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1.
《海洋地质与第四纪地质》2016,(4)
南海北部陆缘发育潜在油气储层,也是当前南海深水油气勘探的热点区域。然而深水区由于缺少钻井资料,地震资料就成为最主要的研究手段。基于大面积高分辨率三维地震数据,通过剖面地震相分析、三维地震数据体切片、层间属性计算分析、三维可视化等地震解释技术,在白云凹陷晚新生代地层中识别出两套深水水道沉积体系,分别为早中新世晚期发育早期水道体系和自中中新世发育至今的后期水道体系。早期水道体系为单条主干水道为主要沉积区域的沉积体系,识别出水道底部充填、堤岸以及侧壁滑塌等沉积微相;根据地震相变化,发现水道演化分为两个期次:第一期水道下切侵蚀较强,具有"V"形谷底,第二期下切相对较弱,具有"U"形谷底。后期水道体系为一系列彼此平行并置,并近于垂直横切陆坡的水道体系,演化至现今海底;可以识别出底部滞留、侧壁滑塌以及侧壁加积等沉积类型;后期水道体系共发育4个期次,发育时间分别为13.8~12.5、12.5~10.5、10.5~5.5和5.5~0Ma。白云凹陷晚新生代水道体系表现出对沉积物较好分异和筛选,具有重要的油气资源效应:早期水道体系与上覆正常半深水泥质沉积组成良好储盖组合;后期水道体系发育至今,对于形成高富集度的砂岩型水合物储层具有重要意义。 相似文献
2.
刚果扇是渐新世以来快速堆积的巨型深水扇体,浊积水道广泛发育,油气成藏条件优越。精细标定水道集中发育的年龄、期次及其与同期地质事件之间的关联,对认识水道发育的主控因素和分布规律具有重要意义。基于测井、地震和古生物资料的综合分析,将盆地北部渐新统—中新统划分为2个二级层序、8个三级层序;通过微体古生物带和海平面变化旋回精细确定了各层序界面的年龄;进而在层序格架内明确了刚果扇北部浊积水道的发育期次和演化规律,认为刚果扇在盆地北部可划分为3个演化期次,即渐新世晚期快速填充期、中新世早—中期稳定沉积期和中新世晚期大规模水道发育期。实验研究发现,盆地中新统孢粉化石由早到晚出现水藓孢属-栎粉属、光面球藻属-盘星藻属-单束松粉属、拟桫椤孢属-凸瘤水龙骨单缝孢属、粗肋孢属-水龙骨单缝孢属-拟桦粉属4种组合类型,表明盆地中新世气候变化频繁,且大规模水道发育期与降温事件及海平面快速下降期高度吻合。此外,3次大规模水道发育期与西非海岸3次构造抬升事件关系密切。由此认为,刚果扇浊积水道的发育直接受控于降温事件,而构造隆升是源头性的触发因素。 相似文献
3.
珠江口盆地中部珠海组—珠江组层序结构及沉积特征 总被引:3,自引:0,他引:3
南海北部珠江口盆地珠海组分为SQ32、SQ25.5两个三级层序,珠江组划分为SQ23.8、SQ21、SQ17.5和SQ16.5四个三级层序,其中前3个层序分为水进域、高位域,后3个层序分为低位域、水进域和高位域。珠江组初期的白云运动使珠海组的浅水陆架环境变更为珠江组的陆架-陆坡沉积环境,造就了古地貌的更迭、层序界面的形成和沉积相的突变。层序界面在陆架主要为粗粒沉积物形成的侵蚀界面、浅水暴露界面,而陆坡为下切水道、丘状扇体底部侵蚀界面和滑塌层。层序的更迭使古珠江三角洲物源供给强度呈现强-弱-强-弱的特点,即珠海组时期的三角洲为陆架三角洲,沉积规模大;之后珠江组物源变弱,珠江组各层序低位域形成陆架边缘三角洲,水进域、高位域演化为陆架三角洲。低位期的三角洲前缘带越过坡折带沉积,并与陆架外的峡谷水道相连,三角洲进积、加积的碎屑沉积物向上陆坡内的白云凹陷内沉积,形成深水扇。因此,相对海平面变化、构造升降和沉积物供给强度控制着层序结构和沉积体展布。 相似文献
4.
南海北部白云深水区水道与朵体沉积序列及演化 总被引:1,自引:0,他引:1
近年来,深水水道、朵体已成为油气勘探的重要目标,南海北部白云深水区发育大量深水水道-朵体沉积体系。研究现今陆坡深水沉积过程有助于揭示深海沉积分布、沉积演化规律。在回顾深水层序地层研究的基础上,利用近地表高分辨率三维地震资料所揭示的地震反射(下超点和上超点迁移)特征研究深水沉积序列,初步探讨不同时期深水水道-朵体体系沉积动力机制,深水水道-朵体体系具有垂向的前积、加积和退积特征,并提出一种深水水道-朵体体系沉积层序模式,低位体系域早期,发育碎屑流或滑块为主的水道-朵体体系,后期则转化为浊流为主的水道-朵体体系。在深水等时地层格架内研究现代深海沉积过程及其产物,对深水储层预测具有十分重要的意义。 相似文献
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近年来,深水水道已成为油气勘探的重要目标,加强深水水道内部沉积单元以及沉积演化的研究对于深水油气勘探来说至关重要。基于3D地震资料,利用地震属性、地震相等研究下刚果盆地深水水道的内部沉积单元及演化规律。研究表明,研究区深水水道发育底部滞留沉积、水道侧壁滑塌沉积、侧向加积体、堤岸沉积、废弃水道5种沉积单元。深水水道形成于复杂的多期侵蚀-充填过程,纵向演化可划分为水道过路侵蚀、侧向迁移水道、高弯度垂向加积水道、水道堤岸复合体和废弃水道5个阶段,各个阶段水道内充填结构和水道平面展布特征呈现有规律的变化。水道的5个演化阶段是一个水道完整的演化模式,海平面变化、重力流供给、陆坡均衡剖面等共同控制着深水水道的演化。 相似文献
6.
南沙群岛海域北康盆地生物礁高精度层序地层学及其新近纪生物礁层序演化模式 总被引:1,自引:0,他引:1
新近系生物礁油气储层是南海含油气盆地油气勘探两大主力目的层系之一,过去有关其高精度层序地层学和层序演化模式的研究不多.为此,通过对北康盆地2万余公里地震资料的精细解释和钻井资料的综合研究,获得了以下重要成果:1)识别划分出该盆地新近纪11条主要等时界面、7个三级层序和基本层序组.2)描述了生物礁低位体系域、海侵体系域和高位体系域地震反射结构特征.3)提出南海首个中中新世生物礁高精度层序演化模式,代表中中新世(16.3-10.4Ma BP)海宁期(T13-T2)生物礁的剖面形态,含由1个低位体系域层序单元+5个高位体系域层序单元构成的一个典型海进体系域和由1个早期高位体系域层序单元+1个晚期高位体系域层序单元构成的1个典型高位体系域;可见中中新世完整海进-海退旋回生物礁发生、发展和消亡的过程.通过与曾母盆地中新世生物礁解释剖面对比,指出该模式具有区域性古海洋学代表意义.4)通过对L礁、西琛一井和南海-地中海中新世古海洋演化研究,确定研究区中中新世分别发育5-8个海平面升降旋回,形成晚中新世"南中国海事件",具有冰川型海退性质,可与全球和南海北部特别是与"Missinian"事件对比;确定北康盆地乃至南海新近系生物礁形成至逐渐消亡,也是新构造运动与新近纪古海洋事件共同作用的结果.5)指出L礁气田发现有9.8Ma BP、13.8Ma BP、14.5Ma BP和15.5Ma BP等多个层序界面,分别系高孔渗层段;同期南海礁型油气圈闭层序界面当为优良储层;若其为油气充满,则油气"高产"或构成"高压气包".以上成果,将有助于对全球变化及南海古海洋区域响应过程与结果的理解,并对南海的油气勘探有启示作用. 相似文献
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琼东南盆地北礁凹陷梅山组单向迁移水道特征及成因探讨 总被引:2,自引:1,他引:1
深水区重力流与底流交互作用的过程、响应及动力学机制是海洋沉积学研究的前沿和薄弱环节。本文通过三维地震资料,在深水区北礁凹陷南西部梅山组发现多条相间分布的长条形顺直强振幅水道,垂直于西沙隆起(南部隆起)北斜坡走向,向南西方向单向迁移,水道具有南西陡(凹岸或陡岸)北东缓(凸岸或缓岸)的特征,该类水道分为侵蚀界面和水道砂-堤岸泥过渡复合体系两个单元,侵蚀界面在凹岸的削截反射明显多于凸岸,水道砂-堤岸泥过渡复合体振幅强度由凹岸强振幅逐渐过渡为凸岸弱振幅。分析认为,该类水道发育于中中新世半深海环境,不同于向底流下游方向单向迁移的峡谷,它们向底流上游方向发生单向迁移,并提出其成因模式:前期来自南部的浊流下切形成负向地貌单元(水道),底流对这一地貌单元进行改造,形成迎流面缓(凸岸)背流面陡(凹岸)的地貌,同时驱使浊流上部顺底流方向偏移,形成溢岸浊流沉积,致凹岸沉积速率低,凸岸沉积速率高,这样就迫使水道逆底流方向偏移。沉积物源、中层水相关底流、古气候和海平面的变化、北礁凸起古地形控制是该区单向迁移强振幅水道发育的因素。本研究在南海首次发现这种向底流上游方向单向迁移的水道,是底流与重力流交互作用的新型类型,对古海洋、古气候研究,深水油气勘探有着重要的意义,希望引起地质学家的重视。 相似文献
8.
《海洋地质前沿》2017,(10)
琼东南盆地陵水凹陷构造演化及其对深水大气田形成的控制作用成为深水区研究的热点。利用钻井地质、地震勘探资料,运用层序地层学、构造解析方法,认识了陵水凹陷的构造动力学机制和构造变形;探讨了陵水凹陷构造演化及其对深水大气田形成的控制作用;提出了陵水凹陷经历了古新世—始新世断陷、渐新世坳—断、早中新世断—坳和中中新世—更新世坳陷(深水盆地)4期构造演化阶段的新认识,并认为构造演化控制了深水大气田的形成。(1)古新世—始新世断陷、渐新世坳—断作用分别控制了湖相、海陆过渡相—海相烃源岩分布,中中新世—第四纪坳陷作用拓宽了烃源岩生气时窗;(2)渐新世坳—断作用控制发育了扇三角洲储层,中中新世—更新世坳陷作用控制发育了深水限制型、非限制型碎屑岩储层和碳酸盐岩生物礁储层;(3)渐新世坳—断演化阶段以走滑—伸展构造变形为主,控制发育了断鼻、断背斜圈闭,中中新世—更新世坳陷作用控制发育了深水限制型重力流水道砂岩性圈闭群、非限制型盆底扇岩性圈闭和生物礁地层圈闭;(4)渐新统、中中新统地层超压产生断裂/裂隙,构成了良好的天然气输导体系。 相似文献
9.
琼东南陆坡深水水道主控因素及勘探应用 总被引:3,自引:0,他引:3
结合全球海平面变化、气候变化、物源供给特征和地形条件,深入地分析和研究了发育在琼东南盆地陆坡区上新世和更新世地层中水道的形成主控因素及其在深水油气勘探中的应用价值和前景。提出琼东南陆坡上新世水道的主要因素是物源供给,包括来自红河和海南岛的物源,构造活动是关键诱发因素,上新世早期莺歌海盆地发育的大规模滑塌体与该水道的形成关系密切;给出更新世水道形成模式,其形成与第四纪冰期海平面的大幅度下降有关,地震活动诱发了中南半岛的小型山脉河流复苏,并对南海西部陆坡直接供给形成了该期水道。深水水道对于全球海平面变化、陆坡区物源供给情况和陆坡层序界面具有指示作用,并可作为良好的深水油气勘探目标,具有重要的深水油气勘探意义。 相似文献
10.
南海是中国海洋地质调查、油气和天然气水合物勘探的重点区域,随着南海浅水区勘探程度不断提高,南海北部深水区逐渐成为研究热点。然而,南海北部深水区双峰盆地研究程度仍然较低,以该区2D多道地震及围区钻井资料为基础,使用地球物理地震勘探理论和类比分析的方法研究了盆地地层沉积结构样式和油气勘探前景。在双峰盆地追踪了7个主要反射面,以不整合面为界划分了3套地震层序。研究认为盆地新生界地层厚度较大,中—晚中新世后,盆地进入半深海-深海相沉积环境,发育了以下切水道、深水扇及滑塌体为代表的深水沉积。盆地西部和北部坳陷渐新统湖相-海湾相泥岩,现今已达到成熟-早成熟阶段,具有一定的生烃能力。周缘发育冲积扇和扇三角洲沉积,盆内发育斜坡扇和盆底扇,可为良好储层。早中新世以来发育的半深海相泥岩,可为良好的区域盖层,具有较好的生储盖组合,预测该区具有良好的油气勘探前景。 相似文献
11.
珠江口盆地白云凹陷珠江组深水牵引流沉积特征及其地质意义 总被引:2,自引:0,他引:2
研究深水牵引流对古大洋环流重建、陆坡位置判断及沉积矿产和能源资源勘探具有重要意义。珠江口盆地白云凹陷中新统珠江组取心段发育丰富的、与远洋低密度浊流和半远洋-远洋悬移沉积有明显区别的深水牵引流沉积,产物包括平行层理细砂岩、双泥岩纹层、双向交错层粉-细粒砂岩、波状层理和脉状层理灰质粉-细粒砂岩、波状层理和脉状层理抱球虫灰岩、透镜状沙纹层理粉砂岩等岩石相类型。珠江组深水牵引流沉积的发现具有重要地质意义,由其可以推测自渐新世末(23.8 Ma)白云凹陷陆架坡折带形成之后就开始存在沿着陆架坡折带活动的深水牵引流,并可能影响和改变沉积物的物质组成和区域分布,这将为南海北部古大洋洋流循环重建起到重要启示作用。 相似文献
12.
南海北部深水区东西构造差异性及其动力学机制 总被引:1,自引:0,他引:1
南海北部深水区位于南海洋陆转换带,构造运动活跃,构造特征复杂。同时,南海北部深水区石油、天然气、天然气水合物等矿产资源丰富。因此,加强南海北部深水盆地构造特征分析,揭示南海北部陆缘构造属性与南海形成演化机制,对于南海深部过程演变研究、油气资源评价与地质灾害防治等具有重要的意义。本论文通过对南海北部深水区陆架-陆坡结构、盆地构造特征与演化规律的分析,指出研究区东西存在明显的构造差异性,并分析了其动力学机制。南海北部深水区东部陆架-陆坡结构为宽洼窄隆型,而西部为窄洼宽隆型。东部珠江口盆地深水凹陷均为半地堑结构,剖面上呈不对称的箕状;西部琼东南盆地除北礁凹陷为南段北超的小型半地堑外,其它凹陷均为地堑结构,为南北双断式沉积体系。在构造演化方面,东部中中新世末结束裂后期进入新构造活动期,白云凹陷构造活动性增强,表现为快速的沉降和显著的晚期断裂作用;而西部晚中新世末才进入新构造活动期,深水区表现为快速沉积作用,断裂活动较弱。 相似文献
13.
The Qiongdongnan Basin has the first proprietary high-yield gas field in deep-water areas of China and makes the significant breakthroughs in oil and gas exploration. The central depression belt of deep-water area in the Qiongdongnan Basin is constituted by five sags, i.e. Ledong Sag, Lingshui Sag, Songnan Sag, Baodao Sag and Changchang Sag. It is a Cenozoic extensional basin with the basement of pre-Paleogene as a whole. The structural research in central depression belt of deep-water area in the Qiongdongnan Basin has the important meaning in solving the basic geological problems, and improving the exploration of oil and gas of this basin. The seismic interpretation and structural analysis in this article was operated with the 3D seismic of about 1.5×10~4 km~2 and the 2D seismic of about 1×10~4 km. Eighteen sampling points were selected to calculate the fault activity rates of the No.2 Fault. The deposition rate was calculated by the ratio of residual formation thickness to deposition time scale. The paleo-geomorphic restoration was obtained by residual thickness method and impression method. The faults in the central depression belt of deep-water area of this basin were mainly developed during Paleogene, and chiefly trend in NE–SW, E–W and NW–SE directions. The architectures of these sags change regularly from east to west: the asymmetric grabens are developed in the Ledong Sag, western Lingshui Sag, eastern Baodao Sag, and western Changchang Sag; half-grabens are developed in the Songnan Sag, eastern Lingshui Sag, and eastern Changchang Sag. The tectonic evolution history in deep-water area of this basin can be divided into three stages,i.e. faulted-depression stage, thermal subsidence stage, and neotectonic stage. The Ledong-Lingshui sags, near the Red River Fault, developed large-scale sedimentary and subsidence by the uplift of Qinghai-Tibet Plateau during neotectonic stage. The Baodao-Changchang sags, near the northwest oceanic sub-basin, developed the large-scale magmatic activities and the transition of stress direction by the expansion of the South China Sea. The east sag belt and west sag belt of the deep-water area in the Qiongdongnan Basin, separated by the ancient Songnan bulge, present prominent differences in deposition filling, diaper genesis, and sag connectivity. The west sag belt has the advantages in high maturity, well-developed fluid diapirs and channel sand bodies, thus it has superior conditions for oil and gas migration and accumulation. The east sag belt is qualified by the abundant resources of oil and gas. The Paleogene of Songnan low bulge, located between the west sag belt and the east sag belt, is the exploration potential. The YL 8 area, located in the southwestern high part of the Songnan low bulge, is a favorable target for the future gas exploration. The Well 8-1-1 was drilled in August 2018 and obtained potential business discovery, and the Well YL8-3-1 was drilled in July 2019 and obtained the business discovery. 相似文献
14.
The northeastern shelf margin of the South China Sea(SCS) is characterized by the development of large scale foresets complexes since Quaternary. Based on integral analysis of the seismic, well logging and paleontological data, successions since ~3.0 Ma can be defined as one composite sequence, consist of a set of regional transgressive to regressive sequences. They can be further divided into six 3 rd order sequences(SQ0–SQ5) based on the Exxon sequence stratigraphic model. Since ~1.6 Ma, five sets of deltaic systems characterized by development of wedge-shaped foresets complexes or clinoforms had been identified. High-resolution seismic data and the thick foresets allowed further divided of sub-depositional sequences(4 th order) of regression to transgression, which is basically consistent with published stacked benthic foram O-isotope records. Depositional systems identified in the study area include deltaic deposits(inner-shelf deltas and shelf-edge deltas), incised valleys, and slope slumping massive deposits. Since ~1.6 Ma, clinoforms prograded from the southern Panyu Lower Uplift toward the northern Baiyun Depression, shelf slope break migrated seaward, whereas the shelf edge of SQ0 migrated landward. The development of incised valleys in the continental shelf increased upward,especially intensive on the SB3 and SB2. The slumping massive deposits increased abruptly since SB2, which corresponds to the development of incised valleys. The evolution of depositional systems of continental slope mainly controlled by the combined influence of sea level changes, tectonic movements, sediment supply and climate changes. Since ~3.0 Ma, relative sea level of the northern SCS had been experienced transgression(~3.0 Ma BP) to regression(~1.6 Ma BP). The regional regression and maximum transgressions of the composite sequences were apparently enhanced by uplift or subsidence related to tectono-thermal events. In addition,climatic variations including monsoon intensification and the mid-Pleistocene transition may have enhanced sediment supply by increasing erosion rate and have an indispensable influence on the development of the incised valleys and 5 sets of deltaic systems since ~1.6 Ma. 相似文献
15.
Morphotectonics and evolutionary controls on the Pearl River Canyon system, South China Sea 总被引:2,自引:0,他引:2
Weiwei Ding Jiabiao Li Jun Li Yinxia Fang Yong Tang 《Marine Geophysical Researches》2013,34(3-4):221-238
The Pearl River Canyon system is a typical canyon system on the northern continental slope of the South China Sea, which has significant implications for hydrocarbon exploration. Through swath bathymetry in the canyon area combined with different types of seismic data, we have studied the morphotectonics and controlling factors of the canyon by analyzing its morphology and sedimentary structure, as well as the main features of the continental slope around the canyon. Results show that the Pearl River Canyon can be separated into three segments with different orientations. The upper reach is NW-oriented with a shallowly incised course, whereas the middle and lower reaches, that are located mainly in the Baiyun Sag, have a broad U-shape and have experienced consistent deposition. Seventeen deeply-cut canyons have developed in the slope north of the Baiyun Sag, playing an important role in the sedimentary processes of the middle and lower reaches of the Pearl River Canyon. These canyons display both asymmetrical V- and U-shapes along their lengths. Numerous buried channels can be identified below the modern canyons with unidirectionally migrating stacking patterns, suggesting that the canyons have experienced a cyclic evolution with several cut and fill phases of varying magnitude. These long established canyons, rather than the upper reach of the Pearl River Canyon, are the main conduits for the transport of terrigenous materials to the lower slope and abyssal basin during lowstand stage, and have contributed to the formation of vertically stacked deep-water fans in the middle reach. Canyon morphology is interpreted as a result of erosive sediment flows. The Pearl River Canyon and the 17 canyons in the slope area north of the Baiyun Sag probably have developed since the Miocene. Cenozoic tectonics, sea level change and sediment supply jointly control the morphology and sedimentary structure. The middle and lower reaches of the Pearl River Canyon developed on the paleo-terrain of the Baiyun Sag, which has been a persistently rapid depositional environment, receiving most of the materials transported via the canyons. 相似文献
16.
琼东南盆地深水区东区凹陷带,即松南—宝岛—长昌凹陷,位于琼东南盆地中央坳陷东端。在大量地震资料解释的基础上,对38条主要断层进行了详细分析。获得以下认识:(1)琼东南盆地深水区东区凹陷带平面上表现为近EW向展布的平行四边形,剖面结构表现为自西向东由半地堑—不对称的地堑—半地堑有规律变化。(2)琼东南盆地深水区东区凹陷带断裂系统可划分控制凹陷边界断层、控制洼陷沉积中心断层和调节性断层3类。(3)琼东南盆地深水区东区凹陷带古近纪时期受到太平洋板块俯冲和南海海盆扩张的双重影响,构造应力场发生NW—SE→SN转变。构造演化可划分为3个阶段:~32Ma,应力场以区域性NW—SE向伸展为主,断裂系统以NE—SW向为主,控制凹陷边界;32~26Ma,以南海海盆近SN向拉张应力场为主,断裂系统以NWW—SEE向为主,断层活动控制凹陷沉积中心;26~Ma,区域性伸展与南海海盆扩张应力均逐渐减弱,NE—SW向和NWW—SEE向断裂继承性发育。(4)琼东南盆地深水区东区凹陷带内部主要断层在渐新统崖城组和陵水组沉积时期活动速率快,地形高差大、沉积水体深、沉积厚度大,控制了崖城组和陵水组的大规模沉积,有利于烃源岩的发育。圈闭以受断层控制的断鼻和断块为主,长昌主洼凹中隆起带发育2个最为理想的构造圈闭。 相似文献
17.
琼东南盆地陵南低凸起深水钻井岩心的稀土元素地球化学特征及其意义 总被引:2,自引:0,他引:2
A geochemical analysis of rare-earth elements(REEs) in 97 samples collected from the core of deep-water Well LS-A located at the Lingnan Low Uplift Area of the Qiongdongnan Basin is conducted, with the purpose of revealing the changes of sedimentary source and environment in the study region since Oligocene and evaluating the response of geochemical characteristics of REEs to the tectonic evolution. In the core samples, both ∑REE and ∑LREE(LREE is short for light-group REEs) fluctuate in a relatively wide range, while ∑HREE(HREE is short for heavy-group REEs) maintains a relatively stable level. With the stratigraphic chronology becoming newer, both ∑REE and ∑LREE show a gradually rising trend overall. The ∑REE of the core is relatively high from the bottom of Yacheng Formation(at a well depth of 4 207 m) to the top of Ledong Formation, and the REEs show partitioning characteristics of the enrichment of LREE, the stable content of HREE, and the negative anomaly of Eu to varying degrees. Overall the geochemical characteristics of REEs are relatively approximate to those of China's neritic sediments and loess, with significant "continental orientation". The ∑REE of the core is relatively low in the lower part of Yacheng Formation(at a well depth of 4 207–4 330 m), as shown by the REEs partitioning characteristics of the depletion of LREE, the relative enrichment of HREE, and the positive anomaly of Eu; the geochemical characteristics of REEs are approximate to those of oceanic crust and basalt overall, indicating that the provenance is primarily composed of volcanic eruption matters. As shown by the analyses based on sequence stratigraphy and mineralogy, the provenance in study region in the early Oligocene mainly resulted from the volcanic materials of the peripheral uplift areas; the continental margin materials from the north contributed only insignificantly; the provenance developed to a certain extent in the late Oligocene. Since the Miocene, the provenance has ceaselessly expanded from proximal to distal realm, embodying a characteristic of multi-source sedimentation. In the core strata with 31.5, 28.4, 25.5, 23, and 16 Ma from today, the geochemical parameters of REEs and Th/Sc ratio have significant saltation, embodying the tectonic movement events in the evolution of the Qiongdongnan Basin. In the tectonic evolution history of the South China Sea, the South China Sea Movement(34–25 Ma BP, early expansion of the South China Sea), Baiyun Movement(23 Ma BP), late expansion movement(23.5–16.5 Ma BP), expansion-settlement transition, and other important events are all clearly recorded by the geochemical characteristics of REEs in the core. 相似文献
18.
The deep-water area of the Pearl River Mouth Basin in the South China Sea has received much scientific attention since the Ocean Drilling Program (ODP) Leg 184 in 1999 due to its potential economic prospects and distinct tectono-sedimentary evolutionary processes. In this study, we present the composition of major and trace elements from two newly sampled deep-water boreholes (BY6 and LW3) in the Baiyun Sag of the southern Pearl River Mouth Basin. The geochemical evolution in the Oligocene–Middle Miocene, as well as potential controlling factors, are investigated based on a comparative study with previous data from ODP site 1148 and borehole PY33. The Chemical Index of Alteration (CIA) and A–CN–K plot reveal that the observed weathering trends are not compatible for the four discussed boreholes. Sedimentary sorting is primarily observed in borehole PY33, where data trend away from the A apex to the feldspar join in the A–CN–K plot and show a spread of Al2O3/SiO2 and Nb/Zr ratios. Compared to chemical weathering and hydrodynamic sorting, provenance has a greater impact on sediment composition of the deep-water area. From the north, the Pearl River was the primary sediment supply. However, a positive Eu anomaly and the provenance discrimination diagrams (i.e., La/Th versus Th/Yb and Zr/Co versus Th/Co) reveal the mafic nature of borehole BY6 sediments in the Zhuhai–Lower Zhujiang (32.0–18.5 Ma) and Upper Hanjiang (13.8–10.5 Ma) formations. These compositions are unusual and differ from the well-defined felsic sources in the majority of the Baiyun Sag; these discrepancies are likely related to multistage magmatism. The sediments at site 1148 are characterized by slightly enriched heavy rare earth elements and relatively high Zr/Co ratios, which could possibly be caused by zircon enrichment from local sources. 相似文献
19.
通过借助层序地层学理论、构造古地貌分析、古生物资料、沉积速率与可容纳空间关系对比,以及典型地震相识别、地震相与沉积相剖面及平面分析等,结合区域地质资料及前人的研究成果,对白云南洼恩平组烃源岩的叠置关系、影响因素、空间展布规律及发育模式进行了研究,得到如下认识:白云南洼恩平组对应一个完整的二级层序,可细分为3个三级层序,自下至上为SQ1、SQ2、SQ3,海平面总体为上升特征,SQ3的最大海泛面对应了整个恩平组二级层序的最大海泛面;白云南洼恩平组为局限浅海环境,具备发育较好海相烃源岩的条件,稳定半封闭的古构造背景,有利于烃源岩有机质的富集保存;沉积速率小,且小于可容空间增长速率,沉积物向陆退积,沉积水体深度变大,利于海相烃源岩的发育;恩平组烃源岩为大陆边缘半闭塞—欠补偿—湿润海湾模式,优质烃源岩主要发育在受隆起及断层遮挡形成的海湾区。 相似文献
20.
珠江口盆地白云凹陷裂后异常沉降研究及成因分析 总被引:1,自引:0,他引:1
南海北部大陆边缘的许多盆地都发现了裂后沉降异常,位于深水陆坡区的白云凹陷是其中的典型代表。本文采用盆模软件Temis Suite 2007对穿过白云凹陷的3条地震剖面进行回剥分析,观测其不同时间基底的垂向运动特征,并将其与MCKENZIE经典拉张模型计算的理论裂后沉降值进行对比,发现白云主凹中心的裂后异常沉降量最大超过2.6 km,白云南凹最大异常沉降量接近2 km,高于白云凹陷北部边缘的异常沉降。凹陷东部的裂后沉降作用强于凹陷西部。对沉降曲线的研究发现,白云凹陷在中中新世(16.5~10.5 Ma)期间有一段沉降明显加速的过程,白云南凹尤为明显,可能与南海扩张停止事件有关。白云凹陷发育了巨厚的沉积,并且呈韧性伸展状态,本文认为下地壳流可能是导致白云凹陷裂后异常沉降最主要的因素。 相似文献