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1.
作为西太平洋陆源沉积"源-汇"过程的重要场所,南海海盆半封闭的构造环境使得其与开放大洋的物质交换十分有限,沉积物保存基本完整,可以建立起南海沉积过程与区域重大构造事件、气候变化、海平面变化等之间的系统联系.选取南海西南与西北两个次海盆为对比研究区,基于穿越海盆的高分辨率多道地震测线和国际大洋发现计划(International Ocean Discovery Program,简称IODP)在南海获取的钻井数据,井震结合划分沉积单元,计算不同地质历史时期沉积通量,从而对海盆的沉积过程进行半定量化约束,并对控制因素和可能物源进行探讨.结果表明:南海西北次海盆和西南次海盆深海盆区的沉积过程整体上受到大型构造事件(青藏高原隆升-剥蚀作用)、东亚季风演化、陆缘水系(珠江、湄公河等)发展和相对海平面变化的控制,但在不同的区域会由于所处地理位置不同,以及局部构造事件影响而变得复杂化,从而使得西北次海盆与西南次海盆沉积通量在相同的地质时期呈现出不同的特征.西北次海盆沉积物主要源自华南大陆,并有少量来自红河、海南岛、北部陆架区局部隆起(如东沙隆起)的贡献.而西南次海盆的沉积物在晚中新世之前主要来自印支半岛、南沙地区和巴拉望,而在之后主要来自于现代湄公河. 相似文献
2.
Shaoru Yin Weiwei Ding Derek E. Sawyer Ziyin Wu Yong Tang 《International Geology Review》2020,62(7-8):887-907
ABSTRACT Based on approximately 11,000 km of seismic reflection data collected across the South China Sea oceanic basin, we describe the sedimentary filling characteristics of the basin since its Oligocene opening, as well as connections between this history and contemporaneous regional tectonic events. The seismic lines are spaced ~50 km apart, and the data are tied to International Ocean Discovery Program (IODP) Expedition 349 drilling data. Basin filling occurred in three phases, with basin-wide mean sedimentation rates increasing through time. During the Oligocene to middle Miocene, sediments accumulated primarily in the northern East and Northwest Sub-basins, with a mean basin-wide sedimentation rate of 8 m/m.y. The presence of these deposits over deep basement floor indicates that seafloor spreading initiated in these northern regions. During the late Miocene, deposition occurred primarily in the Northwest Sub-basin and partly in the southern East Sub-basin, with a mean basin-wide sedimentation rate of 30 m/m.y. Basin filling during this time seems to have been linked to slip reversal of the Red River Fault and collision of the North Palawan Block with the Luzon Arc. During the Pliocene and Pleistocene, sediments accumulated rapidly in the northeastern and southern East Sub-basin and the Southwest Sub-basin. The mean basin-wide sedimentation rate was 70 m/m.y. Basin filling during this phase seems to have been associated with the Taiwan and North Palawan collisions, SCS subduction along the Manila Trench, and Tibetan Plateau uplift. Gravity flow deposits predominate throughout the basin fill. 相似文献
3.
Zhongxian Zhao Zhen Sun Haibo Huang Longtao Sun 《International Geology Review》2020,62(7-8):1019-1035
ABSTRACT The rapid uplift of the Tibetan plateau, the intense movement of the Ailao Shan-Red River Shear Zone (ARSZ), and the related climate change during the Cenozoic Indo-Asian collision have been widely studied; however, their timings varied considerably due to different data and methods used. As these events have been documented in the Red River sediment that came from the eastern Tibetan plateau and the Red River region and eventually deposited in the offshore Yinggehai and Qiongdongnan basins, here these events can be explored by calculating and analysing the Red River sediment budget, especially in the Qiongdongnan basin based on dense seismic profiles and wells. Results show that the Red River sediment mainly accumulated in the Yinggehai basin and the west part of the Qiongdongnan basin, and there are three sedimentary accumulation peaks in the Red River sediment budget during ~29.5–21, ~15.5–10.5, and ~5.5–0 Ma. By further comparing with previous studies on the timings of these events, it is inferred that the first sedimentary peak, prior to the onset of the monsoon intensification (~22 Ma), was probably driven by an intense left-lateral movement of the ARSZ in ~29.5–21 Ma. The second peak (~15.5–10.5 Ma), however, reflects a rapid uplift of the Tibetan plateau after the cessation of the left-lateral strike slip of the ARSZ. The third peak (~5.5–0 Ma) is most likely linked with a right-lateral movement of the ARSZ and the related climate change. Overall, the Red River sediment budget from the offshore Yinggehai and Qiongdongnan basins provides an important constraint on the timings of these tectonic events as well as the related climate change during the Cenozoic Indo-Asian collision. 相似文献
5.
通过对南海西北次海盆新获得的地震资料进行综合解释和层序地层分析,揭示了海盆中的沉积对构造演化阶段的响应。始新世-早渐新世陆缘裂陷期,盆地以对称裂谷形式,发育地堑裂谷层序,沉积以近物源为特征,相变大,发育了冲积扇-扇三角洲-湖相沉积,沉积体系的配置受同沉积断裂控制明显,快速沉降和充分的物源供给决定了沉积体系的构成特征。晚渐新世海底扩张期,岩石圈破裂,陆缘进一步拉开并开始海底扩张,出现海相沉积,来自陆坡的陆架边缘三角洲越过陆坡进入海盆,在海盆内沉积了一套向海盆中部逐渐减薄的楔状地层,并伴有大量的火山碎屑沉积物。早-中新世以来热沉降期,随着构造沉降增大,相对海平面总体不断上升,进入深水盆地,形成陆架陆坡体系,大量的碎屑物质以重力流、深水底流等深水作用方式进入海盆;沉降晚期陆架-陆坡物源供应减弱,琼东南中央峡谷成为其主要的物质供应来源通道,在此期间二次海平面下降、回升的综合作用下,海盆内发育了多期以下切水道为特征的低水位域沉积体系。 相似文献
6.
南海盆地是东南亚陆缘最大的、含有丰富油气等资源的边缘海盆地.对于南海大陆斜坡带的发育、沉积演化与南海盆地构造作用及动力学过程的响应关系等方面缺乏深入认识.依据地震、测井及岩心等丰富资料,对南海珠江口盆地东南部陆架边缘斜坡带的层序地层、沉积-地貌演化及其对构造、海平面和沉积物供应变化的响应关系开展了系统性的研究.研究表明盆地的沉积充填可划分为由区域性不整合所限定的7个复合(二级)层序(CS1-CS7).复合层序CS3-CS7(上渐新统-第四系)均由区域性的海侵-海退旋回构成;其内可进一步划分出由局部不整合或水退-水进的转换面为界的20个次级层序(三级).研究识别出包括外陆架至陆架边缘三角洲、前三角洲-斜坡扇、陆架边缘前积体、单向迁移的横向底流-斜坡重力流复合水道、大型斜坡下切峡谷、泥质斜坡扇、斜坡滑塌泥石流复合体以及大规模软沉积物变形体等沉积体系或沉积复合体,它们在不同层序具有特定的时空分布,构成多种沉积样式.短周期(三级)的沉积旋回变化与Haq的海平面变化曲线总体上可对比,但长周期的海侵和海退则明显不同,受到了构造隆升和沉降等的控制.陆架边缘沉积演化可划分出裂后早期海底扩张沉积(破裂层序)、裂后晚期海底扩张沉积、后海底扩张等构造-沉积演化阶段.裂谷作用晚期的热隆起、构造差异沉降、裂后热衰减沉降以及上新世以后的东侧碰撞等对主要不整合的形成和海侵-海退产生了重要的影响.晚渐新世至中中新世发育的复合层序(CS3和CS4)记录了裂后海底扩张到停止的大陆斜坡沉积过程;而裂后早期的沉积层序(CS3)为破裂层序,以发育大型的陆架边缘三角洲-前三角洲斜坡扇体系构成的前积层为特征.气候变化和季风加强可能增强了晚渐新世-早中新世和更新世沉积期的沉积物供应,为大规模陆架边缘三角洲体系的发育提供了充足的物源供给.发育于陆架边缘的三角洲-滨岸碎屑体系和共生的前三角洲斜坡扇体系构成区内最重要的油气勘探对象. 相似文献
7.
东海盆地处于西太平洋俯冲带前缘,是发育在华南克拉通基底之上的,以晚白垩世-新生代沉积为主的新生代盆地.东海盆地性质是在活动大陆边缘减薄陆壳之上的,由于洋-陆俯冲消减所引起的张裂、拉伸作用而形成的弧后裂谷型盆地,是西太平洋众多“沟-弧-盆”体系的一部分.东海盆地陆架外缘隆起控制着东海盆地的演化过程,该地质单元形成于晚白垩世,是陆缘隆起和增生楔的复合体,中新世后由于菲律宾海板块的活动而解体为现今的钓鱼岛隆褶带和琉球隆起.结合对陆架外缘隆起的研究后认为,东海盆地晚白垩世以来的演化历程具有3大构造阶段,即:第一阶段,古新世-中始新世西部坳陷形成发展期;第二阶段,中始新世-渐新世东部坳陷形成发展期,其中,中晚始新世太平洋板块的转向是东、西部坳陷构造迁移的分界点;第三阶段,中新世-全新世,东海盆地进入到菲律宾板块影响时期,原先的构造格局开始分解. 相似文献
8.
Wilfried Winkler 《Geodinamica Acta》2013,26(2):81-102
AbstractDeep-sea turbidite sedimentation in convergent margin settings generally is controlled by tectonic uplift, climate and eustatic sea-level variations. The rate of tectonic uplift governs the relief of the source area and the position of the base level (coinciding with sea-level), climate influences the rate and style of weathering and continental runoff and eustatic seal-level additionally shifts the base level, functioning with the concurrently working tectonic movements. Thus, these factors primarly determine the availability of sediment (yield and nature of material and the site of intermittent storage) at the basin margin which is unlocked periodically to flow downslope to the basin.This paper attempts to decipher quantitatively the importance of the individual factors in the Late Maastrichtian to Early Eocene Schieren Flysch Croup. The flysch was deposited in a moderately converging remnant oceanic trench basin. Mean parameters are calculated on the basis of formations and the duration of nannofossil zones comprised in. For transposing these zone into absolute age intervals the problem of inconsistent durations in current time scales had to be solved by a best-fit approach. Frequencies and periodicities of turbidite events, decompacted and compacted sedimentation rates (the latter are considered as apparent denudation rates) are calculated to reveal the dynamics of sedimentation. Climatic evidence is deduced from clay mineralogy. Changing uplift rates in the drainage area are indirectly interpreted from back-stripped tectonic subsisdence rates in the basin.The obtained data point to an immediate control of sub-duction-Iinked tectonic uplift in the bordering drainage and shelf area on turbidite sedimentation, as frequency and thickness of the turbidite events are closely correlated with the increasing tectonic subsisdence in the basin (assumed to match the rate of subduction and underplating). This general trend is modified by the temporary migration of the oceanic hinge zone towards the trench causing periodically the starvation of outer portions of the basin at the transition from Early to Late Paleocene and Late Paleocene to Eocene. Regional climatic trends additionnaly rule the turbidite facies development and apparent denudation rates. In the upper part of Early Eocene series high rate mud dominated sediments correlate with warm/humid conditions and in Late Paleocene deposits low rate sandy sediments coincide with cool ones. During the Late Paleocene period the global 2nd-order sea-level lowering probably may be responsible for the by-passing of the shelf by the coarse grained sediments. 相似文献
9.
《Journal of Asian Earth Sciences》1999,17(1-2):157-181
The Kutai Basin occupies an area of extensive accommodation generated by Tertiary extension of an economic basement of mixed continental/oceanic affinity. The underlying crust to the basin is proposed here to be Jurassic and Cretaceous in age and is composed of ophiolitic units overlain by a younger Cretaceous turbidite fan, sourced from Indochina. A near complete Tertiary sedimentary section from Eocene to Recent is present within the Kutai Basin; much of it is exposed at the surface as a result of the Miocene and younger tectonic processes. Integration of geological and geophysical surface and subsurface data-sets has resulted in re-interpretation of the original facies distributions, relationships and arrangement of Tertiary sediments in the Kutai Basin. Although much lithostratigraphic terminology exists for the area, existing formation names can be reconciled with a simple model explaining the progressive tectonic evolution of the basin and illustrating the resulting depositional environments and their arrangements within the basin. The basin was initiated in the Middle Eocene in conjunction with rifting and likely sea floor spreading in the Makassar Straits. This produced a series of discrete fault-bounded depocentres in some parts of the basin, followed by sag phase sedimentation in response to thermal relaxation. Discrete Eocene depocentres have highly variable sedimentary fills depending upon position with respect to sediment source and palaeo water depths and geometries of the half-graben. This contrasts strongly with the more regionally uniform sedimentary styles that followed in the latter part of the Eocene and the Oligocene. Tectonic uplift documented along the southern and northern basin margins and related subsidence of the Lower Kutai Basin occurred during the Late Oligocene. This subsidence is associated with significant volumes of high-level andesitic–dacitic intrusive and associated volcanic rocks. Volcanism and uplift of the basin margins resulted in the supply of considerable volumes of material eastwards. During the Miocene, basin fill continued, with an overall regressive style of sedimentation, interrupted by periods of tectonic inversion throughout the Miocene to Pliocene. 相似文献
10.
东亚东倾地形格局的形成与季风系统演化历史寻踪——综合大洋钻探计划683号航次建议书简介 总被引:2,自引:1,他引:1
郑洪波 汪品先 刘志飞 杨守业 王家林 李前裕 周祖翼 贾军涛 李上卿 贾健宜 John Chappell Yoshiki Saito Takahiro Inoue 《地球科学进展》2008,23(11):1150-1160
围绕IODP 683号建议书,介绍东亚东倾地形格局与季风系统演化历史的相关研究。新生代全球宏观环境格局发生了一系列重大变化,表现为岩石圈活动强烈,板块漂移导致海陆格局和地貌格局的变化,并引发洋流和大气环流的改组,最终导致全球气候的重大变化。新生代岩石圈运动和气候变化表现最为典型的地区是亚洲,其中最具标志性和全球意义的地质事件是喜马拉雅山和青藏高原的隆升及亚洲季风系统的形成与演化。青藏高原隆升最直接的结果是亚洲地区现代地貌格局的形成,大江大河的发育,并在很大程度上影响了亚洲季风系统的形成与演化。综合大洋钻探计划683号航次建议书,计划在长江中下游盆地和东海陆架盆地实施钻探,以获得长江历史演化和东亚季风演化的地质记录,并为研究青藏高原的演化提供新的证据。 相似文献
11.
酒西盆地是青藏高原东北缘的一个内陆沉积盆地,发育了巨厚且连续的中-新生代地层,详细记录了盆地及周缘山地的构造、环境演变历史。本文在利用平衡剖面法恢复不同时期酒西盆地原始盆地边界基础上,通过盆地天然露头控制剖面和钻井资料的地层厚度,恢复了酒西盆地新生代各组沉积等厚图。根据不同时期盆地大小和沉积等厚图的计算,获得了酒西盆地新生代不同时期的沉积通量。结合前人对该区构造与古气候研究成果,认为古近纪持续干旱的气候条件下从火烧沟组(40.2~33.4 Ma)到白杨河组(30.9~23.8 Ma)盆地沉积通量增加主要由青藏高原持续挤压使祁连山快速构造隆升导致风化剥蚀量增加所致;中新世早期(疏勒河组弓形山段,23~14 Ma)虽然气候相对温暖,但此时祁连山构造带相对稳定,控制了物源区祁连山风化剥蚀量相对前期减小,使盆地沉积通量相对减小;中新世中期(疏勒河组胳塘沟段,14~8.3 Ma)盆地沉积通量增大可能是气候和构造共同作用的结果;中新世晚期以来(<8.3 Ma,疏勒河组牛胳套段-玉门组)盆地沉积通量呈阶段性大幅陡增,主要由祁连山晚新生代以来阶段性急剧构造隆升导致风化剥蚀量猛增所致。 相似文献
12.
全新世长江泥沙堆积的时空分布及通量估算 总被引:1,自引:1,他引:0
利用长江中下游、河口及口外、浙-闽沿岸陆架6个主要沉积盆地的40个晚第四纪钻孔及其年代学数据和长江口外、陆架的浅地层剖面,计算了全新世不同阶段各沉积盆地的沉积速率,并进行了近7 000年来泥沙堆积通量的估算。研究发现全新世早期距今10 000年至8 000年间长江口下切古河谷是长江泥沙的主要堆积中心,沉积速率可高达15m/ka。随着海平面上升,全新世中期长江中下游也成为长江泥沙的重要沉积盆地,其中江汉盆地的沉积速率可达10m/ka。近2 000年来,口外、陆架的堆积呈明显增加趋势,反映长江中下游盆地和河口可容空间日益减小。根据沉积速率估算,距今7 000年来长江中下游堆积泥沙约13 074×108 t,同期水下三角洲和陆架的泥沙堆积量约为9 470×108 t。研究还发现全新世以来有两个异常低沉积速率时期:距今8000-7 000年期间上述各沉积盆地沉积速率均显著低,未见长江泥沙的沉积中心; 距今4 000-2 000 年期间长江口呈现低沉积速率。 这两次异常的原因推测与海平面、气候波动事件密切相关。 相似文献
13.
陆架边缘连接浅水陆架及深水区,其迁移轨迹动态演化可记录和反馈浅水—深水物质输送过程及样式,开展陆架边缘轨迹量化分析,对预测深水沉积体系及油气勘探意义重大。基于井—震资料并选取过研究区LS33a钻井的地震剖面,利用典型的地震同相轴接触关系在琼东南盆地上新统莺歌海组顶底及内部共计识别出5个层序界面,将莺歌海组自下而上划分为4套三级层序。依据地震反射特征量化统计琼东南盆地莺歌海组陆架边缘轨迹,识别并划分出超高角度滑塌型(50°<α<180°)、高角度上升型(5°<α<50°)和低角度上升型(0°<α<5°)等三种陆架边缘轨迹类型。琼东南盆地上新世陆架边缘迁移轨迹经历了4个演化阶段:阶段一(5.5~4.2 Ma)构造稳定且盆地北部陆架物源供给充足,该阶段陆架边缘轨迹迁移角度大多低于5°;阶段二(4.2~3.2 Ma)由于海平面迅速下降、物源供给减弱,陆架边缘滑塌致使陆架边缘轨迹迁移角度增大;阶段三(3.2~2.7 Ma)由于青藏高原隆升、气候转变(3 Ma开始南海及周边地区冬季风增强),指示物源供给增强,陆架边缘轨迹迁移角度再次减小;阶段四(2.7~1.8 ... 相似文献
14.
Abstract— Stratigraphic and petrographic analysis of the Cretaceous to Eocene Tibetan sedimentary succession has allowed us to reinterpret in detail the sequence of events which led to closure of Neotethys and continental collision in the NW Himalaya.During the Early Cretaceous, the Indian passive margin recorded basaltic magmaüc activity. Albian volcanic arenites, probably related to a major extensional tectonic event, are unconformably overlain by an Upper Cretaceous to Paleocene carbonate sequence, with a major quartzarenite episode triggered by the global eustatic sea-level fall at the Cretaceous/Tertiary boundary. At the same time, Neotethyan oceanic crust was being subducted beneath Asia, as testified by calc-alkalic volcanism and forearc basin sedimentation in the Transhimalayan belt.Onset of collision and obduction of the Asian accretionary wedge onto the Indian continental rise was recorded by shoaling of the outer shelf at the Paleocene/Eocene boundary, related to flexural uplift of the passive margin. A few My later, foreland basin volcanic arenites derived from the uplifted Asian subduction complex onlapped onto the Indian continental terrace. All along the Himalaya, marine facies were rapidly replaced by continental redbeds in collisional basins on both sides of the ophiolitic suture. Next, foreland basin sedimentation was interrupted by fold-thrust deformation and final ophiolite emplacement.The observed sequence of events compares favourably with theoretical models of rifted margin to overthrust belt transition and shows that initial phases of continental collision and obduction were completed within 10 to 15 My, with formation of a proto-Himalayan chain by the end of the middle Eocene. 相似文献
15.
南海北部沉积物成分在渐新世末(23.8Ma)发生剧烈改变,出现地球化学成分上的突变,并在深海沉积中发生沉积间断及滑塌堆积。这些沉积事件在时间上与南海扩张轴由东西方向转为北东—南西方向发生跳跃的时间十分吻合,是渐新世以来南海构造演化史上最为重大的构造事件。经过这次构造事件,白云凹陷由渐新世晚期的浅水陆架环境转为中新世以后的深水陆坡环境,南海北部地区沉积物源由渐新世近源为主转变为中新世远源为主的供给特点;并使南海北部地区自中新世以来总体呈现海侵的特征。这次沉积环境与物源突变事件对南海北部地区油气藏的形成影响深远。 相似文献
16.
伸展背景下陆相地层发育的控制:以阜新盆地为例 总被引:2,自引:0,他引:2
陆相地层发育普遍雠为是受构造控制的,然而在构造背景下,其它控制因素如水位或水量,沉积物供给量等是如何起作用的呢?根据Schilsche的伸展盆地定量充填模型,模拟阜新盆地沙海组和阜新组地层的形成,得出一些陆相地发育控制的一些认识。在陆相地层发育过程中,层序发育与沉积环境转化是受盆地的构造沉降与可容空间,沉积物供给与沉积物堆积速率,盆地供水量与气候以及沉积作用过程的影响和控制。 相似文献
17.
塔里木盆地下志留统塔塔埃尔塔格组沉积体系及沉积模式 总被引:6,自引:3,他引:3
通过对塔里木盆地众多野外剖面详细观测及钻井岩心的详细观察,研究区下志留统塔塔埃尔塔格组主要沉积一套以砂、泥岩为主的碎屑岩,根据岩性特征、生物标志和地球物理特征,将塔里木盆地塔塔埃尔塔格组划分为滨岸和陆棚沉积体系,滨岸沉积体系进一步划分为无障壁海岸和有障壁潮坪沉积,陆棚沉积体系以浅水陆棚沉积为特征,并就各微相的岩石类型、粒度分布和沉积构造特征进行了详细的研究。在此基础上,分析了塔塔埃尔塔格沉积期的平面展布特征,总体格局为南北向分带,东西向展布为特征。同时建立了塔里木盆地塔塔埃尔塔格组滨岸、潮坪和滨岸-潮坪的沉积模式,在研究区以滨岸-潮坪的沉积模式为主。 相似文献
18.
海南岛是南海地块的重要组成部分,其构造演化很大程度上能够反映整个南海的构造活动特征。新生代,海南岛在新构造运动作用下,断块差异升降比较明显,形成了大致以王五 文教断裂为界,北为沉降区,南为断隆区的构造格局。对断隆区隆升过程的研究能够帮助揭示海南岛新构造活动历史,但至今为止,琼中南山地隆升的原因和时限仍存在争议。为了厘清海南岛中部的剥露隆升事件,本文选择琼中南地区海拔最高、高差最大的五指山为研究区,采集8组高程岩石样品,高程范围为203. 55~1153. 52 m。对采集的样品进行了磷灰石裂变径迹测试和热历史模拟分析,结果表明海南岛五指山地区新生代主要经历了两期快速隆升剥露。第一期为渐新世—中新世(32~17 Ma):隆升速率较快,此时期太平洋板块向欧亚板块俯冲后撤,南海正经历第二次扩张,使得海南岛拉张,活动强烈,造成琼中山地区快速隆升,直到中中新世转为缓慢隆升。第二期为中新世末期(5 Ma)的快速剥蚀隆升阶段:南海扩张已经结束,随着菲律宾板块俯冲亚洲板块,南海北部陆缘整体处于加速热沉降阶段,且全球气候变化加快,造成了海南岛广泛的隆起和加速剥蚀。 相似文献
19.
Denudation History of South China Block and Sediment Supply to Northern Margin of the South China Sea 总被引:1,自引:0,他引:1
On the basis of apatite fission track (AFT) analyses,this article aims to provide a quantitative overview of Cenozoic morphotectonic evolution and sediment supply to the northern margin of the South China Sea (SCS).Seventeen granite samples were collected from the coast to the inland of the South China block.Plots of AFT age against sample location with respect to the coastline show a general trend of youngling age away from the coast,which implies more prolonged erosion and sediment contribution at the inland of the South China Sea during post break-up evolution.Two-stage fast erosion process,Early Tertiary and Middle Miocene,is deduced from simulated cooling histories.The first fast cooling and denudation during Early Tertiary are recorded by the samples along the coast (between 70 and 60 Ma) and the inland (between 50 and 30 Mu),respectively.This suggests initial local erosion and deposition in the northern margin of the SCS during Early Tertiary.Fast erosion along the coast ceased since ca.50 Ma,while it had lasted until ca.30 Ma inland,indicating that the erosion was transferred from the local coastal zone initially toward the continental interior with unified subsidence of the northern margin,which resulted in the formation of a south-dipping topography of the continental margin.The thermal stosis in the South China block since ca.30 Mu must det'me the time at which the northern margin became dynamically disconnected from the active rifting and stretching that was taking place to the south.The lower erosion rate is inconsistent with higher sedimentary rate in the Pearl River Mouth basin during Late Oligocene (ca.25 Ma).This indicates that the increased sedimentation in the basin is not due to the erosion of the granite belt of the South China block,but perhaps points to the westward propagation of the paleo-Pearl River drainage related to the uplift of the eastern margin of Tibet plateau and southward jumping of spreading axis of the South China Sea.The socond erosion acceleration rate of the Middle Miocene (ca.14 Ma) cooling could have been linked to the long-distance effect of uplift of the Tibet plateau or due to the enhanced East Asian monsoon. 相似文献
20.
构造沉积学不仅强调大地构造背景条件对盆地演化的控制作用,同时还注重盆地内部的构造特征与沉积充填特征之间的控制及响应关系研究。陆相裂谷盆地发育过程中,构造作用强烈,盆地沉积充填过程复杂,进行构造沉积学研究对揭示盆地构造沉积演化过程具有重要意义。以大量地震、钻测井资料为基础,结合大地构造背景资料,研究松辽盆地伏龙泉断陷发育过程中的构造、沉积演化特征,分析构造活动与沉积作用之间的响应及控制关系,并由此讨论半地堑陆相湖盆的沉积充填演化规律及其控制因素。研究表明,在伏龙泉断陷盆地演化过程中,早期的火山岩隆起对盆地初始裂陷期形态具有明显的影响作用;边界断层的分布及其生长速率特征则对盆地结构演化过程起着首要的控制作用。盆地裂陷期,研究区古气候环境比较稳定,构造因素是控制该陆相裂谷盆地地层序列与沉积特征的首要因素;断裂发育特征决定了盆地的古地貌特征,而盆地的古地貌特征直接影响着盆地内部的沉积充填类型与沉积体系展布格局;区域构造抬升与断块掀斜是该半地堑盆地内部发育不整合面的主要因素。在陆相裂陷盆地的构造沉积特征研究中,构造沉积学显示出了其必要性与适用性,有利于在揭示构造沉积现象的同时,合理解释其地质成因。 相似文献