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1.
晚新生代青藏高原北缘构造变形和剥蚀变化及其与山脉隆升关系 总被引:10,自引:2,他引:10
青藏高原的差异性隆升是一个涉及高原隆升过程和机理的重要科学问题,利用青藏高原北部塔里木盆地,柴达木盆地与河西走廊盆地的地层沉积序列推算了高原北缘西昆仑山、阿尔金山和祁连山系晚新生代以来的山脉剥蚀幅度化特征,得到了青藏高原北缘山系隆升运动差异的传播比,它们基本上反映了晚新生代西昆仑山、阿尔金山和祁连山隆升运动的差异程度。高原北缘山系垂直运动速率的计算值与实测资料对比是相吻合的,进而研究了青藏高原北缘山系构造缩短变形,剥蚀变化与山脉隆升的关系。研究表明,青藏高原二期隆升时祁连山的高度在2400-3100m的范围内。 相似文献
2.
临夏盆地王家山剖面沉积物地球化学元素特征与季风演化 总被引:9,自引:0,他引:9
位于青藏高原东北边缘临夏盆地王家山剖面(上新统以上段)的沉积物地化元素含量波动特征表明,上新世气候频繁、剧烈和大幅度波动体现了上新世气候演化的过渡性特征,与第四纪早期相对稳定的湖相沉积地球化学元素的波动明显不同。这种差异的产生具有深刻的环境及构造背景,一定程度上反映了亚洲季风从上新世开始不稳定过渡到第四纪早期相对稳定的动态过程,与青藏高原隆升有密切的内在关系。 相似文献
3.
四国海盆起源与沉积环境演化 总被引:2,自引:0,他引:2
四国海盆位于西太平洋最大的边缘海——菲律宾海的东北部,是太平洋板块向欧亚板块俯冲而形成的一个目前已不活动的弧后盆地,具有高的热流值和洋壳裂开历史,并且具有双翼不对称扩张模式。其磁条带具有“东西不对称、南北不对等”的特点,从而造成四国海盆“北宽南窄、东凸西平”的地形、地貌特征。四国海盆具有典型的弧后盆地沉积特征,主要包括半远洋沉积、火山碎屑沉积和少量的远洋沉积。在早中新世、中中新世、晚中新世、上新世、更新世盆地发育的不同阶段,都有一定的岩相组合特征,并反映了当时的沉积环境。中中新世在盆地的北部和东部,晚中新世在盆地的北部、东北部,上新世和更新世在盆地的北部、东北部和西北部均发育有碎屑沉积。由于中更新世南海海槽的形成及其对物源的阻隔作用,在盆地北部发育了远洋粘土和钙质生物沉积。中中新世,盆地的北部、东侧和西侧均有火山活动发育,晚中新世仅在东部岛弧区有火山活动;上新世仅盆地的北部有少量的火山活动,晚更新世火山活动在盆地北部发育。 相似文献
4.
琼东南盆地陆坡区深水浊积水道的地震相特征 总被引:1,自引:0,他引:1
水道-天然堤体系作为油气储集圈闭日益引起沉积学家和勘探家的重视。地震相特征是识别深水水道的有效途径,本文基于高分辨率2D、3D地震资料的地震相分析,在琼东南盆地陆坡区深水盆地中识别出早中新世、上新世和第四纪多期深水水道体系。早中新世深水水道在地震剖面上具有强、弱振幅交替反射和相互叠置的地震反射特征,局部具有杂乱反射特点;上新世水道整体表现为强振幅,横向上连续或者半连续,纵向上为强振幅的叠加;第四纪水道在地震剖面上具有典型下切反射特点,该水道整体振幅相对较弱,但其水道轴部充填具有典型的强反射特征,这与世界典型地区的水道轴部粗粒充填强振反射一致。这几期深水水道都发育于低水位时期,为上部物源搬运引起的浊流事件而形成。 相似文献
5.
《海洋地质与第四纪地质》2016,(1)
西沙海槽盆地是南海北部陆坡西段的一个勘探程度较低的大型新生代深水沉积盆地。基于新采集的高精度多道地震资料并结合周边地区地质特征对盆地进行了层序地层分析,在研究区内识别出8个地震反射界面,结合地震剖面振幅旋回性变化,将研究区新生代地层划分了3个超层序和8个层序,并进一步论述了各层序的顶底接触关系、地震反射特征、地层厚度、层速度及砂岩含量等。在层序格架内识别出5类典型的地震相:平行-亚平行相、楔状发散相、前积相、杂乱相及水道充填相。在地震相划分和沉积相分析的基础上,通过对各层序沉积特征和沉积发育史的分析,认为始新世研究区呈现出陆相湖盆沉积体系特征;渐新世,盆地遭受海侵,研究区接受滨海相和浅海相沉积;早中新世,盆地中部沉积大规模半深海相沉积;中中新世末海平面出现下降,陆坡半深海环境的范围有所减小,西沙海槽浊积水道的雏形形成;晚中新世之后,研究区进入稳定的区域沉降阶段,主要发育了一套半深海-深海相泥岩沉积。此外,由研究区南北缘隆起区提供物源在层序内部还发育有近岸水下扇、三角洲、扇三角洲等沉积体,由地形高差控制作用在陡坡带或断层下降盘还形成了斜坡扇、浊积体。 相似文献
6.
西沙海槽盆地是南海北部陆坡西段的一个勘探程度较低的大型新生代深水沉积盆地。基于新采集的高精度多道地震资料并结合周边地区地质特征对盆地进行了层序地层分析,在研究区内识别出8个地震反射界面,结合地震剖面振幅旋回性变化,将研究区新生代地层划分了3个超层序和8个层序,并进一步论述了各层序的顶底接触关系、地震反射特征、地层厚度、层速度及砂岩含量等。在层序格架内识别出5类典型的地震相:平行-亚平行相、楔状发散相、前积相、杂乱相及水道充填相。在地震相划分和沉积相分析的基础上,通过对各层序沉积特征和沉积发育史的分析,认为始新世研究区呈现出陆相湖盆沉积体系特征;渐新世,盆地遭受海侵,研究区接受滨海相和浅海相沉积;早中新世,盆地中部沉积大规模半深海相沉积;中中新世末海平面出现下降,陆坡半深海环境的范围有所减小,西沙海槽浊积水道的雏形形成;晚中新世之后,研究区进入稳定的区域沉降阶段,主要发育了一套半深海-深海相泥岩沉积。此外,由研究区南北缘隆起区提供物源在层序内部还发育有近岸水下扇、三角洲、扇三角洲等沉积体,由地形高差控制作用在陡坡带或断层下降盘还形成了斜坡扇、浊积体。 相似文献
7.
青藏高原的隆升是新生代晚期亚洲和全球重大地质事件之一,巨大的正地形使海洋沉积、海水化学成分、大气环流甚至大气成分都发生相应变化(汪品先等,1995),有关专家通过数值模拟实验得出全球新生代的变冷就是由于青藏高原、美洲西部高原和非洲印度洋沿岸高原改变了大气环流所引起的, 其中又以青藏高原的隆升为主(Ruddiman et al.,1989;Manable et al.,1974)。然而,对青藏高原何时达到今天这个高度,并产生与现代相当的高原效应,则存在许多不同的观点。李吉均等(1979)提出青藏高原隆升的多阶段多期次特征,获得国际地学界的普遍认同,陈俊勇等(2001)依据近30余年来在板块碰撞的边缘地区进行的5次大规模的大地测量和相应的研究工作,其中包括天文、重力、平面、高程和大气折射率等测量项目的成果,对该地区有关地壳运动进行了研究,认为珠峰地区的地壳垂直运动即使在10a 量级的时间和空间上都存在非平稳性现象。Murphy等(1997)认为青藏高原南部-中央地区在早始新世印度-亚洲大陆碰撞以前就已经抬升。岳乐平等(2000)研究兰州盆地第三系磁性地层年代与古环境记录后认为大约在32Ma前青藏高原第一次发生大范围隆升并波及到其东北隅兰州地区。Copeland等(1987)认为南部拉萨地块在20Ma左右就已经隆升, Coleman(1995)则从喜马拉雅山南北向的正断层上找到的年龄为14Ma的新生矿物推断青藏高原在14Ma已经达到最大高度并发生东西向拉伸塌陷,其后高度降低。更多的学者认为约在8Ma时是隆升的一个重要时期,许多证据(如:植物的、动物的、同位素的等)均表明全球气候这时候发生重大变化。专家还认为只有当青藏高原至少达到今天高度的一半时才能产生季风气候的现今格局(Ruddiman et al.,1989;Manable et al.,1974)。Zheng等(2000)依据塔里木盆地南部边缘的粗碎屑沉积推断青藏高原北部在最近4Ma 才开始隆升。李吉均等(1979,1996)依据化石群及地貌演化等证据认为3.4Ma开始,青藏高原整体隆升,其后,在2.5Ma和1.7~1.66Ma相继发生强烈隆升,青藏高原地貌总轮廓形成,黄河现代水系格局出现,总称为青藏运动(A,B,C三幕)。随后在1.1~0.6Ma发生昆黄运动,直到0.15Ma之后的共和运动才使青藏高原达到今天的高度。 相似文献
8.
琼东南盆地物源和沉积环境变化的重矿物证据 总被引:5,自引:0,他引:5
基于11口钻井岩心样品的重矿物数据,结合古生物学、元素地球化学和地震资料,对琼东南盆地的物源及沉积环境演变进行了分析.结果表明,盆地基底沉积以陆相沉积为主,自渐新世起,盆地逐渐接受海侵,大致经历了海陆过渡→滨浅海→浅海→半深海的沉积环境演变过程,水深总体呈逐渐增大的趋势且在同一时期南部区域水深整体上大于北部.随着沉积环境的变化,各地层(崖城组至莺歌海组)物源呈现出多源性特征,经历了原地→近源→远源的演变过程.在渐新世早期,物源以近源玄武质火山碎屑和邻区陆源碎屑为主,之后演变为远源的陆壳碎屑,物源区包括北部海南岛、南部永乐隆起、东北部神狐隆起、西部红河、西南部中南半岛乃至更广的区域.海南岛物源自早渐新世便开始发育,至中中新世成为盆地最主要的物源,并持续至现今;永乐隆起和神狐隆起物源在晚渐新世至早中新世期间最为发育,于中中新世逐渐消退;红河物源于晚中新世大规模加入,为中央峡谷的主要沉积物源,影响至上新世结束;中南半岛莺西物源自上新世发育,影响至更新世时期.此外,自生组分对盆地(尤其是南部区域)的沉积贡献也不容忽视. 相似文献
9.
琼东南盆地深水区L18气田上新统地层圈闭气田形成条件及成藏模式 总被引:2,自引:1,他引:1
近期在琼东南盆地超深水区发现了L18气田上新统地层圈闭气田,但在聚气背景、烃源岩、储层沉积成因及天然气输导体系等气田形成条件和成藏模式认识存在争议。通过对该气田形成条件的综合分析,认为上新世轴向古洼槽内地层圈闭、陵水凹陷东洼下渐新统崖城组浅海相烃源岩、上新统限制型重力流砂岩储层和渐新统-中新统断裂垂向沟源通道是形成上新统地层圈闭气田的4个基本条件。中中新世以来盆地中央继承性发育轴向古洼槽和限制型重力流沉积,随着后期地层沉积迁移、差异压实作用,上新统莺歌海组砂岩顶面在轴向洼槽内起伏,并被周边泥岩封盖、封堵,形成了地层圈闭;约3.4 Ma BP,陵水凹陷东洼下渐新统崖城组浅海相烃源岩生成了成熟天然气,沿渐新统-中新统断裂向上运移到上新统莺歌海组重力流沉积砂岩中,再侧向运移至地层圈闭中聚集成藏,具有"烃源岩、圈闭、断裂+砂岩输导层"三要素控藏的上新统地层圈闭成藏模式。 相似文献
10.
花东盆地晚中新世以来沉积演化特征 总被引:1,自引:0,他引:1
利用近年来在台湾东部海域采集的多道地震和多波速测深资料,对该海域花东海盆区晚中新世以来的沉积充填演化特征进行描述和分析。通过对花东海盆区域地形特征描述、层序地层格架的建立和地震剖面的解译,在本区晚中新世以来的沉积充填中刻画出6种典型地震相类型,并分析其对应的沉积相类型,包括浊积扇、浊积水道充填、块体流、沉积物波、海底峡谷-伴生沉积物滑塌变形-充填、深水扇沉积。结合地震相平面分布及垂向沉积相叠置关系,将晚中新世-第四纪沉积充填演化划分为3个阶段:晚中新世晚期开始受到块体流冲蚀阶段,到海底峡谷冲刷-沉积物失稳-峡谷充填-再侵蚀阶段,到峡谷输送的大量沉积物在上新世以来主要堆积发育了沉积物波、浊积扇、深水扇等沉积体系阶段。 相似文献
11.
六盘山两侧晚新生代红黏土高程分布及其新构造意义 总被引:1,自引:0,他引:1
晚新生代红黏土广泛发育于青藏高原东北部陇西高原和鄂尔多斯高原,它不仅是我国北方晚新生代气候和环境变化的载体,而且其高程分布特征也记录了高原地区新构造运动过程。运用遥感技术和数字高程模型(DEM)技术,结合野外调查,分析了六盘山两侧红黏土空间分布特征,并结合已有的红黏土年代学资料及其沉积特征,探讨了青藏高原东北缘的构造隆升,指出红黏土在陇西地区开始沉积以来,六盘山两侧存在多期构造差异性隆升。由于陇西地区隆升速率相对较大,最终使六盘山两侧的构造-地貌格局从原先的东高西低转变为西高东低。 相似文献
12.
D. Civile E. Lodolo H. Alp Z. Ben-Avraham A. Cova L. Baradello D. Accettella M. Burca J. Centonze 《Marine Geophysical Researches》2014,35(1):37-53
Within the central Mediterranean, the northwestern sector of the Sicily Channel is the unique area where two independent tectonic processes can be analyzed: the building of the Sicilian–Maghrebian Chain occurred in Late Miocene and the continental lithospheric rifting of the northern African margin occurred since Early Pliocene. These two geodynamic processes generated a peculiar structural style that is largely recognizable in the Adventure Plateau. This plateau is the shallowest part of the Sicily Channel, where water depths do not generally exceed 150 m. It hosts several areas of geomorphic relief, which in some cases rise up to less than 20 m beneath sea-level. A series of submarine magmatic manifestations occur in this area, mainly associated with the extensional phase which produced the rift-related depressions of Pantelleria, Malta and Linosa. Seismic-stratigraphic and structural analyses, based on a large set of multichannel seismic reflection profiles and well information acquired mostly for commercial purposes in the 1970s and 1980s, have allowed us to reconstruct the Triassic-Quaternary sedimentary succession of the Adventure Plateau and define its structural setting. A broad lithological distinction can be made between the successions ranging from Triassic to Paleogene, predominantly carbonate, and the successions ranging from Miocene to Quaternary, predominantly siliciclastic. Three main structural belts have been identified within the Adventure Plateau: (1) the northern belt, affected during Late Miocene time by ESE-verging thrusts belonging to the External Thrust System orogenic domain, which represents the lowermost structural level of the Sicilian–Maghrebian Orogen; (2) the Apenninic–Maghrebian domain of the Sicilian–Maghrebian Orogen, which occupies the northwestern sector of the Adventure Plateau, and that is overthrusted on the External Thrust System orogenic domain during the Late Miocene; (3) the extensional belt of the southwestern sector of the Adventure Plateau, affected by broad NW-trending, high-angle normal faults associated with the Early Pliocene continental rifting phase. The eastern boundary of the Adventure Plateau corresponds to a broadly N–S trending lithospheric transfer zone separating two sectors of the Sicily Channel characterized by a different tectonic evolution. 相似文献
13.
周墨清 《海洋地质与第四纪地质》1995,15(1):41-56
本文通过太平洋中部5个长柱状岩心古地磁样品的测量分析,对区内早中新世以来的松散沉积层进行了磁性地层的划分对比,确定了各孔研究深度内沉积层的时代,认识到太平洋中部新世以来主要有两个沉积时期和两个沉积间断时期。第一沉积期分别到早中新世末或中中新世初停止沉积,为主沉积期,沉积了岩心的大部分。从晚上新世或第四纪初开始沉积到第四纪中晚期停止沉积的是第二沉积期,从早中新世末或中中新世初至早上新世或第四纪初为主 相似文献
14.
This study provides the results of the first integrated study of Oligocene–Pliocene basins around Norway.Within the study area, three main depocentres have been identified where sandy sediments accumulated throughout the Oligocene to Early Pliocene period. The depocentre in the Norwegian–Danish Basin received sediments from the southern Scandes Mountains, with a general progradation from north to south during the studied period. The depocentre in the basinal areas of the UK and Norwegian sectors of the North Sea north of 58°N received sediments from the Scotland–Shetland area. Because of the sedimentary infilling there was a gradual shallowing of the northern North Sea basin in the Oligocene and Miocene. A smaller depocentre is identified offshore northern Nordland between Ranafjorden (approximately 66°N) and Vesterålen (approximately 68°N) where the northern Scandes Mountains were the source of the Oligocene to Early Pliocene sediments. In other local depocentres along the west coast of Norway, sandy sedimentation occurred in only parts of the period. Shifts in local depocentres are indicative of changes in the paleogeography in the source areas.In the Barents Sea and south to approximately 68°N, the Oligocene to Early Pliocene section is eroded except for distal fine-grained and biogenic deposits along the western margin and on the oceanic crust. This margin was undergoing deformation in a strike-slip regime until the Eocene–Oligocene transition. The Early Oligocene sediments dated in the Vestbakken Volcanic Province and the Forlandssundet Basin represent the termination of this strike-slip regime.The change in the plate tectonic regime at the Eocene–Oligocene transition affected mainly the northern part of the study area, and was followed by a quiet tectonic period until the Middle Miocene, when large compressional dome and basin structures were formed in the Norwegian Sea. The Middle Miocene event is correlated with a relative fall in sea level in the main depocentres in the North Sea, formation of a large delta in the Viking Graben (Frigg area) and uplift of the North and South Scandes domes. In the Norwegian–Danish Basin, the Sorgenfrei-Tornquist Zone was reactivated in the Early Miocene, possibly causing a shift in the deltaic progradation towards the east. A Late Pliocene relative rise in sea level resulted in low sedimentation rates in the main depositional areas until the onset of glaciations at about 2.7 Ma when the Scandes Mountains were strongly eroded and became a major source of sediments for the Norwegian shelf, whilst the Frigg delta prograded farther to the northeast. 相似文献
15.
上新世——早更新世青藏高原北缘隆升的磁性地层学证据 总被引:9,自引:0,他引:9
对新疆叶城剖面西域砾岩及下伏第三纪地层的磁性地层学研究表明 ,西域砾岩的沉积时代为晚上新世至早更新世 ,磁性地层年龄为 3.5至 <1.8Ma。阿图什组沉积于早上新世 ,古地磁年龄为 4 .6~ 3.5 Ma。阿图什组以砂岩和粉砂岩为主夹薄层砾岩 ,为河流相及冲积扇前缘相。西域砾岩以厚层砾岩为主夹风成粉砂岩 ,为典型洪积—冲积扇堆积。西域砾岩的沉积反映了青藏高原北缘晚上新世至早更新世强烈的隆起和剥蚀 相似文献
16.
《Marine and Petroleum Geology》2003,20(6-8):587-600
A regional study of the Veracruz Basin provided an excellent view of long-term deepwater sedimentation patterns from an evolving foreland-type basin. The regional seismic and well-log data set allows for an accurate reconstruction of slope and basin-floor depositional patterns, lithologic compositions, and paleogradients from a continuous succession of bathyal strata that span the Miocene to the lower Pliocene. Variations in Miocene and Pliocene deepwater reservoirs can be linked to prevailing slope characteristics. The Miocene basin had a high-gradient, tectonically generated slope, and the Pliocene basin had a low-gradient constructional slope. The Miocene basin owes its steep margin to the tectonic stacking of early Tertiary, Laramide-age thrust sheets. The Miocene margin shed a mixture of coarse elastic sediments (sands, gravels, and cobbles) and fines (silts and clays) that were transported into the deep basin via turbidity currents and debris flows. Channelized deposits dominate the Miocene slope, and reservoirs occur in long-lasting basement-confined canyons and shorter-lived shallower erosional gulleys. Thick and areally-extensive basin-floor fans exist outboard of the strongly channelized Miocene slope. Fan distribution is strongly controlled by synsedimentary contractional anticlines and synclines. In contrast, the latest Miocene to early Pliocene basin development was dominated by a strongly prograding wedge of shelf and slope deposits that was induced by volcanogenic uplift and increased sediment supply. During this phase, turbidite reservoirs are limited to narrow and sinuous deepwater channels that reside at the toe of the constructional clinoforms and areally limited, thinner basinal fans. 相似文献
17.
Sedimentary and structural evolution of the Eastern South Korea Plateau (ESKP), East Sea (Japan Sea)
The East Sea (Japan Sea) is a semi-enclosed back-arc basin that is thought to preserve a significant record of tectonic evolution and paleo-climatic changes of Eastern Asia during the Neogene. We use here 2-D regional multi-channel seismic reflection profiles and borehole data from Expedition 346 of the Integrated Ocean Drilling Program (IODP) to provide new constraints on the geological history of the Eastern South Korea Plateau (ESKP). The ESKP represents a structurally-complex basement high in the southwestern East Sea which formed during rifting of the back-arc basin. Our new observations show that the ESKP is composed of numerous horsts and grabens controlled by NE-trending normal faults. The acoustic basement is blanketed by Oligocene to recent sediments that have preferentially accumulated in topographic lows (up to 1.5 km thick) and have been cored during Expedition 346 at Site U1430 close to the southern margin of the ESKP. Seismic profiles in the ESKP reveal three units separated by regional unconformities. These seismic units closely correspond to IODP lithostratigraphic units defined at Site U1430, where biostratigraphic data can be used to constrain the timing of three main evolutionary stages of the ESKP. Stage 1 was related to rifting in the late Oligocene and middle Miocene, terminated by a regional uplift leading to an erosional phase in the middle Miocene. Stage 2 was associated with subsidence in the middle and late Miocene and uplift and accompanying erosion or non-deposition in the latest late Miocene. Stage 3 (Pliocene to present) recorded overall uniform hemipelagic-pelagic subsidence of the ESKP with short-lived tectonically-induced uplifts in the late middle Miocene and latest Miocene-early Pliocene. The three stages of evolution of the ESKP closely correlate to sedimentary changes since the Oligocene and suggest a direct control of regional/local tectonics on sedimentation patterns in the southwestern East Sea, with secondary influence of regional climatic and paleo-oceanographic processes. 相似文献