中国西北地区沉积盆地发育的区域构造格局与演化

中国西北地区是不同地质时期多个全球性大地构造单元的组成部分,具有南北分带、东西分区的构造特征,经历了中、新元古代—古生代期间地壳增生、洋-陆转换、板块开-合旋回、晚二叠世以来盆地的叠加改造和新生代印度与欧亚板块碰撞远源效应等长期演化过程,具有明显的阶段性。研究表明,现今盆地多位于具有一定规模的经过前震旦系不断增生作用所形成的陆块基底之上,塔里木盆地塔中、塔北、塔东北地区基底可能以古元古界为主,而巴楚地区则以晋宁期的变质基底为主。准噶尔盆地前震旦纪存在多个独立发育的块体,古生代总体具有多岛洋的性质。柴达木盆地、河西走廊及邻区的诸多中小型盆地的基底主要为中元古代形成。敦煌盆地、北山地区众多中小型盆地坐落在中小地块或者古生代活动陆缘的岛弧之上。西北地区早古生代经历了一个完整的板块开-合旋回,但不同地区有不同表现方式。北疆地区至少存在寒武纪—早奥陶世、志留纪和泥盆纪3个主要时期的蛇绿岩,反映了在早、晚古生代各存在一定规模的洋盆。在不同带的早古生代洋盆具有不同的闭合时间。塔里木盆地周缘南天山洋、西昆仑洋及阿尔金、祁连、东昆仑、北山地区早古生代洋盆的发育时间为寒武纪早期,经过了中、晚寒武世到早奥陶世早期洋盆的扩张,早奥陶世晚期构造应力场转为挤压体制。志留纪中晚期至早泥盆世,西北地区存在全区性的板块拼合与碰撞以及不同程度的变形变质过程。西北地区晚古生代又经历了一个完整的板块开-合旋回,天山全区、准噶尔南部、东西两侧分别进入碰撞后新的大规模的伸展阶段,均形成了有限洋盆,其时代略有差别,上、下石炭统之间可能存在构造转换。塔西南地区早石炭世伸展作用形成了晚古生代的西昆仑洋和陆缘裂陷盆地,中二叠世康西瓦—苏巴什洋盆向北侧俯冲消减,发生于中、晚二叠世之间的海西晚期构造运动是西北地区具有重大变革意义的一次构造运动。晚二叠世—新生代是西部地区构造格局大的调整与定型时期,在总体表现为多板块拼合后的宏观背景下,经历了多期幕式挤压与伸展交替的构造演化过程,并不是以往所简单认为的各种前陆盆地的组合,晚期均受到了青藏高原快速隆升所导致的远源碰撞作用的强烈改造。构造格局的差异性和演化的阶段性使西北不同地区、不同时期盆地发育和叠加组合方式差异很大,油气地质条件的明显不同,油气资源丰度差别很大。     

特提斯中西段古生代洋陆格局与构造演化

笔者根据国内外研究进展和区域地质对比,将特提斯中西段的古生代构造域划分为Iapetus-Tornquist洋加里东造山带、Rheic洋华力西期造山带、乌拉尔-天山中亚造山带和古特提斯Pontides-高加索-Mashhad造山带,并提出4个初步认识：（1） Rodinia超大陆在新元古代裂解形成的原特提斯大洋在欧洲以Iapetus和Tornquist缝合带为代表,它们在约420 Ma闭合形成加里东造山带,与我国秦祁昆造山系相似;（2） Rheic洋类似于特提斯东段的龙木错-双湖-昌宁-孟连洋,为古生代的特提斯主大洋,而泥盆纪形成的古特提斯洋实际上为主洋盆衍生的分支洋盆之一,Rheic洋的各分支洋盆在320~310 Ma闭合,形成华力西造山带和Pangea超大陆;（3）南阿尔卑斯Plankogel带、土耳其北部Pontides带和伊朗北部Rasht-Mashhad为古特提斯缝合带,代表泥盆纪—二叠纪的洋盆,晚石炭世—早三叠世丝绸之路岩浆弧与我国羌塘中部的望果山火山弧相对应;（4）特提斯中西段的基梅里造山带和羌塘中部的印支期造山带为古特提斯增生型造山带的典型代表。     

Volcanic evolution of the marginal and interarc basins

Volcanic evolution of the interarc and marginal basins is analysed using the available data on volcanics from the presently existent and ancient back-arc basins of the western Pacific and Mediterranean. It is shown that in early (pre-spreading) stages of back-arc rifting, the character of volcanism is determined by “maturity” of the adjacent island arc. It is predominantly alkaline or mildly alkaline for back-arc basins related to the island-arcs with high-potash calc-alkaline and shoshonitic volcanism. The back-arc alkaline and mildly alkaline basalts strongly differ from the continental and oceanic rift volcanoes by constantly lower Ti, Nb and Zr contents. Because of these features these basalts are akin to the basaltic members of the island-arc volcanic series. As the latter, they are generally strongly enriched in K₂O and LIL elements, whereas Na₂O reveals comparatively small variability. With initiation of spreading a sharp depression of K₂O, LIL and light REE occurs in the axial basalts of back-arc basins, that progressively approach the MORB composition. But even tholeiites from the most evolved basins that underwent a considerable spreading reveal slight but detectable geochemical peculiarities, indicating their island-arc affinities. Origin of the low-Ti alkaline basaltic magmas of the active continental margins is discussed.     

雪峰山西侧构造演化和构造格局对区域油气成藏条件的控制

本文对雪峰造山带北西缘及其北西侧隔槽式褶皱带的区域构造演化和构造格局与油气关系进行了总结和探讨,主要认识如下:震旦纪-早古生代的被动大陆边缘盆地(Z1-O1)和前陆盆地(O2-S)背景下形成了3套主要生储盖组合。主要烃源层牛蹄塘组早奥陶世开始排烃(油)、三叠纪末排烃(气)基本结束;五峰-龙马溪组晚古生代中期开始排烃(油),白垩纪末排烃(气)基本结束。晚奥陶世后期的都匀运动形成了雪峰造山带北缘隆起和黔中隆起(为大型圈闭),中侏罗世或中三叠世以前的油气多由周边凹陷区向这两个隆起区运移、聚集,严重影响到凹陷区中生代圈闭内天然气成藏潜力和规模。受排烃历史控制,隔槽式褶皱带内中生代圈闭构造有可能形成以五峰-龙马溪组为烃源的较大规模上组合气藏;以牛蹄塘组为烃源的下组合和中组合一般难以成藏,但在黔中隆起带有可能形成次生气藏。最后,基于构造和油气演化特征,探讨了研究区油气成藏远景,并提出了油气勘探方向建议。     

南海大陆边缘盆地构造演化差异性及其与南海扩张耦合关系

南海大陆边缘盆地由于边界条件的差异,不仅形成了不同类型的陆缘盆地,如离散型、走滑伸展型和伸展挠曲复合型,而且这些盆地构造演化存在明显的非同步性。这些陆缘破裂过程与南海扩张作用过程呈现明显不一致性。研究表明,南海扩张时期南海南、北大陆边缘均形成了一系列裂陷盆地,然而,南海南部、北部大陆边缘盆地裂陷作用结束时间不同,北部大陆边缘盆地裂陷作用结束于23 Ma或21 Ma,而南部大陆边缘盆地裂陷作用结束于15.5 Ma,显然北部大陆边缘盆地裂陷结束时间明显早于南部大陆边缘盆地。南海扩张停止后,南海南、北部陆缘仍表现出明显差异,北部陆缘仍以伸展作用为主,晚中新世以来出现快速沉降幕,而南海南部陆缘则以挤压作用为主,且其挤压时间及强度呈现南早北晚的特点,即南部曾母盆地明显早于南薇西盆地和北康盆地。南海南、北大陆边缘盆地形成演化的差异性,特别是构造转型差异变化,为新生代南海扩张的迁移性提供了有力的佐证,可以推断南海不同期次海盆扩张可能存在向南的突然跃迁。因此,本次研究梳理出的南海不同陆缘盆地张裂伸展的非同步性可为南海洋盆扩张演化过程解释提供新的证据。     

喀喇昆仑断裂的变形特征及构造演化

喀喇昆仑断裂的变形特征、形成时代、构造演化以及它的构造意义一直存在着争议。在喀喇昆仑断裂东南段阿伊拉日居山地区,沿断裂出露具右旋剪切应变的糜棱岩和糜棱岩化片麻岩-花岗岩,显微构造研究表明其存在高温右旋剪切变形特征,并伴随淡色同构造花岗岩的产生,同构造结晶锆石所记录的U-Pb同位素年龄,暗示了喀喇昆仑断裂的形成时代在23-25Ma以前,其连续变形作用持续到-12Ma,之后伴随阿伊拉日居山的快速隆升以及噶尔盆地开始形成。综合分析表明喀喇昆仑断裂生长过程可能是由南东向北西扩展的过程,是印度板块与欧亚大陆持续碰撞的结果。断裂的累积位移量至少为280km,其长期平均滑移速率约为11mm／a。通过块体间运动学分析,表明在-23-25Ma以后青藏高原物质以约16．2mmn/a的速率向-N108°方向挤出。     

中国大陆构造格架的动力学演化

指出中国大陆构造不仅呈现出“三横、两竖、两个三角”的宏观格架,而且与块体拼合的形成演化紧密相关,从中国大陆构造五幕演化史的动力学机制来看,中国大陆宏观构造演化可归纳为好像是一个“跷跷板”过程:以鄂尔多斯—四川为轴,古生代期间西低东高;中生代以后,从南大陆漂移而来的羌塘、冈底斯、印度等地体依次与塔里木块体碰撞、缝合,不仅出现不同时期特提斯的闭合,还形成了世界的第三极——青藏高原;几乎与此同时,太平洋板块向NW转向,俯冲于菲律宾海板块之下和菲律宾海板块向欧亚板块的聚敛,以及澳大利亚板块的向北运移,导致中国东部及海域的拉张与地壳减薄,造成中国地势西高东低。文中最后指出,中国大陆构造格架的动力学演化研究在寻找金属矿床、勘探油气资源等方面具有重要的实际意义。     

Activity level of tectonic basins,western section of the North Anatolian Fault Zone,Turkey

We employed quantitative techniques to investigate tectonic activity levels and development stages of the Bolu, Yenicaga, Dortdivan, Cerkes, Ilgaz, and Tosya structural basins along the western portions of the main trace of the North Anatolian Fault Zone (NAFZ). Our methodology incorporates six morphometric indices: basin shape (basin elongation and compactness), hypsometric integral, mountain-front sinuosity, stream length gradient index, valley floor width-to-height ratio, and asymmetry factor, obtained from the digital elevation model of the region generated from 1/25,000-scale topographic maps. These indices are integrated within the framework of an analytical hierarchy process to provide relative activity level values of the individual basins. The new analyses indicate that the basins have contrasting tectonic activity characteristics. Judging from the applied indices, the relative increasing order of the tectonic basin activity is Dortdivan, Cerkes, Yenicaga, Ilgaz, Tosya, and Bolu. Among the basins located to the north of the NAFZ, the activity decreases eastwards, whereas to the south of this profound fault zone, it decreases towards the west.     

Diffuse magnetic anomalies in marginal basins: Their possible tectonic and petrologic significance

Marginal basins, areas of oceanic lithosphere peripheral to large ocean basins, may be formed by several processes, but the young active marginal basins have the geophysical and geochemical characteristics of young normal oceanic lithosphere. We recognize two distinct tectonic settings in which new oceanic lithosphere may be formed in areas which would be termed marginal basins:

1. (1) Upwelling of fractional melts of mantle material from the region above subducted lithospheric slabs leads to the generation of new oceanic lithosphere behind island arcs. The general case for this tectonic setting involves random location of magma leaks and does not produce correlatable magnetic anomalies. In special cases, an orthogonal ridge—transform system may duplicate the magnetic patterns found on ocean-basin crust.

2. (2) The second tectonic setting develops on very long “leaky” transform faults separating spreading ridges. In areas where the transform has dislocated a block of continental crust, or an island arc, the map view of the resulting marginal basin may resemble the setting of a basin behind an active island arc. However, the “leaky” transform setting is unrelated to active plate convergence or to Benioff zones.

At “normal” ridge-crests, and possibly in some marginal basins, basalt is erupted on long linear magma leaks and rapid cooling forms thick lithosphere with correlatable linear magnetic anomalies. Some marginal basins have high thermal flux, spread slowly and may have thick sediment cover. Slow cooling, numerous point-source magma leaks and extensive hydrothermal alteration diminish magnetic intensities and cause diffuse magnetic patterns. The correlation problems caused by diffuse magnetic anomalies make interpretations of spreading rates and directions in young marginal basins a difficult, if not futile, task.It is likely that fragments of marginal-basin lithosphere form some of the ophiolite complexes; their recognition is critical to paleo-tectonic interpretations. The geochemical characteristics of marginal-basin basalts do not appear to be useful criteria for distinguishing them from ocean-ridge basalts. However, the abundance of short ridges and seamounts in many young marginal basins suggests that an abundance of seamount material, as well as differentiated volcanic and plutonic rocks, in ophiolites may be an indication of derivation from marginal-basin lithosphere.     

辽西地区中生代盆地构造演化

辽西地区为华北地台北缘阴山－燕山造山带的东延部分，中生代发育火山－碎屑岩沉积盆地。盆地地质分析表明，该区在早白垩世早期之前发育的沉积盆地为挤压型盆地，早白垩世中期以后属伸展断陷盆地。根据沉积－构造分析，该区中生代盆地构造演化可划分为5个构造演化阶段；（1）早三叠世－－早侏罗世；（2）早侏罗世－中侏罗世；（3）中侏罗世－晚侏罗世；（4）早白垩世早期；（5）早白垩世中期－晚白垩世。     

中国东南部中、新生代盆地特征与构造演化

中国东南部中、新生代盆地与花岗岩构成了复杂的盆岭镶嵌体系--华南盆岭构造.根据盆地的几何学、运动学、动力学与构造演化特征,将研究区中、新生代盆地划分为类前陆盆地、裂谷盆地和断陷盆地三大类型.对晚三叠世以来各个时代盆地的规模、产状、边界、岩石组合、指相矿物、沉积构造进行了分析.不同时代盆地的特征和重点区段盆区岩层的节理测量-统计结果表明,晚三叠世以来研究区的盆-岭格局至少经历过4期地球动力学演化.该盆-岭体系具有密切的时空和成因联系,二者时间相近,空间相伴,成因相关.研究表明,永定-龙南-始兴是一个中侏罗世陆内裂谷带,武夷山是晚中生代的古地理与气候分隔带,赣江带是晚中生代的火山岩界线.     

Cenozoic tectonic evolution of the central Wassuk Range,western Nevada,USA

The central Wassuk Range is ideally located to investigate the interplay of Basin and Range extension and Walker Lane dextral deformation along the western Nevada margin of the Basin and Range province. To elucidate the Cenozoic evolution of the range, the author conducted geologic mapping, structural data collection and analysis, geochemical analysis of igneous lithologies, and geochronology. This research delineates a three-stage deformational history for the range. A pulse of ENE–WSW-directed extension at high strain rates (～8.7 mm/yr) was initiated immediately after the eruption of ～15 Ma andesite flows; strain was accommodated by high-angle, closely spaced (1–2 km), east-dipping normal faults which rotated and remained active to low angles as extension continued. A post-12 Ma period of extension at low strain rates produced a second generation of normal faults and two prominent dextral strike–slip faults which strike NW, subparallel to the dextral faults of the Walker Lane at this latitude. A new pulse of ongoing extension began at ～4 Ma and has been accomodated primarily by the east-dipping range-bounding normal fault system. The increase in the rate of fault displacement has resulted in impressive topographic relief on the east flank of the range, and kinematic indicators support a shift in extension direction from ENE–WSW during the highest rates of Miocene extension to WNW–ESE today. The total extension accommodated across the central Wassuk Range since the middle Miocene is >200%, with only a brief period of dextral fault activity during the late Miocene. Data presented here suggest a local geologic evolution intimately connected to regional tectonics, from intra-arc extension in the middle Miocene, to late Miocene dextral deformation associated with the northward growth of the San Andreas Fault, to a Pliocene pulse of extension and magmatism likely influenced by both the northward passage of the Mendocino triple junction and possible delamination of the southern Sierra Nevada crustal root.     

新疆南天山构造格架及构造演化

南天山碰撞造山带位于西伯利亚与塔里木地块之间的北亚造山区南部的天山造山系的中南部,是塔里木地块与哈萨克斯坦-准噶尔地块之间的一条构造带,地理上由哈尔克山、额尔宾山、虎拉山等组成,地质上主要由古生代地质体组成,其南北两侧均为活动陆缘,中间由洋壳残片、洋岛和增生杂岩组成,是南天山古生代洋盆演化的产物。南天山古洋盆从震旦纪裂解,寒武纪持续扩张,奥陶纪—石炭纪向南北两侧俯冲闭合,至二叠纪南天山造山带进入后造山调整阶段。     

煤田构造演化新解—从成煤盆地到赋煤构造单元

中国成煤盆地类型多样、后期改造强烈,绝大多数成煤盆地已遭受破坏解体,煤系现今分布范围与原型盆地相去甚远。针对中国煤田构造的上述特点,以成煤盆地研究为基础,建立了成煤盆地原型综合分类方案,划分了我国主要成煤期的成煤盆地类型。采用赋煤构造单元的概念表征现今煤系赋存特点,认为煤田构造格局的形成和演化就是成煤盆地原型经历不同程度改造,形成现今各类赋煤单元的过程。晚古生代以来,中国大陆经历了海西、印支、燕山和喜马拉雅四大构造旋回,多期性质、方向、强度不同的构造运动,使各成煤期形成的不同类型的成煤盆地遭受不同程度的改造,原型盆地分解破坏、叠合反转,煤系发生变形、变位、变质作用,形成不同级别和不同构造属性的赋煤构造单元,由此决定了煤炭资源的现今赋存状态。     

Tectonics and thermal structure of western Satpura,India

Increased seismicity and occurrences of hot springs having surface temperature of 36–58 °C are observed in the central part of India (74–81° E, 20–25° N), where the NE trending Middle Proterozoic Aravalli Mobile Belt meets the ENE trending Satpura Mobile Belt. Earlier Deep Seismic Sounding (DSS) studies along Thuadara-Sendhwa-Sindad profile in the area has showed Mesozoic Sediments up to around 4 km depth covered by Deccan Trap and the Moho depth with a boundary velocity (P_n) of 8.2 km/s. In the present study, surface heat flow of 48 ± 4 mW m^?2 has been estimated based on P_n velocity, which agrees with the value of heat flow of 52 ± 4 mW m^?2 based on Curie point isotherms estimates. The calculated temperature-depth profile shows temperature of 80–120 °C at the basement, which is equivalent to oil window temperature in Mesozoic sediments and around 570–635 °C at Moho depth of 38–43 km and the thermal lithosphere is about 110 km thick, which is comparatively higher than those of adjoining regions. The present study reveals the brittle–ductile transition zone at 14–41 km depth (temperature around 250–600 °C) where earthquake nucleation takes place.     

雪峰山西麓中生代盆地属性及构造意义

雪峰山西侧发育一系列的中生代盆地,它们的形成与后期变形是华南地区晚三叠世以来板内变形的响应。晚三叠世-早、中侏罗世,雪峰山地区由于桃江-安化-溆浦断裂的左行压剪作用,在雪峰山西北侧形成早期沅麻前陆盆地,而在雪峰山中南段由于走滑作用形成拉分盆地,雪峰山西侧印支期并不存在统一的前陆盆地,其印支期造山规模很有限,为陆内造山。从白垩纪开始,雪峰山西麓盆地进入不同的构造体制环境,总体上经历了三期主要的盆地形成和改造事件。白垩纪早期沅麻盆地进入区域伸展阶段,该期的盆地并不是前人认为的前陆盆地,古水流表明物源为东西两侧的雪峰山和武陵山,而中期沅麻盆地继承早期的伸展体制,生长地层、地堑、地垒结构发育,古水流指示物源依旧是两侧山地,该期伸展可能与整个华南同期的伸展一样受控于同样的机制。进入新生代,雪峰山西麓盆地经历了两期重要的变形改造阶段,早期由于桃江-安化-溆浦的右行走滑,产生了北东向的主压应力,在沅麻盆地中产生了北东走向的张节理,这些节理在后期往往发育成正断层,造成这期变形的原因是由于55～25Ma之间,印度-欧亚板块的碰撞在整个东亚地区产生的一系列右行走滑断裂所致。新生代后期变形体现在北西—南东向挤压,在沅麻盆地以及天柱盆地东缘形成了一系列的逆冲构造,古生界以及元古界逆冲于中生界之上,这期挤压在盆地中形成了稳定分布的一组共轭节理。这期变形与整个东部中新世变形可能有同一的构造背景,其原因与太平洋板块的俯冲无关,而与菲律宾海板块于中新世左右由南向北运移并与华南大陆碰撞有关。     

柴达木盆地西部中—新生代沉积构造演化

通过柴达木盆地西部茫崖-赛什腾山地表地质、航磁、重力、大地电磁测深和地震资料的综合分析,认为柴达木盆地夹持在昆北地块与赛什腾构造带之间,其中包括柴达木地块与祁连地块南缘2个一级构造单元和昆北地体北缘,柴达木盆地,赛什腾构造带和祁连地块南部的苏干湖盆地等4个二级构造单元。盆地的总体结构表现为东昆仑山和祁连山相向向盆地挤压对冲,盆地中部沉降的构造格局。盆地内部的构造样式以自盆地边缘至中心以此形成背斜构造为显著特征,背斜两翼多发育逆断层,构成“两断夹-隆”的构造格局。挤压应力主要来自南西方向、北东方向起阻挡作用。在两侧造山带的强烈挤压作用下,侏罗纪时期在祁连造山带南缘形成并不典型的前陆盆地,古近纪至新近纪时期则在祁连造山带与昆仑造山带之间形成双侧前陆盆地,第四纪属挤压坳陷盆地。     

中国近海新生代盆地构造差异性演化及油气勘探方向

中国近海处于欧亚、印度-澳大利亚及太平洋三大板块的交汇地带,其盆地形成与演化受控于洋、陆板块的相互作用,区域构造背景对盆地形成和演化起到了重要的作用,并由此导致了中国近海盆地显著的分段性和差异性演化特征。渤海海域、北黄海至南黄海盆地属于陆内裂陷型盆地;东海海域为活动大陆边缘弧后裂陷型盆地;珠江口盆地和琼东南盆地为被动大陆边缘型盆地;莺歌海海域为转换大陆边缘型盆地。受此影响,油气分布有明显的分段分区性,渤海—南黄海陆内盆地以成油为主,东海弧后盆地以成气为主,南海北部大陆边缘北部成油、南部成气,莺歌海转换盆地以成气为主。中国近海未来的找油领域主要在渤海、珠江口盆地北部和北部湾盆地;找气领域主要在东海盆地、南海北部深水区和莺歌海盆地6大领域。