冀北辽西地区构造形迹的新认识          下载免费PDF全文

林晓辉  秦正永 《地质找矿论丛》2003,18(2):78-83

冀北辽西地区的盖层可分两个构造层，由燕辽复向斜和秦皇岛背形相互叠加，并相应发育两期推覆构造。复向斜范围包括内蒙古地轴和燕辽沉降带，是由长条形的3个背斜和2个向斜相间，及配套的EW向纵断裂、SN向横断裂和NE向、NW向的共扼断裂组成。著名的尚义一宽城一凌源一朝阳一北票断裂是复向斜及其次级背斜的轴部纵断裂，以南大岭组、窑坡组和北票组作为其裂隙充填物。燕山EW向断裂南北对冲现象是复向斜纵断裂放射状排列并向核部推覆的反映。秦皇岛背形以秦皇岛一凌源断裂为轴面，由复向斜的轴面褶皱而成，背形转折端在秦皇岛，呈相对上翘。本区NE向、NNE向断裂的叠加在区域上有不同的表现：冀北段NE向、NNE向褶皱叠加的结果使燕山段复向斜成为短轴褶皱样式，平面团呈NW向排列，符合Ramsay第一类褶皱干涉样式的第二种类型。复向斜的形成机制完全符合纵弯褶皱作用下岩石的变形原理，是西伯利亚板块和华北板块碰撞的结果；秦皇岛背形的形成是后期太平洋板块俯冲在欧亚板块之下所致。  相似文献   

Internal structures and U–Pb ages of zircons from a tuff layer in the Meishucunian formation, Yunnan Province, South China     

Yusuke Sawaki  Manabu Nishizawa  Takeshi Suo  Tsuyoshi Komiya  Takafumi Hirata  Naoto Takahata  Yuji Sano  Jian Han  Yoshiaki Kon  Shigenori Maruyama 《Gondwana Research》2008,14(1-2):148

The Precambrian/Cambrian (PC/C) boundary is one of the most important intervals for the evolution of life, represented by prominent biological evolution from the first appearance of soft-bodied animals from the late Neoproterozoic to the sudden diversification of animals with mineralized skeletons in the Cambrian. In South China several areas contain many fossils and are well exposed, suitable for the investigation of PC/C boundary. However, geochronological relationships are still poorly known because of lack of combined detailed investigations of internal structures of zircons and in-situ U–Pb dating.We focus on the internal structure of zircons from a tuff layer within Bed 5 in the Meishucun section on which we undertook cathodoluminescence (CL) imaging and in-situ U–Pb dating with LA-ICP-MS and nano-SIMS. Over 600 zircons from the tuff layer were classified into three types based on their CL images: oscillatory rims, inherited cores and dull structures. U–Pb dating of the internal structure of the zircons by LA-ICP-MS clearly shows a distinct unimodal age population dependent on the structure: 531 ± 17 Ma for the oscillatory rims and 515 Ma for the dull structures. The clear oscillatory zonation, the prismatic morphology, and their occurrence indicate that the oscillatory rims were formed from felsic magmatism, and that the U–Pb nano-SIMS age of 536.5 ± 2.5 Ma records the depositional age of the tuff. Our results indicate that the PC/C boundary is situated below Bed 5, and therefore the bottom of Zone 1 (Marker A) is more appropriate for the PC/C boundary than is the top of Zone 1 (Marker B). The age of a positive anomaly (P2) in the early Cambrian is estimated to be ca. 536 Ma.  相似文献   

Direct shear tests of coarse-grained fillings from high-speed railway subgrade in cold regions     

QingZhi Wang  JianKun Liu  JianHong Fang  AnHua Xu 《寒旱区科学》2017,9(3):236-242

In order to study the shear behavior of coarse-grained fillings taken from the subgrade bottom layer of a cold region high-speed railway, large scale direct shear tests were conducted with different normal pressures, water contents and temperatures. The results indicate that the relationship between shear displacement and shear stress changed from strain-softening at lower normal pressures to strain-hardening at higher normal pressures, in both unfrozen and frozen states. This phenomenon was mainly due to the shear dilatation deformation effect. The shear displacement-shear stress curves show similar stages. Besides, the shear stress rapidly increased and there was not an increment in the shear displacement during the initial stage of the shear process in the frozen state. In both the unfrozen or frozen states at the same water contents, the shear strength increased with increasing normal pressure.  相似文献   

A facies interpretation of the eruption and emplacement mechanisms of the upper part of the Neapolitan Yellow Tuff,Campi Flegrei,southern Italy     

P. D. Cole  C. Scarpati 《Bulletin of Volcanology》1993,55(5):311-326

This study focuses on the upper part, Member B, of the Neapolitan Yellow Tuff (NYT). Detailed measurements of stratigraphic sections within the unlithified pozzolana facies show that Member B is composed of at least six distinct depositional units which each record a complex fluctuation between different styles of deposition from pyroclastic density flows. Six lithofacies have been identified: (1) massive valleyponded facies, the product of non-turbulent flows; (2) inverse-graded facies formed by flows that were turbulent for the majority of transport but were deposited through a non-tubulent basal regime; (3) regressive sand-wave facies, the product of high-concentration, turbulent flows; (4) stratified facies, the product of deposition from turbulent, low-particle-concentration, flows; (5) particle aggregate and (6) vesicular ash lithofacies, both of which are considered to have formed by deposition from turbulent, low-concentration flows. Although the whole eruption may have been phreatomagmatic, facies 1–4 are interpreted to be the product of dry eruptive activity, whereas facies 5 and 6 are considered to be of wet phreatomagmatic eruptive phases. Small-scale horizontal variations between facies include inverse-graded lithofacies that pass laterally into regressive sand-wave structures and stratified deposits. This indicates rapid transition from non-turbulent to turbulent deposition within the same flow. Thin vesicular ash and particle aggregate layers pass laterally into massive valley-ponded vesicular lithofacies, suggesting contemporaneous wet pyroclastic surges and cohesive mud flows. Three common vertical facies relations were recognised. (1) Massive valley-ponded and inverse-graded facies are overlain by stratified facies, suggesting decreasing particle concentration with time during passage of a flow. (2) Repeated vertical gradation from massive up into stratified facies and back into massive beds, is indicative of flow fluctuating between non-turbulent and turbulent depositional conditions. (3) Vertical alternation between particle aggregates and vesicular facies is interpreted as the product of many flow pulses, each of which involved deposition of a single particle aggregate and vesicular ash layer. It is possible that the different facies record stages in a continuum of flow processes. The deposits formed are dependent on the presence, thickness and behaviour of a high-concentration, non-turbulent boundary layer at the base of the flow. The end members of this process are (a) flows that transported and deposited material from a non-turbulent flow regime and (b) flows that transported and deposited material from a turbulent flow regime.  相似文献   

方解石充填物对于深层古岩溶洞穴保存的独特意义--以塔河地区奥陶系为例   总被引：2，自引：1，他引：1  

雷川  陈红汉  苏奥  许学龙  周海 《沉积学报》2016,34(5):842-852

塔河油田奥陶系古岩溶洞穴埋藏深度之大在世界范围内罕见,但对其为何没有垮塌殆尽的原因却知之甚少。为了探究其保存机制,对比了Fort Worth盆地奥陶系深埋洞穴,发现大量缝、洞充填方解石是塔河地区洞穴中常见且特有的充填物。在统计和综合分析缝洞方解石充填物地球化学数据的基础上,以洞穴充填方解石成因类型为切入点,详细分析了构造运动背景、热液活动、油气充注、方解石的产状以及洞穴受力情况,通过与Fort Worth盆地深埋洞穴埋藏史的对比和分析,提出塔河地区深埋岩溶洞穴的一种保存机制。研究区岩溶洞穴方解石主要是长期浅埋阶段,以大气淡水成因为主,海水成因为辅形成,深埋过程还受到了溶蚀性流体（岩浆热液和有机酸）后期改造。方解石充填物增加了洞穴的抗压性,岩溶洞穴内部充填的方解石在埋藏过程中支撑了洞穴;岩溶洞穴顶部裂纹中充填的方解石还“愈合”了洞穴周边的裂纹,强化了洞穴的顶板,增加了洞穴整体的稳定性。充填的方解石在垮塌前占据了部分洞穴空间,在埋藏后,高温有机酸、CO₂、H₂S和岩浆热液沿着深大断裂等通道对奥陶系碳酸盐岩改造溶蚀作用明显,也对处于优势通道和良好储集性能的洞穴充填方解石进行了改造,恢复了部分洞穴空间。因而认为地表、近地表方解石充填过程是碳酸盐岩洞穴型储层的“保持性成岩作用”。  相似文献   

矿坑人工块体的理论模型     

B.A.谢凯尔巴耶夫 《吉林大学学报(地球科学版)》1989,(3)

文章叙述了充填配料沉陷的形成过程和考虑的影响充填配料压缩性的因素。给出了具有最佳压缩性能的理想充填块体的计算模型。 提出的最优配料压缩性方程式,由已知组成粒级数据,通过选择、计算所需压缩特性的最优配料的成分,有可能解决重要的生产问题。  相似文献   

华北克拉通东部南北缘中生代火山沉积格局及其构造转折过程   总被引：3，自引：0，他引：3  

李忠  董仁国  郑建平 《古地理学报》2007,9(3):227-242

通过华北克拉通东部北缘和南缘盆地充填序列和盆地分布演化对比研究，解析了该区中生代构造转折过程。研究发现两侧盆地均大致从早侏罗世开始发育，约以晚侏罗世为界，之前盆地充填记录反映以挤压作用、岩石圈增厚为主，之后以陆内伸展、岩石圈减薄为主，显示晚侏罗世明显的构造转折，并且地壳浅部的构造体制转变均滞后于岩石圈深部构造环境的变化。然而，两侧盆地演化也有明显差别：①北缘燕辽地区从早侏罗世到白垩纪，发育了多层系的从基性、中基性到中酸性的火山岩及火山碎屑岩组合，而南缘合肥盆地仅在晚侏罗世早白垩世产出钙碱性火山岩及火山碎屑岩组合，反映出不同的深部构造过程和源区特征；②北缘的岩石圈减薄可能始于约163 Ma，南缘明显的岩石圈减薄则始于约149 Ma，而反映在盆地构造与充填尺度上的伸展作用分别对应于大约145 Ma和132 Ma；③晚侏罗世构造转折期，北缘燕辽地区粗碎屑沉积以河流体系为主，反映盆山地势高差较小；而南缘该期发育冲积扇体系，盆山地势高差较大；④北缘盆地沉积中心迁移规律复杂，而南缘总体呈现由南向北的迁移趋势。显然，大别山碰撞造山和后造山期强烈的隆升和剥露对南缘盆地演化具有极大的主导和制约作用，而北缘则显示出强烈的壳幔相互作用并伴有区域性的陆内挤压推覆（转折前）和张裂 伸展（转折后）交替的特点。华北克拉通晚中生代构造转折的时限北缘较南缘早，说明诱发这一转折事件的区域构造动力可能首先与华北北部壳幔相互作用密切关联。  相似文献   

Kuroko and Hydrocarbon Deposits from Northern Honshu,Japan: A Possible Common Hydrothermal/Magmatic Origin?   总被引：1，自引：0，他引：1  

Geoffrey P. Glasby    Toshiro Yamanaka  Junji Yamamoto    Hiroshi Sato  Kenji Notsu 《Resource Geology》2004,54(4):413-424

Abstract. Northern Honshu is the most important area for mineral and oil resources in Japan. Many kuroko deposits and oil and gas fields are distributed in two belts along the northeast Japan arc, the kuroko metal‐belt on the Pacific side and the oil‐belt on the Sea of Japan side. The kuroko deposits are located mainly in the Green Tuff strata which formed as a result of submarine vol‐canism during the late Miocene and Pliocene. Most of the source rocks of the oil and gas deposits formed at the same time as the kuroko deposits and some of them are located in reservoirs of hydrothermally‐altered volcanic rocks in the Green Tuff region. There is general agreement that the kuroko deposits formed as a result of submarine hydrothermal and magmatic activity whereas almost all petroleum geologists and geochemists consider that hydrocarbon deposits were generated independently of such activity. Since the discovery of hydrothermally‐generated petroleum in the Guaymas Basin, Gulf of California, however, it is clear that petroleum can be formed almost instantaneously in terrestrial and submarine hydrothermal areas. The paleo‐northeastern Sea of Japan is therefore considered to be a potential area for hydrothermal petroleum generation because thick organic‐rich sediments overlie an active submarine volcanic area. Several lines of geological and geochemical evidence suggest the possibility of hydrothermally‐enhanced maturation of organic matter and the contribution of magmatic activity to the formation of these deposits. Although most of the oil and gas in northern Honshu has been generated conventionally as a consequence of the high geothermal gradients there, it appears that some of the oil and gas fields may have formed as a result of extensive hydrothermal and magmatic activity during the late Miocene to Pliocene. Because of the much steeper angle of the faults in the vicinity of the Hokuroku basin than in the Akita basin, the magmatic contribution to the kuroko mineralization would have been far greater than to the oil and gas deposits of the Niigata and Akita basins. We therefore propose a strong relationship between metal and oil and gas generation in northern Honshu based on the structure and tectonics of the northern Honshu arc‐backarc system.  相似文献   

Stratigraphy of the Kos Plateau Tuff: product of a major Quaternary explosive rhyolitic eruption in the eastern Aegean, Greece     

S. R. Allen  E. Stadlbauer  J. Keller 《International Journal of Earth Sciences》1999,88(1):132-156

 The Kos Plateau Tuff (KPT) erupted during a moderate-volume explosive rhyolitic event approximately 161 ka from a source south of Kos in the eastern Aegean sea. Six major stratigraphic units have been identified, from A at the base, to F, uppermost. Unit A is a widespread vitric ash fall layer that is thickest (1.5 m), and most extensive, southeast of the source. Unit B is a 1- to 2-m-thick, low-angle cross-stratified armoured pumice lapilli and ash layer found on Kos. Unit C resembles unit B but includes a greater abundance of lithic lapilli, less fine ash, is only diffusely stratified and is on Kos and west of the source. Unit D includes a sequence of three non-welded, 1- to 20-m-thick ignimbrites that extend radially >38 km from the source in areas of low topography. Unit E is a sequence of two non-welded, 3- to 8-m-thick ignimbrites which occur radially from the vent regardless of topography, >64 km from source. Unit F has a 6-m-thick, basal, low-angle cross-stratified armoured pumice lapilli and ash part probably deposited radially from source. The upper part of unit F is a widespread >1-m-thick vitric ash fall layer, found to at least 50 km from the source. These six units represent a change in eruptive conditions from initial and final phreatomagmatic activity depositing fallout and internally stratified pyroclastic density current deposits to "dry" explosive during the more intense phases of the eruption which generated ignimbrites. Received: 8 June 1998 / Accepted: 14 January 1999  相似文献   

裂缝型HTI介质中的弹性阻抗     

窦喜英  韩立国  刘春成  杨小椿 《吉林大学学报(地球科学版)》2012,42(4):1192-1198

在回顾封闭平行硬币状裂缝模型的基础上,将裂缝填充物性质、分布密度与背景介质的横纵波速度比,引入裂缝型水平横向各向同性介质纵波、转换横波弹性阻抗公式,并进行归一化弹性阻抗响应特征模拟。分析表明：裂缝介质弹性阻抗呈现方位各向异性,且随裂缝密度加大而增强;纵波、转换横波弹性阻抗在值域分布规律上具有较大区别;在典型砂岩介质的前提下,弹性阻抗差可以作为裂缝含气、含水指示因子定性地识别裂缝填充物性质。  相似文献