Regional tectonic and megadepositional cycles of the Paleozoic of northwestern and central Saudi Arabia

The Paleozoic succession of the Greater Arabian basin is severely affected by series of major tectonic and climatic events which have caused major stratigraphic breaks and pronounce facies change. The major tectonic movements have resulted in dividing the succession into pronounced megatectonic and depositional cycles. In more tectonically active areas, the succession is less preserved and boundaries between the cycles are more complicated due to longer periods of erosion by later movements and/or nondeposition. Minor stratigraphic breaks within the megacycles subdivide the cycles into smaller subcycles. Following the stabilization of the Arabian–Nubian shield, the Gondwana shelf went through a gentle uplift and tilt probably related to the Assyniyc tectonic movements and thick siliciclastics of the Saq and Qasim Formations were deposited. During Late Caradocian and following the deposition of the Qasim Formation, the area went through a gentle uplift and tilt probably related to the Taconic tectonic movements. Thick succession of the Qasim and Saq Formations were eroded and deep paleovalleys incised in the two formations and underlying basement. The movements were followed by drop of sea level due to glaciation events. Glacial and periglacial deposits of the Zarqa and/or Sarah Formations filled paleovalleys and rest on older units from Ordovician to Precambrian. The third main event occurred during Late Silurian where the preexisting successions, mainly on paleohighs, were affected by tectonic movements synchronous with the Acadian tectonic phase of the Caledonian tectonic movements. The Early Devonian Tawil Formation unconformably rests on eroded Silurian and Late Ordovician deposits of the Sharawra, Qusayba (Qusaiba), and Sarah Formations in the Qusayba Depression in central Arabia. The forth main event is a regional movement contemporaneous with the Hercynian tectonic movement which has reached its maximum phase in the Late Carboniferous. Earlier successions from Carboniferous to Precambrian were affected and the Permo-Carboniferous Shajra Formation unconformably rests on all underlying Paleozoic rock units toward the central Arabia arch and other paleohighs. The Shajra rests on the Devonian Jawbah (Jubah), Jawf (Jauf) and Tawil formations, the Silurian Sharawra, Qusayba, and Uqlah formations, the Ordovician Zarqa/Sarah, and Qasim formations, the Cambro-Ordovician Saq Formation, and finally rests on Precambrian Basement complex in Central Arabia. The tectonic movements played important role in shaping the structural framework of Arabia. The Paleozoic succession included source, reservoir, and seal rocks. Oil and gas have been discovered in sandstone and limestone reservoirs in these rocks in several oilfields in the basin.     

Tectonostratigraphy of the exposed Silurian deposits in Arabia

Exposed Silurian deposits in Arabia are represented by the Qalibah Group, the Qusaiba and Sharawra formations. The Qusaiba Formation is composed of dark-gray claystones and siltstones. It is disconformably underlain by the Late Ordovician–Early Silurian? Uqlah Formation or unconformably underlain by the Late Ordovician Zarqa or Sarah formations. It is disconformably overlain by the Sharawra Formation. The Early Rhuddanian basal “hot shale” of the Qusaiba Formation represents the early stage of the early Silurian marine transgression over the Gondwana broad shelf. It is a regional marker used to outline the structural configuration of the area prior to the Silurian time. The Sharawra Formation is composed of siltstone and sandstone. It is unconformably overlain by the Late Silurian?–Early Devonian Tawil Formation. Silurian deposits show a pronounced thinning from 992 m in the Tabuk area in the west and are completely missing in the northern part of the Qusayba depression in the east. The thinning of the Qusaiba shale and Sharawra sandstone is interpreted as due to depositional and erosional features, respectively. Thinning and distribution of the Early Rhuddanian shale “hot shale” is depositional which is affected by preexisting Late Ordovician paleo-highs in central Arabia. Thinning of the Sharawra sandstones is erosional which is attributed to Late Silurian tectonic movements synchronous with the Acadian uplift phase of the Caledonian tectonic movements. The main structural elements in central Arabia are represented by the north–south trending and northerly plunging Hail arch and to a much lesser extent the northwest–southeast trending and southerly plunging Qusayba high.     

The Wajid Sandstone around Abha/Khamis Mushayt and in its type area: lithostratigraphic architecture and correlations

The Wajid Sandstone of southeastern Saudi Arabia is a prolific aquifer and a recent target for hydrocarbon exploration, but a sedimentologic model and the stratigraphic architecture of the sediments have only recently been presented for the type area of the Wajid Group around Wadi Dawasir. Farther to the west, the Wajid Sandstone was also recognized, but stratigraphic architecture and sedimentology are poorly known. This paper presents the preliminary results of investigations targeted at the outcrops west and south of the type area, covering the area between Wadi Dawasir, Najran in the south, and Abha in the west. Two successions are recognized, a lower red one and an upper beige one. Although the lower one sedimentologically shares several features with the lowermost unit in the type area, the marine Dibsiyah Formation, a correlation remains doubtful. The red succession lacks the Skolithos fauna of the Dibsiyah Formation, and its facies associations point to a fluvial depositional environment. From its stratigraphic position and from its lithology, the red succession is similar to the Siq Formation of the northern Kingdom and it will be discussed whether the red succession might be a yet unrecognized equivalent of the Siq Formation. The lower red unit is bounded by a major unconformity, separating it from the underlying basement. This pan-African unconformity developed during a latest Neoproterozoic–Cambrian episode of intensive weathering and peneplanation. It is characterized by a thick weathering zone and an overlying coarse but thin quartz pebble breccia to conglomerate, which together represent a regolith. The beige succession is definitely correlated to the Khusayyayn Formation. Both successions are characterized by macro-scale to giant 2D and 3D submarine dunes and share many other phenomena. The basal unconformity also shows regolith development with a quartz pebble conglomerate, whose clasts seem to have been reworked from the pan-African regolith.     

Analysis of lineaments within the Wajid Group,SW Saudi Arabia,and their tectonic significance

The Wajid Group is a Cambro-Permian sedimentary succession in southwest Saudi Arabia. This group is a well-known groundwater aquifer in the Wadi Al-Dawasir and Najran areas. The group also represents siliciclastic hydrocarbon reservoirs in the Rub' Al-Khali Basin. The Wajid Group is exposed in an area extending from Wadi Al-Dawasir southward to Najran city. This study aims to map and characterize the lineament traces of the Wajid Group outcrops. Landsat-8 OLI/TIRS satellite images with 30-m resolution, Spot-5 satellite images with 2.5-m resolution and SRTM digital elevation models (DEM) with 30-m resolution were used for lineament trace detection. Those lineament traces supplemented by aeromagnetic lineaments detected from reduced to pole magnetic anomaly map of the studied outcrop. Multi-scale lineament trace maps were generated, and the lineament datasets, including orientation and length, were analyzed statistically. Eight lineament trace trends were identified including NW-SE, NNW-SSE, N-S, NNE-SSW, NE-SW, ENE-WSW, E-W, and WNW-ESE. The northerly, northwesterly, and northeasterly trending lineament traces are predominant. The lineament trace lengths are generally followed the power law distribution. The lineament trace trends were validated through field investigation of the Wajid Group outcrop. The reported outcrop fracture trends are consistent with major lineament trace trends. Lineaments within the Wajid Group outcrop are also consistent with those of the southern portion of the Arabian Shield. The results of this study provide insight into the tectonic origin of the Wajid Group outcrop lineaments, and understanding of the lineaments distribution which can help to predict the fluid flow behavior within the groundwater fractured aquifers or hydrocarbon fractured reservoirs in Rub’ Al-Khali Basin.     

试论桐柏造山带与西大别造山带的对比

根据已有资料探讨了桐柏造山带与西大别造山带的对比。桐柏造山带由6个构造单元组成,西大别造山带可划分为10个构造单元。两个造山带北部的5个构造单元可以完全对比,并可恢复为华北板块南缘的古生代活动性大陆边缘,表明桐柏与西大别曾共同经历扬子板块古生代的俯冲。再向南,熊店—浒湾韧性剪切带中的熊店榴辉岩意味着古生代高压变质作用的存在,但不能划定明确的分布范围和构造单元。而其他中生代高压—超高压岩石以带状和穹窿状分布,在桐柏和西大别地区占据中生代造山带的主体部分,构成可以对比的线状和穹窿状构造单元。桐柏与西大别造山带的结构都是由北部古生代弧陆碰撞造山带和南部中生代高压—超高压折返形成的造山带拼合而成,因此两者都具有古生代和中生代多期造山带的特点。从构造单元和演化阶段方面分析,两个造山带是可以对比的。     

西藏羌塘盆地的构造沉积特征及演化

西藏羌塘盆地是特提斯构造域内晚古生代—中生代海相复合盆地。经历了晚古生代板块构造演化阶段、中生代板块构造演化阶段和新生代抬升剥蚀阶段 ,形成了晚古生代大陆边缘盆地、中生代南羌塘被动大陆边缘和北羌塘弧后盆地以及晚侏罗世之后的构造地貌盆地。受多期构造运动作用 ,盆地从北向南形成了北缘冲褶带、北羌塘变形带、中央碰撞隆起带、南羌塘变形带和南缘冲断带五个构造单元。变形由坳陷边缘到中心逐渐减弱 ,侏罗山式褶皱样式 ,反映出盖层浅层滑脱的变形特征     

青藏高原中侏罗世-早白垩世羌塘复合型前陆盆地充填模式

根据沉积物碎屑组分、粗碎屑楔状体、边缘相、古流向和沉积、沉降中心等重建了盆地结构、古地理和古地貌,认为该盆地是在中侏罗世-早白垩世多岛洋体制下形成的一种复杂的、特殊类型的复合前陆盆地,它的形成和发展同金沙江缝合带与班公湖-怒江缝合带的碰撞和对冲有关,是盆地两侧板块边缘的大型逆冲作用的产物。在此基础上,根据中央隆起地貌景观交替性变化和盆地中“三砂二灰”的幕式沉积特点,将中侏罗世-早白垩世羌塘前陆盆地演化过程分为 5个阶段,其中巴通期和牛津-提唐期是羌塘盆地南北两侧构造活动相对平静期,而巴柔期、卡洛期、提唐-贝里阿斯期是羌塘盆地南北两侧构造活动强烈时期,强烈的逆冲推覆作用产生大量的构造负载,导致中央隆起强烈地挠曲隆升,造成了盆地中的幕式沉积,产生构造层序和层序,恢复了羌塘前陆盆地沉积记录与两侧缝合带的逆冲作用的相互关系.     

羌塘北部拗陷东段晚三叠世地层沉积特征对比

研究区内晚三叠世土门格拉群（组）、结扎群、巴塘群分布于长江源各拉丹冬地区南北两侧,夹于金沙江缝合带南侧和前缘隆起带之间,呈NW向带状分布.笔者在1：25万区域地质调查基础上,通过实测剖面的详细研究和区域对比,从生物群面貌、岩石类型及其组合、基本层序和沉积相角度进行了分析.沉积古地理格局显示出总体南浅北深的特点,南部靠近羌塘盆地中央隆起带,陆源物质供应丰富;向北至雀莫错一带因远离中央隆起,陆源物质供应相对较少,泥、灰岩增多,灰岩中化石丰富,双壳类、菊石类等生物群得以快速发展;沿北东,靠近金沙江缝合带,受其活动影响而表现出火山活动频繁.这3个群（组）可很好对比,基本特征相同,因此认为是同一地质时期同一构造单元不同构造部位之沉积产物.     

西藏金沙江缝合带西段晚三叠世碰撞作用与沉积响应

青藏高原是由若干条缝合带和其间所夹的沉积盆地构成,其中晚三叠世北羌塘盆地位于金沙江缝合带南缘,盆地的充填实体显示为南薄北厚,为楔形沉积体;在垂向上,以不整合面为界可将该套充填地层划分为两个构造层序,下部构造层序以复理石建造为特征,上部构造层序以磨拉石建造为特征,具有典型的前陆盆地充填序列;盆地具双物源和双古流向体制,沉降中心和沉积中心具有不一致,显示其为金沙江缝合带南侧的周缘前陆盆地,从而确定了晚三叠世北羌塘前陆盆地与金沙江缝合带的成因关系。在此基础上,结合在金沙江缝合带西段新发现和确定的蛇绿岩的最小年龄和碰撞型花岗岩的年龄,本文根据下部构造层序复理石的年龄、前缘隆起的形成年龄、冲断带隆升成为地貌高地的年龄、下部不整合面的时代和前缘隆起型碳酸岩缓坡的形成时间标定了金沙江缝合带碰撞事件的时代下限,根据上部构造层序磨拉石的年龄、上部不整合面的年龄、花岗岩和构造碎裂岩成为物源的年龄标定了金沙江缝合带碰撞事件的时代上限,表明金沙江缝合带初始碰撞事件为卡尼克期与诺利克期之间,最终碰撞事件介于诺利克期与瑞替克期之间.     

塔里木盆地库车坳陷西秋古隆起的形成及其演化

重力异常资料显示,库车坳陷南缘西秋构造带深层发育有基底隆起。本文通过地震资料解释确认了西秋构造带深层占隆起的结构,分析了占隆起的形成和演化过程。西秋构造带南侧边缘存在一条区域性基底断裂,断裂北侧新生界下伏中生界、古生界明显减薄或地层缺失,总体上表现为断背斜形态的古隆起构造。结合区域构造演化分析认为,泥盆纪~石炭纪(D-C)塔里木克拉通边缘隆升、二叠纪-三叠纪(P-T)受南天山负荷影响产生的克拉通边缘压陷的构造演化过程中,西秋构造带处于"跷跷板"式地壳升降运动的"支点"部位,发育古隆起和基底卷入高角度断层,晚期南天山隆升向南斜向推挤的挤压剪切应力场使古隆起边界断层复活,基底断裂活动并在新生界之下形成冲断隆起。     

塔里木地块与古亚洲/特提斯构造体系的对接

塔里木盆地为环形山链所环绕,北缘为古亚洲体系的天山弧形山链,南缘为特提斯体系的西昆仑-阿尔金弧形山链。自新元古代晚期以来,塔里木地块及周缘地区经历了古亚洲洋盆和特提斯洋盆的开启、俯冲、闭合以及微陆块多次碰撞造山,发生多期的构造、岩浆及成矿作用。特别是受印度/亚洲碰撞(60~50Ma)以来的近程效应和远程效应影响,使塔里木盆地周缘发生强烈的隆升、缩短及走滑变形,形成了现今复杂的环型造山系,完成了古亚洲体系和特提斯体系与塔里木地块的最终对接。塔里木地块与周缘两大构造体系的焊接是从早古生代开始的。研究表明,早古生代末期塔里木已与西昆仑-阿尔金始特提斯造山系链接一起。此时,塔里木地块东段与中天山增生弧地体碰撞,而西段在晚古生代与中天山增生弧地体碰撞。塔里木盆地周缘早古生代造山系中存在早古生代中期和早古生代晚期的两次造山事件,致使塔里木盆地内映现两个早古生代构造不整合面:晚奥陶世-志留纪之间的角度不整合和中晚泥盆世与早古生代之间的角度不整合。塔里木盆地早古生代的古地理、古环境和古构造研究表明,塔里木早古生代台地位于盆地的中西部,盆地东部为陆缘斜坡和深海/半深海沉积盆地,与南天山早古生代被动陆缘链接。印度/亚洲碰撞导致塔里木盆地西南缘的喜马拉雅西构造结的形成与不断推进,使特提斯构造体系与古亚洲构造体系在西构造结处靠拢及对接,终使塔里木盆地最后定型。     

甘肃北山地区基本构造格局和成矿系列特征

甘肃北山地区并不存在具分割洋-陆板块构造意义的缝合带或蛇绿岩带,主体由东天山和塔里木两大古陆系统构成。两大古陆系统的碰撞拼合带或界线大体位于方山口—黑山—碱泉子一线,以北归属东天山古陆系统,以南归属于塔里木古陆系统。按其内的地层时代、沉积建造、岩浆作用、地壳结构等特征,可将东天山古陆系统从北往南划分为北山岛弧带、北山(白山)晚古生代弧后盆地裂陷（谷）带和北山中央古陆断隆带3个Ⅱ级结构单元,空间上三者构成一个从岛弧—弧后盆地—前陆基底带的洋-陆过渡性的地壳结构。南侧的塔里木古陆系统则经历了初始陆核向成熟陆壳发展演化的地史过程,按不同地段的地壳结构和构造作用特征将其划分为（从北往南）塔里木古陆陆缘早古生代裂陷带、红柳园-大奇山-天仓古生代多旋回裂谷带和塔里木前陆基底带3个Ⅱ级构造单元。在此基础上,根据相关的成矿响应特征综述了不同构造单元的成矿系列。     

甘肃北山地区基本构造格局和成矿系列特征

甘肃北山地区并不存在具分割洋-陆板块构造意义的缝合带或蛇绿岩带,主体由东天山和塔里木两大古陆系统构成。两大古陆系统的碰撞拼合带或界线大体位于方山口—黑山—碱泉子一线,以北归属东天山古陆系统,以南归属于塔里木古陆系统。按其内的地层时代、沉积建造、岩浆作用、地壳结构等特征,可将东天山古陆系统从北往南划分为北山岛弧带、北山（白山）晚古生代弧后盆地裂陷（谷）带和北山中央古陆断隆带3个Ⅱ级结构单元,空间上三者构成一个从岛弧—弧后盆地—前陆基底带的洋-陆过渡性的地壳结构。南侧的塔里木古陆系统则经历了初始陆核向成熟陆壳发展演化的地史过程,按不同地段的地壳结构和构造作用特征将其划分为（从北往南）塔里木古陆陆缘早古生代裂陷带、红柳园-大奇山-天仓古生代多旋回裂谷带和塔里木前陆基底带3个Ⅱ级构造单元。在此基础上,根据相关的成矿响应特征综述了不同构造单元的成矿系列。     

亚洲砂岩型铀矿区域分布规律和中国砂岩型铀矿找矿对策

20世纪80年代以来,继中亚（哈萨克斯坦,乌兹别克斯坦）早所发现大量砂岩型铀矿之后,俄罗斯,蒙古境内又找到了许多大型砂岩型铀矿床,至此,亚洲已成为世界上砂岩型铀资源的最集中产地,已发现的砂岩型铀矿床大体上沿着南北分别为塔木－华北陆地和西伯利亚陆块所围限,西起西西伯利亚低地,向南经哈,乌,再折向东经阿尔泰,萨彦,我国的青,甘,内蒙,直到大小兴安岭和鄂霍次克海的近东西走向,向南凸出的弧形构造带分布,俄罗斯将其命名为中央亚洲活动带,我国一些学称其为蒙古弧,此带内产出成因迥异,类型众多的大型,超大型金,多金属,块状硫化物,斑岩铜（金）矿以及火山岩型和砂岩型铀矿,带内如此丰富多彩的矿产资源与该带独特的地质构造演化密切相关,今后应大力加强对此构造带的地质研究和铀矿找矿。     

塔东南隆起沉积－构造特征及其演化历史

基于地震剖面、岩心、测井和露头剖面等资料分析,运用平衡剖面复原技术,论述了塔里木盆地塔东南隆起带古生代以来的沉积-构造特征及其演化历史.在地震剖面上识别出6个地层不整合界面,划分了5个主要地层构造层序.指出塔东南隆起形成于晚奥陶世加里东运动,经历了加里东、海西、印支、燕山和喜山多次构造运动,在中生代以陆内变形为主,受到南北两条主边界断裂的控制,于中生代早期发生伸展断陷,并遭受晚新生代喜山运动的强烈挤压改造,形成了现今两凹两凸的构造格局.     

祁连造山带特征及其构造演化

祁连造山带的范围及构造单元经重新厘定和划分，其南界扩展至昆中断裂；解体了走廊过渡带；扩大了中祁连，相应缩小了南祁连范围；新划出乌兰大坂—拉脊山和柴达木周缘南北链状断陷带；确定北祁连属于柴达木—中祁连地块与阿拉善地块间的陆间裂谷。并运用断块学说对其多旋回构造演化作了分析，本区始生代—古生代属于塔里木—中朝地块南部大陆边缘断陷—焊接造山作用体制。中新生代，在古亚洲构造域、特提斯—喜马拉雅构造域和滨太平洋构造域“品”字型动力体系作用下（尤以前二者为主），转化为陆内浅层断（拗）陷—逆掩叠覆造山作用体制。应力作用方式从早到晚由顺时针直扭向旋扭转化。二者既有继承又有新生。挽近时期，在印度地块挤压动力体制下卷入青藏高原陆内汇聚作用，产生大幅度断块隆升、盆地沉陷，造就了现今高原盆岭景观     

Lithostratigraphy,deformation history,and tectonic evolution of the basement rocks,Republic of Yemen: an overview

Basement rocks of presumed Precambrian age, in Yemen Republic (105,000 km²), are exposed in the northwestern and southeastern parts of the country. The basement rocks of southern Saudi Arabia and northern parts of Yemen are almost continuous and similar in the lithostratigraphic succession. In spite of the presence of such common basic characteristics for each, there are slight differences of local structural framework and major tectonic events. The structural complexity, great variety of rock units and types, multi-intrusive environments, and multiplicity of metamorphic events in the study basement rocks make the main target of lithostratigraphic analyses, in particular, daunting in the southern Arabian Shield. As reported here, accepting that the southern shield consists of five terranes and suture zones requires a limitation of such tectonic modifications. This led to the renaming of certain formations and groups and the revision of the lithostratigraphic successions for some regions. As a result, new lithostratigraphic relationships and names as well as tectonic events are proposed. Based on field and space image data, the basement rocks in Yemen exhibit at least six major phases of deformation (D1 to D6) including intensive brittle and ductile deformations that trend NW–SE and NNE–SSW (in major). Neoarchean rocks are well developed and restricted in the southeastern exposures (Al Bayda, Al Mahfid, and Al Mukalla terranes), whereas the final Pan-African cratonization of several rock units is widespread on all terranes, in which the major tectonic events and deformation history were concentrated during pre-Pan-African and early to late Pan-African orogenies. A correlation and evolution of the Precambrian rocks in Saudi Arabia and Egypt are taken into consideration.     

初论环准噶尔斑岩铜矿带的地质构造背景与形成机制

准噶尔地区构造-岩浆-成矿带具环准噶尔地块分布的特征,这一格局是准噶尔地区古生代大地构造演化的结果。哈萨克斯坦-准噶尔板块在北侧古亚洲洋与南侧南天山洋的俯冲下不断侧向增生,并形成与岩浆作用伴生的火山岩型铜铁多金属矿带、斑岩铜钼金矿带与浅成低温金矿带。哈萨克斯坦-准噶尔板块与西伯利亚板块和塔里木板块碰撞发生了强烈挤压-剪切变形,并导致准噶尔地块发生逆时针旋转,从而造成构造-岩浆-成矿带发生位移、呈环状分布于准噶尔地块周边。环准噶尔斑岩铜矿形成于俯冲成因的大陆岛弧、大洋岛弧与弧后盆地及后碰撞阶段板内4种构造背景,晚古生代是成矿的高峰时期。     

塔中低凸起古生界构造特征及演化

塔中低凸起经历了多期构造运动的叠加和改造,古生界构造特征总体以南北对冲挤压为特点,形成南北两大弧形构造体系,在弧形构造体系上发育晚奥陶世台地边缘沉积。早海西期大规模逆冲逆掩构造由于受东西向区域应力不一致的控制,表现出一定程度的上下地质结构的变异,并形成了呈NNE走向的走滑断裂体系,控制了研究区纵向分层、南北分带、东西分块的构造格局。中新生代构造运动导致走滑断裂表现为西晚东早,东部定型于晚海西期,西部定型于喜山期。多期次的构造作用,使研究区发育挤压收缩构造、走滑压扭构造两大类基本构造样式。     

鄂尔多斯盆地西缘煤田构造演化及其控制因素

鄂尔多斯盆地西缘位于华北陆块和秦祁昆山造山带两个一级大地构造单元之间的过渡带内,特定的大地构造背景使其具有复杂的构造演化历程及特殊的煤田构造格局。鄂尔多斯盆地西缘由贺兰山逆冲推覆构造系统和六盘山东麓逆冲推覆构造系统组成,具有"南北分段、东西分带"的特点。为了进一步探讨鄂尔多斯盆地西缘煤田构造格局的形成演化及区域构造控制因素,本文基于野外地质调查和煤田勘查资料,恢复了本区自晚古生代以来的沉降抬升史和古构造应力场特征。印支期:研究区北部最大主压应力方向为北西-南东向,南部最大主压应力方向为北东-南西向;燕山期:北部最大主压应力方向为北西西-南东东向,南部最大主压应力方向为北东东-南西西向;喜马拉雅山期:北部受北西西-南东东向拉张应力,南部最大主压应力方向为北东-南西向。采用有限元数值模拟,探讨了鄂尔多斯盆地西缘煤田构造格局的形成与区域构造的演化的关系,强调北段贺兰山逆冲推覆构造系统的形成与阿拉善地块的向东挤出逃逸密切相关。