation are refinedusing single-crystal intensity data. The resultsindicate a poor fit using a dolomite model, which isconsistent with the findings from TEM and electrondiffraction indicating that one component of thedomain structure is different than dolomite. Resultsalso indicate that average model A and B cation siteshave mixed Ca–Mg occupancy, which provides someconstraints on possible models for the low-symmetrydomains.     

黄土和沉积岩中分离方解石和白云石的方法实验

采用不同浓度的ＨＣｌ、ＨＡｃ、ＮＨ４Ａｃ及ＮＨ４Ａｃ－ＨＡｃ缓冲深液对典型黄土剖面的黄土样品进行了系统的浸取实验,结果表明,稀ＨＡｃ是分离方解石与白云石的最佳深剂,在浸取实验中对１４种不同元素含量进行测试,多数元素的含量有变化,用稀ＨＡｃ溶液浸取所得的浸取注中＾８７Ｓｒ／＾８６Ｓｒ的测定结果与使用稀ＨＣｌ浸取的浸取液中＾８７Ｓｒ／＾８６Ｓｒ测定值有一定的差别,方法可满足在古气候研究中对不同成因碳酸盐利用的要求。     

贵州绥阳双河洞国家地质公园洞穴基本特征及成因探讨

106地质大队于1959～1960年曾对双河洞石膏矿进行过地质勘查。1986年～2006年4月,先后有中、法、日等国专家19次进双河洞考察,初步查明了该洞总长度为105.7km,是亚洲第二长洞,在世界上排名第16位。该洞不仅规模宏大,网络复杂,且有一定数量的次生淋滤型石膏矿分布,成为国内外罕见的独特洞穴景观。双河洞自2004年荣获国家地质公园称号以来,已引起国内外专家的广泛关注。该洞的形成,与该区域大范围内下寒武统清虚洞组上部至中寒武统平井组下部白云岩中,含大量硬石膏层有着密切的成因联系。     

南沙群岛南科1井白云岩发育特征及铁白云石成因机制的初步研究

南海自新生代以来发育了大量的碳酸盐岩台地和生物礁,并普遍发生白云岩化作用,具有广阔的油气勘探前景。文章通过开展岩相学观察、矿物学分析、常微量元素和碳氧同位素分析,同时结合Fe组分及Fe同位素地球化学分析,对南沙群岛南科1井白云岩的发育特征和成岩环境进行了系统研究。结果表明:南科1井上中新统—下更新统白云岩主要形成于近地表环境中,溶蚀孔隙发育,残余结构明显。白云岩层中发育有多个与暴露成因有关的界面,未发现石膏层的存在。同时,白云岩普遍具有低Fe、Mn和Sr的特征以及与现代海水相似的REE分布模式, δ¹³C和δ¹⁸O多为正值,但不存在相关性。整体来看,白云岩可能形成于轻微蒸发海水的渗透回流作用,还受到了与古气候变冷有关的海平面下降的控制。此外,南科1井岩芯中多个层位发育铁白云石,并且集中分布在暴露面附近。Fe组分和Fe同位素组成结果显示,白云岩中Fe主要来源于海水中碳酸盐的沉淀,成岩过程中基本不存在额外的陆源或热液来源的Fe混入。铁白云石主要形成于低温和浅埋藏环境中,大气淡水对生物骨架、生物碎屑以及自生碳酸盐矿物的淋滤-溶解作用为其提供了重要的...     

鄂尔多斯盆地奥陶系盐下白云岩储层特征、成因及分布

奥陶系盐下白云岩储层是鄂尔多斯盆地中东部天然气勘探的重要接替领域.基于钻井岩心、微观薄片、物性分析及地球化学特征等资料,应用微区多参数实验分析方法,对奥陶系盐下白云岩储层特征、成因与分布开展了系统研究.结果表明:①奥陶系盐下主要发育颗粒滩白云岩和微生物白云岩储层,其中颗粒滩白云岩储层岩性为砂屑白云岩、鲕粒白云岩和粉—细...     

鄂尔多斯盆地奥陶系马家沟组马五段白云岩的同位素地球化学特征

鄂尔多斯盆地中央气田奥陶系马家沟组马五段白云岩是重要的油气储集层,多年来,马家沟组白云岩的成因问题一直是地质研究者讨论的热点话题.对马五段白云岩的C、O、Sr同位素地球化学资料的分析表明,孔洞充填的白云石(含鞍状白云石)和白云岩的δ13C、δ18O值极其近似,且白云岩的δ18OPDB值比奥陶纪海水值要偏负1.752‰～4.395‰(平均2.911‰);成岩流体(水)的占δ18OSMOW平均值为+8‰,比当时海水值偏正;87Sr/86Sr比值比奥陶纪海水87Sr/86Sr比值要高.从C、O同位素数据上看,形成白云岩和沉淀于孔洞中的白云石(含鞍状白云石)的流体为同源流体;造成白云岩的δ18O值偏负的原因主要是埋藏条件的"温度效应";87Sr/86Sr比值偏高可能是交代流体来自或流经了富含放射成因Sr的铝硅酸盐基底或硅质碎屑岩.这些特征表明马五段白云岩很可能形成于埋藏环境.     

大北油田萨尔图油层特低渗储层宏观非均质性研究

大北油田萨尔图油层属于特低渗透储层。从沉积微相的角度对萨尔图油层宏观非均质性研究表明,储层非均质性较强,而其非均质性主要受控于沉积环境、成岩作用及裂缝发育情况等因素。萨尔图油层在本区发育水下分流河道、席状砂、远砂坝和浊积扇(滑塌沉积)等4种储层微相,油层非均质性在各种沉积微相之间的过渡部位及浊积扇微相中较强;其次为席状砂微相和远砂坝微相,在水下分流河道中相对较弱。     

Diagenetic formation of gypsum and dolomite in a cold‐water coral mound in the Porcupine Seabight,off Ireland

Authigenic gypsum was found in a gravity core, retrieved from the top of Mound Perseverance, a giant cold‐water coral mound in the Porcupine Basin, off Ireland. The occurrence of gypsum in such an environment is intriguing, because gypsum, a classic evaporitic mineral, is undersaturated with respect to sea water. Sedimentological, petrographic and isotopic evidence point to diagenetic formation of the gypsum, tied to oxidation of sedimentary sulphide minerals (i.e. pyrite). This oxidation is attributed to a phase of increased bottom currents which caused erosion and enhanced inflow of oxidizing fluids into the mound sediments. The oxidation of pyrite produced acidity, causing carbonate dissolution and subsequently leading to pore‐water oversaturation with respect to gypsum and dolomite. Calculations based on the isotopic compositions of gypsum and pyrite reveal that between 21·6% and 28·6% of the sulphate incorporated into the gypsum derived from pyrite oxidation. The dissolution of carbonate increased the porosity in the affected sediment layer but promoted lithification of the sediments at the sediment‐water interface. Thus, authigenic gypsum can serve as a signature for diagenetic oxidation events in carbonate‐rich sediments. These observations demonstrate that fluid flow, steered by environmental factors, has an important effect on the diagenesis of coral mounds.     

Direct physical evidence of dolomite recrystallization

The possibility of recrystallization is a long‐standing barrier to deciphering the genetic origin of dolomites. There is often uncertainty regarding whether or not characteristics of ancient dolomites are primary or the consequence of later recrystallization unrelated to the original dolomitization event. Results from 65 new high‐temperature dolomite synthesis experiments (1 m , 1·0 Mg/Ca ratio solutions at 218°C) demonstrate dolomite recrystallization affecting stoichiometry, cation ordering and nanometre‐scale surface texture. The data support a model of dolomitization that proceeds by a series of four unique phases of replacement and recrystallization, which occur by various dissolution–precipitation reactions. During the first phase (induction period), no dolomite forms despite favourable conditions. The second phase (replacement period) occurs when Ca‐rich dolomite products, with a low degree of cation ordering, rapidly replace calcite reactants. During the replacement period, dolomite stoichiometry and the degree of cation ordering remain constant, and all dolomite crystal surfaces are covered by nanometre‐scale growth mounds. The third phase (primary recrystallization period), which occurs in the experiments between 97% and 100% dolomite, is characterized by a reduced replacement rate but concurrent increases in dolomite stoichiometry and cation ordering. The end of the primary recrystallization period is marked by dolomite crystal growth surfaces that are covered by flat, laterally extensive layers. The fourth phase of the reaction (secondary recrystallization period) occurs when all calcite is consumed and is characterized by stoichiometric dolomite with layers as well as a continued increase in the degree of cation ordering with time. Inferences of recrystallization, in natural dolomite, based on cation order or stoichiometry of dolomite, usually depend on assumptions about the precursor dolomite subjected to recrystallization. If it is assumed that the experimental evidence presented here is applicable to natural, low‐temperature dolomites, then the presence of mounds is direct evidence of a lack of recrystallization and the presence of layers is direct evidence of recrystallization.