塔里木盆地柯坪地区上震旦统藻白云岩特征及其成因机理

本文报道了塔里木盆地柯坪地区上震旦统奇格布拉克组藻白云岩岩石学与地球化学特征,并对其形成机理进行了探讨。从岩石学特征上看,藻白云岩可分为基质白云石、刃状白云石胶结物与菱形白云石胶结物。基质白云石为微晶自形白云石,晶体大小在2～5μm之间,未见任何灰质前驱物,发育球形与片状白云石;刃状白云石胶结物垂直藻颗粒边缘向孔隙中心生长,长度在几十到100μm之间,由一系列超微晶自形白云石沿c轴平行堆积而成;菱形白云石胶结物分布在孔隙中心,一般小于50μm。从地球化学特征上看,基质白云石具有最高的Na2O含量(380×10-6),FeO、MnO含量中等(727×10-6、175×10-6);刃状白云石胶结物Na2O含量中等(290×10-6),FeO含量最低(200×10-6),MnO含量低于检测限;菱形白云石胶结物具有最低的Na2O含量(200×10-6),最高的FeO、MnO含量(750×10-6、550×10-6)。样品碳同位素组成与前人报道结果一致(2.1‰～3.0‰,PDB),氧同位素组成较古生代碳酸盐岩高(28.1‰～31.9‰,SMOW),说明震旦纪海水具有较高的δ18O值。笔者认为基质白云石为微生物调制作用下原生沉淀的结果;刃状白云石形成于准同生环境下大气水-海水混合流体等体积交代文石胶结物的过程;而菱形白云石胶结物则形成于埋藏环境。     

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.     

四川灯影组白云石化流体多样化特征及白云岩差异性成因

灯影组白云岩是四川盆地超深层油气勘探的重点领域,但目前人们对该套白云岩成因争议仍较大,且缺乏系统研究.通过对四川盆地灯影组白云岩C-O-Sr同位素和稀土元素数据的系统分析来研究白云石化流体的化学性质和成因,进而约束白云岩的差异性成因机制.研究表明：(1)灯影组白云岩碳同位素值较均一,δ¹³C值基本分布在0‰～+5.0‰之间,而氧同位素值变化较大.近地表环境基质白云岩和早期白云石胶结物δ¹⁸O均大于-8.0‰,埋藏环境白云石胶结物δ18O均小于-8.0‰,而热液白云石化胶结物δ¹⁸O均小于-10.0‰.(2)基质白云岩和早期白云石胶结物具有与同期海水相似的⁸⁷Sr/⁸⁶Sr值(0.708～0.709),指示其继承于海水流体;而埋藏环境白云石胶结物⁸⁷Sr/⁸⁶Sr比值明显大于同期海水,指示其为地层流体和深部热液流体来源.(3)灯影组白云岩稀土元素均亏损轻稀土元素、富集重稀土元素.基质白云岩和早期白云石胶结物可见Ce负异常、未见Eu明显异...     

塔里木盆地下寒武统肖尔布拉克组储层成因

在深层—超深层碳酸盐储层仍有大量油气出现,但优质储层成因尚不明确。通过对塔里木盆地寒武系肖尔布拉克组典型井和露头样品进行岩石学观察,总结出主要发育四类岩石类型：微生物岩、颗粒云岩、晶粒云岩和泥晶灰岩。根据阴极发光、流体包裹体测试、碳酸盐矿物碳氧同位素测试,认为上述白云岩基质形成于弱氧化海水;近地表—浅埋藏环境下则主要形成细晶白云石胶结物;深埋藏条件发育中粗晶白云石胶结物和鞍形白云石。随着埋深增大,白云石δ18O呈现降低的趋势,反映形成温度升高,但都具有较正的δ13C。方解石由于烃类并入,具有负偏的δ13C(-4.07‰±0.92‰),为热化学硫酸盐还原（TSR）成因。原位微量稀土测试显示成岩流体从早期到晚期：从具有海水特征的配分曲线逐步演化为中稀土富集,最终变为轻稀土富集的模式,反映了从海水为主的孔隙水演化为热流体为主的孔隙水的过程。定量统计表明热液溶蚀可提高储层3%的面孔率,最大孔隙度达10%。根据沉积—成岩改造类型,划分出三类优质储层：热液/大气水改造的凝块石储层、热液/TSR改造的浅滩相颗粒云岩储层、TSR改造的膏盐相关白云岩储层。该研究为塔里木盆地寒武系碳酸盐岩油气勘探提供了有...     

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。     

鄂尔多斯盆地马家沟组中组合马五_5亚段白云岩特征及成因机理

通过对鄂尔多斯盆地马家沟组五段5亚段白云岩的岩石学和地球化学研究表明,主要岩性有泥晶白云岩、泥粉晶白云岩和粉晶白云岩等三类。泥晶白云岩类为泥晶结构,阴极发光为暗红光,白云石有序度低;Na、K和Sr值较高;δ~(13)C平均-1.23‰,δ~(18)O平均-7.59‰,锶同位素平均值0.709 81,形成于闭塞局限、盐度相对较高的环境,由准同生白云石化作用所形成,并发育少量晶间微孔。泥粉晶白云岩类为泥晶—细粉晶结构,不发光或发极暗的红光,白云石有序度0.75;常量元素、微量元素大幅降低;δ~(13)C和δ~(18)O的平均值分别是-0.43‰和-7.29‰,锶同位素平均值0.709 36,由准同生后回流渗透白云石化作用所形成,并发育晶间孔。粉晶白云岩不发光或发极暗红光,白云石有序度0.81;常量元素、微量元素有明显的突变;δ~(13)C和δ~(18)O平均值分别为-0.65‰和-6.46‰,锶同位素平均值0.709 67,由埋藏白云石化作用所形成,并发育晶间扩溶孔或溶蚀孔。     

塔里木盆地古城地区奥陶系鹰山组白云岩特征及孔隙成因

奥陶系鹰山组白云岩是塔里木盆地的重点勘探领域,优质白云岩储层是制约其勘探的关键难题。本文在前人研究基础之上,结合多口井岩心薄片观察、同位素、微量元素等地球化学分析,对古城地区奥陶系鹰山组白云岩成因、孔隙成因以及储层主控因素进行了深入研究,认为古城地区鹰山组发育粉晶、粉细晶、细晶、细中晶、中晶、粗晶6种白云岩。粉晶和粉细晶白云岩碳、锶同位素分布范围均与同时期灰岩一致;氧同位素值与同时期白云石一致或偏正;锶元素含量相对较高;稀土元素与同时期灰岩分配模式相同。以上特征表明该类白云岩形成于蒸发海水环境,为准同生海源成因。细晶、细中晶、中晶及粗晶白云岩碳同位素值与同期灰岩总体一致;氧同位素值与正常海相白云石一致或偏负;锶同位素值与灰岩背景值一致或偏高;锶元素含量相对较低;大部分样品Eu正异常。以上特征揭示该类白云岩主要为中浅埋藏成因,并且叠加了早期淡水溶蚀及晚期埋藏-热液改造。孔隙成因分析表明高能缓坡滩是孔隙形成的物质基础、准同生暴露溶蚀是孔隙形成的关键、早期白云石化有利于孔隙的继承和保存,构造破裂和埋藏-热液溶蚀对孔隙起到有利的改造作用。白云岩规模优质储层受控于云化滩和断裂热液溶蚀改造,二者叠合之处为规模优质储层发育区。这一认识为研究区下一步勘探部署提供了重要依据。     

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。     

川西地区中二叠统栖霞组白云岩成因分析

川西地区栖霞组白云岩成因及其与峨眉山玄武岩喷发热事件关系颇有争论。在野外剖面、岩心观察基础上,通过岩石学、全岩及矿物微区地球化学分析方法对其研究,结果表明川西地区栖霞组白云岩（石）可分为残余砂屑白云岩、晶粒白云岩以及鞍状白云石、脉体充填白云石四类。残余砂屑白云岩与晶粒白云岩均呈块状,阴极发光较暗,稀土配分模式与泥微晶灰岩相似,δ13C、87Sr/86Sr多处于同期海水范围内,δ18O略偏负,Ce负异常,残余砂屑白云岩Eu呈负异常,而晶粒白云岩Eu多为正异常。微区δ13C、δ18O分析显示,残余砂屑白云岩的白云石雾心与亮边内δ13C均处于同期海水范围内,δ18O亮边较雾心偏负;晶粒白云岩中不同大小的晶粒白云石微区δ13C、δ18O显示相近特征,表明这两类白云岩均为海水浅埋藏成因,但受到后期热流体叠加改造。曲面他形粗晶鞍状白云石充填于裂隙与溶蚀孔洞内,镜下具波状消光特征,发亮红色光,δ13C与二叠纪海水相近,δ18O明显负偏,Eu呈正异常,指示鞍状白云石为热液成因。脉体白云石岩石学与地球化学特征表明其为晚期埋藏成因。川西地区栖霞组白云岩主体为浅埋藏成因,峨眉山玄武岩喷发期热液对其叠加改造,仅西南地区充填裂隙与溶洞的鞍形白云石为热液成因。     

基于镁同位素的规模埋藏白云岩形成过程——以塔里木盆地蓬莱坝组为例

地下富镁流体运移机制问题,制约着规模埋藏白云岩形成过程的认识,一直是白云岩成因中地质学家争论的焦点。以塔里木盆地蓬莱坝组埋藏白云岩为研究对象,在岩石学和碳氧同位素、锶同位素与锶元素含量等常规地球化学分析的基础上,通过镁同位素分析,认识了规模埋藏白云岩的形成过程。分析显示,蓬莱坝组不同类型白云岩的镁同位素分布虽有重叠,但是差异明显,藻纹层白云岩镁同位素为2. 34‰~2. 02‰;细中晶残余颗粒白云岩的镁同位素分布范围较广,为2. 24‰~1. 66‰,平均为2. 04‰;粗晶白云岩的镁同位素主要集中在2. 24‰~1. 89,平均为2. 05‰;蓬莱坝组灰岩镁同位素为3. 63‰和2. 82‰,较白云岩明显更偏负。镁同位素与氧同位素、锶同位素和锶元素含量在高频旋回中表现出规律性的旋回变化,对应三种白云岩形成过程：向上变轻- 渗透回流叠加埋藏云化、向上变重- 蒸发泵叠加埋藏云化和向上变重- 埋藏云化模式。进一步,通过白云石晶体变化与锶元素含量变化明确了埋藏云化流体的侧向运移和白云石晶体响应规律。认识到厚层白云岩是由多期白云石化作用叠加而成,既有层内云化流体也受源外云化流体影响,受沉积相和构造埋藏演化史共同控制,海平面波动下大量叠置发育的准同生白云岩是规模埋藏白云岩形成的关键。特别是,基质孔发育的渗透回流型准同生白云岩,在高频层序格架下占比越高、越频繁,越有利于埋藏云化的顺层渗透扩散,进而形成规模埋藏白云岩。     

Using strain birefringence in diamond to estimate the remnant pressure on an inclusion

Abstract

The Upper Triassic Chang 8 Member, the eighth member of the Yanchang Formation, is a key reservoir interval in the Jiyuan area of the Ordos Basin. The reservoir quality of the Chang 8 Member tight sandstones is extremely heterogeneous owing to the widespread distribution of carbonate cements. The carbonate cements commonly develop near sandstone–mudstone interfaces and gradually decrease away from the interfaces to the centres of the sand bodies. However, the content of carbonate cements (≤6%) has a positive correlation with the visual porosity in the Chang 8 Member sandstone, revealing that the carbonate cements contribute to the compaction resistance and the residual primary pores of reservoirs during the diagenetic process. Three main types of carbonate cement are identified: type I (calcite), type II (calcite and ferrocalcite), and type III (dolomite and ankerite). The type I calcite is characterised by enriched δ¹³C (mean –3.41‰) and δ¹⁸O (mean –15.17‰) values compared with the type II (mean δ¹³C?=?–7.33‰, δ¹⁸O?=?–18.90‰) and type III (mean δ¹³C?=?–10.0‰, δ¹⁸O?=?–20.2‰) cements. Furthermore, the mean δ¹⁸O value (–4.7‰) of the type I pore fluids is 1.5‰ and 0.9‰ lower than the type II (mean –3.2‰) and type III (mean –3.8‰) pore fluids, respectively. This indicates that the evolving pore fluids experienced some relative strong water–rock interactions that provided the original materials (e.g. Ca²⁺, Fe³⁺, and Mg²⁺) for the carbonate cements during the diagenetic process. The highly saline lake water directly provided the primary material for the type I calcite precipitation, which also provided the material necessary for the precipitation of the type II and type III carbonate cements, causing enriched δ¹⁸O values of the pore fluids during the precipitation of the type II and type III carbonate cements. Although the earlier dissolved pores were filled with ferrocalcite, dolomite and ankerite in the middle–late diagenetic stages, some residual pores and fractures remained to become the potential reservoir storage spaces for the oil and gas exploration in the Jiyuan area.     

贵州紫云上石炭统叶状藻礁灰岩胶结物特征

贵州紫云县猴场镇扁平村的上石炭统叶状藻礁及其周边灰岩中广泛发育大量的各类胶结物。通过对胶结物的形态、结构和阴极发光特征以及胶结物间的接触关系的研究,可以确定成岩作用的先后并识别成岩环境。浅海海底同生成岩阶段大的孔隙中形成等厚环边针状胶结物、葡萄状胶结物,小的孔隙里形成微晶胶结物。早成岩阶段形成微亮晶和斑块状亮晶方解石胶结物和放射纤维扇状胶结物,表生成岩阶段的溶蚀作用和胶结作用强烈,胶结物类型有斑块状或等粒的方解石胶结物和等厚环壁柱状胶结物,等厚环壁柱状胶结物在所有胶结物中体积是较大的。早期胶结作用使叶状藻礁灰岩孔隙度大为降低。中、晚成岩阶段,孔隙被等厚环壁刃状胶结物和晶簇或斑块状亮晶方解石所充填,有些先成的胶结物被热液改造。后生作用阶段发生的主要是构造破裂作用,其中少数裂隙被红褐色含Fe2O3微晶层和晶体粉砂及渗流豆粒充填。叶状藻礁灰岩的孔隙在晚成岩阶段前或中被胶结而之后没有创造出大且连通的孔隙,是它没能成为油气储集层的原因之一。     

塔里木盆地柯坪地区上寒武统表生溶蚀型藻格架白云岩的地球化学特征及意义*

采用野外观察、室内薄片鉴定及多项地球化学分析技术方法,对塔里木盆地柯坪地区上寒武统表生溶蚀型藻格架白云岩的特征及成因进行了研究。宏观上,藻格架白云岩呈丘状、透镜状夹于潮坪相白云岩层间,由于差异性溶蚀,发育了大量表生溶蚀孔。微观上,藻格架由富藻的泥粉晶白云石组成,而架间孔由浅色的亮晶白云石充填。藻格架泥粉晶白云石呈他形—半自形,镶嵌结构,具有暗红色—橙红色的阴极发光,较高的Na、K含量,较低的Fe含量;δ¹³C为-0.572‰～0.124‰、平均值-0.116‰,δ¹⁸O为-5.391‰～-4.983‰、平均值-5.240‰,表明其形成于准同生阶段盐度较高的相对氧化环境中。架间充填的亮晶白云石胶结物,呈半自形—自形中细晶,具有昏暗的阴极发光或者不发光,较低的Na、K含量,较高的Fe含量,δ¹³C值为-0.662‰～-0.251‰、平均值为-0.460‰;δ¹⁸O值为-6.639‰～-5.939‰、平均值-6.267‰,表明其形成于相对还原的埋藏环境。稀土元素分析结果表明,二者均具有LREE轻微富集、HREE亏损、Eu负异常特征,与海相泥晶灰岩稀土元素配分模式相似,揭示了其白云化流体均来自于原始的海水。在溶蚀作用方面,亮晶白云石胶结物相对泥粉晶白云石藻格架更易于溶蚀。前者在大气水表生溶蚀过程中,主量元素Ca、Mg丢失显著,Mg/Ca值由0.955降至0.007,微量元素Na、K丢失相对明显,Na/Ca值由原来的3.8×10^-4降为1.9×10^-4,K/Ca值由1.1×10^-3降至检测限以下,而不改变稀土元素的配分模式。这些特征表明,表生溶蚀过程在元素特征上是一个去白云化的盐度降低过程,而这一过程中基本无稀土元素的带入带出。     

Changes in carbon and oxygen isotope composition during limestone diagenesis

The calcite fossils of the Derbyhaven Beds, Isle of Man, have δ¹³C values (+ 1·8 PDB) similar to modern, shallow-water marine skeletons, but the δ¹⁸O values (?6·1 PDB) are much lighter than modern skeletons. The light oxygen values indicate either re-equilibration with isotopically light water before cementation started, or Carboniferous sea water with δ¹⁸O of ?6‰. Aragonite dissolution was followed by precipitation of zoned calcite cement. In this cement, up to six intracrystalline zones, recognized in stained thin sections, show isotopic variation. Carbon varies from + 3-8 to + 1-2‰. and oxygen from ? 2-6 to ? 12-4‰. with decreasing age of the cement. This trend is attributed to increasing temperature and to isotopic evolution of the pore waters during burial. The zoned calcite is sequentially followed by dolomite and kaolinite cements which continue the trend towards light isotopic values. This trend is continued with younger, fault-controlled dolomite, and is terminated by vein-filling calcite and dolomite. The younger calcite, interpreted as a near-surface precipitate from meteoric waters, is unrelated to the older sequence of carbonates and has distinctly different carbon isotope ratios: δ¹³C ? 6-8‰.     

Multistage dolomitization and distribution of dolomitized bodies in Early Jurassic carbonate platforms (Southern Alps,Italy)

The Early Jurassic dolomitized carbonates are a hydrocarbon exploration target in Northern Italy. Of these carbonates, the Liassic Albenza Formation platform and the overlying Sedrina Formation shelf were studied to define a pervasive dolomitization model and to shed light on dolomite distribution in the sub‐surface. Field work, as well as analyses of well cores, stable isotopes, trace elements and fluid inclusions, was carried out on the outcropping thrust belt and sub‐surface deformed foreland of the Southern Alps. Petrographic analyses showed a first, pervasive, replacement dolomitization phase (D1) followed by volumetrically less important dolomite cement precipitation phases (D2, D3 and D4). The δ¹⁸O values fall between ?8·2‰ and 0·1‰ Vienna‐Pee Dee Belemnite with the more depleted samples belonging to dolomite cement‐rich dolostones; the δ¹³C ranges from 2·6‰ to 3·7‰ Vienna‐Pee Dee Belemnite. Analysis of trace elements showed different Fe and Mn contents in the sub‐surface and outcropping dolostones, and a higher Fe in the younger dolomite cements. An increase in the precipitation temperature (up to 130 °C from fluid inclusion data) and a decrease in diagenetic fluid salinity (from sea water to brackish) are observed from the first pervasive replacement dolomite to the dolomite cement phases. Field observations indicate that, in the Albenza Formation, dolomitization was limited to palaeohighs or faulted platform margins in the Early Jurassic carbonates. The pervasive replacement phase is interpreted based on a ‘compaction model’; the formation fluids expelled from compacting basinal carbonates could have funnelled along faults into permeable palaeohighs. The high homogenization temperature of the dolomite cements and decreased salinities indicate precipitation at great depth with an influx of meteoric water. These data, along with the thermal history, suggest that the dolomite cements precipitated according to the ‘tectonic squeegee’ dolomitization model. The dolomite precipitation temperature was set against the thermal history of the carbonate platform to interpret the timing of dolomite precipitation. The dolomite precipitation temperatures (90 to 100 °C) were reached in the studied formations first in the thrust fold belt (Early Tertiary, 60 Ma), and then in the foreland succession during the Late Tertiary (10 Ma). This observation suggests that the dolomite precipitation fronts moved southwards over time, recording a ‘diagenetic wave’ linked to the migration of the orogenic system. Observations suggest that the porosity increased during the first phase of replacement dolomitization while the dolomite cementation phases partially occluded the pores. The distribution of porous dolomitized bodies is therefore linked to the ‘compaction dolomitization’ model.     

滨里海盆地东缘北特鲁瓦地区白云岩特征及其储层发育机制

白云岩是滨里海盆地盐下石炭系碳酸盐岩的重要储层类型。在岩芯、薄片、物性与地球化学等资料分析的基础上,对研究区KT-Ⅰ油组的白云岩类型与储集性能进行了分析,并探讨了其储层发育的控制因素与模式。结果表明,白云岩类型与其储集物性具有较明显的相关性,以生屑铸模孔及溶蚀扩大孔为主的残余生屑白云岩物性与含油气性最好,以晶间（溶）孔为主的粉细晶白云岩和以生屑铸模孔及晶间孔为主的泥粉晶白云岩次之,而以晶间微孔为主的泥晶白云岩最差,难以成为有效储层。原生孔隙发育的相对高能生屑滩环境是该区优质白云岩储层发育的相带基础。晚石炭世准同生期大气淡水溶蚀作用与以渗透回流白云化（白云石有序度分布于0.32～0.67,δ13C介于-0.22‰～5.94‰,δ18O介于-1.09‰～2.45‰）为主的早期白云化作用为白云岩储层早期孔隙的发育与保存奠定了坚实的基础;早二叠世以来埋藏期各类裂缝的发育及酸性流体的溶蚀作用则对储层的晚期扩孔改造至关重要。     

Magnesian calcite cements and their diagenesis: dissolution and dolomitization, Mururoa Atoll

The most ubiquitous syn-sedimentary cements affecting Mururoa atoll are composed of magnesian calcite. Three main types are distinguished: fibrous, bladed and sparitic on the basis of petrography, morphology and MgCO₃ concentration of the constituting crystals, while peloid infills, a particular form of HMC chemical precipitation, also exist. Petrographic evidence and isotopic signatures are compatible with marine precipitation. Mururoa atoll was exposed several times to meteoric diagenesis resulting in varied diagenetic alterations including selective dissolution and partial dolomitization of Mg-calcite cements. These alterations are responsible for substantial modifications of the initial cement fabrics and may introduce unconformities in the diagenetic chronology. The first stage of the partial dissolution of Mg-calcite induces the development of chalky, white friable zones within the initially crystalline, hard cement layers. At ultrascale, this is due to the creation of micro-voids along the elongate cement fibres. Advanced dissolution includes total disappearance of cement portions as attested to by large voids within the cement crust and/or between superposed cement layers. Mg-calcite dissolution is related to meteoric diagenesis during periods of Quaternary exposure. The creation of voids within Mg-calcite layers is due to the mechanical removal of previously altered calcium carbonate, a process suggesting marine or non-marine water flow, probably in the vadose environment. Selective dolomitization of Mururoa cements involves alternations of calcite and dolomite which form successive cement-like rinds within primary cavities. At Mururoa, these alternations are the result of selective dolomitization of the pre-existing Mg-calcite cements rather than successive precipitation of calcite and dolomite. Selective dolomitization of Mg-calcite cements at Mururoa indicates that a given cement succession is not necessarily a simple chronological sequence. Oxygen isotope values of dolomites are enriched in δ¹⁸6 by about 3‰ PDB within calcite-dolomite pseudo-alternations. The dolomitizing fluid at Mururoa seems similar to present marine water although some mixture with meteoric water is probable to favour dissolution associated with dolomitization.     

贵州紫云上石炭统叶状藻礁灰岩的成岩作用

贵州紫云县猴场镇扁平村的上石炭统中的叶状藻礁及其周边灰岩中发育强烈的成岩作用和胶结物,这些胶结物在猴场研究区内是显著的和有代表性的。通过观察、分析野外露头、光片、薄片、薄片的阴极发光和染色,来研究礁体岩石的成岩作用,确定了成岩作用序列、成岩环境、成岩阶段。成岩作用类型主要有泥晶化、溶蚀、胶结、新生变形、机械压实、剪切或...     

广西环江凹陷深部岩溶缝洞充填物碳氧同位素特征及古环境意义

深部岩溶是碳酸盐岩地区深部油气资源勘探中不可避免的问题。深部岩溶发育期次的确定是岩溶储层地质的技术难题。广西环江凹陷在页岩气钻井中发现大量深部溶洞且充填物丰富多样,成为深部岩溶发育期次研究的良好素材。文章对HD1-4钻井揭露的深部岩溶缝洞充填物及地表岩溶缝洞充填物进行碳氧同位素分析,揭示出环江地区的4种不同岩溶环境:同生期或准同生期岩溶环境、表生期大气淡水岩溶环境、中浅埋藏岩溶环境、深埋藏或热液岩溶环境,环江地区深部岩溶发育为4期不同岩溶环境叠加的效果,主要受到热液岩溶环境和大气淡水岩溶环境的影响。      

Multistage hydrothermal dolomites in the Middle Devonian (Givetian) carbonates from the Guilin area, South China

Pervasive dolomites occur preferentially in the stromatoporoid biostromal (or reefal) facies in the basal Devonian (Givetian) carbonate rocks in the Guilin area, South China. The amount of dolomites, however, decreases sharply in the overlying Frasnian carbonate rocks. Dolostones are dominated by replacement dolomites with minor dolomite cements. Replacement dolomites include: (1) fine to medium, planar‐e floating dolomite rhombs (Rd1); (2) medium to coarse, planar‐s patchy/mosaic dolomites (Rd2); and (3) medium to very coarse non‐planar anhedral mosaic dolomites (Rd3). They post‐date early submarine cements and overlap with stylolites. Two types of dolomite cements were identified: planar coarse euhedral dolomite cements (Cd1) and non‐planar (saddle) dolomite cements (Cd2); they post‐date replacement dolomites and predate late‐stage calcite cements that line mouldic vugs and fractures. The replacement dolomites have δ¹⁸O values from ?13·7 to ?9·7‰ VPDB, δ¹³C values from ?2·7 to + 1·5‰ VPDB and ⁸⁷Sr/⁸⁶Sr ratios from 0·7082 to 0·7114. Fluid inclusion data of Rd3 dolomites yield homogenization temperatures (T_h) of 136–149 °C and salinities of 7·2–11·2 wt% NaCl equivalent. These data suggest that the replacive dolomitization could have occurred from slightly modified sea water and/or saline basinal fluids at relatively high temperatures, probably related to hydrothermal activities during the latest Givetian–middle Fammenian and Early Carboniferous times. Compared with replacement dolomites, Cd2 cements yield lower δ¹⁸O values (?14·2 to ?9·3‰ VPDB), lower δ¹³C values (?3·0 to ?0·7‰ VPDB), higher ⁸⁷Sr/⁸⁶Sr ratios (≈ 0·7100) and higher T_h values (171–209 °C), which correspond to trapping temperatures (T_r) between 260 and 300 °C after pressure corrections. These data suggest that the dolomite cements precipitated from higher temperature hydrothermal fluids, derived from underlying siliciclastic deposits, and were associated with more intense hydrothermal events during Permian–Early Triassic time, when the host dolostones were deeply buried. The petrographic similarities between some replacement dolomites and Cd2 dolomite cements and the partial overlap in ⁸⁷Sr/⁸⁶Sr and δ¹⁸O values suggest neomorphism of early formed replacement dolomites that were exposed to later dolomitizing fluids. However, the dolomitization was finally stopped through invasion of meteoric water as a result of basin uplift induced by the Indosinian Orogeny from the early Middle Triassic, as indicated by the decrease in salinities in the dolomite cements in veins (5·1–0·4 wt% NaCl equivalent). Calcite cements generally yield the lowest δ¹⁸O values (?18·5 to ?14·3‰ VPDB), variable δ¹³C values (?11·3 to ?1·2‰ VPDB) and high T_h values (145–170 °C) and low salinities (0–0·2 wt% NaCl equivalent), indicating an origin of high‐temperature, dilute fluids recharged by meteoric water in the course of basin uplift during the Indosinian Orogeny. Faults were probably important conduits that channelled dolomitizing fluids from the deeply buried siliciclastic sediments into the basal carbonates, leading to intense dolomitization (i.e. Rd3, Cd1 and Cd2).