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1.
《Gondwana Research》2016,29(4):1530-1542
In this study, we conducted profile measurements, gravel composition analyses, and U–Pb dating on detrital zircons from a representative glacial marine diamictite in the Gangmaco–Dabure area of the Southern Qiangtang–Baoshan block, Tibetan Plateau. We conclude that the diamictite was formed in a glacial marine environment from the outer edge of the continental shelf to the continental slope and deep sea, in what is now the Southern Qiangtang–Baoshan block. Four distinct glacial–interglacial cycles were identified in the diamictite, which record a minimum of four stages of Gondwana glaciation in the area of the Southern Qiangtang–Baoshan block. Combined with regional geological information, we also conclude that during the Carboniferous–Permian, sediments containing the glacial marine diamictite derived from Gondwana, in the region extending from India to the Tethys Himalaya area, and Lhasa and Southern Qiangtang–Baoshan blocks, recorded the transition from continental, neritic to abyssal environments. Gravel assemblages and U–Pb dating of detrital zircons in the glacial marine diamictite indicate that the provenance of the diamictite was Indian Gondwana. We infer that during the Late Paleozoic, the northern margin of the Indian Gondwana continued to be influenced by the Early Palaeozoic tectonic set-up, when Indian Gondwana was under an erosional regime, and the Tethys Himalaya area, and Lhasa and Southern Qiangtang–Baoshan blocks were deposited on a passive continental margin. 相似文献
2.
晚古生代银额盆地发育一套石炭纪—二叠纪火山岩-碎屑岩-碳酸盐岩,沉积建造稳定,岩相清晰,地层层序和沉积体系域发育清楚。通过对区内沉积盆地地层特征和侧向变化分析,初步划分出了4个Ⅱ级层序,8个Ⅲ级层序,识别出若干个沉积体系域和层序界面,沉积层序具有伸展型层序特征,Ⅲ级层序Ⅰ、Ⅳ、Ⅵ、Ⅶ、Ⅷ形成过程中盆地海平面上升速度快,对形成厚度大的暗色泥岩层有利。盆地沉积演化与构造活动密切相关,构造活动控制了海平面的变化。通过区域地层格架分析和层序地层学研究,可以进一步研究区域构造活动历史,从而更好地预测暗色泥岩和有利储层形成的有利环境。 相似文献
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The Lower Jurassic Mashabba Formation crops out in the core of the doubly plunging Al-Maghara anticline, North Sinai, Egypt. It represents a marine to terrestrial succession deposited within a rift basin associated with the opening of the Neotethys. Despite being one of the best and the only exposed Lower Jurassic strata in Egypt, its sedimentological and sequence stratigraphic framework has not been addressed yet. The formation is subdivided informally into a lower and upper member with different depositional settings and sequence stratigraphic framework. The sedimentary facies of the lower member include shallow-marine, fluvial, tidal flat and incised valley fill deposits. In contrast, the upper member consists of strata with limited lateral extension including fossiliferous lagoonal limestones alternating with burrowed deltaic sandstones. The lower member contains three incomplete sequences (SQ1-SQ3). The depositional framework shows transgressive middle shoreface to offshore transition deposits sharply overlain by forced regressive upper shoreface sandstones (SQ1), lowstand fluvial to transgressive tidal flat and shallow subtidal sandy limestones (SQ2), and lowstand to transgressive incised valley fills and shallow subtidal sandy limestones (SQ3). In contrast, the upper member consists of eight coarsening-up depositional cycles bounded by marine flooding surfaces. The cycles are classified as carbonate-dominated, siliciclastic-dominated, and mixed siliciclastic-carbonate. The strata record rapid changes in accommodation space. The unpredictable facies stacking pattern, the remarkable rapid facies changes, and chaotic stratigraphic architecture suggest an interplay between allogenic and autogenic processes. Particularly syndepositional tectonic pulses and occasional eustatic sea-level changes controlled the rate and trends of accommodation space, the shoreline morphology, the amount and direction of siliciclastic sediment input and rapid switching and abandonment of delta systems. 相似文献
4.
陆源碎屑和碳酸盐岩的混合沉积现象分布广泛,但由于混合沉积的研究起步较晚,且受不同沉积条件的制约,研究相对薄弱。贺兰山地区早古生代发育了陆源碎屑岩和海相碳酸盐岩的混合沉积建造,目前国内外学者对贺兰山地区的混合沉积现象的研究至今没有涉及。研究区早古生代混合沉积狭义上表现为混积岩,主要类型包括:泥质灰岩、含泥灰岩、灰质砾岩、灰质粉砂岩;广义上表现为混积层系,主要类型包括:陆源碎屑岩-碳酸盐岩、混积岩-陆源碎屑岩、混积岩-碳酸盐岩。本文从沉积相变关系、区域地层间接触关系、残余地层展布、物源分析等方面对研究区下古生界混合沉积特征进行了较为深入的探讨,研究区寒武纪和奥陶纪表现出了截然不同的混合沉积样式:寒武纪为"拼贴式"混合沉积,而奥陶纪为渐变式混合沉积。板块运动、全球海平面变化、陆源碎屑物质的供给等因素共同控制了研究区早古生代混合沉积的形成。从研究区早古生代不同时期特有的沉积样式人手,分析了研究区早古生代盆地类型及演化。研究区早古生代经历了寒武纪大洋和克拉通盆地共存-早奥陶世的局限克拉通盆地-中、晚奥陶世的前陆盆地雏形这样一个演化过程。 相似文献
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为揭示渤海湾盆地陆表海背景下的煤系层序地层界面形成机制以及层序地层格架内的聚煤作用特征,以淄博博山地区为例开展了本溪组、太原组和山西组的层序地层及聚煤作用研究。研究区内共识别出古构造运动形成的区域性构造不整合面、正常海退形成的下切谷冲刷面、盆地基底构造运动形成的海侵方向转换面、初始海泛面、最大海泛面以及最大海退面等层序界面类型,将研究区含煤地层划分为三个七级层序。经对比研究层序内的煤层的发育特征后认为,潮坪泥炭坪、潟湖及三角洲平原泥炭沼泽为煤层最有利发育相带。SQ2、SQ3、SQ4、SQ5、SQ6层序内均有可采煤层发育。 相似文献
6.
塔里木盆地上新元古界-下奥陶统是我国超深层油气勘探的重要领域,但其盆地动力学研究程度低、认识分歧大,制约了塔里木盆地超深层油气地质评价。本文综合近年地质学、地球化学与地球物理资料,探讨塔里木盆地晚新元古代-早古生代板块构造环境及其构造-沉积响应,将其划分为以下5个阶段:(1)新元古代-早古生代经历了前展-后撤-前展俯冲的板块构造演化;(2)南华纪发育后撤俯冲机制下的大陆裂谷沉积体系,不同于地幔柱机制;(3)震旦纪-寒武纪不是裂谷盆地的连续沉积,而是发育后撤-前展俯冲转换期的前寒武纪大不整合面;(4)寒武纪-奥陶纪,塔里木盆地缺乏被动大陆边缘背景,发育一套碳酸盐台地沉积,而且随着原特提斯洋闭合的前展俯冲作用增强,导致了中奥陶世晚期台地从东西分异转向南北分异的沉积演变;(5)晚奥陶世末在前展俯冲造山作用下形成复理石快速充填的类前陆盆地,但没有形成碰撞造山作用下的磨拉石前陆盆地。研究认为,塔里木板块晚新元古代-早古生代多期幕式后撤-前展俯冲机制形成了南华纪强伸展→震旦纪末挤压与寒武纪-早奥陶世弱伸展→中奥陶世晚期-志留纪强挤压的两大构造旋回,并造成了构造-沉积演化的差异性,不同于经典的威尔逊旋回模式及其成盆动力学机制。 相似文献
7.
Sequence Stratigraphy of Upper Proterozoic Glacigenous Rocks in Southeastern Margin of Yangtze Platform 总被引:1,自引:0,他引:1
INTRODUCTIONTheUpperProterozoicglacigrnousrocksarewidelydistributedinthesoutheasternmarginoftheYangtzeplatformandaflpreservedinHunan,Hubei,GulhouandGuanghProvince.PreviousbarkontheSestudhasbeendonebyLuetal.(1985)andLiuetal.(1991).TheysUggeStedthatthesegladgenousrockscanbeusedasbarkersforhighresolutionstratigl'aphiccoagulationfromcontinenttocontinent,andadoptedtheconceptofPrecambrianglobaliceagepearland,1900.ReCentresea~showthattheSestudhaveah~useaschronostratigraphicmarkers.InrejeC… 相似文献
8.
陆相断陷盆地低凸起斜坡带层序划分及其沉积充填演化特征:以埕岛东斜坡古近系为例 总被引:2,自引:2,他引:0
层序分级不一致和井震层序不统一都会导致沉积充填演化特征反映的不准确,将制约储盖组合与油气分布的预测。文中应用沉积层序的概念,利用岩心、岩性、测井与地震资料,以层序界面与内部构成特征相结合的原则,从坡下到坡上,对东斜坡古近系进行了层序划分。一级层序相当于系地层单元,与构造运动相对应,层序界面为区域性角度不整合;二级层序相当于统或组地层单元,与构造运动幕相对应,层序界面为局部不整合;三级层序相当于段或亚段地层单元,与构造幕内的次级构造作用相对应,层序界面为超覆不整合面、沉积体系转换面及重力流下切面;四级层序即体系域,相当于油组与砂组,与三级层序基准面旋回的阶段性变化相对应,层序界面为初始洪泛面、最大洪泛面,共识别出SQ1、SQ2、SQ3、SQ4、SQ5和SQ6等6个三级层序及15个体系域。井震统一的层序格架结合了钻井资料纵向高分辨率与地震资料横向好连续性的优点,从而高精度、高分辨率地揭示了层序格架充填演化特征,体现出层序旋回性与体系域及平面沉积相分布的差异性。古近纪埕岛凸起夷平,斜坡及凹陷补齐,发育超覆、披覆沉积;古地形由南低北高向南高北低转换;本地物源、邻近物源、区域物源阶段性变迁;多物源的沉积体系交叉、叠置,沉积相发生了扇三角洲-浊积扇-半深湖-滑塌浊积扇-辫状河三角洲-曲流河泛滥平原演变。埕岛低凸起斜坡带层序及沉积充填演化特征具有陆相断陷盆地的代表性,因而,此项研究对于解决层序地层学面临的工业化应用研究不足的问题以及油气储盖组合预测方面的难点可提供有益参考。 相似文献
9.
Tectonic, sea-level, and climatic controls on Late Paleozoic sedimentation in the western basins of Argentina 总被引:2,自引:0,他引:2
Carlos Limarino Alfonsina Tripaldi Sergio Marenssi Luis Fauqu 《Journal of South American Earth Sciences》2006,22(3-4):205
Tectonic activity, sea-level changes, and the climate controlled sedimentation in Late Paleozoic basins of western Argentina. The role of each factor is investigated from the geologic record of the Río Blanco and Paganzo basins using three hierarchical orders of stratigraphic bounding surfaces. First-order surfaces correspond to regional unconformities, second-order ones to local unconformities with a lesser regional extent, and third-order surfaces represent locally extended sedimentary truncation. Using this methodology, the Carboniferous–Permian record of the Paganzo and Río Blanco basins may be divided into two megasequences, four sequences, and 12 stratigraphic sections. Megasequences are bounded by regional unconformities that result from tectonic events important enough to cause regional paleogeographic changes. Sequences are limited by minor regional extension surfaces related to local tectonic movements or significant sea-level falls. Finally, stratigraphic sections correspond to extended sedimentary truncations produced by transgressive events or major climatic changes. Sequence I is mainly composed of marine deposits divided into basal infill of the basin (Section 1) and Tournaisian–Visean transgressive deposits (Section 2). Sequence II is bounded by a sharp erosional surface and begins with coarse conglomerates (Section 3), followed by fluvial and shallow marine sedimentary rocks (Section 4) that pass upward into shales and diamictites (Section 5). The base of Sequence III is marked by an extended unconformity covered by Early Pennsylvanian glacial sedimentary rocks (Section 6) that represent the most important glacial event along the western margin of Gondwana. Postglacial deposits (Section 7) occur in the two basins and comprise both glaciolacustrine (eastern region) and transgressive marine (central and western regions) deposits. By the Moscovian–Kasimovian, fluvial sandstones and conglomerates were deposited in most of the Paganzo Basin (Section 8), while localized volcanic activity took place in the Río Blanco Basin. Near the end of the Carboniferous, an important transgression is recorded in the major part of the Río Blanco Basin (Section 9), reaching the westernmost portion area of the Paganzo Basin. Finally, Sequence IV shows important differences between the Paganzo and Río Blanco basins; fluvial red beds (Section 10), eolian sandstones (Section 11), and low-energy fluvial deposits (Section 12) prevailed in the Paganzo Basin whereas volcaniclastic sedimentation and volcanism dominated in the Río Blanco Basin. Thus, tectonic events, sea-level changes and climate exerted a strong and complex control on the evolution of the Río Blanco and Paganzo basins. The interaction of these allocyclic controls produced not only characteristic facies association patterns but also different kinds of stratigraphic bounding surfaces. 相似文献
10.
《Journal of South American Earth Sciences》2007,23(3-4):205-226
Tectonic activity, sea-level changes, and the climate controlled sedimentation in Late Paleozoic basins of western Argentina. The role of each factor is investigated from the geologic record of the Río Blanco and Paganzo basins using three hierarchical orders of stratigraphic bounding surfaces. First-order surfaces correspond to regional unconformities, second-order ones to local unconformities with a lesser regional extent, and third-order surfaces represent locally extended sedimentary truncation. Using this methodology, the Carboniferous–Permian record of the Paganzo and Río Blanco basins may be divided into two megasequences, four sequences, and 12 stratigraphic sections. Megasequences are bounded by regional unconformities that result from tectonic events important enough to cause regional paleogeographic changes. Sequences are limited by minor regional extension surfaces related to local tectonic movements or significant sea-level falls. Finally, stratigraphic sections correspond to extended sedimentary truncations produced by transgressive events or major climatic changes. Sequence I is mainly composed of marine deposits divided into basal infill of the basin (Section 1) and Tournaisian–Visean transgressive deposits (Section 2). Sequence II is bounded by a sharp erosional surface and begins with coarse conglomerates (Section 3), followed by fluvial and shallow marine sedimentary rocks (Section 4) that pass upward into shales and diamictites (Section 5). The base of Sequence III is marked by an extended unconformity covered by Early Pennsylvanian glacial sedimentary rocks (Section 6) that represent the most important glacial event along the western margin of Gondwana. Postglacial deposits (Section 7) occur in the two basins and comprise both glaciolacustrine (eastern region) and transgressive marine (central and western regions) deposits. By the Moscovian–Kasimovian, fluvial sandstones and conglomerates were deposited in most of the Paganzo Basin (Section 8), while localized volcanic activity took place in the Río Blanco Basin. Near the end of the Carboniferous, an important transgression is recorded in the major part of the Río Blanco Basin (Section 9), reaching the westernmost portion area of the Paganzo Basin. Finally, Sequence IV shows important differences between the Paganzo and Río Blanco basins; fluvial red beds (Section 10), eolian sandstones (Section 11), and low-energy fluvial deposits (Section 12) prevailed in the Paganzo Basin whereas volcaniclastic sedimentation and volcanism dominated in the Río Blanco Basin. Thus, tectonic events, sea-level changes and climate exerted a strong and complex control on the evolution of the Río Blanco and Paganzo basins. The interaction of these allocyclic controls produced not only characteristic facies association patterns but also different kinds of stratigraphic bounding surfaces. 相似文献
11.
三江昌宁-孟连带原-古特提斯构造演化 总被引:4,自引:0,他引:4
昌宁-孟连特提斯洋的构造演化及其原特提斯与古特提斯的转换方式一直是青藏高原及邻区基础地质研究中最热门的科学问题之一.根据新的地质调查资料、研究成果并结合分析数据,系统总结了三江造山系不同构造单元地质特征,讨论了昌宁-孟连特提斯洋早古生代-晚古生代的构造演化历史.通过对不同构造单元时空结构的剖析和对相关岩浆、沉积及变质作用记录的分析,认为昌宁-孟连结合带内共存原特提斯与古特提斯洋壳残余,临沧-勐海一带发育一条早古生代岩浆弧带,前人所划基底岩系"澜沧岩群"应为昌宁-孟连特提斯洋东向俯冲消减形成的早古生代构造增生杂岩,滇西地区榴辉岩带很可能代表了俯冲增生杂岩带发生了深俯冲,由于弧-陆碰撞而迅速折返就位,这一系列新资料及新认识表明昌宁-孟连结合带所代表的特提斯洋在早古生代至晚古生代很可能是一个连续演化的大洋.在此基础上,结合区域地质资料,构建了三江造山系特提斯洋演化的时空格架及演化历史,认为其经历了早古生代原特提斯大洋扩张、早古生代中晚期-晚古生代特提斯俯冲消减与岛弧带形成、晚二叠世末-早三叠世主碰撞汇聚、晚三叠世晚碰撞造山与盆山转换等阶段. 相似文献
12.
新特提斯洋是中生代位于北方欧亚大陆和南方冈瓦纳大陆之间的古大洋,它在青藏高原南部地区于新生代早期因印度-欧亚大陆碰撞而消亡,其遗迹为现今的印度河-雅鲁藏布缝合带。新特提斯洋打开以拉萨地块从冈瓦纳大陆的裂离为标志。准确约束新特提斯洋的开启时间是重建冈瓦纳大陆裂解过程和特提斯洋演化历史的关键,但目前学术界对于新特提斯洋的开启时间还存在很大争议,不同学科方法的认识从早二叠世到晚三叠世不等。本文对新特提斯洋南侧印度被动大陆边缘二叠纪—三叠纪沉积地层进行了系统的梳理,研究发现在早二叠世冰期结束之后,印度大陆北缘长期表现为稳定的沉积环境,显著的沉积环境变化仅发生在晚三叠世。晚三叠世的沉积环境变化伴随着沉积和沉降速率增加、沉积物源变化、双峰式火山活动以及古地理格局的重大改变。研究认为,晚三叠世印度大陆北缘沉积作用变化所记录的区域伸展作用很可能代表了新特提斯洋的开启。 相似文献
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通过对实测剖面层序和沉积特征的详细分析,将塔城北部晚泥盆世塔尔巴哈台组下亚组由下向上分为四个沉积相组合,分别为浊积岩相、浅海陆棚相、滨海相及海陆交互相,构成向上变粗变浅的沉积序列。古流向和沉积演化分析表明,塔城北部地区晚古生代初期位于成吉思-塔尔巴哈台褶皱隆起带以北,其性质为向北开放的大陆边缘,发育晚古生代塔尔巴哈台组深海、浅海、滨海到海陆交互相的沉积体系。准噶尔西北塔城地区晚古生代早期古地理格局可能由南部成吉思-塔尔巴哈台早古生代褶皱带形成的隆起区和其北的向北开放的大陆边缘构成。 相似文献
15.
通过1∶50 000陕西镇巴—高川地区区域地质调查,发现镇巴地区和高川地区二叠系具有完全不同的岩石组合特征及生物化石,前者主要为一套稳定的碳酸盐岩相沉积,后者主要为一套较深水相黑色岩系沉积。经对典型地区实测剖面、古生物及岩石组合特征详细对比研究,发现二者虽然时代相同,但是不能横向对比,应为同期异相的产物。在综合区域地质资料基础上,探讨上述二叠系所表征的区域构造意义。两套二叠系岩相的差异性说明镇巴地区和高川地区当时曾分处在不同的沉积-构造环境:镇巴周缘以米仓山和星子山地层小区为代表的物质建造与扬子地块整体升降和海水的频繁进退密切相关,而高川周缘以褚河地层小区为代表的物质建造则更可能与早期地壳隆升、晚期地壳张裂成盆和海水贯入有关。综合区域地质资料研究认为,高川地区地层系统与勉略带地层系统相似,表明其早期与勉略带有着大致相同的构造演化史,也表明高川盆地曾经是晚古生代勉略裂谷—有限洋的一部分,只是被后期构造改造而残存于现今高川一隅。 相似文献
16.
根据岩类组合特点、地质构造背景和构造活动性,扬子地台晚古生代沉积建造可分两大类型:台地型建造和台槽型建造.这两类建造在空间上和时间上展布规律和发育程度,都是与地质构造背景、沉积环境、古气候、岩浆活动和地壳活动等密切相关. 相似文献
17.
佳木斯地块位于中国东北微陆块群的最东缘,其东缘地区晚古生代的岩浆和沉积演变进程为欧亚大陆东缘由被动陆缘向活动陆缘构造环境的转化提供了关键证据。年代学和地球化学研究表明,佳木斯地块东缘中泥盆世黑台组砂岩,形成于被动陆缘的构造环境,黑台组上覆的老秃顶子组流纹岩也形成于被动陆缘的构造环境;晚石炭世珍子山组砂岩,形成于活动陆缘的构造环境;早二叠世的二龙山组安山岩以及相邻地区早二叠世的其它火成岩形成于活动陆缘的构造环境。同时,佳木斯地块东缘泥盆-二叠纪的沉积地层也呈现出由浅海相到陆相地层转化的特征。因此,佳木斯地块东缘由被动陆缘向活动陆缘的转化应该发生在中泥盆世到晚石炭世,而该构造环境的转化也为晚古生代时期蒙古-鄂霍茨克洋向欧亚大陆之下俯冲过程的研究提供了关键信息。 相似文献
18.
This paper presents the results of high-resolution reflection seismic surveys carried out between 1989 and 1996 along rivers and canals in northern Belgium. The seismic data penetrate down to 900 m in the sedimentary cover or to the Paleozoic basement. The reflection response of the acoustic basement provides clear indications with regard to the top of the Paleozoic: crystalline basement and Lower Paleozoic metasediments and volcanics of the London-Brabant Massif and NE-dipping Devonian and Carboniferous strata. The subhorizontal Mesozoic and Cenozoic sedimentary cover comprises 20 unconformity-bound seismic units: 5 in the Cretaceous and 15 in the Cenozoic. Based on borehole information, these units are correlated with lithostratigraphically defined formations or groups. Some of the unit-bounding unconformities are of regional importance. They are attributed i) to eustatic sea-level changes causing regional flooding during the Late Cretaceous or incision of deep valleys during the Late Oligocene and Late Miocene, ii) to regional tectonic tilting between Late Eocene and Early Oligocene, or iii) to a combination of eustasy and tectonics causing valley incisions during the Lutetian. Faults of the Roer Valley Graben have offset different stratigraphic levels by sometimes considerable amounts (up to 230 m in the Oligocene to Quaternary succession). Although the main tectonic phase took place during the Miocene, the activity has varied considerably through time, and also from fault to fault. Most faults seem to have a 10 to 30-m displacement since the Late Pliocene. 相似文献
19.
在对大量钻井岩心观察分析的基础上,结合鄂尔多斯盆地区域地质背景,利用岩性、古生物、沉积构造、粒度分析、地球化学特征等鉴别沉积标志特征,分析鄂尔多斯盆地子洲地区晚古生代各时期沉积相特征,总结其演化规律。晚古生代研究区共发育5种沉积体系,分别是障壁海岸沉积体系、浅海陆棚沉积体系、曲流河三角洲沉积体系、辫状河三角洲沉积体系以及湖泊沉积体系。研究区晚古生代沉积演化经历两大阶段。重点分析山西期与石盒子早期盒8期沉积环境,子洲地区山西组沉积为水下还原环境,受河流三角洲作用控制,仅在山西组早期研究区南部受到短期海泛的影响;石盒子早期研究区处于完全的淡水环境,受辫状河三角洲作用控制。晚古生代沉积时气候特点体现出由温暖潮湿气候向半干旱—干旱气候转变,沉积体系表现为由海相、海陆过渡相向陆相过渡转变的特点。 相似文献
20.
华南前侏罗纪构造 总被引:9,自引:0,他引:9
华南是我国地质研究的立典地之一。近年又有若干新发现,获得大批新数据,产生了许多新认识。本文初步总结了华南前侏罗纪地质研究中取得的新进展、新成果以及出现的新问题,结合自己的工作,进行了综合评述,兼谈了自己的认识。主要内容包括前寒武纪地质特征(多地体的构造格架、碰撞拼合带位置的厘定、华夏古陆问题、新元古代变质作用)、华南原始大陆形成的时间与证据、华南早古生代褶皱带构造属性(陆内造山前构造、早古生代地层序列与沉积环境、陆内造山的证据、陆内构造-岩浆作用特征、早古生代陆内造山的驱动力)、晚古生代沉积环境与早中生代构造-岩浆作用的构造背景(晚古生代含放射虫硅质岩问题、晚古生代地层序列、早-中三叠世花岗质岩浆活动特征、早中生代构造-岩浆活动的动力学机制)以及华南地质研究中值得注意的一些问题等。期盼借此引起业内同行的重视,促进华南地质研究的前进步伐。 相似文献