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1.
ENG Mohammed Al Zubairi 《世界地质(英文版)》2001,4(2)
The Red Sea is a pericratonic upper Tertiary basin which developed on the continental margin of Arabia. It is characterized by halokinetic tectonics in the upper structural stage and block- Rifting in the lower structural stage. This margin is overprinted on a Pre - rift Mesozoic platform. Hydrocarbon exploration interest in the Yemeni Red Sea sector and Offshore area (Tihama Basin) is based on three objectives, which cross pond to stages in geotectonic evolution; Mesozoic Pre - rift targets; Miocene Syn- Rift Salt targets; and upper Miocene- Pliocene Post - rift drift sequences. Reservoirs with appropriate sealing units ( salt or shale ) have been recorded. Models of source rock maturation using observed geothermal gradients are consistent with analytical results, and prove of oil and gas generation. Most traps are described as faulted, fault - blocks, listric - faults or structural. The evaporite group mainly consists of Halite and Anhydrite, that exhibits a strong halokinesis affecting a structural style- of Infra and Intra evaporite sequences in offshore (Tihama basin ). 相似文献
2.
The pre-Eocene history of the region around the present South China Sea is not well known. New multi-channel seismic profiles provide valuable insights into the probable Mesozoic history of this region. Detailed structural and stratigraphic interpretations of the multi-channel seismic profiles, calibrated with relevant drilling and dredging data, show major Mesozoic structural features. A structural restoration was done to remove the Cenozoic tectonic influence and calculate the Mesozoic tectonic compression ratios. The results indicate that two groups of compressive stress with diametrically opposite orientations, S(S)E– N(N)W and N(N)W–S(S)E, were active during the Mesozoic. The compression ratio values gradually decrease from north to south and from west to east in each stress orientation. The phenomena may be related to the opening of the proto-South China Sea(then located in south of the Nansha block) and the rate at which the Nansha block drifted northward in the late Jurassic to late Cretaceous. The Nansha block drifted northward until it collided and sutured with the southern China margin. The opening of the present South China Sea may be related to this suture zone, which was a tectonic zone of weakness. 相似文献
3.
通过对胶北臧家庄盆地中生代火山岩系的构造位置、产出状态、岩石特征、地球化学特征、相序列组合及同位素年龄等资料的综合分析,结合区域构造特征,认为其属中国东部中生代火山岩带之桃村—莱阳火山 沉积盆地构造组成部分;岩石类型为玄武岩、安山岩、英安岩及流纹岩等,属钙碱性系列,按相序列可划分为安山质岩系、英安质岩系及凝灰质粘土岩三个相组;构成两个火山旋回。 相似文献
4.
Sedimentary basins in the Yellow Sea can be grouped tectonically into the North Yellow Sea Basin (NYSB), the northern basin of the South Yellow Sea (SYSNB) and the southern basin of the South Yellow Sea (SYSSB). The NYSB is connected to Anju Basin to the east. The SYSSB extends to Subei Basin to the west. The acoustic basement of basins in the North Yellow Sea and South Yellow Sea is disparate, having different stratigraphic evolution and oil accumulation features, even though they have been under the same stress regime since the Late Triassic. The acoustic basement of the NYSB features China-Korea Platform crystalline rocks, whereas those in the SYSNB and SYSSB are of the Paleozoic Yangtze Platform sedimentary layers or metamorphic rocks. Since the Late Mesozoic terrestrial strata in the eastern of the NYSB (West Korea Bay Basin) were discovered having industrial hydrocarbon accumulation, the oil potential in the Mesozoic strata in the west depression of the basin could be promising, although the petroleum exploration in the South Yellow Sea has made no break-through yet. New deep reflection data and several drilling wells have indicated the source rock of the Mesozoic in the basins of South Yellow Sea, and the Paleozoic platform marine facies in the SYSSB and Central Rise could be the other hosts of oil or natural gas. The Mesozoic hydrocarbon could be found in the Mesozoic of the foredeep basin in the SYSNB that bears potential hydrocarbon in thick Cretaceous strata, and so does the SYSSB where the same petroleum system exists to that of oil-bearing Subei Basin. 相似文献
5.
鄂尔多斯盆地北部中新生代构造特征及其演化 总被引:8,自引:0,他引:8
根据地震、地质等资料,结合野外地质及前人研究成果,对鄂尔多斯盆地北部中生代晚期以来后期改造特征进行了研究。结果表明,盆地周缘和内部在中新生代都受到后期改造作用,周缘存在挤压逆冲推覆和拉张断陷等不同性质的构造改造作用。在盆地北部,盖层中的构造受到了基底断裂的控制,正断层、逆断层和由基底断裂控制的挠曲构造等有规律发育,根据构造的发育特点将盆地北部分为东胜、三眼井、准格尔旗、鄂托克旗、乌审旗—榆林和定边—绥德构造区。自侏罗纪以来,盆地经历了萎缩消亡和周缘逆冲构造带的形成、挤压隆升剥蚀和拉张隆升剥蚀3大构造演化阶段,现今构造是中新生代多期构造作用的结果。 相似文献
6.
Yong Yuan Jianwen Chen Yuxi Zhang Jie Liang Yinguo Zhang Penghui Zhang 《中国海洋大学学报(英文版)》2018,17(5):1075-1090
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. 相似文献
7.
As one of the biggest marginal seas in the western Pacific margin, the South China Sea (SCS) experienced continental rifting and seafloor spreading during the Cenozoic. The northern continental margin of the SCS is classified as a passive continental margin. However, its depositional and structural evolution remains controversial, especially in the deep slope area. The lack of data hindered the correlation between continental shelf and oceanic basin, and prevented the establishment of sequence stratigraphic frame of the whole margin. The slope basins in the mid-northern margin of SCS developed in the Cenozoic; the sediments and basin infill recorded the geological history of the continental margin and the SCS spreading. Using multi-channel seismic dataset acquired in three survey cruises during 1987 to 2004, combined with the data of ODP Leg 184 core and industrial wells, we carried out the sequence stratigraphic division and correlation of the Cenozoic in the middle-northern margin of SCS with seismic profiles and sedimentary facies. We interpreted the seismic reflection properties including continuity, amplitude, frequency, reflection terminals, and 15 sequence boundaries of the Cenozoic in the study area, and correlated the well data in geological age. The depositional environment changed from river and lake, shallow bay to open-deep sea, in correspondence to tectonic events of syn-rifting, early drifting, and late drifting stages of basin evolution. 相似文献
8.
以隆断区和断陷盆地地壳厚度的显著差异,隆断区与盆地分界的深大断裂(边缘断裂,与地幔斜坡对应),隆断区和盆地的岩浆作用及现代地热活动,盆地沉降历史四个地质特征为依据,作者认为本区盆岭构造形成的动力学机制是:中新生代上地幔起伏和下地壳不均匀岩浆熔融并由此产生的岩浆作用和热能、重力地质作用等引起的物质膨胀和岩浆侧向上侵入、岩浆冷凝和体积收缩导致同沉积断层运动,形成本区盆岭构造。 相似文献
9.
IntroductionBoli basin, in the east of Heilongjiang Province,is an arc basin protruding southwards which ispressed by two region81 lithospheric fau1t zones:Yishu fault zone and Dunmi fault zone (Wan Tian-feng, l996). The basin is about 240km long and60km … 相似文献
10.
Boli basin, between Yishu fracture belt and Dunmi fracture belt, is the biggest Mesozoic coal basin in the east of Heilongjiang Province. Now it is a fault - fold remnant basin. The basin' s shape is generally consistent with the whole distribution of the cover folds, an arc protruding southwards. The basement of the basin can be divided into three fault blocks or structural units. The formation and evoluation of the basin in Mesozoic was determined by the basement fault blocks' displacement features rusulted from by the movement of the edge faults and the main basement faults. 相似文献
11.
《中国海洋湖沼学报》2021,(5)
To reveal the tectonic characteristics of the continental margins in the southwest subbasin(SWB) of the South China Sea,a long high-resolution seismic profile was studied using empty basin subsidence.We find that tectonic subsidence features on both margins are uniformly divided into three stages:(1) slow subsidence from Tg to 18.5 Ma(synrift stage);(2) extremely slow subsidence/uplift from18.5 to 16 Ma(spreading stage);and(3) accelerated subsidence from 16 to 0 Ma(post-spreading stage).This feature differs from the classic tectonic subsidence pattern of rifted basins,which exhibits fast subsidence during synrift stage and slow subsidence during the post-rift stage.The tectonic uplift occurred during the spreading stage and the magnitude increased from the continent to the ocean,which is likely related to mantle flow during seafloor spreading.We propose that lower crustal flow played a significant role in the tectonic evolution of the continental margins of the SWB.The lower crust of the SWB margins was warmer and therefore weaker,and more prone to flow beneath the faulting center,which compensated for the upper crustal thinning caused by brittle faulting during the synrift period and thus reduced the tectonic subsidence rate.During the spreading stage,faulting attenuated rapidly,and a necking zone appeared at the continentocean transition formed by lithospheric extension.With upwelling asthenosphere,small-scale secondary mantle convection occurred under the necking zone,which raised the continental margin isotherms and increased the buoyancy.Simultaneously,secondary mantle convection lifted the overriding crust,thus the overall subsidence rate decreased sharply or even reversed to uplift.After seafloor spreading,the effect of mantle convection faded away,and sediment loading drove the lower crust to flow landward.Thermal relaxation,lower crust flow,and vanish of secondary mantle convection together led to rapid subsidence in this stage. 相似文献
12.
To investigate the thermo-rheological structure and passive continental margin rifting in the Qiongdongnan Basin(QDNB),thermo-rheological models of two profiles across the western and eastern QDNB are presented.The continental shelf of western QDNB,having the lowest crustal extension factor,is recognized as the initial non-uniform extension crust model.This regime is referred to as the jelly sandwich-1(JS-1)regime,having a lower crustal ductile layer.The oceanward part of the western QDNB changes from the relatively strong JS-1 to the weak crème br?lée-1(CB-1)regime with a significantly thinned lower crust.However,the crustal extension in the eastern QDNB is significantly higher than that in the western QDNB,with conjugate faults extending deep into the lower crust.The central depression zone of the eastern QDNB is defined as the much stronger JS-2 regime,having a brittle deformation across the entire crust and upper mantle and characteristics of a cold and rigid oceanic crust.Unlike the widespread lower crustal high-velocity layers(HVLs)in the northern margin of the South China Sea,the HVLs are confined to the lower crustal base of the central depression zone of the QDNB.The HVLs of QDNB are the results of non-uniform extension with mantle underplating during the lower crustal-necking stage,which is facilitated by the lower crustal ductile layer and derived by mantle lat-eral flowing.The gigantic mantle low-velocity zone related to the Red River Fault should be a necessary factor for the east-west differential margin rifting process of QDNB,which may drive the lateral flowing in the mantle. 相似文献
13.
14.
This paper features the structural evolution of the eastern margin of Eurasia in Late Mesozoic and Cenozoic.It is characterized by three stages of development: the riftogenic stage (Jurassic-Early Cretaceous), the platform stage (Late Cretaceous) and the neotectonic one (Paleogene-Quarternary). The boundaries between these stages are distinctly fixed by the geological time limits of planetary range. It is demonstrated that the riftogenic and neotectonic stages were characterized by a high degree of geodynamic activity, and the platform one by a decrease in contrast of tectonic movements. The main river net was formed in the Early Cretaceous and in the Neogene. It experienced a serious reconstruction accompanied by the formation of the Amur River valley being similar to the modem one. 相似文献
15.
转换型边缘盆地是一类特殊的大陆边缘盆地,前人对其研究较少,随着近十几年在转换型边缘盆地的一系列重大油气发现,该类型盆地越来越受到重视。但在盆地边缘转换断层的识别解释、转换断层对盆地构造格局的影响以及转换断层相关的火山活动对盆地的影响方面等研究仍相对较少。以典型的转换型边缘盆地——科特迪瓦盆地为研究对象,从盆地的转换边缘入手,利用多种数据综合分析,识别出转换型边缘盆地的两类转换边缘——转换型边缘和过渡离散型边缘,并分别总结了其各自特征;对比了两类转换型边缘在地层发育、断裂体系、火山活动以及应力场等方面存在的差异及其对盆地造成的影响。研究结果表明,典型的转换型边缘盆地具有转换型边缘和过渡离散型边缘两种不同类型的洋陆过渡边缘;两类边缘在接触关系、火山活动强度、对早期地层的改造作用等方面具有显著差异;转换型边缘盆地结构受早期断裂和转换断裂的双重控制,受多期构造运动改造,拉张与走滑应力叠加,使早期断裂具有走滑和拉张双重性质,多期的改造作用对油气运聚及保存具有显著影响。转换断层附近早期断裂可能会发生反转作用,断裂性质发生改变,形成挤压构造或地层反转。 相似文献
16.
冷家溪群是江南造山带湖南段的最早物质纪录,其沉积构造背景及相关的钦杭结合带位置尚存争议。在野外地质调查基础上,对湘东北金井地区冷家溪群早期-中期相对新鲜砂岩采样进行系统的主量元素和微量元素含量分析,进而按时代先后对砂岩分组并进行地球化学研究,以此探讨沉积期盆地性质及大地构造格局。金井地区冷家溪群砂岩的主量元素组成变化较大,SiO2质量分数总体较低、Al2O3质量分数和Al2O3/SiO2比值较高、K2O/Na2O比值高且变化大。轻稀土富集、重稀土平坦、铕负异常明显等特征暨球粒陨石标准化曲线形态与典型的后太古宙页岩和上陆壳相似。主量元素地球化学特征反映沉积环境为弧后盆地,且早期易家桥组和潘家冲组的成熟度较高,主要来源于北邻构造相对稳定的扬子陆块南缘;中期雷神庙组-黄浒洞组的成熟度较低,可能更多来源于南邻构造相对活动的大陆岛弧。各组地层构造环境微量元素判别图解均显示为大陆岛弧环境,但从微量元素特征对母岩的继承性分析,仍反映出弧后盆地环境;有关微量元素参数的相对大小指示早期沉积环境为活动陆缘、中期沉积环境为大陆岛弧,与主量元素特征反映的信息一致。根据上述地球化学证据,提出冷家溪期构造格局与演化过程:早期受古华南洋板块向北西高角度俯冲影响,弧后软流圈上涌导致岩石圈伸展而形成宽阔的弧后盆地,金井地区处于盆地北部而主要接受北邻扬子陆块来源沉积;中期古华南洋板块俯冲角度变缓并推动大陆岛弧向北西运移,弧后盆地收缩,金井地区因构造迁移而主要接受南邻大陆岛弧来源沉积。结合区域资料,认为弧后盆地南邻大陆岛弧大体在安仁-双牌一线。 相似文献
17.
胶莱盆地东北缘为胶东东部地区重要金矿成矿区,宋家沟金矿床为该区典型的蚀变岩型金矿床,该矿床的形成与分布受盆地及盆缘断裂的约束和控制,金矿体呈斜列展布,成群成带密集产出,矿体规模不等,品位、厚度及产状变化大。崖子断裂为该金矿床的导矿构造,荆山群及莱阳群为金矿矿源层,盆缘断裂所派生的NE向次级断裂严格控制着金矿体的产出,矿床成因为中温热液脉型金矿床。通过对矿床地质特征、矿石特征、金矿物特征及矿床成因等方面的研究和对找矿标志的总结,指出该区找矿方向,认为盆地边缘并在盆缘次级断裂发育地区找矿潜力较大,对中生代盆地边缘地区找矿具有一定的指导意义。 相似文献
18.
随着全球油气勘探的不断深入,北大西洋极地逐渐成为油气勘探研究的前沿领域,而扬马延矿区勘探程度极低。基于中海油冰岛矿区新采集的地震及重磁资料,结合其他有关扬马延微陆块最新的研究资料,开展了扬马延微陆块的地层和构造特征分析,以及与共轭盆地的对比,建立了扬马延火山型被动陆缘远端带的构造演化模式。研究表明:位于北大西洋格陵兰与挪威之间海域的扬马延微陆块,与北大西洋两侧陆架盆地古生代-中生代地层具有共轭特征;构造呈NE-SE向展布,发育拆离断裂体系,与挪威西部陆架盆地中生界拆离断裂体系具有相似性;构造内部受岩浆侵入及喷出等强烈影响,发育向海倾斜反射层(SDR)及岩浆溢流相沉积。在上述研究基础上,探讨了扬马延微陆块与格陵兰古陆和波罗的海古陆拉断分离的构造演化过程,认为扬马延在古生代-中生代与格陵兰古陆和波罗的海古陆为一体,在经历了古生代-中生代陆内碰撞、弱伸展到陆内裂谷和陆内热沉降后,受北大西洋拉开影响,经历了古近纪和新近纪火山型被动陆缘远端带的形成演化过程,在55 Ma第一次洋中脊扩张期,与波罗的海古陆挪威陆缘盆地分离,在25 Ma第二次洋脊跃迁时期,新生洋脊扩张导致扬马延微陆块与格陵兰古陆分离,在沉积与构造上开始与北大西洋火山型被动陆缘盆地产生分异,最终扬马延微陆块成为孤立在洋壳上的一个"弃子"。本次关于扬马延微陆块的研究揭示了火山型被动陆缘远端带在岩浆活动、拆离断裂作用下,减薄-破裂的残余陆壳及内部新生洋壳的构造面貌及板块构造背景下的演化过程。 相似文献
19.
缅甸安达曼海弧后坳陷天然气成藏要素及成藏模式 总被引:1,自引:0,他引:1
缅甸安达曼海已成为中国石油企业的重要海外探区之一。受印度板块向欧亚板块和西缅甸微地块多期斜向俯冲的影响,该区先后经历了被动陆缘、过渡型陆缘及主动陆缘的演化阶段,盆地属性与油气成藏特征极为复杂。通过系统梳理安达曼海弧后坳陷的烃源岩、储盖层、圈闭、输导体系与油气生-运-聚匹配史等成藏要素,总结出该区油气成藏主控因素。结果表明:本区发育渐新统—下中新统、中中新统与上新统3套泥质烃源岩,前二者为成熟烃源岩,后者为生物气源岩;岛弧带上碳酸盐岩礁体与斜坡带上砂体的储集条件良好;斜坡带继承性古隆起之上的断背斜圈闭容积大;高角度张性断裂与连通性砂体分别构成以垂向、侧向为主的输导体系。结合油气成因、运移方式与圈闭类型的主要特征,建立了2种成藏模式:①中央凹陷带浅层生物气或混源气垂向运移断块圈闭成藏模式;②东部斜坡带、西部斜坡和岛弧带热解气侧向运移断背斜-岩性圈闭成藏模式。西部斜坡及岛弧带上的碳酸盐岩礁体和东部斜坡带继承性古隆起之上的大型断背斜是有利勘探目标。 相似文献
20.
1IntroductionThe south of the Far East comprises the largest mountain-folded and platform structures in the east-ern margin of Eurasia. The former ones are the Stanovoy, Yankan-Tukuringra-Dzhagdy, Turan, Bu-reya, Amur-Tugur and Sikhote-Alin arched and arched-block uplifts separated by the systems of in-termontane depressions (Tynda-Zeya, Khingan-Ni-man, etc.) with the inner small basins (Uda-Zeya, Upper Bureya, Mid-Amur, Konino-Khurmulinskiy, Lower Amur) (Fig.1). The Aldan shield a… 相似文献