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库车坳陷充填有厚约4000~5000 m(局部最大厚度可达6000 m)的中生界陆相地层。地面特征和地震资料表明,库车坳陷北部地区中生界与下伏强烈变形、变质的古生界呈角度不整合接触,南部地区中生界与下伏寒武系-奥陶系呈平行不整合或微角度不整合接触。按照地层厚度趋势推测的中生界在山前地带有强烈的剥蚀,沉积厚度轴线位于南天山晚古生代造山楔之上,显示库车坳陷中生代盆地是上叠在塔里木克拉通北部边缘隆起和南天山晚古生代造山楔过渡带上的拗陷盆地。三叠纪-侏罗纪沉降-沉积中心向后陆(造山带)迁移,早白垩世向前陆迁移,且盆地同沉积期区域规模的断裂活动不明显,据此推测晚古生代造山作用后的岩石圈热作用及地壳均衡作用是中生代盆地沉降的主控动力学因素。 相似文献
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黑龙江漠河盆地构造特征与成盆演化 总被引:25,自引:0,他引:25
对漠河盆地的地层层序、构造特征和构造单元、盆地演化过程等进行了研究。漠河盆地盖层主要为侏罗纪陆相煤系地层及白垩系火山岩,属典型的二元结构。晚侏罗世中期由于蒙古—鄂霍茨克洋的关闭,额尔古纳微板块与西伯利亚板块碰撞,使盆地西部产生逆冲推覆构造,地层缩短量在64km以上。晚侏罗世晚期到晚白垩世,盆地进入西太平洋构造域演化阶段,处于拉张环境,在盆地中部和东部发生了三期大规模的火山活动,形成火山断陷盆地。因此,漠河盆地经历了蒙古—鄂霍茨克洋和西太平洋两种不同构造域的演化阶段,具有西部挤压推覆、中部和东部拉张断陷构造特点。 相似文献
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The Permo-Carboniferous Talchir Formation in the southeastern part of the Talchir basin is represented by about 260 m thick clastic succession resting on the Precambrian basement rocks of the Eastern Ghats Group. The succession is tentatively subdivided into four lithostratigraphic units, namely A-I, A-II, B and C from base to top. Unit A-I comprises mud-matrixed, very poorly sorted diamictites and interbedded thin sandstone and mudstone yielding dropstones. They reveal deposition in a proglacial lake environment in which ice rafting and suspension sedimentation, as well as meltwater-underflow processes, produced variety of facies. The succession of unit A-II is dominated by pebble to boulder conglomerates and sandstones. They were deposited mostly from various kinds of high-energy sediment gravity flows, both subaerial and subaqueous, and formed steep-faced fan-delta on the margin of the basin. Unit B demonstrates turbidite sedimentation in lake-margin slope and base-of-slope environments, in which a sublacustrine channel-fan system developed. The lake-margin slope was dissected by channels which were accompanied by overbank and levee deposits. Sediments delivered from the mouth of a channel were deposited at the base-of-slope, forming a fan lobe which prograded onto the lake basin floor. Unit C dominantly consists of mudstone with intercalations of siltstone and sandstone and forms a large-scale coarsening-upward deltaic sequence eventually covered by the fluvial deposits of the Karharbari Formation.Following the glacially influenced sedimentation, the Talchir succession shows a vertical facies progression suggesting gradual deepening of the lake basin and eventual filling up of it due to rapid delta progradation. Such a succession represents deglacial control on basin evolution during the Talchir time. In the initial stage of glacial recession, collapse of a glacier and failure of montane glacial lakes frequently occurred and gave rise to generation of a highly sediment-laden debris flow and a catastrophic flood, which brought abundant coarse clastics into the lake and built a fan-delta on the basin margin. The continued recession and disappearance of glacier resulted in abundant supply of ice-melt water into the graben as well as eustatic sea-level rise, being the cause of the rise in lake-level. Subsequent rapid delta progradation and eventual filling-up of the lake basin suggest rapid lake-level fall after deepening of lake basin. It was possibly caused by the regional uplift due to post-glacial isostatic rebound. Rapid draining of lake water through the graben gave rise to the establishment of an axial drainage system which rapidly filled the lake basin in form of an axially fed delta. 相似文献
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《International Geology Review》2012,54(12):1151-1158
The Kuqa depression along the northern flank of the Tarim basin is filled with a thick sequence of Neogene and Quaternary coarse elastic continental sediments. This structural depression is part of a large foreland basin that lies south of the Tianshan—an orogenic belt of intracontinental convergence resulting from the northward propagation of stress following the collision of India with the southern margin of Eurasia. 相似文献
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营城盆地位于松辽盆地东缘,其地层可与松辽盆地地层对比。营城盆地层序(三级)地层应与松辽盆地Ⅰ-VI和IX、X层序(火石岭组、沙河子组、营城组、登娄库组和泉头组)地层相对应,营城盆地地层应该划分为侏罗系上统火石岭组(J3h);白垩系下统沙河子组(k1sh)、营城组(k1y)、泉头组(k1q);第四系(Q)。主要可采工业煤层产在沙河子组。 相似文献
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The Warrabin Trough in SW Queensland contains up to 3000 m of Devonian sedimentary rocks, and is a structural remnant of the formerly widespread Adavale Basin. Seismic data recently obtained by the Bureau of Mineral Resources enable reinterpretation of existing poorer quality seismic data, so that the structural framework and most of the trough margin can be mapped. Sedimentary rocks in the trough are folded and are displaced by high‐angle reverse faults, which were probably active during the Late Carboniferous. LANDSAT studies provide additional information on the position of faults, which on seismic records appear to be mainly contained within the trough sequence. Differential compaction, together with slight post‐Cretaceous rejuvenation of some structures, may have given surface expression to some of these deep faults. The western margin of the trough has been drilled, but only 775 m of the Devonian sequence was penetrated. The petroleum source‐rock and maturation levels do not appear encouraging on the basis of this drilling. However, the thick sequence of arenites, lutites and carbonates, interpreted to occur in the trough, offer considerable potential for hydrocarbon source‐rocks and reservoirs. 相似文献
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GU Xuexiang ZHANG Yongmei DONG Shuyi TANG Juxing WANG Chengshan CHEN Jianping 《《地质学报》英文版》2007,81(6):984-995
The Lanping sedimentary basin has experienced a five-stage evolution since the late Paleozoic: ocean-continent transformation (late Paleozoic to early mid-Triassic); intracontinental rift basin (late mid-Triassic to early Jurassic); down-warped basin (middle to late Jurassic); foreland basin (Cretaceous); and strike-slip basin (Cenozoic). Three major genetic types of Ag-Cu polymetallic ore deposits, including the reworked hydrothermal sedimentary, sedimentary-hydrothermally reworked and hydrothermal vein types, are considered to be the products of basin fluid activity at specific sedimentary-tectonic evolutionary stages. Tectonic differences of the different evolutionary stages resulted in considerable discrepancy in the mechanisms of formation-transportation, migration direction and emplacement processes of the basin fluids, thus causing differences in mineralization styles as well as in genetic types of ore deposit. 相似文献
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为了揭示华北北部晚侏罗世沉积盆地性质,对赤城-宣化盆地中土城子组沉积特征及盆缘构造进行了研究。通过对土城子组沉积特征研究表明,土城子组中-下部为一套河湖相沉积,上部为一套冲积扇粗碎屑沉积;土城子组砾岩成分系统统计分析显示,赤城盆地与宣化-下花园盆地具有相似岩屑岩性相旋回,反映源区具有相同或相近的蚀顶过程。研究区晚侏罗世盆地中土城子组充填特征及盆缘构造特征表明,土城子组形成于挤压构造背景,土城子组沉积时期盆地受控于盆缘逆冲断层。大地构造背景暗示,赤城-宣化盆地晚侏罗世-早白垩世期间,古太平洋板块向NW方向的俯冲作用与尚义-赤城断裂向南逆冲并伴随右旋走滑作用是土城子组沉积时期盆地格局形成的重要控制因素。 相似文献
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《Applied Geochemistry》1995,10(3):357-367
Fluorine is a common minor constituent of formation waters throughout the Alberta Basin, and it was detected in each of the 469 samples analyzed for it. Contents range up to 22 mg/l, with an arithmetic mean of 1.83 mg/l and a median value of 1.20 mg/I. There is a trend toward increased mean and median contents of F from the shallower, cooler, less saline formation waters to the deeper, hotter, more saline formation waters. This trend parallels a trend of increasing saturation with respect to fluorite, with most of the less saline formation waters being undersaturated with respect to fluorite. At the same time, the major portion of F occurs as F− in the less saline formation waters, with increasing amounts held as MgF+ as the Ca content, ionic strength and temperature increase. Complexes between Al and F, and VO and F account for only a relatively minor portion of the complexed F. A significant portion of the F in high-salinity formation waters from marine strata could well have originated from the initial seawater. However, it is speculated that water-rock reactions with bentonite or bentonitic shales may have to be invoked to account for the very high contents of F in the less saline formation waters from some of the shallow, cooler, non-marine aquifers of the Upper Cretaceous post-Colorado aquifer-aquitard system. Finally, it is possible to use knowledge of the distribution of F in formation waters from individual aquifers to check on the “correctness” of F determinations (primarily when formation waters of similar composition show saturation with respect to fluorite), and in the same case to predict the F content of formation waters in the Alberta Basin for which only the appropriate major ions have been determined. 相似文献
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On 24 March 1970 an earthquake of magnitude ML 6.7 took place in the eastern Canning Basin. The earthquake was unusual because it occurred in a region where no previous earthquake had been reported and where there was no evidence of recent tectonic activity. First motion results indicate a thrusting type focal mechanism with the pressure axis approximately northeast‐southwest and dipping about 24° to the southwest. The main shock was followed, over the next two years, by many earthquakes in a zone covering 140 km by 20 km. The longitudinal axis of this zone is approximately parallel to the north‐northwest striking nodal plane determined from the first motion results, and to the trend of intrabasin faulting. It is suggested that continental crust may be sensitive to small changes in stress pattern and consequently seismic activity may be interrelated over large distances. 相似文献
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The Ordos Basin is located in the east of NW China that is composed of different aquifer systems. Karst groundwater is stored in the Carmbrian-Ordovician carbonates along the margins of the basin. Fissured-pore water is present in the Cretaceous strata in the central-western basin and pore water is stored in the overlying Quaternary deposits discontinuously. The main origin of groundwater in the basin is direct or indirect infiltration of precipitation. Groundwater flows from recharge areas to adjacent local discharge areas. Besides evaporation and abstraction, groundwater feeds springs and rivers, such as the Yellow River and its tributaries. According to the karst aquifer lithologic structure, the features of karst development and circulation, the karst aquifer is divided into three structural and circulation patterns. Based on the control of Cretaceous sedimentary environment, lithologic structure, lithofacies, and palaeogeographic characteristics, the Cretaceous system is divided into the northern desert simple plateau aquifer system and the southern loess plateau aquifer system. PACKER was used to obtain temperature, hydrogeochemical and isotope data at specific depths. Groundwater circulation is studied using hydrodynamic fields, temperature fields, isotopes, hydrogeochemical data and numerical simulations. According to the result, it is divided into local, intermediate and regional systems. 相似文献
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N. M. Gray 《Australian Journal of Earth Sciences》2013,60(3-4):277-284
The results of in‐situ measurements, seismic studies of the Robertson Earthquake of 1961 and the Burragorang Earthquake of 1973, geological observations made during construction of Warragamba Dam and the Pipe Head‐Potts Hill Tunnel, and foundation investigations into dams in other catchment areas, do not indicate agreement as to the direction of maximum horizontal stress in the southern part of the Sydney Basin. The geological observations include rock movements recorded as a consequence of excavation affecting the stress pattern. These movements were displacement of strata along bedding planes in calyx and diamond drill holes, and cracking of rock in excavations and tunnels. Results of drilling and water testing of the foundations of the older dams, constructed between 1904 and 1941, indicate that stress relief could have taken place beneath the river beds to at least the depth of drilling, which, in one case, was some 90 m. The major structures of the Sydney Basin probably formed as a result of the main horizontal compression being in an E'‐W direction; this E‐W stress field would have been active during the cratonisation of the Permo‐Triassic sediments to the older Palaeozoic rocks. Subsequent to this cratonisation, the maximum direction of horizontal stress has changed to a general N‐S direction. 相似文献
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INTRODUCTION The district city Yuanmo of Yunnan is formerly known as Makai. It issituated approximately at latitude 25°36′N and longitude 102°E. The elevation ofthe Yuanmo basin is about 1,160 meters above sea-level, while the mountain rangesto the east and the west of the basin are generally above 2,000 meters. Thisbasin is drained by the Lungtsuanchiang which runs northward and joins the upper 相似文献
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Carbon isotopes of natural gases are controlled not only by source and mature effect,but also by accumulating (leakage and mixing)effect.The gases,distributed in the three paleo-uplifts,Tazhong,Tabei and Bachu in the Tarim Basin,are generated mainly from Cambrian and Lower Ordovician hydrocarbon-source rocks.Being under good preservation conditions,gas pools in the Tzahong region experienced a long accumulation period.rsulting in a successive gas accumulation region in this region.The gas carbon isotope values are more negative than those in other regions because of the strong accumulating effect.The tabei and Mazhatage regions have poor preservation conditions,the gas pools are formed in a short accumulation period,and the gas carbon isotope values are more positive.This is called the transiftion-stage gas accumulation region.Because of involvement of low mature gas.even biogenic gas from UpperMiddle Ordovician,some gas in ordovician reservoirs on the northern slope of the Tazhong uplift is characterized by much more negative δ13C1,The δ13C2-δ13C1 value is an effective index to measure the gas maturity of the main body in a gas pool,Combining δ13C2-δ13C1 with δ13c1 and δ13C2,the effects described above can be explained very well,results of our study show that the gas maturity for the Mazhatage region is the highest in the craton basin.followed by tabei,Gases in the Tazhong area are high-over mature gases though the gas carbon isotope values are highly negative. 相似文献
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《地质学报》1949,(Z1):111-125,179,180
I. INTRODUCTIONThrough the study of the Ordovician stratigraphy and palaeontology of N China made by A. W. Grabau, Y. C. Sun and F. F. Mathieu, major stratigraphic subdivisions were established. In 1922, Grabau made an extensive study of the Ordovician fossils of N China, chiefly cephalopods from the Machiakou limestone. In 1935, Sun published a monograph On the 相似文献
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Many of the Carboniferous outcrops located in the Derbyshire region of the Peak District National Park, UK, have provided sites for both significant and pioneering research relating to the clastic sedimentology of marine palaeoenvironments, particularly so during the 1960s and 1970s when early models describing the sedimentary architecture of fluvio‐deltaic, submarine‐slope and deep‐marine submarine‐fan sedimentation were first developed. The area was subject to hydrocarbon exploration from the 1920s to 1950s, which although unsuccessful in economic terms left a legacy of sub‐surface data. Despite a long‐history of sedimentological research, the deposits exposed at several classic localities in the Pennine Basin continue to broaden and challenge our current understanding of sedimentary processes to this day. 相似文献
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运用丰富的三维地震资料,在断裂体系的静态描述基础上,通过断层活动速率计算和平衡剖面分析,并结合残留地
层展布特征,恢复了新生代盆地垂向演化与叠合过程,探讨盆地发育与转型的动力学机制。珠一坳陷新生代经历了裂陷早
期、裂陷晚期、裂后拗陷和构造活动期四大演化阶段。裂陷期(E2w-E2e),印支地块旋转挤出和古南海俯冲,区域拉张应
力场由NW 向顺时针转变为近SN 向,导致了裂陷早期NE、NEE 向断裂控盆向裂陷晚期近EW 向、NWW 向断裂控盆转变,
岩石圈伸展作用由宽裂谷方式向窄裂谷方式转变,导致盆地格局由彼此孤立的半地堑或窄地堑系趋于相互扩展连通;裂后
拗陷期(E3z-N1z-N1h),岩石圈伸展中心迁移至南海扩张中心,南海北部地区整体处于裂后热沉降阶段,构造活动微弱;构
造活化期(N1y-N2w-Q),菲律宾海板块NWW 向仰冲-碰撞联合作用下产生NNE 向拉张,同时派生近EW 向和NW 向的共
轭剪切作用,导致了先存NWW 向和近EW 断裂的活化,以及隆起区NWW 向张性断裂和近EW 向、NW 向走滑断裂带的形
成。该研究所揭示的盆地发育演化过程不仅对该区油气勘探提供指导,也对被动大陆边缘演化的研究有着一定的借鉴意义。 相似文献
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Basin analysis study of block 10 in the Say'un-Masilah Basin, Yemen, using a 1D backstripping method
Geohistory analysis was carried out on block 10 in the Say??un-Masilah Basin. The present study is based on the analysis of the well logs of six exploration wells. In the Middle Jurassic to the Middle Eocene, Say??un-Masilah Basin exhibited a complex subsidence history over a period of about 155?Ma. Backstripped subsidence curves are constructed by removing the effects of decompaction to the water column and sediment loads. In the Middle Jurassic, slow subsidence was driven under the effect of sediment load as Kuhlan and Shuqra Formations were deposited as pre-rift deposits. The average total subsidence value of the basement during the deposition of Shuqra Formation was 276?m. The highest subsidence rates during this time are observed northeast of the study area. Rapid subsidence initiated in the Upper Jurassic driven by mechanical extension of the rift, resulting in the deposition of Madbi and Safer Formations, or the so-called Syn-rift deposits. The average tectonic subsidence value of the basements during the deposition of Madbi Formation was 368?m. The highest subsidence rates during this time are observed southwest of the study area. Mechanical extension ceased at about 145?Ma, being replaced by a phase of post-rift subsidence, resulting in more widespread uniform sedimentation, with reduced tectonic subsidence rates forming post-rift deposits represented by Nayfa Formation, Sa??ar Formation, Biyad Formation, and Mahra Group. The total subsidence value of the basement during the deposition of the post-rift sediments increases gradually due to the increase of the sediment load as the rate of deposition was high especially northeast of the area. 相似文献
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This paper reports the results of pilot‐study efforts to develop methods to profile quartzite, a rock type to which geochemical and other sourcing techniques have only rarely been applied. The long‐term goal of the research is to fingerprint sources of quartzite in the Gunnison Basin, southwest Colorado, used by Paleoindian people ca. 11,500–8,000 years ago to make stone tools. Success would facilitate reconstruction of Paleoindian mobility in the Southern Rocky Mountains and potentially anywhere prehistoric people used quartzite. The goals of this paper are more modest: to demonstrate that a small‐scale exploration of sourcing techniques suggests reason for optimism that quartzites may be amenable to source discrimination. For the same twenty Gunnison Basin quartzite samples, this study evaluated petrography, ultraviolet fluorescence (UVF), wavelength dispersive X‐ray fluorescence (WD‐XRF), instrumental neutron activation analysis (INAA), and inductively coupled plasma mass spectrometry—both acid‐digestion (AD‐ICP‐MS) and laser ablation (LA‐ICP‐MS)—as means to differentiate among the specimens and the sources they represent. Although more testing is needed to verify and refine our results, the study suggests there is potential for petrography, INAA, and both versions of ICP‐MS to discriminate among quartzites from different source localities in the Gunnison Basin. The greatest potential for discriminating among different sources of quartzite in the Gunnison Basin may lie in a methodology combining petrographic analysis and LA‐ICPMS. Future testing is required to evaluate this two‐fold approach. © 2008 Wiley Periodicals, Inc. 相似文献