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1.
V. P. Wright 《Geological Journal》1984,19(4):309-325
Existing facies models for peritidal carbonates are limited in number and do not reflect the wide spectrum of possible types. The major depositional processes in peritidal carbonate environments are reviewed in order to stress the complex nature of the systems. The tidal channel model is critically discussed and it is suggested that channel deposits may be of minor importance in typical shoaling-up sequences. The possible causes of multiple asymmetrical sequences are reviewed. 相似文献
2.
徐州—淮南地区新元古代臼齿碳酸盐岩成因探讨 总被引:8,自引:2,他引:8
臼齿碳酸盐岩是一种发育在中—新元古代,由微亮晶方解石组成的复杂褶皱构造,其成因一百多年来一直是个谜。通过对徐州-淮南地区新元古代臼齿碳酸盐岩特征、形成环境、分布时限研究,探讨了臼齿碳酸盐岩成因。该区臼齿碳酸盐岩发育在台地缓坡沉积体系中,可作为潮下浅水环境的标志,其形态在微层序中的分布反映沉积环境,具有重要的环境意义。建立了臼齿碳酸盐岩微相环境模式。快速石化作用形成均匀、等粒微亮晶方解石,是臼齿碳酸盐岩显著特征。现代类似于发育臼齿碳酸盐岩潮下环境没有这样的快速石化条件,它要求更高的超过饱和CaCO3沉淀。臼齿碳酸盐岩在本区分布时限介于850~720Ma间,在Sturtian冰期之前消失,与全球其他地区臼齿碳酸盐岩消失的时限一致,Sturtian冰期改变了海洋化学性质,是臼齿碳酸盐岩消失的根本原因。Sturtian冰期对海洋化学性质的影响,可能是揭开臼齿碳酸盐岩成因机理的一个重要新途径。 相似文献
3.
伴生碳酸盐矿物在海底与天然气水合物伴生是一种普遍现象,但在陆上冻土区中报道较少。以近两年在祁连山冻土区发现天然气水合物伴生的碳酸盐矿物为研究对象,根据对含碳酸盐样品的显微镜观察及矿物分析,确定了伴生碳酸盐的矿物种属及赋存状态。按碳酸盐矿物组成及地质产状的不同,其赋存状态分成4种类型,即白色薄层状、烟灰色菱形晶簇状、深灰色薄壳状、微细浸染状。根据不同赋存形态碳酸盐的C、O同位素特征,认为烟灰色菱形晶簇状方解石或呈(云烟状)微晶方解石可能与天然气水合物分解有关。碳酸盐C、O同位素随深度变化特征表明在一定深度处可能存在着烃类物质的活动,即天然气水合物分解,导致碳酸盐的矿物生成。 相似文献
4.
黄土沉积物中碳酸盐同位素组成的研究方法 总被引:3,自引:0,他引:3
利用逐段加热法获得的黄土沉积物中碳酸盐的碳、氧同位素组成表明,黄土沉积物中的碳酸盐是不同来源和成因的碳酸盐的混合物。不同来源和成因的碳酸盐具有不同的碳、氧同位素组成,其示踪意义也不同,700~800℃的δ13C比用磷酸法获得的δ13C更灵敏于古气候的变化。因此,采用磷酸法研究黄土沉积物碳酸盐的同位素组成是不适宜的。 相似文献
5.
华北地台中、上寒武统露头层序地层学研究的新认识 总被引:5,自引:1,他引:5
在生物地层对比基础之上通过对河北顺平清醒剖面、山东张夏和河北赵各庄标准剖面以及北京西山剖面的层序地层研究,将华北地台张夏阶和上寒武统自下而上划分并命名了5个总体向上变浅、以间断加深面为界的层序:张夏层序、崮山层序、崮长层序、长山层序和风山层序,并将上寒武统的4个层序与美国的相应层序进行了对比;阐述了层序地层单位与原来的生物地层、岩石地层和年代地层单位之间的关系,并用层序界面对原有岩石地层和年代地层单位的界线进行了优化;同时探讨了在克拉通陆表海背景下层序地层的发育特征以及相应的地质填图方法。 相似文献
6.
Currently, sedimentologists focus on the challenging issue of microbial carbonates, which are regarded as "one of the sedimentary rocks most difficult to study", having complicated sedimentary fabric. Their characteristic features closely related to microbial activity, distributed over a long period of geological time, and formed in diversified sedimentary environments. The main research concentrations are the calcified microbial mats and biofilms in geological records as the products of lithification and diagenesis. Starting from the origin, this paper systematically reviewed and explained the processes dwelling within two types of microbial communities, the thinner biofilm and the thicker microbial mat, which enabled them to convert into microbial carbonates through biomineralization and lithification. This study proposed that the existence of multiple microbial mats was another important cause for the diversification and complexity of microbial carbonates in addition to its complex depositional process. Moreover, the sedimentary characteristics and classification of different types of microbial carbonates were reviewed, exemplifying the Cambrian microbial carbonates in the North China Platform. These microbial carbonates are suggested to be placed under "bindstone" after Embry and Kloven, which can be further divided into 5 types, stromatolites, thrombolites, oncolites, laminites and leiolites. Dendrolite is not categorized as a separate class, instead attributed to thrombolites. The microbial carbonates may possess good source rock potential because of the enriched organic content, and may also serve as hydrocarbon reservoirs because of certain microbial textures and fabrics leading to significant porosity and permeability. Because of their biomineralization processes related to microbial activity, the microbial carbonates are not only an important window to understand the evolution of the earth's surface environment, but also capable of forming large-scale reservoirs, and their scientific and economic values are self-evident. 相似文献
7.
Interest in palustrine carbonates and calcretes has increased over the last 20 years since they contain significant environmental information. Much of the work performed in this area has focused on either of two types of terrestrial carbonate—palustrine carbonates or calcretes (pedogenic and groundwater)—yet their simultaneous study shows there may be a gradual transition from one form to the other, revealing the interplay between pedogenic, sedimentary, and diagenetic processes. Three main factors control the formation of these carbonates: the position of the water table, the host rock, and the period of sub-aerial exposure. In pedogenic calcretes, precipitation of carbonate takes places mostly in the vadose zone above the water table, and within a previous host rock or sediment. In groundwater calcretes, the precipitation of carbonate also occurs within a previous host rock and around the groundwater table. In palustrine carbonates, however, the precipitation of lime mud occurs in a lacustrine water body. Palustrine carbonates necessarily form on previous lacustrine mud, whereas both types of calcretes may form on any type of sediment or soil. The sub-aerial exposure time needed to form palustrine carbonates may by relatively short (even a season), whereas pedogenic calcretes need more time (several years to millions of years). Groundwater calcretes do not form on the topographic surfaces, so there is no need of sub-aerial exposure. However, stable surfaces favour the development of thick groundwater calcretes. Small fluctuations in the water table cause gradual transitions of these three types of terrestrial carbonates and the subsequent mixture of their characteristic features, causing difficulties in the interpretation of these carbonates.
The formation of these carbonates is controlled by palaeoenvironmental factors. Both commonly form in semi-arid climates. Arid climates are also suitable for calcretes, but sub-humid conditions are more suitable for palustrine carbonates. More indications of climatic conditions may be obtained through the analysis of the δ18O content of both calcretes and palustrine carbonates, and from the depth of the horizon containing carbonate nodules in pedogenic calcretes. Vegetation is also important in the formation of these types of carbonates. Data on the prevailing vegetation can be obtained from the analysis of the micro and macrofabric as well as from the δ13C signal of the primary carbonates, which, in pedogenic carbonates, has also been used to estimate atmospheric pCO2 during the Phanerozoic. These terrestrial carbonates are widely distributed on floodplains and distal areas of alluvial basins. Their presence and characteristics can be used as indicators of aggradation, subsidence or accommodation rates, and therefore as indicators of different tectonic regimes.
Even though the study of these carbonates has notably increased in recent years, much less is known about them than about marine carbonates. Presently, there is much emphasis on obtaining a general model for sequence stratigraphy in terrestrial basins, with a need to include the carbonates analysed in this paper. 相似文献
8.
Gem-quality chrysolite (peridot) from a phlogopite deposit related to the Kovdor ultrabasic-alkaline massif in the Kola Peninsula, Russia, was studied using a variety of techniques (optical mineralogical microscopy, chemical, Mössbauer spectroscopy, and photoluminescence) to determine its chemical composition, the Fe2+/Fe3+ ratio, refraction indexes, density, as well as to examine inclusions in it. Much attention was devoted to the microprobe identification of crystalline inclusions in the host chrysolite (apatite, tetraferriphlogopite, amphibole, and magnetite), its exsolution products (diopside and magnetite), and the daughter phases of melt inclusions in this mineral (which were subdivided into primary and secondary genetic types). The daughter phases of these melt inclusions are silicates (forsterite, diopside, tetraferriphlogopite, clinohumite, and serpentine), various carbonates (Ca-dominated carbonates are characteristic of the primary inclusions, whereas Mg-rich carbonates were found only in the secondary inclusions), magnetite, djerfisherite (alkali sulfide), and Ba-Sr-REE carbonates. The presence of melt inclusions testifies to a magnatic genesis of the gem, and the simultaneous occurrence of these inclusions with crystalline inclusions can be used as an additional identification feature of gem chrysolite from the Kovdor Massif. 相似文献
9.
The Upper Ediacaran microbial carbonates of the Tarim Basin are potential reservoir geobodies for future hydrocarbon exploration with rising interest in exploration for deeply-buried reserves. However, little knowledge has been acquired on the types of microbial carbonates that are present, the properties of the reservoir and the pore evolution, hampering predictions of high-quality reservoirs in these carbonates. Integrated with petrography and in-situ U-Pb dating geochronology analyses, this study aims to clarify the types of microbial carbonates present and to reconstruct the pore evolution processes of the potential reservoir rocks. The Upper Ediacaran microbial carbonates of the Tarim Basin can be divided into four types, based on their features in terms of different scales (macro- to micro-): microbial laminite, stromatolite, spongiomicrobialite and microbial-peloidal wackestone/mudstone. Petrophysical properties show that all these microbial carbonates have low porosity and very low permeability with poor connectivity. These carbonates were subject to long-term and complex diagenetic processes, mainly consisting of dissolution, compaction, pervasive dolomitization, cementation and fracturing. The most important reservoir spaces are contributed by vugs and dissolution-enlarged pores, which are likely to have been associated with the widespread uplift of the Aksu area in the terminal Ediacaran. In contrast, the cementation of the fine-to-medium crystalline dolomite greatly reduced the pre-existing pores. Pore types are closely related to different microbial fabrics, which played an important role in the pore evolution of the microbial carbonates. 相似文献
10.
微亮晶(臼齿)碳酸盐成因及其在元古宙地球演化中的意义 总被引:14,自引:2,他引:14
本文应用多种技术方法,对微亮晶碳酸盐岩的成岩作用及其成因从宏观至微观进行了分析。根据岩石矿物学、地球化学和有机地球化学等研究证明,它是早期成岩过程中,在超高压的大气 CO_2,水平急剧下降的转折期,快速石化作用形成的具等粒结构μm级的微亮晶方解石集合体。MT 碳酸盐岩微亮晶成岩作用有两种类型:一是主要发生在海底沉积软泥中,在其底基质软泥中经差异压实作用形成褶皱肠状及复杂形的 MT 构造;二是直接在海水中或重力流搬运过程中形成的微亮晶球粒(核)。简言之,MT 碳酸盐岩石是在地球早期浅海环境下,由于微生物自养作用形成的地球化学成因产物。微亮晶碳酸盐岩是约束古大气圈和古海洋环境变化的最灵敏标志。通过详测 MT 丰度值和编制地球古大气圈 CO_2水平演化模式等,在前寒武纪发现有太古宙末期、早元古宙末期、中元古宙中期和新元古宙早-中期四个 MT 碳酸盐岩发育高峰值期,证明全球古大气圈 CO_2水平发生过四次不连续性、跳跃式下降周期,直到晚新元古宙未,全球雪球事件的发生,导致了 MT 碳酸盐岩的消失。其后,才进入显生宙的 CO_2低水平状态。MT 碳酸盐岩具有重要的油气资源远景,应予以重视。 相似文献
11.
Seismic characterization of switching platform geometries and dominant carbonate producers (Miocene,Las Negras,Spain) 
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下载免费PDF全文 Lucas M. Kleipool Koos de Jong Eveline L. de Vaal John J. G. Reijmer 《Sedimentology》2017,64(6):1676-1707
The primary goals of seismic interpretation and quantification are to understand and define reservoir architecture and the distribution of petrophysical properties. Since seismic interpretation is associated with major uncertainties, outcrop analogues are used to support and improve the resulting conceptual models. In this study, the Miocene carbonates of Cerro de la Molata (Las Negras, south‐east Spain) have been selected as an outcrop analogue. The heterogeneous carbonate rocks of the Cerro de la Molata Platform were formed by a variety of carbonate‐producing factories, resulting in various platform morphologies and a wide range of physical properties. Based on textural (thin sections) and petrophysical (porosity, density, carbonate content and acoustic properties) analyses of the sediments, eleven individual facies types were determined. The data were used to produce synthetic seismic profiles of the outcrop. The profiles demonstrate that the spatial distribution of the facies and the linked petrophysical properties are of key importance in the appearance of the synthetic seismic sections. They reveal that carbonate factory and facies‐specific reflection patterns are determined by porosity contrasts, diagenetic modifications and the input of non‐carbonate sediment. The reflectors of the seismograms created with high‐frequency wavelets are coherent with the spatial distribution of the predefined facies within the depositional sequences. The synthetic seismograms resulting from convolution with lower frequency wavelets do not show these details – the major reflectors coincide with: (i) the boundary between the volcanic basement and the overlying carbonates; (ii) the platform geometries related to changes in carbonate factories, thus sequence boundaries; and (iii) diagenetic zones. Changes in seismic response related to diagenesis, switching carbonate producers and linked platform geometries are important findings that need to be considered when interpreting seismic data sets. 相似文献
12.
S. Anne Reeckmann 《Sedimentary Geology》1988,60(1-4):209-219
Temperate shelf carbonates form in cool marine waters and have skeletal and mineralogical compositions which are different from their tropical counterparts. They commonly lack non-skeletal grains and are often composed of low- and high-magnesium calcite with subordinate aragonite. Many of the aragonitic components found in tropical carbonates, such as corals, ooids, blue-green algae and lime mud, are absent.
Temperate shelf carbonates undergo diagenesis in marine waters with lower carbonate saturation than do tropical carbonates, and are exposed to cool climates with moderate to low rainfall. Marine cementation is rare because of low carbonate saturations in the surrounding waters. However, aragonite and high-magnesium calcite cements have been reported forming under specialized conditions associated with biogenic precipitation, submarine methane and sulphate-reducing bacteria, and more commonly in the intertidal environment where evaporation has increased carbonate concentrations.
In Pleistocene and Tertiary temperate shelf carbonates from southeastern Australia, evidence of marine diagenesis is rare to absent. Diagenetic stabilization of aragonite and high-magnesium calcite has taken from 80,000 y to 1 My, or longer, during subaerial exposure. This is slower than rates reported from tropical climates. A general lack of aragonite in some facies within these temperate carbonates leads to a lack of secondary porosity and only sparse low-magnesium calcite cement, even after prolonged fresh-water diagenesis. However, with lengthy exposure and under the right climatic conditions, karstic solution and calcrete precipitation can occur.
In sequences containing siliciclastic clays, pyrite and glauconite, abundant iron is present in interstitial waters leading to the precipitation of ferroan calcite cements in the phreatic and shallow burial environments, and to the substitution of iron for magnesium in stabilizing high-magnesium calcite skeletal material.
A unique void-filling, micritic internal sediment occurs in discrete layers in many of the Tertiary temperate shelf carbonate sequences in southeastern Australia. This internal sediment is localized as a pore-filling material above permeability barriers such as fine-grained sediments or volcanics, and above paleo-water tables which formed during periods of subaerial exposure. It is a feature of the vadose zone and lithifies to form a dense micritic low-magnesium calcite cement with characteristic pink/brown coloration, often associated with erosion surfaces and nodule beds.
Dolomite is uncommon in the southeastern Australian temperate shelf carbonates. It forms associated with preferential fluid pathways or mixing zones. Ferroan dolomite forms in siliciclastic clay-rich carbonates in the shallow burial environment. The ubiquitous fine, evaporite-related dolomite so common in tropical carbonates is absent. 相似文献
13.
塔里木盆地柯坪地区中下奥陶统碳酸盐岩露头层序地层学研究 总被引:19,自引:4,他引:15
在前人岩石地层、生物地层、年代地层研究基础上,作者运用层序地层学理论结合沉积微相分析,对柯坪地区中下奥陶统露头碳酸盐岩进行了层序地层解剖。研究区共识别出二种界面类型 (暴露层序不整合界面和淹没层序不整合界面 )、三种准层序组构特征 (潮坪、浅滩和滩下陆棚 )和两种主要类型的体系域构成 (海侵体系域和高位体系域 ),在此基础上把该套碳酸盐岩划分为 7个三级层序,其中Sq1~ 2对应于蓬莱坝组地层、Sq3~ 6对应于鹰山组地层和Sq7对应于大湾沟组地层。Sq1~ 2三级层序由潮坪旋回的藻纹层白云岩、细粉晶白云岩和灰岩组成;Sq3~ 4三级层序由潮坪旋回的藻纹层灰岩和颗粒灰岩组成;Sq5~ 6三级层序由潮下浅滩相旋回的颗粒灰岩组成;Sq7三级层序由滩下陆棚环境藻灰岩和泥质瘤状灰岩组成 相似文献
14.
以海拉尔盆地贝尔凹陷大磨拐河组-伊敏组的含片钠铝石火山碎屑岩为研究对象,采用偏光显微镜、扫描电镜及配套能谱、茜素红 S染色、阴极发光和X 射线衍射分析等技术手段,对研究样品的岩石类型、自生矿物种类及共生序列进行了详细研究。贝尔凹陷发育片钠铝石的宿主岩石类型为沉凝灰岩,自生矿物以发育片钠铝石、铁白云石和菱铁矿三种碳酸盐矿物为主,片钠铝石含量高达25%。成岩共生序列为菱铁矿Ⅰ→高岭石、石英次生加大→片钠铝石→微晶石英→方解石→铁白云石→菱铁矿Ⅱ→沥青。不同于国内外其它地区发现片钠铝石的主要产状为充填孔隙,本区内发育的片钠铝石以交代长石、石英、岩屑颗粒和高岭石基质为赋存特征,表明沉凝灰岩中的长石、岩屑、高岭石基质可以为其提供金属离子物质来源,并在CO2参与下,与成岩流体反应生成片钠铝石。大量碳酸盐矿物(15-44%)的发育证明了火山碎屑岩具有较高的CO2矿物捕获能力。 相似文献
15.
微生物碳酸盐岩不仅是研究古环境、古气候和地质历史事件的重要沉积记录,也是油气资源重要的储层类型之一。不同微生物群落的生理活动特性影响了原生孔隙的形成及保存,微生物沉积形成的不同尺度的沉积组构影响了孔隙的孔径大小及空间分布。微生物碳酸盐岩微相及共生岩性的微相组合型式对孔隙有效性及规模有重要影响,所处沉积地貌及相带使得微生物碳酸盐岩受海水-大气水成岩环境的胶结-溶蚀作用次序及程度不同,导致孔隙的非均质性。微生物相关的白云石化、胶结及岩溶等不同成岩作用,因其所处成岩阶段不同,而分别可能起到形成原生孔隙、保护残余孔隙及形成次生孔隙等不同效果,因而对孔隙形成及保存具有积极意义。微生物碳酸盐岩孔隙具有从纳米-亚微米级微孔隙到厘米甚至米级宏观孔隙等多个尺度,且与多尺度沉积结构构造有一定的耦合关系。因此,需要合理配置不同尺度样品的空间分布,运用多种方法技术表征不同尺度的孔隙,并增强各类数据的融合。此外,加强地质学科与地球物理学科的结合,是推动微生物碳酸盐岩油气储集层地质研究和勘探开发工作的重要途径。 相似文献
16.
Stylolites are rough surfaces, formed by localized rock dissolution, and prevalent in carbonates and other sedimentary rocks. Their impact on porosity and permeability, and capacity to accommodate compactive strain, are well documented. This paper presents a meso-scale field study on sedimentary stylolites in carbonates, characterizing large-scale distributions of stylolites, including measurements conducted on longer than kilometer-long stylolites. Our field study suggests that on large scales connections between stylolites become important. Since connectivity, and also lack of connectivity, are expected to play a significant role in strain accommodation and hydraulic rock properties, we suggest that large-scale analysis may require a new characterization scheme for “stylolite populations”, based on their connectivity. We therefore divide sedimentary stylolite populations into three end-member types, which are correlated with the three possibilities for percolation of such systems: isolated stylolites (with zero percolation/connectivity), long-parallel stylolites (with 2-dimensional percolation/connectivity), and interconnected stylolite networks (with 3-dimensional percolation/connectivity). New statistical parameters and measures are devised and used to quantitatively characterize the different population types. Schematic mechanistic models are then offered to explain the evolution of the three end-member connectivity-classes. In addition we discuss the effect on fluid flow of the different population types. 相似文献
17.
土壤次生碳酸盐碳氧稳定同位素古环境意义及应用 总被引:9,自引:1,他引:9
土壤次生碳酸盐碳氧稳定同位素特征是反映古气候与古环境的重要代用指标,其碳氧稳定同位素组成分别受土壤CO2中C同位素组成和大气水的O同位素控制。在一定深度的土壤中,土壤次生碳酸盐δ^13C就主要受当地植物类型(C3植物和C4植物等)控制。土壤次生碳酸盐样预处理中剔除土壤中原生碳酸盐以及有机物污染尤为重要。土壤中次生碳酸盐C、O稳定同位素地球化学在土壤发生学、古气候恢复、古生态重建以及全球变化研究中应用日益广泛,但解译时可能受应用年代范围、成岩作用、原生和次生碳酸盐混杂、土壤碳酸盐多元发生等因素影响,其应用机理和范围还需进一步探讨。 相似文献
18.
米级旋回层序的成因类型及其相序组构特征 总被引:9,自引:2,他引:7
与米兰柯维奇旋回存在成因联系的幕式地层堆积作用的结果,是在地层记录中形成各种类型的米级旋回层序。在不同的古地理背景中,受物质来源及沉积动力学背景的控制,故发育具有不同相序组构的不同类型的米级旋回层序。因此,相序组构特征就成为米级旋回层序类型划分的基本准则。地层记录中米级旋回层序的广泛发育,以及它们在长周期层序中的有序垂直叠加形式和地史演化特征,由不同相序组构所反映的成因类型以及由不同类型所指示的沉积动力背景等等,不但表明了米级旋回层序是描述地层结构的基本工作单元,而且是对“准层序”的延展和补充。在海相地层中,不管是碳酸盐岩还是陆源碎屑岩地层,这种厚几厘米至几米的米级旋回层序,大致都可以划分为正粒序和反粒序两种相序组构,正粒序组构主要是潮汐作用的结果,而反粒序主要是以波浪作用为主的浅海环境的产物 不管是正粒序还是反粒序序列,均构成总体向上变浅序列。由此,碳酸盐岩米级旋回层序可划分为L-M型、深水非对称型、潮下型及环潮坪型 碎屑岩米级旋回层序可划分为潮汐动力型及波浪动力型。米级旋回层序的界面是由高频率海平面变化所产生的非沉积作用面,包括瞬时暴露间断面和瞬时加深淹没间断面乃至它们的相关面,这些在区域上延伸较远,甚至。 相似文献
19.
A. Yu. Yurchenko 《Moscow University Geology Bulletin》2014,69(5):375-378
The distributions of stable carbon and oxygen isotopes in modern and ancient limestones of various types were studied. Carbonate samples from modern sediments were collected in the Black and Barents Seas. Ancient carbonates were represented by Upper Jurassic (Kimmeridgian-Tithonian) limestones from the central part of the West Siberian basin. Carbonate samples include remains of modern and Upper Jurassic fauna, carbonate crust from sediments of the Black Sea, carbonate tube from sediments of the Barents Sea, and Upper Jurassic limestone from the carbonate layer found at top of Abalak, bottom of Bazhenov deposits in the central part of the West Siberian basin. According to the results of the isotope analysis and comparison with modern carbonates, Upper Jurassic limestones of the West Siberian basin belong to the group of methane-derived carbonates and precipitated as a result of anaerobic oxidation of methane (AOM). Fractures in limestones are filled with secondary calcite. 相似文献
20.
昌乐玄武岩内刚玉巨晶(蓝宝石)中发现富碳酸盐和硫酸盐熔融包裹体及其意义 总被引:1,自引:1,他引:0
山东昌乐新生代玄武岩内的刚玉巨晶(蓝宝石)中含有多种类型熔融包裹体,其成分对了解华北深部地幔交代过程中的流/熔体性质和刚玉母岩浆特点具有重要意义.详细的岩相学和激光拉曼分析鉴定出一类富碳酸盐和硫酸盐成分的原生熔融包裹体以及一类含硫酸盐和氯化物等成分的次生熔融包裹体,二者同时还含有CO2和H2O.碳酸盐和硫酸盐成分在世界范围玄武岩内刚玉巨晶中是首次发现,结合已有的包裹体稀有气体同位素和测温资料,反映两种成分可能来源于交代地幔的碳酸岩熔体,预示着华北深部地幔不仅经历了硅酸盐成分的交代还经历了富碳酸盐和硫酸盐成分(碳酸岩)的交代,同时也显示刚玉母岩浆成分复杂,至少有富这两类成分物质的参与,刚玉很可能是硅酸盐岩浆/岩石和幔源碳酸岩岩浆相互作用的产物,后被玄武岩喷发携带至地表. 相似文献