鄂尔多斯盆地中—晚三叠世盆地原型及构造古地理响应

中—晚三叠世的鄂尔多斯盆地沉积了一套优质的砂岩储层,目前对该套砂岩的成因及其空间分布已经有了成熟的认识,然而在中—晚三叠世鄂尔多斯原型盆地的确切边界位置、盆内古地理演化的构造成因机制等问题上依然存在不少争议。本文通过对鄂尔多斯盆内及周缘57个露头及165口钻井的层序地层学与沉积学研究,厘定了鄂尔多斯盆地在中—晚三叠世的边界位置并在层序格架下开展了古地理演化研究,同时探讨了古地理演化的构造成因。研究表明:中—晚三叠世鄂尔多斯盆地的北部边界从内蒙古的达拉特旗向东延伸至山西大同,东部边界应在山西宁武—太原—太谷—永和—河南安阳—开封—登封一线附近,南部边界为北秦岭(NQT)与华北板块的缝合带(陕西西安—洛南—河南栾川—南召沿线以南),西南以六盘山的西部断层边缘为界,西北界位于贺兰山西部断层边缘带,西部边界延伸至河西走廊盆地的西部边界(甘肃马良沟附近)。在中—上三叠统延长组识别出4个沉积旋回(SQ1-SQ4),代表了从起始阶段(SQ1)到最大沉降阶段(SQ2和SQ3)再到后期关闭阶段(SQ4)的湖泊演化过程。中—晚三叠世鄂尔多斯盆地内呈现出北部/东北部的曲流河-三角洲沉积体系和南部/西南部冲积扇-辫状河-三角洲沉积体系汇聚的沉积格局,在空间上表现出明显的南北差异,在时间上呈现出沉积中心的东-西破坏分异的演化特征。这种古地貌差异和演化主要受控于秦岭—大别山造山带(QDOB)与兴安岭—蒙古造山带(XMOB)的不同构造演化过程。盆地南部的古地理演化主要受控于QDOB的活动,中—晚三叠世勉略洋闭合驱动的北秦岭造山带活化不仅导致盆地南部陡坡带的形成和盆地东南部古地貌的突变,也导致晚三叠世盆地西南部发育一个分隔内克拉通盆地及西南缘类前陆盆地的水下低隆。盆地西部的古地貌演化受控于多种构造机制,中三叠世现今六盘山地区发育一个南北向的低隆区,很可能是盆地东南部的强烈挤压下的远端效应;晚三叠世中期后该低隆区发生下沉,现今鄂尔多斯盆地与河西走廊地区连通,这很可能是由盆地西南方特提斯构造域挤压作用下的盆内挠曲沉降导致的。这些认识不仅是对盆山耦合理论的补充,也对鄂尔多斯盆地石油和天然气的后期勘探具有重要的现实意义。     

南海北部古河流演变对欧亚大陆东南缘早新生代古地理再造的启示

欧亚大陆东南缘早新生代古地理演变包含了华南沿海中生代山脉的逐步消减与南海的逐步扩张形成等重大事件。南海北部始新统—下中新统“源-汇”路径研究发现,南海沉积物物源在该时期发生了巨大改变。在始新世和早渐新世,源自南海西部古隆起的“昆—莺—琼”河流系统向南海东部地区输送了大量沉积物,包括珠二坳陷在内的南海北部南侧大部分地区受南海西部物源的控制,仅在珠一坳陷接受来自华南大陆珠江的沉积物;晚渐新世,南海西部物源逐步被北部珠江物源取代;到早中新世,珠江来源沉积物全面越过番禺低凸起进入珠二坳陷,大量来自华南内陆的沉积物被珠江运输至南海盆地,“昆—莺—琼”古河流进一步萎缩,仅在南海西部琼东南盆地分布,并且由西向东沉积物源区昆嵩地块逐渐被海南岛取代。南海西部自晚中新世以来发育的中央峡谷正是该古河流的残余。南海新生代早期“昆—莺—琼”河流系统的发现及珠江演变过程的构建,对于深刻认识该地区新生代早期古地理特征、整个欧亚大陆东南缘的古地貌重建以及盆地的油气勘探均具有重要意义。     

扬子西缘鹤庆—洱源地区晚二叠世—晚三叠世盆-山演化的沉积记录

鹤庆—洱源地区位于扬子板块西缘,西邻“三江”结合带,晚二叠世—晚三叠世经历了完整的盆-山转换过程。通过分析该区地层岩性组合及沉积环境,结合构造事件,厘清了区内盆-山转换的时间格架及各阶段盆地沉积响应。研究结果表明: 区内盆地演化可分为陆内裂谷盆地、坳陷盆地和前陆盆地3个阶段; 裂谷盆地阶段沉积形成了巨厚的玄武岩沉积; 坳陷盆地阶段依次沉积了青天堡组碎屑岩、北衙组灰岩和白云岩; 前陆盆地阶段形成了中窝组和松桂组不整合界面及粗碎屑砾岩。研究成果对研究扬子西缘和“三江”特提斯构造带盆-山演化具有重要的科学意义。     

准噶尔盆地南缘二叠纪—三叠纪构造-沉积环境与原型盆地演化*

准噶尔盆地南缘(简称“准南”)的构造-沉积演化历史以及原型盆地性质一直以来备受争议。依据沉积环境分析、地层对比以及沉积演化研究,结合火成岩年代学、大地构造学等研究成果,探讨了该区二叠纪—三叠纪多期次的伸展—挤压环境转换及沉积盆地性质转变。晚石炭世,准南西段处于北天山洋壳向伊犁地体俯冲的末期,沉积环境以滨浅海为主,为残留洋盆地;准南东段以半深海相碳酸盐沉积为主,发育典型的双峰式火成岩,显示为陆内的伸展环境。早二叠世,准南以滨浅海相细粒碎屑岩沉积为主,发育同沉积断裂和伸展垮塌变形构造,表现为陆内裂陷盆地的特征。中二叠世,准南仍以滨浅海相为主,但其沉积速率明显加快,沉积厚度变大,整体上表现为以热力沉降为主的坳陷盆地。晚二叠世,北天山和博格达地区普遍发育冲积扇或扇三角洲,上二叠统泉子街组和中二叠统红雁池组之间呈明显的角度不整合接触,沉积环境发生突变,均显示北天山快速冲断隆升,表明该时期准南为陆内压陷盆地。早三叠世,准南快速冲断结束,该区进入相对稳定的发展阶段,以发育滨浅湖相细粒沉积物为主,表现为弱挤压的陆内压陷盆地的特征。中晚三叠世,由于持续湖侵,沉积盆地范围进一步扩大,北天山被削高补低,准南乃至整个准噶尔盆地进入统一的内陆湖泊演化阶段,整体上以滨浅湖相—半深湖相沉积为主,表现出陆内坳陷盆地的特征。综合上述原型盆地性质和沉积环境分析,可将准南二叠纪—三叠纪构造-沉积演化划分为4个阶段:晚石炭世—中二叠世为后碰撞伸展阶段,晚二叠世为北天山挤压冲断阶段,早三叠世为弱挤压压陷和削高补低阶段,中晚三叠世为稳定拗陷和准平原化阶段。     

地球化学记录揭示的柴达木盆地北缘地区中—晚侏罗世古环境与古气候*

沉积岩的地球化学特征是古环境变化良好的示踪剂,柴达木盆地北缘地区侏罗系记录了中国西北地区古环境、古气候演化的重要信息。本研究通过对柴达木盆地北缘地区大煤沟侏罗系标准剖面沉积岩的元素地球化学分析,尝试恢复了研究区中—晚侏罗世的古环境特征。结果显示:(1)研究区中—晚侏罗世以富氧的浅水环境为主,仅在短期内出现较深湖相沉积;整体上侏罗纪湖盆水体盐度较低,而部分层段沉积物盐度增大系降雨量相对减小导致。(2)基于多元地球化学参数建立的古气候演化曲线表明,中—晚侏罗世柴达木盆地北缘地区古气温、古湿度均在一定幅度内频繁变化;自中侏罗世晚期开始,研究区古气候开始由温暖潮湿向炎热干旱转变,至晚侏罗世进入了干热环境主导的阶段。多元地球化学参数剖面的建立为中国西北地区中—晚侏罗世“干热化事件”和区域古气候的研究对比提供了新的证据和材料。     

“黔中隆起”和贵州晚古生代古地理演化及其对铝土矿的控矿作用*

早古生代的区域隆升形成的古地貌和晚古生代海平面变化明显控制了贵州晚古生代古地理与古地貌的演化,“黔中隆起”表现尤为明显。然而对“黔中隆起”的形成时间及演化存在较大争议,限制了对贵州铝土矿的沉积古地理与古地理演化史的认识。通过野外踏勘、资料收集和整理,建立了贵州晚寒武世至二叠纪数个重要地质历史时期的古地理图,对“黔中”隆起的形成时间、演化等进行了再认识,揭示其与贵州铝土矿成矿的耦合关系。寒武纪至早志留世早—中期,“黔中隆起”北缘缺失与之相关的古陆边缘相沉积,黔中地区大规模的隆起时间应以下志留统韩家店组潮坪相沉积的出现作为开始。在“黔中隆起”的显著影响下,黔中和遵义地区经历长期而强烈的风化剥蚀,于早石炭世分别形成喀斯特洼地和漏斗、峡谷地貌,为九架炉组含铝岩系的形成提供了物质条件和成矿场所,并在晚古生代冰盖消长带来的海平面和气候变化的影响下,通过强烈的淋滤作用形成铝土矿。黔北务正道地区经历了长期的风化剥蚀后,在海平面高频变化下形成有利于下二叠统大竹园组铝土矿形成的滨岸湿地环境和洼地地貌。贵州早二叠世的铝土矿与晚古生代冰期具有更明显的耦合关系。     

西藏荣玛地区上三叠统日干配错组沉积环境及其构造意义

西藏荣玛地区上三叠统日干配错组发育厚度较大的碳酸盐岩夹少量碎屑岩沉积,在野外剖面实测的基础上,对这套碳酸盐岩进行了岩相与微相分析。通过对碳酸盐岩样品显微薄片观察分析,共识别出13个微相。根据岩石特征及其组合类型划分出6个沉积相:陆源碎屑滨岸相、局限台地相、开阔台地相、台地边缘浅滩相、台地边缘礁相和斜坡相。分析结果表明,晚三叠世荣玛地区主要为陆源碎屑滨岸-浅海碳酸盐台地环境,夹有较深水的斜坡相沉积,共发生了4次海侵-海退旋回,并间隔有若干次小规模的海平面升降变化。区域上,班公湖—怒江洋北缘晚三叠世的沉积环境大体一致,且广泛发育晚二叠世—晚三叠世之间的区域不整合,故认为班公湖—怒江洋的开启时间为晚三叠世之前,且东西段呈准同时开启模式打开。     

中国晚泥盆世至早三叠世楔叶类植物多样性研究*

化石类群的分类单元多样性和形态多样性变化是生物宏演化的2个基本方面,而以往的研究对于后者的关注较少。晚古生代的楔叶类植物易于识别,化石记录丰富,但针对这一类群多样性演化的研究还较为缺乏。基于华北板块、华南板块晚泥盆世至早三叠世楔叶类植物属、种以及叶片形态编码数据库,对楔叶类植物宏演化历程进行详细研究。中国(华北板块和华南板块)楔叶类植物的属、种丰富度在晚古生代呈现出不稳定的持续增长,表现为晚泥盆世的初始兴盛、早石炭世杜内期至早二叠世萨克马尔期的缓慢上升、早二叠世萨克马尔期至晚二叠世吴家坪期的快速上升;晚二叠世长兴期,总体的属种多样性骤减;每百万年属种多样性在二叠纪—三叠纪之交亦有明显降低。华南板块楔叶类植物的属种多样性总体上小于华北板块,达到峰值的时间为卡匹敦期—吴家坪期,而华北楔叶类植物的属级多样性在空谷期—沃德期达到峰值。中国楔叶类植物叶片的形态多样性的剧烈变化与属种丰富度并不同步,表现为法门期至韦宪期较小,在宾夕法尼亚亚纪达到峰值,随后稍微下降并在二叠纪的大部分时段保持平稳。在晚古生代的叶片形态演化过程中,楔叶类植物的叶面积由小变大、叶片由深裂至不裂、叶尖形状由分裂变为圆形或钝圆、叶轮中的叶从大小相等到大小不等并出现叶镶嵌,这可能与当时植物群落中林下层光照强度的变化有关。     

西藏安多县东巧晚侏罗世生物礁的发现

首次发现西藏安多县东巧地区晚侏罗世生物礁,造礁生物以层孔虫和六射珊瑚为主,其中,层孔虫可分为枝状、筒状和块状三种类型,它们多以原地生长状态保存.礁岩石学特征研究表明,礁岩可分为筒状-枝状层孔虫障积岩、枝状层孔虫障积岩、筒状层孔虫障积岩、筒状-块状层孔虫障积-骨架岩和筒状层孔虫-六射珊瑚障积-骨架岩.礁体类型可分为筒状-枝状层孔虫障积岩隆礁、枝状层孔虫障积岩隆礁、筒状层孔虫障积岩隆礁、筒状-块状层孔虫障积-骨架岩隆礁和筒状层孔虫-六射珊瑚障积-骨架岩隆礁,礁体的演化均经历了奠基阶段、发育阶段和衰亡阶段.     

柴达木盆地北缘上石炭统碎屑岩—碳酸盐岩高频转换过程及驱动机制*

碎屑岩和碳酸盐岩分别产自“外源、浑水”与“内源、清水”环境,二者的交替互层沉积可反映古水体性质、物源供给及气候等环境要素的频繁改变。晚石炭世,柴达木盆地北缘构造相对稳定,盆内发育巨厚的、多级次嵌套的“碎屑岩—碳酸盐岩混积层系”,记录了“冰室地球”冰川活动下的古海平面大幅度升降和古气候、古环境频繁交替信息。文中以柴达木盆地北缘连续完整露头剖面和钻井取心剖面为研究对象,结合区域地质资料、前人研究成果,通过详细的岩心、露头及镜下薄片观察,在研究区重点层段识别出下切谷充填型碎屑岩沉积和碳酸盐岩台地沉积组成的频繁互层序列。碎屑岩—碳酸盐岩互层组合序列在垂向上的有序叠加,构成了复合海平面变化旋回层序,其从碳酸盐岩—改造型台地沉积开始,向上依次发育碎屑岩下切谷充填序列的底部冲积河道沉积、中部河口湾序列和顶部代表海泛面的泥岩沉积,最后转变为碳酸盐岩向海到向陆台地亚相,反映了一个显著的早期海退—中期逐渐海侵—后期再次海退的旋回过程。冰川期急剧变冷的气候和冰川型高频的大幅度海平面升降,驱动滨线及相带迁移,影响到碎屑岩供给速率和碳酸盐生产率,造成了碎屑岩—碳酸盐岩的高频转换。     

华北地台石炭二叠纪腕足动物群及生物地理研究

通过对华北地台早石炭世晚期至早二叠世腕足动物群的全面系统研究,认为全区腕足动物群的发展演化具有一致性和阶段性,可清楚地分为5个阶段,即田师傅期（C13-C21）、本溪期（C22）、太原期早期（C23）、太原期晚期（P11）和山西期（P12）。在此基础上,进行了国内外同期腕足动物群的对比和腕足动物生物古地理分析,确立了华北地台东北部田师傅期腕足动物的生物地理归属,命名为天山-辽吉腕足动物生物地理分区,同时阐明了研究区内晚石炭世晚期至早二叠世腕足动物生物地理区划特征。     

Facies, geometry and geological significance of Late Ordovician (early Caradocian) coral bioherms: Lourdes Formation, western Newfoundland

Late Ordovician coral bioherms in the Lourdes Formation of western Newfoundland exhibit a complex mixing of architectural elements, including framework, boundstone and suspension deposits. The bioherms occur within a narrow (16 m) stratigraphic interval, and a prominent unconformity truncates the interval of bioherm growth and tops of many of the bioherms. The buildups developed along a carbonate ramp. They occur isolated and in groups, individuals in groups are aligned in parallel orientation. The sizes of the bioherms range from small (50–100 cm) coral piles to columnar and dome‐shaped masses (1–15 m); however, topographic relief was never more than ≈1 m. Bioherm construction reflects: (i) stacking of the tabulate coral Labyrinthites chidlensis, and less common stromatoporoids; (ii) accumulation of microbial‐stromatoporoid boundstone and suspension deposits within shelter cavities between corals; and (iii) detrital bioherm‐flank skeletal grainstone beds. Trypanites borings are common in the tops of coral heads. The bioherms exhibit three growth‐development stages: (i) seafloor stabilization, wherein rare, abraded coral colonies lie scattered within pelmatozoan/skeletal grainstone lenses; (ii) colonization, wherein corals (L. chidlensis), rare stromatoporoids (Labechia sp.), and other biota (bryozoans) produced a bioherm overlying the basal sediment base; and (iii) diversification, which is marked by a more diverse range of fauna and flora as well as occurrence of shelter‐cavity deposits. The diversification stage usually makes up more than 70% of a bioherm structure, and, in some defines multiple periods of start‐up and shut‐down of bioherm growth. The latter is defined by bored omission surfaces and/or deposition of inter‐bioherm sediment. The Lourdes bioherms have a similar ecological structure, biotic diversity and depositional environment to patch reefs in the equivalent Carters Limestone in Tennessee. The mixture of coral stacking and boundstone as architectural elements identify an Early Palaeozoic transition of reef‐design development along shallow‐water platforms that began to displace the muddy (boundstone, bafflestone) carbonate buildups more typical of the Early and Middle Ordovician time.     

额尔齐斯-西拉木伦对接带古生代沉积盆地演化

额尔齐斯-西拉木伦对接带位于西伯利亚板块、华北陆块和准噶尔地块之间, 其构造演化和古亚洲洋洋盆的打开与关闭有密切的关系.笔者在系统分析研究区3个二级和19个三级构造单元古生代岩石地层、生物地层及年代地层的基础上, 对沉积盆地进行原型恢复, 共划分出10个盆地类型.同时, 根据沉积盆地充填序列对研究区的构造-沉积演化做出了初步的论述.(1)早古生代-早石炭世古亚洲洋俯冲阶段; (2)早、晚石炭世之交的碰撞演化阶段; (3)晚石炭世-早二叠世碰撞及碰撞后演化阶段.研究认为古亚洲洋的闭合由西向东呈"剪刀式", 时间分别为早石炭世末(318 Ma)和中二叠世-早三叠世(260~245 Ma).三叠纪古亚洲洋消亡总体转为陆相环境.      

伊宁地块构造单元划分——来自火山岩浆作用的证据

伊宁地块不是一个之前一贯认为的"均匀地块"或"均一地块",而是以乌孙山-塔勒得近东西向区域性大断裂为界的南、北两大次级构造带("弧-盆"体系)叠加拼贴增生而成,火山岩浆作用为这一新的构造单元划分与建立提供了佐证。南构造带由喀拉峻岛弧带和其北的阿腾套弧后盆地构成,主要发育于晚泥盆世-早石炭世早期,火山岩同位素年龄峰值为355～350Ma,17个年龄平均值为351Ma;北构造带由北而南可再细分出清水河-苏布台弧后盆地→阿吾拉勒叠加岛弧带→特克斯-新源弧前盆地,主要发育于早石炭世中-晚期,同位素年龄峰值集中于345～329Ma,18个火山岩年龄平均值为340Ma。这两个"弧-盆"体系以大哈拉军山组钙碱性火山岩为主体,共生早石炭世海相阿克沙克组弧前及弧后沉积岩组合。大哈拉军山组火山岩主体以岛弧火山岩为主,见有富Nb玄武岩、高镁安山岩等,共生埃达克岩和高分异I型花岗岩等小岩体;在弧后还见有碱性火山岩、碱性球泡流纹岩,共生双峰式火山岩。不仅大哈拉军山组火山岩在各构造相中显著有别,而且共生的阿克沙克组在各构造相中差异极为显著。两大次级构造带具有独立的基底建造史,差异显著的盆地沉积史,独特的火山岩浆史和构造演化史。早晚石炭世之间的鄯善运动使南、北两个次级构造带叠加拼贴,构成统一的伊宁地块,晚石炭世进入统一的陆内构造发展演化阶段,发育以伊什基里克组碱性双峰式火山岩为代表的裂谷火山岩浆建造。     

Evolution of Stromatoporoidea in the Ordovician–Silurian epicontinental basin of the Siberian Platform and Taimyr

The paper discusses the evolution of Stromatoporoidea in the epicontinental sedimentary basin of the Siberian Platform and Taimyr during the Ordovician and Silurian. Specimens of the oldest genus, Priscastroma, were found in the middle of Middle Ordovician sediments. This genus is represented by the species P. gemina Khrom., which has two forms, A and B. Tracing the emergence of new genera over time, we identified two distinct branches in stromatoporoid evolution.The ancestor of the first branch is P. gemina f. A, which gave rise to the genus Cystostroma. The latter is the ancestor of two subbranches with predominant horizontal skeletal elements. The subbranches differ only in tissue microstructure. The genera Stromatocerium, Dermatostroma, and Aulacera display dense fibrous microstructure, whereas the genus Rosenella and its descendants display dense microstructure. The genus Lophiostroma, with a lamellar–fibrous tissue, may be a dead branch of evolution.The ancestor of the second branch is P. gemina f. B, which gave rise to the genus Labechia and its descendants. This branch has a dense tissue, with predominant vertical skeletal elements.Ordovician stromatoporoids from Siberia were compared with those from other basins of the world. Comparison shows that all the Ordovician genera from the epicontinental basin of the Siberian Platform and Taimyr originated here. Thus, this basin was one of the centers of stromatoporoid origin.     

Ludlow (Silurian) stromatoporoid biostromes from Gotland, Sweden: facies, depositional models and modern analogues

Stacked stromatoporoid‐dominated biostromes of the Ludlow‐age Hemse Group (Silurian) in eastern Gotland, Sweden, are 0·5–5 m thick and a few tens of metres to >1 km in lateral extent. They form one of the world's richest Palaeozoic stromatoporoid deposits. This study compiles published and new data to provide an overall facies model for these biostromes, which is assessed in relation to possible modern analogues. Some biostromes have predominantly in‐place fossils and are regarded as reefs, but lack rigid frameworks because of abundant low‐profile non‐framebuilding stromatoporoids; other biostromes consist of stromatoporoid‐rich rudstones interpreted here as storm deposits. Variation between these two `end‐members' occurs both between interlayered biostromes and also vertically and laterally within individual biostromes. Such variation produces problems of applying established reef classification terms and demonstrates the need for the development of terminology that recognizes taphonomic destruction of reef fabrics. An approach to such terminology is found in all four categories of a recent biostrome classification scheme that are easily recognized in the Hemse biostrome facies: autobiostromes (>60% in place); autoparabiostromes (a mixture of in‐place and overturned reef‐building organisms, 20–60% in place); parabiostromes (builders are overturned and damaged, <20% in place); and allobiostromes (transported and detrital reef material, nothing in place). These categories provide a broad taphofacies scheme for the Hemse biostromes, which are mostly autoparabiostrome to allobiostrome. The biostromes developed on crinoidal grainstone sheets and expanded laterally across relatively flat substrates in a marine setting of low siliciclastic input. Planar erosion surfaces commonly terminate biostrome tops. Three broadly similar modern analogues are identified, each of which has elements in common with the Hemse biostromes, but none of which is an exact equivalent: (a) laterally expanded and coalesced back‐barrier patch reefs behind the Belize barrier, an area influenced by limited accommodation space; (b) a hurricane‐influenced shelf, interpreted for Grand Cayman, where reef cores consist of rubble and lack substantial framework; the wide distribution of rounded pebbles and cobbles of stromatoporoids in the Hemse biostromes most probably resulted from hurricanes; (c) coral carpets in 5–15 m water depth of the northern Red Sea, where lateral expansion of low‐diversity frames dominated by Porites coral has produced low‐profile biostromes up to 8 m thick and several km long. Such carpets accumulated large amounts of carbonate, with little export, as in the Hemse biostromes, although the latter did not build frameworks because of the nature of growth of the stromatoporoids. The notable lack of algae in the Hemse biostrome facies is also a feature of Red Sea coral carpets; nevertheless, coral carpets are ecologically different. Hemse biostromes lack evidence of a barrier reef system, although this may not be exposed; the facies assemblage is consistent with either a storm/hurricane‐influenced mid‐ to upper ramp or back‐barrier system.     

川西峨眉地区古近纪早期气候特征:来自名山组下段地球化学及磁化率的证据*

古近纪早期是显生宙典型的“温室气候”期,也是气候向“冰室气候”转型前的最后温暖期。川西峨眉地区发育有完整的古近系名山组湖相地层,对该地层的古气候研究可以为了解和探索新生代重大地质事件和气候的演化过程提供参考依据。在前人研究的基础上,以常量元素与微量元素比值和磁化率为依据,结合宏观沉积特征和岩石薄片镜下特征,对峨眉地区古近纪早期气候演化与磁化率形成机理进行讨论。研究结果表明: 川西峨眉地区古近纪早期总体为热带—亚热带炎热干旱气候,该气候为晚白垩世炎热干旱气候的延续,但较晚白垩世干热程度明显降低,期间出现多次炎热干旱—温暖湿润变化,并存在气候波动较为剧烈的时段。气候的干湿变化是造成研究区磁化率变化的主要原因,磁化率高值反映气候趋于湿润,低值则反映干旱程度增加,剖面中磁化率出现明显波动的位置可能对应东亚季风开始对峨眉地区产生影响的时期。     

西南三江金沙江弧盆系时空结构及构造演化

金沙江(-哀牢山)弧盆系是西南三江多岛弧盆系的重要组成部分,恢复其时空格架及其形成演化过程对理解古特提斯多岛弧盆系的时空格局具有重要意义。根据新的地质调查资料、研究成果并结合分析数据,系统总结了金沙江弧盆系不同构造单元的物质组成及其构造属性,讨论了其构造演化过程及其对VMS型矿床的控制作用。金沙江洋壳发育时限主要为晚志留世—二叠纪,古洋壳地幔受到了早期俯冲带物质富集组分的影响,主体形成于弧后盆地的构造环境。江达-德钦-维西岩浆弧为一复杂的陆缘弧,经历了俯冲消减(300～260 Ma)、早碰撞聚合(255～250 Ma)、同碰撞伸展(249～237 Ma)和晚碰撞造山(236～212 Ma)等构造事件叠加改造,形成了不同类型、不同环境的岩浆活动及其盆地。金沙江带新发现的贡觉榴辉岩、维西退变榴辉岩等高压变质带,为恢复金沙江古特提斯洋的俯冲-碰撞造山的复杂演化过程提供了重要证据。在此基础上,结合区域地质资料,构建了金沙江弧盆系的演化历史,认为经历了晚志留世—早二叠世金沙江(-哀牢山)弧后洋盆扩张、早二叠世晚期—晚二叠世洋壳俯冲消减、早三叠世—晚三叠世弧-陆碰撞造山与盆-山转换、晚三叠世末期后碰撞陆内造山至陆内汇聚-走滑转换等阶段的演化过程,每个阶段控制着不同类型的VMS型矿床。     

Structural evolution of Vendian and early to Middle Paleozoic complexes in Uraltau Zone and Sakmara allochthons,Southern Urals

The structural evolution of the Late Precambrian and Early to Middle Paleozoic complexes is considered for the southern part of the Uraltau Zone and its extension in the Ebeta Antiform, as well as for the northeastern and northwestern frameworks of the ophiolitic Khabarny Allochthon, where the Late Precambrian and Paleozoic complexes of the continental margin in combination with ophiolites are drawn together in packets of tectonic nappes. The formation of the regional structure took place during several stages in various geodynamic settings. Five deformation stages have been recognized in the regional structural evolution from new data on mesostructural parageneses, which consist of folds that developed within outcrops and their relationships in rocks differing in age. The first stage is related to the Late Precambrian Timanian, or Cadomian Orogeny, and four subsequent deformation stages characterize Paleozoic tectonic evolution of the region. The geodynamic nature of the second stage remains unknown; the third stage is related to overthrusting of ophiolites in the Early Devonian; the fourth stage of deformations marks Late Paleozoic continental collision. The fifth stage of postcollisional strike-slip deformations completes the regional structural evolution.