甘肃景泰红水堡晚石炭世沉积环境与沉积相分析

甘肃省景泰县红水堡地处北祁连加里东褶皱带东段。晚石炭世地层包括红土洼组、羊虎沟组及太原组。根据岩性、颜色、粒度分析、沉积相标志及古生物组合并结合古生态、以及地球化学特征,将景泰红水堡晚石炭世沉积环境与沉积相划分为泻湖、潮坪、支间湾河口坝和三角洲平原。一个明显的陆源沉积物向海推进的海退序列.     

宁夏中卫晚石炭世沉积相分析与古环境重建

宁夏中卫地处北祁连加里东褶皱带东段,出露有连续而发育完好的晚石炭世海陆交互相含煤地层。根据岩性、颜色、粒度分析、沉积相标志、地球化学特征以及结合古生物化石资料,对中卫下河沿地区晚石炭世红土洼组、羊虎沟组和太原组的沉积相进行了分析研究,确立并划分出泻湖、潮坪、支间湾河口坝、滨海沼泽及三角洲平原等沉积相。在此基础上,结合本地区的古地理背景对宁夏中卫的晚石炭世的古沉积环境进行了重建。     

新疆北部石炭纪岩相古地理

文章采用野外露头、钻井地质相结合的分析方法,讨论了新疆北部石炭纪的岩相古地理环境。野外露头、钻井资料的沉积建造、沉积相分布及古生物组合特征综合表明,新疆北部石炭纪古地理总体特征表现为由早石炭世的深海-半深海相、浅海相向晚石炭世的浅海相、海陆过渡相及陆相演化的趋势。岩石组合类型由早石炭世的活动陆缘型岛弧火山岩、深海复理石及海相碳酸盐岩向晚石炭世的裂谷型火山岩、陆相碎屑岩、海相碎屑岩及海相碳酸盐岩过渡。早、晚石炭世不同地区的古地理及其相应的岩石组合类型存在明显的差异。     

保山—施甸地区中-晚石炭世丁家寨组的冰川成岩特征及有关问题讨论

本文详细描述了丁家寨组冰成岩的岩石特征及冰川遗迹,划分了冰川类型及其沉积相,讨论了丁家寨组的地层时代,并与腾冲-梁河地区、西藏以及国外相同时代含冰成岩的地层作了对比。本区中晚石炭世的冰成岩系沉积并非弧立的,当时出现全球性大冰期。晚古生代的冰成岩在西藏珠峰地区及印度次大陆也很发育,当时都位于南半球并属于冈瓦纳大陆的一部分。地层的比较说明,本区在中晚石炭世与泰国西部、马来西亚西部和缅甸都应处于冈瓦纳大陆北缘大陆架部位。     

吉林省石炭纪岩相古地理特征及沉积相模式

本文通过大量的实际资料分析对吉林省石炭纪沉积相进行了划分:早石炭世划分为两个相区,6个相带;晚石炭世划分为5个相区,8个相带,并建立了沉积相模式。     

吐鲁番--哈密盆地陆源碎屑沉积环境及物源分析

吐鲁番—哈密盆地从晚二叠世到晚第三纪经历了复杂的,多旋回的沉积构造演化历史,造成主要地层间均以不整合为界。盆地内沉积相类型丰富,沉积环境随时间的推移而发生改变。在晚石炭世,盆地北部为浅海环境;到晚二叠世,沉积环境由海相转变为陆相,并在上二叠统下部形成大量冲积相或河流相粗碎屑沉积;在三叠纪,沉积物主要形成于冲积相或河流—湖泊环境中,古气候则由干旱转为温暖湿润。早、中侏罗世,沉积环境以湖泊—沼泽相为主;到晚侏罗世,则以辫状河流相为主及干旱气候为特征。在白垩纪,盆地的沉积范围大为缩小,以湖泊环境为主;第三纪,沉积范围则扩大到整个盆地,沉积相以辫状河流及冲积相为特征,沉积气候干旱,局部地区接受了盐类沉积。古流向分析显示,吐—哈盆地具有复杂的沉积搬运体系。在盆地南侧,沉积物搬运方向总是由南向北,表明觉罗塔格山是盆地的主要物源区;而在盆地北侧,博格达山自晚侏罗世开始隆起,构成盆地的另一新的物源区,沉积物搬运方向由北向南。在白垩及第三纪,博格达山成为盆地的主要物源区。     

西藏定结、定日一带上石炭统纳兴组重力流沉积及其地质意义

西藏定结、定日一带上石炭统纳兴组为一套厚度巨大的陆源碎屑沉积, 该组中部首次识别出重力流沉积.重力流沉积可划分为3个类型: 崩塌沉积、碎屑流沉积和浊流沉积, 以碎屑流沉积常见.通过沉积相和基于沉积物组分及地球化学方面的物源分析, 判断该区晚石炭世存在小型洼陷盆地, 其形成与晚石炭世海西伸展运动有关, 纳兴组重力流沉积与下伏滨浅海沉积之间具一伸展不整合.      

吐鲁番-哈密盆地陆源碎屑沉积环境及物源分析

吐鲁番-哈密盆地从晚二叠世到晚第三纪经历了复杂的,多旋回的沉积构造演化历史,造成主要地层间均以不整合为界。盆地内沉积相类型丰富,沉积环境随时间的推移而发生改变。在晚石炭世,盆地北部为浅海环境;到晚二叠世,沉积环境由海相转变为陆相,并在上二叠统下部形成大量冲积相或河流相粗碎屑沉积;在三叠纪,沉积物主要形成于冲积相或河流-湖泊环境中,古气候则由干旱转为温暖湿润。早、中侏罗世,沉积环境以湖泊-沼泽相为主;到晚侏罗世,则以辫状河流相为主及干旱气候为特征。在白垩纪,盆地的沉积范围大为缩小,以湖泊环境为主;第三纪,沉积范围则扩大到整个盆地,沉积相以辫状河流及冲积相为特征,沉积气候干旱,局部地区接受了盐类沉积。古流向分析显示,吐-哈盆地具有复杂的沉积搬运体系。在盆地南侧,沉积物搬运方向总是由南向北,表明觉罗塔格山是盆地的主要物源区;而在盆地北侧,博格达山自晚侏罗世开始隆起,构成盆地的另一新的物源区,沉积物搬运方向由北向南。在白垩及第三纪,博格达山成为盆地的主要物源区。     

鄂尔多斯盆地及邻区晚石炭世本溪期构造—沉积环境及原型盆地特征

原型盆地恢复有助于盆地构造—岩相古地理的研究和揭示盆山耦合,对油气勘探与开发具有重要的指导意义。本文利用最新的钻井、测井及露头资料,以沉积相为研究实体,运用盆—山结合的思路,由点—线—面进行分析,重建了鄂尔多斯盆地晚石炭世本溪组沉积时期的构造—沉积环境,研究了原型盆地特征及性质。本溪组沉积期,鄂尔多斯盆地沉积具有东西分异的特征：淳化—庆阳—吴起地区及北部伊盟地区为暴露剥蚀区,东部为克拉通内坳陷盆地,西部为克拉通边缘裂陷盆地。乌达—呼鲁斯台及鄂尔多斯—神木地区发育三角洲相,并向南逐渐推进;鄂西石嘴山、环县及鄂东府谷、延安地区以环带状潮坪—泻湖相为主,受间歇性海侵影响;吴忠、柳林—吉县地区发育低能的泻湖相;中卫—中宁、韩城及以东地区发育不同深度的陆棚及开阔台地。该时期盆地构造环境表现为南北向双向俯冲、贺兰拗拉槽再活化,格局经历了南隆北倾向北隆南倾的转变。受此影响,鄂尔多斯盆地构造古地理格局开始由东西分异逐渐向南北分异转变,受东西两侧海侵影响沉积相带呈环带状展布,但在盆地北部发育潮控三角洲,表现出近缘特征。晚石炭世鄂尔多斯盆地构造—沉积环境与原型盆地特征与其对周缘大地构造运动的响应。     

华北地区晚石炭世岩相古地理特征及聚煤规律研究

通过分析华北地区晚石炭世的沉积环境及煤层分布特点,探讨了该区晚石炭世沉积相的典型类型,综合分析得出华北克拉通板块晚石炭世主要为陆表海环境,期间发生多次海侵海退事件,在郯庐断裂以东地区,主要发育有台地沉积体系、障壁一渴湖沉积体系及潮坪沉积体系;在盆地的北西缘地区发育潮坪泥炭沼泽,形成了海侵事件沉积,海退时期,中北部地区有利于发育潮坪泥炭沼泽和岛后泥炭沼泽,成为煤层的聚煤中心。     

下扬子盆地石炭纪的岩石学特征及沉积相

位于扬子板块东部的下扬子盆地，在石炭纪时，为被动大陆边缘的陆表海沉积，陆源碎屑来自于北边的胶南古陆和南边的江南古陆东延部分─—皖浙赣古陆。石炭系分为上、下两统。早石炭世，盆地南部宣城、广德等地主要发育碎屑岩，中部巢县、南京一带以及北部滨海、洪泽一带为碎屑岩和碳酸盐岩沉积。从南往北，金陵期从滨岸碎屑岩相→开阔海台地碳酸盐岩相→潮坪碳酸盐岩和碎屑岩相；高骊山期为滨岸平原沼泽碎屑岩相→浅海陆棚碎屑岩相→海岸萨布哈白云岩、石膏、碎屑岩相；和州期盆地南部隆起，中部到北部为礁及礁后泻湖一潮坪碳酸盐岩相→开阔海台地碳酸盐相。晚石炭世主要是碳酸盐沉积，黄龙期从滨岸石英砾岩相→潮坪白云岩相→开阔海台地碳酸盐岩相；船山期是黄龙期开阔海台地碳酸盐岩相的继续，以发育核形石生物碎屑颗粒岩为特征。整个盆地的岩相带均以ＮＥＥ—ＮＥ方向展布。     

Sedimentation in shallow to deep water carbonate environments across a sequence boundary: effects of a fall in sea-level on the evolution of a carbonate system (Ladinian-Carnian, eastern Lombardy, Italy)

In the Concarena‐Pizzo Camino Massif (Lombardy Basin, Southern Alps, Italy) the lateral transition from Ladinian‐Carnian carbonate platforms to coeval intraplatform basins is preserved. The succession records the sedimentological evidence of a sea‐level fall on a flat‐topped platform with a narrow marginal reef rim and its effects in the adjacent deeper‐water basin. Repeated high‐frequency exposures of the platform top are recorded by a peritidal–supratidal succession that overlies subtidal inner platform facies of the former highstand system tract (HST). On the slope and in the basin, the sea‐level fall is recorded by a few metre thick succession of bioclastic packstones. These facies directly lie on coarse clinostratified breccia bodies (slope facies of the former HST) or on resedimented, well‐bedded, dark laminated limestones (basinal facies of the HST). This facies distribution indicates that during the sea‐level fall carbonate production on the platform top decreased rapidly and that sedimentation in the basin was mainly represented by condensed facies. Microfacies record an enrichment, during low stand, in pelagic biota (packstones with radiolarians and spiculae), whereas the occurrence of platform‐derived, shallow‐water materials is limited to thin lenses of reworked and micritized Fe‐rich oolites and bioclasts (mainly pelecypods and echinoderms). The facies association in the Concarena‐Pizzo Camino Massif demonstrates that a highly‐productive carbonate factory was almost completely turned off during the emergence of the platform top at a sequence boundary, leading to low‐stand starvation in the basin. The reconstruction of the stratigraphic evolution of the Concarena‐Pizzo Camino carbonate platform therefore represents a significant case history for the study of the behaviour of ancient carbonate systems during a fall in sea‐level, independent of its origin (eustatic or tectonic).     

Implications for Neoarchaean ocean chemistry from primary carbonate mineralogy of the Campbellrand-Malmani Platform, South Africa

The precipitation of calcite and aragonite as encrustations directly on the seafloor was an important platform‐building process during deposition of the 2560–2520 Ma Campbellrand‐Malmani carbonate platform, South Africa. Aragonite fans and fibrous coatings are common in unrestricted, shallow subtidal to intertidal facies. They are also present in restricted facies, but are absent from deep subtidal facies. Decimetre‐thick fibrous calcite encrustations are present to abundant in all depositional environments except the deepest slope and basinal facies. The proportion of the rock composed of carbonate that precipitated as encrustations or in primary voids ranges from 0% to > 65% depending on the facies. Subtidal facies commonly contain 20–35%in situ precipitated carbonate, demonstrating that Neoarchaean sea water was supersaturated with respect to aragonite, carbonate crystal growth rates were rapid compared with sediment influx rates, and the dynamics of carbonate precipitation were different from those in younger carbonate platforms. The abundance of aragonite pseudomorphs suggests that sea‐water pH was neutral to alkaline, whereas the paucity of micrite suggests the presence of inhibitors to calcite and aragonite nucleation in the mixed zone of the oceans.     

黔南宾夕法尼亚亚纪生物礁类型及其特征

黔南宾夕法尼亚亚纪海域广大,普遍发育了一套台地相碳酸盐岩.该区碳酸盐台地浅水非常适宜生物生存,特别是底栖生物大量繁盛,生物造岩作用十分强烈.宾夕法尼亚亚纪地层中含有极为丰富的底栖生物化石,其中包括多种造礁生物并建造了不同类型的生物礁,主要礁体有:Fomitchevella 珊瑚骨架礁、叶状藻骨架一障积礁、Ivanovia cf.manchurica珊瑚骨架一覆盖礁、未名造礁生物骨架礁、黏结生物Tubiphytes黏结礁.生物礁不仅种类较多,而且数量可观,反映了该时期生物礁的发展达到了较高的水平,应该是石炭纪生物礁发育的一次高潮期.     

藏北地区中上侏罗统接奴群沉积特征及油气远景

西藏北部改则－班戈地区出露的中上侏罗统接奴群是残余弧后盆地的滨浅海相陆缘碎屑沉积，具有完整的水进－水退沉积旋回。主要沉积相类型有碎屑浅海、高能滨岸、陆源碎屑潮坪、碳酸盐合地、扇三角洲等，向南部冈底期－念青唐古拉岛弧方向超覆，向北部羌塘板片与广阔碳酸盐台地相的佣钦错群过渡。接奴群是该区最有潜力的油气勘探目的层。广阔的浅海相泥页岩为主要的烃源岩，早期滨岸相粗碎屑岩是主要的潜在储集岩，有可能形成的油气藏类型包括超覆岩性油气藏和构造油气藏。     

云南兰坪盆地三叠纪沉积作用与古地理演化

根据岩石沉积类型、物源供给、成因机制和沉积序列 ,结合区域地质特征 ,将兰坪盆地三叠系划分为陆相火山泥石流、河流相、三角洲相、潮坪相、浅海陆棚相、碳酸盐台地相和深水盆地相7种主要沉积类型。通过对沉积相的详细分析 ,恢复其古地理格架和面貌 ,探讨岩相古地理的变迁历史 ,从而表明三叠纪早期到晚期 ,其古地理经历了陆相环境→碎屑海盆→碳酸盐海盆到碎屑海盆的转换 ,即两次海侵 海退旋回。早期的海域分布范围较小 ,晚期的海域分布范围较宽 ,并成为统一的海盆。     

湘、桂中晚泥盆世台槽相沉积特征

加里东运动之后,前泥盆纪华南地槽回返褶皱成山,结束了地槽沉积,开始转入相对稳定的地台沉积。早泥盆世沉积了一套陆源碎屑建造,中泥盆世地台又开始活动,明显地表现在浅水和极浅水的碳酸盐合地中分布着一种特殊的较深水沉积相,引起了许多沉积学者的注意,从不同角度进行了研究。对该沉积相的命名、分布特点及形成机理持有不同的看法。这种较深水沉积相是在碳酸盐台地中或台地间呈槽状和条带状展布,作者把它命名为台槽相。本文试图对这套沉积相特征及形成机制进行探讨,欢迎批评指正。     

贵州紫云晚石炭世叶状藻礁灰岩微相特征与沉积环境的研究

紫云晚石炭世叶状藻礁发育在碳酸盐岩台地边缘内。研究以碳酸盐岩微相分析为主要手段,对叶状藻礁剖面中岩石的微相特征和沉积环境研究。主要总结出6个微相类型,为生物碎屑粒泥灰岩、生物碎屑泥粒灰岩、球粒生屑泥粒灰岩、叶状藻粒泥灰岩—叶状藻泥粒灰岩、腕足泥粒灰岩、生物碎屑颗粒灰岩。总结了一个在开阔台地与台地边缘过渡带上的局部相模式,由较深水的开阔台地相、叶状藻礁相、台内斜坡相和台内较浅水的斜坡相、较浅水的开阔台地相、台内浅滩相过渡,分析总结了叶状藻礁的沉积环境。微相组合及其在剖面纵向分布规律显示,剖面的总体沉积环境为潮下带浅水开阔台地环境。      

桂西北晚古生代乐业孤立碳酸盐岩台地沉积特征与演化阶段

桂西北乐业台地是右江盆地北部典型的晚古生代孤立碳酸盐岩台地。从中泥盆统唐家湾组至上二叠统合山组均由碳酸盐岩构成,与北侧陆棚区多样的沉积类型及台地周边泥质-硅质岩深水沉积形成鲜明对比。台地内上古生界主要由台缘生物礁组合和礁后澙湖组合两种浅水碳酸盐沉积类型构成。地层发育与沉积特征主要受基底沉降、海平面波动、气候变化和盆地内生碳酸盐沉积速率控制。研究表明,乐业台地是在右江盆地强烈扩张、沉降过程中由扬子地台南缘破裂的微地块向盆地滑移而形成的孤立台地。它的演化经历了边缘台地（D1-D2）、孤立台地（D3-P2）和淹没台地（P3-T1）3个发展阶段。孤立台地是其最重要的主体特征,反映了右江盆地在晚古生代强烈扩张、沉降,扬子地台边缘拉伸、破裂,微地块向盆地滑移的构造背景。乐业孤立台地的形成及演化模式可能具有普遍性,也适用于右江盆地西北部其他晚古生代孤立碳酸盐岩台地。     

From Cycles to Sequences:Sequence Stratigraphy and Relative Sea Level Change for the Late Cambrian of the North China Platform

In the Late Cambrian, the North China Platform was a typical carbonate ramp platform. The Upper Cambrian of the northern part of the North China Platform is famous for the development of bioherm limestones and storm calcirudites and can be divided from bottom to top into the Gushan, Changshan and Fengshan formations. In this set of strata, the deep-ramp mudstone and marls and the shallow-ramp packstones and grainstones constitute many carbonate meter-scale cycles of subtidal type. More tidal-flat dolomites axe developed in the Upper Cambrian of the southern margin of the North China platform, in which limestone and dolomite beds also constitute many carbonate meter-scale cycles of the peritidal type. These cycles are marked by a variety of litho-facies successions. There are regularly vertical stacking patterns of meter-scale cycles in long-term third-order sequences, which is the key to discerning such sequences. Third-order sequence is marked by a particular sedimentary-facies succession that is the result of the environment-changing process of deepening and shoaling, which is genetically related to third-order sea level changes. Furthermore, four third-order sequences can be grouped in the Upper Cambrian of the North China Platform. The main features of these four third-order sequences in the northern part of the platform can be summarized as follows: firstly, sequence-boundaries are characterized by drowning unconformities; secondly, the sedimentary-facies succession is generally constituted by one from deep-ramp facies to shallow-ramp facies; thirdly, a succession of “CS (?) HST” (i.e., “condensed section and highstand system”) forms these four third-order sequences. The chief features for the third-order sequences in the southern part of the North China Platform comprises: more dolomites are developed in the HSTs of third-order sequences and also developed more carbonate meter-scale cycles of peritidal types; the sedimentary-facies succession of the third-order sequences is marked by “shallow ramp-tidal flat”; the sequence boundaries are characterized by exposure punctuated surfaces. According to the changes for the third-order sequences from the north to the south, a regular sequence-stratigraphic framework can be established. From cycles to sequences, the study of sequence stratigraphy from litho-facies successions to sedimentary-facies successions exposes that as follows: meter-scale cycles that are used as the basic working unit actually are litho-facies successions formed by the mechanism of a punctuated aggradational cycle, and third-order sequences that are constituted by regularly vertical stacking patterns of meter-scale cycles are marked by sedimentary-facies successions. On the basis of the changing curve of water depth at each section, the curve of the relative third-order sea level changes in the late Cambrian of the North China Platform can be integrated qualitatively from changing curve of water depth. The correlation of Late Cambrian long-term sea level changes between North China and North America demonstrates that there are not only similarities but also differences, reflecting control of long-term sea level changes both by global eustacy and by regional factors.