广西二叠纪岩相古地理格局

广西二叠纪沉积受古特提斯构造所控制。马平晚期仍属泛大陆（Ｐａｎｇｅａ）的组成部分；栖霞期一茅口期为泛大陆裂解分异阶段，原有宽阔的浅水台地裂解为一个个孤立台地，形成“盆包台”的古地理格局；晚二叠世进入裂陷盆地与陆源碎屑盆地复合发展阶段。大致以云开古陆西缘断裂为界，西区为裂陷盆地，随着持续海任，“盆包台”的格局向盆地演化，并发育火山岩和火山碎屑浊积岩，反映了特提斯板块的新生；东区为陆源碎屑盆地，沿云开古陆西侧呈ＮＥ向展布，具有南厚北薄、自西向东和由老至新海水进侵的特点，反映了华夏构造的复合。     

南海南部陆缘盆地裂陷-漂移-前陆期构造演化及沉积响应:以礼乐盆地为例

通过礼乐盆地构造-地层-沉积分析，查明了其构造演化及沉积充填特征，揭示了其与南海扩张事件的成因联系，为南海边缘海演化研究提供了参考。研究结果表明:礼乐盆地新生代构造-沉积演化经历了3个差异显著的阶段，即古新世-早渐新世陆缘裂陷-滨浅海碎屑岩沉积阶段、晚渐新世-早中新世裂离漂移-浅海碳酸盐岩沉积阶段、中中新世以来周缘前陆挠曲沉降-区域差异沉积阶段。古新世-早渐新世，古南海向东南俯冲，华南古陆陆缘因水平引张力作用发生被动裂陷，形成礼乐盆地；此时以滨浅海环境为主，受碎屑物源供给控制，在盆地西北部发育一系列规模相对较大的辫状河三角洲，礼乐盆地东部、南部邻近古南海，仅在孤立隆起边缘发育规模较小的扇三角洲。晚渐新世-早中新世，古南海持续俯冲，新南海扩张，礼乐-巴拉望地块裂离华南古陆，向南漂移，盆地沉降缓慢，断层活动弱；此时以浅海-半深海环境为主，碎屑物源匮乏，盆地北部发育大型碳酸盐岩台地和生物礁，南部总体为半深海环境。中中新世以来，新南海扩张停止，礼乐-巴拉望地块向菲律宾岛弧俯冲碰撞，礼乐盆地进入周缘前陆期，以非对称挠曲沉降为特点，水深增大，断层活动增强；此时以半深海-浅海为主，盆地北部总体以碳酸盐岩台地和生物礁为特色，盆地南部局部发育深水重力流沉积。礼乐盆地构造-沉积演化与古南海俯冲-消亡、新南海扩张-关闭过程密切相关。      

右江三叠纪弧后盆地沉积特征及盆地演化

早二叠世后由于钦防海槽褶皱成山及金沙江－哀牢山俯冲消减带的形成，使右江地区东部钦防褶皱带前缘形成前陆盆地，广大西部滇黔桂地区形成弧后边缘海盆地。弧后主地经历晚二叠世－早三叠世扩张裂陷，有较强火山活动，以基性熔岩流及安山质火山碎屑流沉积，具有初始洋壳化性质；中三叠世强烈坳陷，以陆源碎屑浊流沉积为主，中三叠世末广大地区回返褶皱成山，盆地向西推移，晚三叠世形成狭窄的北东向萎缩坳陷盆地，卡尼期末充填隆起，盆地关闭。右江弧后盆地的关闭经历了突变式回返褶皱和渐变隆起上升两种不同的构造作用。     

缅甸中央盆地北部新生代古地貌重建

缅甸中央沉积盆地完整地记录了印度板块与欧亚板块的缝合过程,是研究这一重要地质事件的有利载体。为了探讨印度－欧亚板块缝合背景下缅甸中央盆地的演化历史,基于高精度地震资料,通过识别和建立典型的地震沉积相,结合地震地层厚度趋势法和沉积补偿原理,对研究区古地貌进行恢复重建。研究结果表明,缅甸中央盆地北部古地貌与盆地西缘印缅增生楔的生长隆升以及火山岛弧带的岩浆活动有密切关系。古地貌和沉积环境在渐新世－中新世期间发生了明显的转变,可能预示着盆地构造环境与古地理格局的重大转变,而控制这一重大转变的核心因素是新特提斯洋／印度洋岩石圈向西缅地块下的俯冲作用。      

蒙阴盆地的成生与演化

蒙阴盆地是在库拉板块向亚洲大陆下俯冲，中国东部隆升伸展板块裂解阶段发育起来的。在中生代，盆地的成生演化经历了侏罗纪拗陷盆地发育阶段和早白垩世拗陷—裂陷阶段。在相应沉积演化过程中，形成侏罗纪湖相红色碎屑岩建造，早白垩世早期滨浅湖—半深湖相灰绿色细粒陆屑岩沉积，早白垩世中期河湖相凝灰质复陆屑岩类夹火山碎屑岩类沉积，早白垩世晚期中基性火山熔岩、火山碎屑岩组合。沉积中心在侏罗纪和早白墨世早期皆偏于西北部，此后，向东南部迁移。晚白垩世，盆地处于风化剥蚀阶段。古近纪，受新生太平洋板块向亚洲大陆下俯冲影响，盆地又处于拗陷—裂陷阶段，相应形成山间河湖相—山麓堆积相类磨拉石建造。古近纪末期，该盆地整体隆起处于长期风化剥蚀状态。     

伊宁地块构造单元划分之新见

伊宁地块是西天山造山带的重要组成部分,其上广泛出露晚古生代火山岩浆岩和沉积建造,对剖析该地块的形成演化具有重要意义。伊宁地块以中部近EW向展布的乌孙山—塔勒得断裂为界可划分为南、北两大构造带,两者在基底建造、岩浆岩的组成与时代及其地球化学特征、盆地形成和构造演化等方面均呈现显著不同。其中,南构造带由晚泥盆世—早石炭世早期大哈拉—喀勒峻岛弧带和阿腾套弧后伸展盆地构成,推测海沟位于岛弧带之南(那拉提南缘断裂附近);北构造带由早石炭世中晚期阿吾拉勒叠加岛弧带、特克斯—新源弧前盆地和清水河—苏布台弧后盆地-扇三角洲构成。在重新梳理并详细总结伊宁地块的最新划分依据及方案基础上,首次提出伊宁地块形成与演化的南、北构造带两拼接和演化三阶段新认识:①晚泥盆世—早石炭世早期,南构造带初始弧-盆构造体系形成;②早石炭世中晚期,北构造带的沟-弧-盆构造体系形成并增生;③早—晚石炭世,初始的南构造带与增生的北构造带拼贴缝合,完成地块拼贴与增生,最终形成统一的伊宁地块。     

缅甸安达曼海弧后坳陷天然气成藏要素及成藏模式

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。     

泥盆纪－石炭纪右江盆地结构与岩相古地理演化

右江泥盆纪─石炭纪沉积盆地是伴随着古特提斯洋的打开，在杨子古陆南部被动大陆边缘上逐渐发育形成的裂谷型盆地。在同沉积断裂活动的强烈影响下，形成以北西向为主，北东向次之的次级深水盆地与台地相间展布的岩相－构造格局。由于区域应力场和同沉积活动断裂带延伸方向的差异，使北西向次级深水盆地呈张裂性质的地堑式和半地堑式盆地，而北东向次级深水盆地则大都具走滑盆地特征。泥盆纪的岩相古地理演化可分为三个阶段，即初始裂陷阶段、被动陆缘裂谷作用阶段和沉积充填阶段。     

伊犁石炭纪裂谷的时空演化特征

通过对伊犁盆地石炭纪裂谷火山岩的地层学、岩石学、岩石地球化学等方面的论述,分析了裂谷的形成与演化,探讨了裂谷形成的区域动力学背景。认为裂谷期火山活动具幕式喷发的特点;随着时代的演替,裂谷由初始裂陷的察布查尔－伊什基里克一带扩展到整个伊犁地块;裂谷的形成主要与中天山南北两侧古洋壳的相向俯冲所导致的地幔物质上涌、中上地壳的背向伸展有关。     

右江复合盆地的沉积特征及其构造演化

位于华南褶皱带南缘的右江盆地,其发展可分为两个不同的阶段。它的轮廓和结构,与NW向及NE向同沉积断裂关系密切。盆地内的沉积物,分别由特征不同的非补偿性和补偿性沉积相组成两个双层结构。盆地内火山活动发育,也明显的分为两个阶段。海西期,古特提斯洋的发展使哀牢山洋盆开裂,导致了右江地区在拉张应力条件下出现若干NW向裂陷带,这时的盆地具有大陆边缘裂谷特点。东吴运动后开始的印支期,区域应力条件发生变化。滨大平洋构造的发生,使盆地轮廓和结构发生明显变化,与此同时开始的哀牢山洋盆向NE方向的俯冲消减作用,使盆地在新的挤压条件下再次发生张裂和拗陷。进入了弧后盆地发展阶段。印支期末,盆地封闭。     

中国及境外天山铅锌成矿作用与找矿方向

中国及境外天山铅锌矿床多有发现,如哈萨克斯坦Tekeli、Shalkiya和Achisai,乌兹别克斯坦Kurgashinkan和Uchkulach,塔吉克斯坦Altyntopkan,中国新疆乌拉根、彩霞山、阿齐山、阿尔恰勒等大型—超大型铅锌矿床,构成了天山巨型铅锌成矿带.这些铅锌矿床形成于怎样的地球动力学背景?铅锌成...     

Plate convergence in the Indo-Pacific region

The Indo-Pacific convergence region is the best target to solve the teo remaining challenge s of the plate tectonics theory,i.e.,subduction initiation and the driving force of plate tectonics.Recent studies proposed that the Izu-Bonin subduction initiation belongs to spontaneous initiation,which implies that it started from extension,followed by low angle subduction.Numerical geodynamic modeling suggests that the initiation of plate subduction likely occurred along a transform fault,which put the young spreading ridge in direct contact with old oceanic crust.This,however,does not explain the simultaneous subduction initiation in the west Pacific region in the Cenozoic.Namely,the subduction initiations in the Izu-BoninMariana,the Aleutian,and the Tonga-Kermadec trenches are associated with oceanic crusts of different ages,yet they occurred at roughly the same time,suggesting that they were all triggered by a maj or change in the Pacific plate.Moreover,low angle subduction induces compression rather than extension,which requires external compression forces.Given that the famous Hawaiian-Emperor bending occurred roughly at the same time with the onset of westward subductions in the west Pacific,we propose that these Cenozoic subductions were initiated by the steering of the Pacific plate,which are classified as induced initiation.Induced subduction initiation usually occurs in young ocean basins,forming single-track subduction.The closure s of Neo-Tethys Oceans were likely triggered by plume s in the south,forming northward subductions.Interestingly,the Indian plate kept on moving northward more than 50 Ma after the collision between the Indian and Eurasian continents and the break-off of the subducted oceanic slab attached to it.This strongly suggests that slab pull is not the main driving force of plate tectonics,whereas slab sliding is.     

Formation and evolution of petroliferous basins in African continent and their hydrocarbon distribution

There are eighty sedimentary basins in five different types in African continent, i. e. craton sag basin, foreland basin, intermountain basin, passive margin basin and rift basin, which underwent the stress environment of stable depression-compression-extension. The first three types of basins had been intensely influenced by Hercynian and Alpine tectonic movement, while the later two types of basins always exist in a stable extension environment. Different basin evolution caused the obviously hydrocarbon distribution difference. In North Africa, marginal craton sag and rift basins show great expedition potential of hydrocarbon, marginal craton sag basins had good formation and preservation of Lower Silurian hot shale, tectonic-strata traps and migration pathway formed by Hercynian unconformity, and rift basins had excellent Upper Cretaceous marine source rocks and good hydrocarbon preservation with little tectonic activity. Meanwhile, in the salt-containing passive margin basins and delta basins of West Africa, thick strata containing high quality source rocks and plastic strata were well developed. Source rocks of high maturity, good hydrocarbon preservation, growth faults and deformational structure traps were formed by abundant overlying sediments and sources supplied from Tertiary large water system.     

Taimyr Peninsula( Arctic Siberia) in Late Precambrian:tectonic thrust sheets and geodynamic evolution

Structural relationships between the Neoproterozoic rock complexes of a continental massif,island arc and back-arc basin geodynamic affinities are described and considered in this work based on field observations within the northeastern segment of the Central Taimyr tectonic zone distinguished in the late Hercynian foldthrust belt of Taimyr Peninsula. As is established for the first time,rock complexes of the continental massif with the early Late Riphean( Tonian-Cryogenian) volcanogenic-sedimentary cover occur in the study region as the allochthonous syn- and post-sedimentary thrust sheets buried in or thrust over deposits of a back-arc basin,which accumulated in the terminal Late Riphean( Cryogenian)--initial Vendian( Ediacaran). These and other results of the large-scale structural observations elucidate important details of the region tectonic development in the Late Precambrian,when two lateral ensembles of the Neoproterozoic structures originated in the region. In the first half of the Neoproterozoic,the regional tectonic ensemble included the oceanic plate abut on the continental massif with a primitive volcano-plutonic belt. The subsequent system of an island arc and marginal backarc basin originated in the second half of the Neoproterozoic and existed approximately till the mid-Vendian( Ediacaran) phase of the intense formation of thrust sheets in the region.     

湘东北冷家溪群沉积岩地球化学特征及其构造意义

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。      

Meso-Cenozoic basin evolution in northern Korean Peninsula

In the Korean Peninsula the Meso-Cenozoic basins were mainly formed due to fault block and block movement. The Mesozoic fracture structures correspond basically to modem large rivers in direction. Such faults were usually developed to rift and formed lake-type tectonic basin, such as the Amrokgang-, Taedonggang-, Ryesonggang-, Hochongang-, Jangphari-, Susongchon-, Pujon-, and Nampho basins. The Mesozoic strata are considered to be divided into the Lower Jurassic Taedong System, Upper Jurassic Jasong System, Upper Jurassic-early Lower Cretaceous Taebo System, and the Upper Cretaceous-Paleocene （ Chonjaebong, Hongwon, Jaedok Series）. The Cenozoic block movement succeeded the Mesozoic fault block movement. The Kilju-Myongchon Graben and Tumangang Basin, etc, are the basins related to the fault zones developed from the Oligocene to Miocene. In addition, the Tertiary basins were formed in many areas in the Miocene （e. g. Sinhung, Oro, Hamhung, Yonghung, Anbyon, Cholwon, etc）. The Cenozoic sedimentation occurred mainly from the late Oligocene to Miocene. The Kilju-Myongchon Graben was the fore deep connected to the sea and the basins inclined in the Chugaryong Fault Zone are intramountain basins. Therefore, coal-beating beds and clastic rocks in the intramountain basins and rare marine strata and terrigenous clastic rocks are main sedimentary sequences in the Cenozoic.     

库米什地区火山岩岩石地球化学特征及大地构造环境

库米什地区火山岩属该区蛇绿岩套的组成部分,形成于晚泥盆世,以中性和酸性岩石为主,火山碎屑岩较发育,具有钙碱性火山岩套的特征。岩套内的沉积夹层具有远海沉积的性质。火山岩岩石化学特征属钙碱性系列;微量元素地球化学证明岩浆起源于消减板块之上的地幔楔形区;稀有元素地球化学特征与安山岩的特征相符。综合分析这些证据发现,该区火山岩形成于弧后盆地环境。     

青藏高原东南缘碰撞造山结构与物质组成:来自岩石地球化学和地球物理的联合约束

青藏高原东南缘位于印度板块与欧亚板块侧向汇聚部位,是检验碰撞造山动力学模型的理想场所。尽可能全面收集该区已有地球物理和新生代岩浆岩数据,探讨这些资料对碰撞造山带结构和物质组成的指示。结果表明:青藏高原东南缘不同部位的壳幔结构和组成存在较大差异。兰坪—思茅地块、保山地块和腾冲地块等的中地壳(15~30 km深度)普遍发育低速层,表明富水层或者部分熔融物质的存在,为青藏高原物质向东南流动提供了可能。部分熔融产物以大型剪切带内具有高Sr、低Nd同位素特征的淡色花岗岩脉为代表。但是,扬子板块同等深度下却发育高速层,其组成很可能是峨眉山玄武岩,它的存在阻隔了碰撞带物质向东流动。扬子板块和兰坪—思茅地块下地壳底部均出现呈条带状展布的高速体。根据新生代具有高Sr、低Y的岩石显示的下地壳源区特征,结合该区地质演化历史,将上述两套呈条带状展布的高速体分别解释为新元古代铁镁质弧岩浆岩和二叠纪—三叠纪铁镁质弧岩浆岩。青藏高原东南缘地幔各向异性存在明显南、北分区特征,在26°N以北表现为SN向,在26°N以南表现为近EW向。这一差异跟俯冲的印度板片撕裂有密切关系。该撕裂在综合地球物理剖面上显示为突变的印度板片俯冲角度,在地表表现为苦橄岩、煌斑岩、埃达克岩以及淡色花岗岩等的集中出露。这一新模型明显区别于前人的岩石圈拆沉和对流减薄等作用。