Tectonic Evolution and Geological Characteristics of Hydrocarbon Reservoirs in Marine Mesozoic-Paleozoic Strata in the South Yellow Sea Basin

The South Yellow Sea Basin is the main body of the lower Yangtze area in which marine Mesozoic–Paleozoic strata are widely distributed.The latest geophysical data were used to overcome the limitation of previous poor-quality deep data.Meanwhile,the geological characteristics of hydrocarbon reservoirs in the marine Mesozoic–Paleozoic strata in the South Yellow Sea Basin were analyzed by comparing the source rocks and the reservoir and utilizing drilling and outcrop data.It is believed that the South Yellow Sea Basin roughly underwent six evolutionary stages:plate spreading,plate convergence,stable platform development,foreland basin development,faulted basin development,and depression basin development.The South Yellow Sea Basin has characteristics of a composite platform-fault depression geological structure,with a half-graben geological structure and with a ‘sandwich structure' in the vertical direction.Four sets of hydrocarbon source rocks developed – the upper Permian Longtan–Dalong formation,the lower Permian Qixia formation,the lower Silurian Gaojiabian formation,and the lower Cambrian Hetang formation/Mufushan formation,giving the South Yellow Sea Basin relatively good hydrocarbon potential.The carbonate is the main reservoir rock type in the South Yellow Sea area,and there are four carbonate reservoir types:porous dolomitic,reef-bank,weathered crust,and fractured.There are reservoir-forming horizons similar to the typical hydrocarbon reservoirs in the Yangtze land area developed in the South Yellow Sea,and there are three sets of complete source-reservoir-cap rock assemblages developed in the marine strata,with very good hydrocarbon potential.

Tectonic evolution and the analysis of unfavorable geology in a tunnel

Based on the theory of geomechanics and using geologic analytical methods,analyed the fault characteristics, mechanical properties, displacement mode, tectonic system, structural pattern, activity mode of stress, tectonic activity, and tectonic evolution ofthe area of the Xiamen submarine tunnel, the strike NWW 295^(。), which is the main unfavorable geological structure that affects the safety of the tunnel construction; the macrogeological prediction concludes that weathered troughs and groundwater-rich zonesformed by its larger-scale fault fracture zones are the main unfavorable geological bodiesprovides a basis for preventing the geo-logical hazards in the tunnel construction.

Tectonic Evolution of the Palaeo——Tethys in Changning——Menglian Belt and Adjacent Regions,Western Yunnan

The Changning-Menglian belt,located between theBaoshan-Gengma massif and the Simao-Lincangmassif in Western Yunnan,preserves the complete recordof a suture zone and the most continuous record of deepwater sedimentation,representing the main branch of thePalaeo-Tethys polyisland ocean in the Hercynian-Indo-sinian stage.This belt could be further subdivided into threetectono-lithofacies zones.In the east zone,terrigenouselastics,argillaceous,marl-argillaceous and silicate sediments lie on the metamorphosed Early Palaeozoic basement in concealed unconformity,representing deep watersediments on a passive continental margin.The centralzone,although the basement rocks are absent fromoutcropping here,includes a contemporary complexof various sedimentary types,among them one type is ofdeep ocean sediments represented by radiolarian beddedchert,appearing from at least early Early Devonian tothe Middle Triassic.Another type includes purecarbonates of the Early Carboniferous to the LatePermian,a type of shallow

Paleozoic tectonic evolution of the eastern Central Asian Orogenic Belt in NE China

The eastern Central Asian Orogenic Belt(CAOB)in NE China is a key area for investigating continental growth.However,the complexity of its Paleozoic geological history has meant that the tectonic development of this belt is not fully understood.NE China is composed of the Erguna and Jiamusi blocks in the northern and eastern parts and the Xing’an and Songliao-Xilinhot accretionary terranes in the central and southern parts.The Erguna and Jiamusi blocks have Precambrian basements with Siberia and Gondwana affinities,respectively.In contrast,the Xing’an and Songliao-Xilinhot accretionary terranes were formed via subduction and collision processes.These blocks and terranes were separated by the Xinlin-Xiguitu,Heilongjiang,Nenjiang,and Solonker oceans from north to south,and these oceans closed during the Cambrian(ca.500 Ma),Late Silurian(ca.420 Ma),early Late Carboniferous(ca.320 Ma),and Late Permian to Middle Triassic(260-240 Ma),respectively,forming the Xinlin-Xiguitu,Mudanjiang-Yilan,Hegenshan-Heihe,Solonker-Linxi,and Changchun-Yanji suture zones.Two oceanic tectonic cycles took place in the eastern Paleo-Asian Ocean(PAO),namely,the Early Paleozoic cycle involving the Xinlin-Xiguitu and Heilongjiang oceans and the late Paleozoic cycle involving the Nenjiang-Solonker oceans.The Paleozoic tectonic pattern of the eastern CAOB generally shows structural features that trend east-west.The timing of accretion and collision events of the eastern CAOB during the Paleozoic youngs progressively from north to south.The branch ocean basins of the eastern PAO closed from west to east in a scissor-like manner.A bi-directional subduction regime dominated during the narrowing and closure process of the eastern PAO,which led to“soft collision”of tectonic units on each side,forming huge accretionary orogenic belts in central Asia.

TECTONIC CHARACTERISTICS AND EVOLUTION OF THE QIANGTANG BASIN IN NORTHERN TIBET PLATEAU

The Qiangtang basin is located in the north of Qinghai—Tibet plateau and sandwiched by Nianqingtangula continental block and Kekexili\|Bayuankal continental block. Its southern boundary is the Bangongfu—Nujiang suture zone and its northern boundary is the Xijinwulan\|Jinshajiang suture zone.The basement of Qiangtang basin is composed f metamorphic rock of Proterozoic age, which can be divided into two parts. The competent lower part with isotope age of 2056～2310Ma experienced multi\|stage deformation and the soft upper part is dated 1111～1205Ma. Within the basin, it groups into Northern Qiangtang Depression, Central Rise and Southern Depressions and are complicated by a number of subdepressions and subuplifts.The strata of Middle Devonian\|Tertiary are overlain on the basement and composed of marine carbonate rocks, clastic rocks and terrestrial sandstone and conglomerate. Several sets of faults and folds have developed in the cover sequence and the deformation is very strong, characterized by orientation, zonation and equidistance in space and by diversity and disharmony in the profile. The major deformation occurred in Yanshan\|Himalayan period.

Mechanism of stepwise tectonic control on gas occurrence: A study in North China

To gain an understanding of gas occurrence, distribution is the fundamental basis for preventing gas disasters. Presently, how tectonic structures control gas occurrence remains problematic. This study proposes the theory and elucidates the mechanism of stepwise tectonic control on gas occurrence according to the characteristics of gas occurrence and the patterns of gas distribution in coal mines in North China. On the one hand, tectonic compression and shearing lead to stress concentration and thus deform the coal and reduce the coal seam permeability, further contributing to gas preservation. On the other hand, tectonic extension and rifting lead to stress release and thus improve the coal seam permeability, further contributing to gas emission. Therefore, the distribution zones of tectonic compression, ubiquitous coal deformation, and gas accumulation have been step-wisely revealed, and the coal-gas outburst proneness zones are finally identified. The proposed theory of step-wise tectonic control on gas occurrence is of practical significance for gas prediction and control.

北-南巴拉望盆地油气地质特征及成藏条件

基于前人区域研究成果与收集到的近年最新地震、钻井等资料,对北-南巴拉望盆地构造-沉积充填演化进行了研究,并进一步分析了北-南巴拉望盆地烃源岩、储集层和圈闭等油气地质特征和成藏条件。研究表明,北-南巴拉望盆地新生代经历了始新世-早渐新世裂陷期、晚渐新世-早中新世漂移期、中中新世前陆期及晚中新世-第四纪拗陷期4个构造演化阶段,其中始新世-早渐新世发育三角洲-滨浅海沉积体系,晚渐新世-早中新世发育碳酸盐岩台地-生物礁-滨浅海沉积体系,中中新世-第四纪发育三角洲-正常开阔海沉积体系。北-南巴拉望盆地发育始新统-下渐新统和上渐新统-下中新统2套烃源岩、下中新统碳酸盐岩和下中新统砂岩2类主要储层以及中中新统-第四系区域性盖层,发育生物礁和构造2类油气藏,具有“下生上储”和“自生自储”2类成藏模式。

阿尔金山冰沟一带花岗岩地球化学特征及对大地构造的演化启示

本文对出露于阿尔金山冰沟构造岩浆岩带内冰沟序列花岗岩进行了岩石学、地球化学、和锆石SHRIMP UPb年代学研究。地球化学特征显示:花岗岩高硅、钠,低铁、镁、钙的特征,铝饱和指数为0.88~1.01,为准铝质“I”型花岗岩;富集Rb,Th和LREE,亏损Ta,Nb,Zr,Hf和HREE;大多具负铕异常,δEu值为0.52~0.62。锆石U-Pb定年结果显示:冰沟序列侵入岩中花岗闪长岩年龄为(410.7±11.9)Ma,二长花岗岩年龄为(418.5±9.6)Ma,辉长岩年龄为(449.5±10.9)Ma。结合区域地质、地球化学特征揭示花岗岩岩体形成于后碰撞伸展阶段,认为同碰撞挤压造山阶段向后碰撞伸展转换阶段时间节点约为440 Ma,后碰撞伸展作用和偏碱性岩浆活动时代为440~410 Ma,持续约30 Ma。晚奥陶世北阿尔金古洋盆闭合,在有限洋盆造山带(冰沟序列侵入岩)形成规模较大的消减活动板块边缘(岛弧或活动大陆边缘)构造岩浆岩带。

华容隆起及周缘第四纪构造-沉积特征与演化

第四纪华容隆起位于江汉—洞庭盆地中带。通过地表地质调查和钻孔资料对华容隆起及周缘第四纪构造-沉积特征与演化进行了研究。华容隆起总体呈EW向展布,北接江汉盆地,南与洞庭盆地安乡凹陷和沅江凹陷相邻,总体轮廓大致受到北面的EW向石首断裂、南西面的NW向南县—黄山头断裂、东面的NNE向砖桥断裂等正断裂所控制。隆起周缘凹陷第四纪各时代地层(冲积和湖积)发育较齐全。隆起内部低洼区及山地区边缘不同程度发育早更新世晚期—全新世沉积,其他地区分布前第四纪基岩或残坡积物。根据地貌、边界断裂、第四纪沉积以及前第四纪基岩分布等,重塑华容隆起和周缘第四纪构造升降活动、沉积和剥蚀特征及演化过程。第四纪初华容隆起内部因先期剥蚀切割而形成原始地貌分异。早更新世早期隆起周边断裂开始伸展活动,江汉盆地、安乡凹陷与沅江凹陷构造沉降并接受沉积,华容隆起遭受风化剥蚀。早更新世晚期—中更新世中期周边断裂继续伸展活动,华容隆起与周缘凹陷均构造沉降,前者沉降幅度较小而相对抬升。华容隆起内低洼地区及周缘凹陷接受沉积,期间在早更新世末有过构造抬升而受到剥蚀。中更新世晚期华容隆起及周边凹陷整体抬升并遭受剥蚀与网纹化,期间有过构造稳定时期并在华容—砖桥主隆起区的边缘形成河流与滨湖沉积。晚更新世区域构造较稳定,于主隆起边缘和外围平原形成冲、湖积。晚更新世末区域海平面大幅下降,导致华容隆起及周缘地区遭受剥蚀。全新世受海平面上升影响,周缘凹陷及隆起内部低洼地带形成河湖相堆积。受先期高地势控制,华容隆起主体、南部的南山次隆以及西部团山次隆局部地区等第四纪期间一直遭受风化剥蚀,部分地区形成较大规模的残坡积。受江汉—洞庭盆地整体沉降控制,华容隆起第四纪期间总体表现为明显的构造沉降。

数字地质调查中多源地学数据在造山带构造单元划分和大地构造演化研究方面的应用--以青海民和地区为例

多源地学数据包括遥感、地球化学和地球物理数据,介绍了利用多源地学数据进行造山带构造单元划分的方法。遥感数据在确定区域构造边界及活动断层方面的应用非常广泛,遥感影像在解译线形构造即断层方面有非常明显的效果,可以根据不同构造单元的影像差异,区分不同的地质体、线性构造及活动断层,同时用遥感数据叠加三维地形数据分析线性构造可以更加直观地解译线性构造。地球化学数据在确定大的构造边界方面具有一定的指示意义,可以根据水系沉积物的地球化学特点,运用因子分析方法确定大的构造边界。地球物理数据提供的是地质体及构造边界在深部的延伸情况,可以为研究断裂的运动学和动力学特征提供证据。

西昆仑及邻区早-中二叠世构造—岩相古地理特征

通过大量野外观察、分析测试和综合研究,结合覆盖全区1∶25万区域地质调查资料及其他前人工作成果,研究了西昆仑及邻区早-中二叠世构造-岩相古地理特征,并探讨了其形成机制。研究表明:西昆仑及邻区早-中二叠世发育典型的沟弧盆系统,自北向南依次发育塔里木陆块、西昆北弧后裂谷盆地、西昆中岩浆弧、西昆南增生楔、玉龙塔格-巴颜喀拉洋盆及甜水海地块。陆相、海陆过渡相、滨浅海相、半深-深海相均有发育,岩相反映的纵向序列表现为海进-海退的旋回性变化,岩浆活动强烈,构造-古地理环境复杂。早-中二叠世是玉龙塔格-巴颜喀拉洋盆扩张最为剧烈且规模为最大时期,主体处于伸展构造背景。中二叠世晚期强烈的华力西构造运动使古板块间的相对运动加剧,玉龙塔格-巴颜喀拉洋盆大洋岩石圈板块向北强烈俯冲,西昆北弧后裂谷盆地形成。早-中二叠世为研究区地球动力学机制从强烈扩张到强烈汇聚的转折时期,加强其构造-岩相古地理特征的研究对建立该区地层序列、探讨其地质演化历史以及指导找矿工作等均具有重要意义。

中国晚新生代构造-沉积-古气候事件的地质记录

中国区域地质调查工作的重点正在转向大面积覆盖区为主的平原、盆地、草原、荒漠等地区,向深部三维调查拓展.第四纪松散沉积层覆盖区区域地质调查的核心是揭示晚新生代地表过程、圈层相互关系,探讨人与自然的关系,服务于国家生态文明建设与生态环境保护.然而,覆盖区进行地质填图一个很大的难处是第四纪松散沉积层的侧向延伸往往很不稳定,要特别重视重要构造-沉积-古气候和古环境事件,如重要的不整合面、侵蚀面、火山岩层、湖相沉积,重要的海侵层、古气候沉积(如黄土、红土、黑土),古文化层等.它们可以作为第四纪松散沉积层侧向对比的重要标志,并且往往具有等时性.东亚大陆构造演化及现代地貌特征主要受两大地球动力系统所控制,西部印度-欧亚板块碰撞、高原快速隆升并向北东方向扩展,东部太平洋板块向欧亚大陆俯冲消减并在东亚大陆东缘形成复杂的沟-弧-盆系统.两大构造系统作用奠定了晚新生代以来中国地质演化背景,导致地球深部过程和地表环境发生重大变革.总体表现为青藏高原隆升、东部岩石圈伸展减薄,最终塑造了现今的宏观地貌形态和水系格局.本文针对第四纪松散沉积物覆盖层的这些特点,对中国晚新生代以来重要构造-沉积-古气候事件进行了梳理,总结了晚新生代这些重要事件的地质记录,特别是重要的沉积层、侵蚀面、不整合面、海侵层等,以便在覆盖区区域地质调查时对第四纪松散沉积层进行区域性对比.

钦-杭成矿带南段(广东廉江)南和地区区域地质特征及构造演化分析

南和地区位于钦-杭成矿带南段的广东廉江幅范围内,该地区的地质特征记录了钦-杭结合带南段的构造演化过程。根据对地层沉积建造的统计,发现研究区沉积地层形成的水动力环境主要为滨海相、浅海相和深海相3种海相沉积以及少量河流相与沼泽相沉积。研究区的岩浆活动具有明显的多期多阶段特征,总体可划分为加里东期和燕山期两个大的构造岩浆旋回。从研究区的岩性变化可以得到南和地区的变质作用规律,岩浆的参与程度因迁移距离的增加而降低,导致距离越远的变质作用与岩浆的关系越低,形成了变质程度逐级降低的混合岩→片岩→千枚岩(图幅外)→变质砂岩。上述区域地质特征反映南和地区主体经历了伸展-挤压地质演化过程,也指示了钦-杭成矿带南段与北段、中段具有类似的大地构造演化历史,即整体"两开、三合"历程。

内蒙古西部苦楚乌拉-英巴地区花岗岩锆石U-Pb定年及地球化学特征

锆石U−Pb定年结果表明,内蒙古西部苦楚乌拉—英巴地区花岗岩包括晚泥盆世二长花岗岩((371±2)Ma)、中二叠世钾长花岗岩((271±1)~(270±1)Ma)和早白垩世二长花岗岩((133±1)Ma)。结合前人资料,将研究区晚古生代以来的酸性岩浆活动分为4期:晚泥盆世(~371 Ma)、晚石炭世(313~311 Ma)、早—中二叠世(282~270 Ma)和早白垩世(133~130 Ma)。地球化学组成上,晚泥盆世二长花岗岩属于非典型的S型花岗岩,反映了一种后碰撞的构造背景,一方面说明珠斯楞—杭乌苏构造带在石炭纪之前已经开始出现岩浆活动,另一方面可能也恰好反映了哈萨克斯坦+塔里木+华北板块与西伯利亚板块拼合时间的下限;中二叠世钾长花岗岩则属A型花岗岩,反映了地壳伸展减薄的构造背景,与同时期区域强烈的拉张构造背景具有良好的对应关系;早白垩世二长花岗岩与晚泥盆世二长花岗岩具有相似的地球化学特征,同样反映了一种后碰撞的构造背景,与同时期区域后碰撞的拉张构造背景一致。

西藏麻米地区晚侏罗世—早白垩世侵入岩锆石U-Pb年龄、地球化学特征及其对班-怒特提斯洋俯冲过程的制约

班公湖-怒江缝合带南、北两侧分布的大量中生代火成岩对约束班公湖-怒江特提斯洋演化过程具有重要意义。通过班公湖-怒江缝合带南侧麻米乡一带酸性侵入岩的锆石U-Pb年龄及地球化学特征研究,获得花岗斑岩^(206)Pb/^(238)U年龄加权平均值为146~145 Ma,花岗闪长岩为140 Ma,代表这套侵入岩的形成时代为晚侏罗世末期—早白垩世早期。花岗斑岩与花岗闪长岩均显示出较高的SiO_(2)(69.12%~76.54%)和Al_(2)O_(3)(12.44%~14.93%)含量及较低的MgO含量(0.19%~0.89%),属弱过铝质—强过铝质钙碱性花岗岩;同时富集大离子亲石元素Rb、K,亏损高场强元素Nb、Ta、Ti等;稀土元素总量较低(∑REE=129×10^(-6)~201×10^(-6)),分馏程度较高(LREE/HREE=2.06~9.18),呈现出轻稀土元素富集、重稀土元素亏损的特征,并具有负Eu异常,接近活动大陆边缘酸性岩浆岩的稀土元素配分模式。综合分析,麻米晚侏罗世—早白垩世酸性侵入岩主要来源于古老地壳物质的部分熔融,岩浆演化过程经历了分离结晶作用。这套侵入岩表现出火山弧型性质,形成于俯冲的构造背景。结合前人研究与区域资料,认为班公湖-怒江洋晚侏罗世—早白垩世存在南向俯冲,形成了区域上的措勤-申扎构造岩浆弧,进一步证实班公湖-怒江特提斯洋在晚侏罗世—早白垩世发生了双向俯冲,为特提斯的构造演化提供了新的岩石学证据。

新疆北部友谊峰一带喀纳斯群碎屑锆石U-Pb年龄及其对阿尔泰造山带构造演化的启示

新疆北部阿尔泰山西段友谊峰一带发育的喀纳斯群碎屑沉积岩中保留了大量的古陆缘演化及沉积、变质等地质信息。采集了2个层位的碎屑锆石进行同位素年龄研究,结果显示:2套碎屑岩的锆石U-Pb年龄分布特征相近,最年轻的岩浆锆石年龄分别为546±4 Ma和545±4 Ma,代表了沉积时代的下限;较老的锆石年龄可分为太古宙的3063±16 Ma、2548±18 Ma和2541±18 Ma,古—中元古代的2223~1463 Ma,新元古代的985~781 Ma,据此推断,沉积物源存在前寒武纪结晶基底;较新的锆石变质年龄为421~429 Ma,与阿尔泰地区强烈的岩浆活动时间相近,可能与地层遭受后期的热液变质事件有关。结合地质构造演化,表明新疆北部地区大致经历了太古宙陆核形成阶段、Columbia超大陆形成和演化阶段、Rodinia超大陆汇聚和裂解阶段、震旦纪—寒武纪复理石沉积阶段,以及加里东期剧烈岩浆活动阶段。

阿拉伯地盾地质构造演化与关键地质矿产问题浅析

阿拉伯地盾位于阿拉伯板块的西南部,与红海西岸的努比亚地盾共同组成努比亚−阿拉伯地盾,是新元古代东、西冈瓦纳大陆汇聚过程中形成的泛非造山带的重要组成部分。在“沙特阿拉伯地盾精细地质填图”技术标编制过程中,笔者综合分析了该区的地质调查和研究成果,总结了阿拉伯地盾8个次级地体、主要蛇绿岩构造混杂岩带及新元古代沉积盆地的地质特征,并将阿拉伯地盾的地质演化细分为4个构造演化阶段。其中,在新元古代洋−陆转化过程中阿拉伯地盾形成了一系列重要的矿产资源。在此基础上,系统梳理了区内地层、构造、岩浆作用及与成矿相关的地质问题,提出了未来精细地质填图过程中的工作建议。

石钱滩凹陷地质结构及构造演化

准噶尔盆地石钱滩凹陷大井1石炭系巴山组发育天然气藏(胡自龙等,2019),钱1井二叠系平地泉组发育致密油藏(王越等,2021),整体具有较大的勘探潜力。前人针对石钱滩凹陷开展了古生物、古气候以及沉积体系方面的研究,而关于凹陷地质结构以及构造演化规律的研究较少,导致关键成藏要素以及油气有利聚集区不明确,严重制约了油气勘探部署。

涠西南凹陷D洼复杂地质结构成因及成藏主控因素

D洼是涠西南凹陷又一个被证实的富生烃次洼,但地质结构复杂,对其成因演化规律及油气成藏富集规律的认识,直接影响着对下步勘探实践的指导。该文立足对D洼地质结构的解剖,从区域构造运动、应力演化机制方面进行分析,明确了不同构造单元的断裂演化特征以及油气成藏主控与富集因素的差异,认为古隆背景、断砂输导与封堵等要素对W油田涠洲组油气成藏起主要控制作用,进而指明D洼的缓坡带与陡坡带是涠洲组与流沙港组油藏勘探的有利区,而洼槽带具备隐蔽油藏与页岩油的勘探潜力。该研究对下步研究攻关与勘探方向选择具有大的指导意义。

西藏班戈县冈瓦纳相冰碛岩的发现及其对北拉萨地块构造演化的启示——来自1∶50000专题地质调查的新证据

【研究目的】拉萨地块作为构成青藏高原的最主要陆块之一,其构造格局的划分对深入理解特提斯洋的时空分布格局具有重要科学意义。一般来说,拉萨地块可进一步划分为北拉萨、中拉萨和南拉萨地块,但关于各地块基底属性、漂移历史、增生过程及构造亲缘性等仍不明确。【研究方法】本文报道了笔者等在北拉萨地块北拉地区开展1∶50000专题地质调查期间,在原划定的中—上侏罗统拉贡塘组中发现了大面积出露的典型冰碛岩与震积岩。【研究结果】它们与中拉萨地块申扎地区的上石炭统—下二叠统拉嘎组可对比,是冈瓦纳大陆北缘晚古生代冰期事件的记录。冰碛岩中可见明显冰筏作用形成的冰海相砾石稀散分布在砂质、粉砂质和泥质基质中,具坠石构造。震积岩以震褶岩和震裂岩为主,发育微褶皱、砂(泥)岩脉、同震节理、内碎屑副角砾岩、阶梯状断层和火焰构造等同生或准生地震沉积记录。【结论】北拉地区拉嘎组冰碛岩的发现表明,北拉萨地块与中拉萨地块具有类似的基底,它可能是在陆壳基础上逐渐形成的增生型微陆块,其形成与班公湖—怒江洋的俯冲消减密切相关,这为深入理解北拉萨地块的构造属性提供了关键证据。