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1.
The sedimentary and tectonic setting of the Transvaal Supergroup floor rocks to the Bushveld complex
The Palaeoproterozoic Transvaal Supergroup floor to the Bushveld complex comprises protobasinal successions overlain by the Black Reef Formation, Chuniespoort Group and the uppermost Pretoria Group. The protobasinal successions comprise predominantly mafic lavas and pyroclastic rocks, immature alluvial-fluvial braidplain deposits and finer-grained basinal rocks. These thick, laterally restricted protobasinal sequences reflect either strike-slip or small extensional basins formed during the impactogenal rifting and southeasterly-directed tectonic escape, which accompanied collision of the Zimbabwe and Kaapvaal cratons during Ventersdorp times. The erosively-based sheet sandstones of the succeeding Black Reef Formation reflect northwand-directed compression in the south of the basin. Thermal subsidence along the Ventersdorp Supergroup and Transvaal protobasinal fault systems led to shallow epeiric marine deposition of the sheet-like Chuniespoort Group carbonate-BIF platform succession. After an estimated 80 Ma hiatus, characterized by uplift and karstic weathering of the Chuniespoort dolomites, slower thermal subsidence is thought to have formed the Pretoria Group basin. Widespread, closed basin alluvial fan, fluvial braidplain and lacustrine sedimentation, as well as laterally extensive, subaerial andesitic volcanism (Rooihoogte to Strubenkop Formations), gave way to a marine transgression, which laid down the tuffaceous mudrocks, relatively mature sandstones and subordinate subaqueous volcanic rocks of the succeeding Daspoort, Silverton and Magaliesberg Formations. Poorly preserved post-Magaliesberg formations in the Upper Pretoria Group point to possible compressive deformation and concomitant rapid deposition of largely feldspathic detritus within smaller closed basins. 相似文献
2.
前陆盆地由于其独特的构造和沉积背景形成不同的层序地层格架样式.以准噶尔盆地车排子地区为例,详细分析了造山带前缘隆起斜坡带层序样式.在准西车排子地区中新生界主要目的层段(下白垩统吐谷鲁群、古近系安集海河组、新近系沙湾组和塔西河组)充填沉积中识别出5条主要等时界面,据界面的性质和级别划分出一级层序2个,二级层序组3个,三级层序4个.受前陆盆地造山带前缘隆起斜坡带独特的沉积背景及多幕逆冲构造活动作用过程的控制,准西车排子地区中新界各三级层序具有二元沉积结构特征,仅发育低位和湖扩体系域.逆冲挤压期发育低位粗碎屑沉积,应力松弛期发育湖扩细碎屑沉积.低位下切谷、大型扇三角洲和湖扩滩坝砂是准西车排子地区的有利储集砂体及勘探目标. 相似文献
3.
An overview of the geology of the Transvaal Sequence and Bushveld Complex,South Africa 总被引:1,自引:0,他引:1
The Late Archaean-Early Proterozoic Transvaal Sequence is preserved within the Transvaal, Kanye and Griqualand West basins, with the 2050 Ma Bushveld Complex intrusive into the upper portion of the succession within the Transvaal basin. Both Transvaal and Bushveld rocks are extensively mineralized, the former containing large deposits of iron, manganese, asbestos, andalusite, gold, fluorine, lead, zinc and tin ores, and the latter some of the World's major occurrences of PGE, chromium and vanadium ores. Transvaal sedimentation began with thin, predominantly clastic sedimentary rocks (Black Reef-Vryburg Formations) which grade up into a thick package of carbonate rocks and BIF (Chuniespoort-Ghaap-Taupone Groups). These lithologies reflect a carbonate-BIF platform sequence which covered much of the Kaapvaal craton, in reaction to thermal subsidence above Ventersdorp-aged rift-related fault systems. An erosional hiatus was followed by deposition of the clastic sedimentary rocks and volcanics of the Pretoria-Postmasburg-Segwagwa Groups within the three basins, under largely closed-basin conditions. An uppermost predominantly volcanic succession (Rooiberg Group-Loskop Formation) is restricted to the Transvaal basin. A common continental rift setting is thought to have controlled Pretoria Group sedimentation, Rooiberg volcanism and the intrusion of the mafic rocks of the Rustenburg Layered Suite of the Bushveld Complex. The dipping sheets of the Rustenburg magmas cut across the upper Pretoria Group stratigraphy and lifted up the Rooiberg lithologies to form the roof to the complex. Subsequent granitic rocks of the Lebowa and Rashoop Suites of the Bushveld Complex intruded both upper Rustenburg rocks and the Rooiberg felsites. 相似文献
4.
非补偿陆相断陷盆地层序地层学研究——以廊固凹陷古近系为例 总被引:5,自引:0,他引:5
非补偿沉积表现为无明显的沉积间断面,单层暗色泥岩厚度大,分布范围广,沉积剖面以退积为特点。通过对廊固凹陷古近系基底地层、物源体系的研究,结合沉积物组合特点、沉积剖面序列和构造发育阶段特征,分析了非补偿沉积盆地的层序发育样式,总结了非补偿盆地层序边界发育特征,建立了层序地层格架,共划分了1个一级层序、3个二级层序、11个三级层序。研究了不同沉积、构造背景下各层序组内体系域的样式,将一个完整的层序划分为湖泊充填体系域、湖泊扩张体系域、湖泊稳定体系域及湖泊萎缩体系域(下降体系域)等4个阶段,使体系域的叠加与层序的演化相关联。建立了非补偿型陆相盆地有利体系域沉积模式,认为物源的演替是其主控因素,复杂的断裂系统仅是一种控制沉积作用的一种表象。 相似文献
5.
《International Geology Review》2012,54(10):876-890
A number of composite sedimentary basins are present on the Qinghai-Tibet (Tibetan) Plateau. Some of these basins are filled with marine sediments, whereas others are fault-bounded continental depressions. Mixed source-rock types are present, of variable organic matter content; source rocks are mainly carbonates and secondarily mudstones. Vitrinite reflectance and biomarker analyses show that Mesozoic and Cenozoic source rocks have reached the peak stages of oil generation; older source rocks may have generated natural gas. The hydrocarbon reserves of these basins are believed to total ~37.2 billion barrels. The Qiangtang-Qamdo basin probably has the greatest potential for oil exploration. 相似文献
6.
岩石分类一直是人们长期探索的课题。由于油气勘探的需要,针对储层研究的盆地火山岩分类已经成为火成岩研究的重要新方向。在综合分析国内外火山岩分类研究的基础上,根据3条野外剖面和21口钻井岩心岩屑的观察描述、岩石薄片鉴定和化学成分分析等资料,依照结构-成分-成因分类原则,建立了适于储层评价的准噶尔盆地石炭系火山岩及其他岩类的岩性分类体系和识别标准。将本区火山岩划分为火山熔岩、火山碎屑熔岩、火山碎屑岩、沉火山碎屑岩等4大类;同时将盆地内与火山岩共生的其他岩类也进行分类和识别,共划分出8大类45种基本类型。与我国东部的中新生代盆地火山岩不同,本区古生代火山岩普遍遭受较长期风化改造和蚀变作用,常见有绿泥石化、碳酸盐化和黏土矿化。这些蚀变会影响到TAS图解岩性判别的结果,因此笔者探讨了蚀变条件下的岩石识别和定名方法。本文分类体系针对火山岩储层研究,结果显示,基于该分类体系岩性与储集空间的类型及其变化规律呈现明显相关性,不同岩性的储集空间类型、组合方式和发育程度存在差异,由此可指导火山岩油气勘探。 相似文献
7.
层序地层作为沉积盆地识别标志的研究 总被引:9,自引:4,他引:9
论文以盆地充填动力学为指导,从层序界面与盆山转换、层序级别与盆地规模、层序格架与盆地类型、层序充填与盆地演化四方面,对层序与盆地的关系进行了初步研究,结果表明层序作为盆地的识别标志主要包括:1)不同成因类型和规模级别的界面作为划分相应成因级别层序的重要标志,他们反映地壳演化过程中的动力转换事件,其中超级、I级、Ⅱ级界面分别反映盆地域之间、盆地之间、盆山之间的应力转换机制,Ⅲ-Ⅳ级界面揭示了构造、海平面、气候、物源联合引起的盆地容纳空间和沉积机制的转变过程;2)作为板间、板缘、板内过程的沉积记录,层序与盆地之间存在特定的耦合关系:超级层序相当于沉积盆地域,I级层序相当于沉积盆地,Ⅱ级层序对应于盆地构造沉积幕,Ⅲ级层序对应于盆地充填幕,Ⅳ-Ⅴ级层序相当于盆地充填韵律;3)不同成因沉积盆地,层序成因格架及内部构型各异,因而根据层序特征研究,可判识盆地成因属性;4)在盆地演化的不同阶段,盆地性质、构造特征、沉积格局存在差异,所形成的层序构型、界面属性及组合特征等亦不同,因而通过层序充填序列的研究,可揭示盆地演化过程。 相似文献
8.
滇黔桂盆地及邻区泥盆纪层序地层格架及其古地理背景 总被引:14,自引:0,他引:14
滇黔桂盆地及其邻区的泥盆系包括下部的海侵碎屑岩系、中部的混合沉积地层和上部的碳酸盐岩地层,其中又可以进一步划分为13个三级沉积层序和两个二级构造层序.不同阶段三级层序的相序组构特征及其空间变化代表了不同的岩相古地理背景,形成了一个受海平面变化和区域构造运动共同控制的沉积盆地充填序列;同时也反映出研究区域三级海平面变化与欧美地区相对比存在较大的差异. 相似文献
9.
10.
《Gondwana Research》2014,25(3-4):865-885
Exhumation of middle and lower crustal rocks during the 450–320 Ma intraplate Alice Springs Orogeny in central Australia provides an opportunity to examine the deep burial of sedimentary successions leading to regional high-grade metamorphism. SIMS zircon U–Pb geochronology shows that high-grade metasedimentary units recording lower crustal pressures share a depositional history with unmetamorphosed sedimentary successions in surrounding sedimentary basins. These surrounding basins constitute parts of a large and formerly contiguous intraplate basin that covered much of Neoproterozoic to early Palaeozoic Australia. Within the highly metamorphosed Harts Range Group, metamorphic zircon growth at 480–460 Ma records mid-to-lower crustal (~ 0.9–1.0 GPa) metamorphism. Similarities in detrital zircon age spectra between the Harts Range Group and Late Neoproterozoic–Cambrian sequences in the surrounding Amadeus and Georgina basins imply that the Harts Range Group is a highly metamorphosed equivalent of the same successions. Maximum depositional ages for parts of the Harts Range Group are as low as ~ 520–500 Ma indicating that burial to depths approaching 30 km occurred ~ 20–40 Ma after deposition. Palaeogeographic reconstructions based on well-preserved sedimentary records indicate that throughout the Cambro–Ordovician central Australia was covered by a shallow, gently subsiding epicratonic marine basin, and provide a context for the deep burial of the Harts Range Group. Sedimentation and burial coincided with voluminous mafic magmatism that is absent from the surrounding unmetamorphosed basinal successions, suggesting that the Harts Range Group accumulated in a localised sub-basin associated with sufficient lithospheric extension to generate mantle partial melting. The presently preserved axial extent of this sub-basin is > 200 km. Its width has been modified by subsequent shortening associated with the Alice Springs Orogeny, but must have been > 80 km. Seismic reflection data suggest that the Harts Range Group is preserved within an inverted crustal-scale half graben structure, lending further support to the notion that it accumulated in a discrete sub-basin. Based on palaeogeographic constraints we suggest that burial of the Harts Range Group to lower crustal depths occurred primarily via sediment loading in an exceptionally deep Late Cambrian to Early Ordovician intraplate rift basin. High-temperature Ordovician deformation within the Harts Range Group formed a regional low angle foliation associated with ongoing mafic magmatism that was coeval with deepening of the overlying marine basin, suggesting that metamorphism of the Harts Range Group was associated with ongoing extension. The resulting lower crustal metamorphic terrain is therefore interpreted to represent high-temperature deformation in the lower levels of a deep sedimentary basin during continued basin development. If this model is correct, it indicates that regional-scale moderate- to high-pressure metamorphism of supracrustal rocks need not necessarily reflect compressional thickening of the crust, an assumption commonly made in studies of many metamorphic terrains that lack a palaeogeographic context. 相似文献
11.
被动陆缘深水重力流沉积单元及沉积体系 总被引:1,自引:0,他引:1
被动陆缘深水沉积盆地是深水油气勘探和沉积学研究的热点领域。本文基于尼日尔三角洲西部深水区与珠江口盆地白云深水区的高分辨率三维地震资料开展深水重力流沉积单元和沉积体系研究。主要取得3个方面的认识:①尽管两个地区所发育的重力流沉积体系差异较大,但基本沉积单元是相同的,均由块体搬运沉积体系、深水水道和朵体组成。②尽管不同被动陆缘深水沉积盆地所发育的深水重力流沉积单元基本相同,但由于重力流供给、海底地形、陆坡均衡面以及可容空间和沉积过程等因素的差异,深水重力流沉积体系以及沉积体系叠置样式存在较大的差异。③进行深水沉积单元的识别和表征研究的同时,应加强深水沉积体系控制因素研究,而不能简单地套用某种深水沉积模式。 相似文献
12.
M.A. Woods B.C. Chacksfield 《Proceedings of the Geologists' Association. Geologists' Association》2012,123(3):486-499
New borehole geophysical log interpretations between Wiltshire and north Norfolk show detailed lateral changes in the spatial relationships of Chalk Group marker beds. They show how marker beds in the Turonian and Coniacian Chalk Group in East Anglia pass laterally into their correlatives further west, and reveal unusual lateral thickness changes affecting stratigraphical intervals in the East Anglian succession. Newly enhanced regional gravity and magnetic data indicate that these thickness changes are probably related to WNW to ESE trending structural lineaments in the Palaeozoic basement rocks of the buried Anglo-Brabant Massif.The later part of the Mid Turonian and early part of the Late Turonian succession across East Anglia is greatly thickened, and shows almost no lateral variability. These relatively soft, smooth-textured chalks equate with thinner, hard, nodular beds formed in both shallow marine and deeper basinal settings elsewhere in southern England. Since it seems unlikely that there was greater sediment accommodation space across East Anglia at this time compared to basinal areas, this thickening may reflect a localised coccoliths productivity pulse, or perhaps a sheltered palaeogeographical position that protected the area from sediment-winnowing marine currents.A residual gravity low across north Norfolk, previously interpreted as a granite pluton, may instead represent two elongated (fault-bounded) sedimentary basins. 相似文献
13.
From Basin Black Shales to Platform Carbonate Rocks: A Study on Sequence Stratigraphy for the Lower Cambrian of the Upper-Yangtze Region in South China 
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下载免费PDF全文 MEI Mingxiang MA Yongsheng ZHANG Hai MENG Xiaoqing CHEN Yonghong 《《地质学报》英文版》2007,81(5):739-755
In the Upper-Yangtze region,especially in Guizhou Province and its adjacent areas,the Lower Cambrian is well developed and is marked by a succession from black shales of the basin facies to carbonate rocks of the platform facies.The drowning event of the platform occurring at the turn from Sinian to Cambrian resulted in a set of black shales,i.e.the Niutitang Formation,which makes up the bottom part of the Lower Cambrian.With the shoaling of the sedimentary environment,a set of carbonate rocks,i.e.the Qingxudong Formation,was formed in the top part of the Lower Cambrian.Thus,the Lower Cambrian in the study area makes up one second-order sequence that can be further subdivided into five third-order sequences,and forms a regularly cyclic succession of transgression-regression.There is a regularly vertical stacking pattern for the third-order sequences in the second-order sequence.From bottom to top,the succession of the"CS(condensed section) HST(high-stand system tract)"of the third-order sequences is changed into the succession of the"TST(transgressive system tract) CS HST".Correspondingly,the drowning-type sequence boundary is changed into the exposure-type one.Therefore,both the second-order and the third-order sequences have similar sedimentary-facies architectures.A concomitant with these temporal changes, the Lower Cambrian with a thickness of 1000m that contains five third-order sequences is changed into a condensed succession that cannot identify third-order sequences toward the southeast with the deepening of the sedimentary environment.According to the elementary features of the third-order sequences,i.e.the regularity o sedimentary-facies successions in space and the synchronism of sedimentary-environment changes in time,the detailed division of the third-order sequences at main logged sections in different paleogeographical background becomes the basis to establish the sequence-stratigraphic framework that can demonstrate two types of facies-changing surface and two types of diachronism in the stratigraphic records.This sequence-stratigraphic framework shows a growing process of the carbonate platform from the base of the condensed succession formed by black shales of basin facies.Resulting from the rapid transgression at the turn from Sinian to Cambrian the ecological space became open,which formed the antecedent condition of paleogeographical setting for"the Cambrian Biological Explosion".Ultimately,the genetic relationship between the depositional events and the biological-diversity events is very complex and there remain lots of problems that need further research in the future. 相似文献
14.
PALEOGENE(?) DEPOSYSTEMS AND BASIN EVOLUTION IN THE EASTERN TIBETAN PLATEAU: NANGQIAN AND XIALAXIU BASINS 总被引:1,自引:0,他引:1
PALEOGENE(?) DEPOSYSTEMS AND BASIN EVOLUTION IN THE EASTERN TIBETAN PLATEAU: NANGQIAN AND XIALAXIU BASINS 相似文献
15.
Neogene non-marine sedimentation and tectonics in small pull-apart basins of the San Andreas fault system, Sonoma County, California 总被引:1,自引:0,他引:1
The San Andreas fault system in northern California forms an 80–90 km wide zone of right-lateral shear. Extensional tectonism within this broad shear zone is indicated by both Neogene silicic volcanic rocks that gradually young in the direction of shear propagation to the north-west and by numerous Neogene faultbounded structural basins filled with thick non-marine sequences. The Little Sulphur Creek basins, three well-exposed 1·5–2 km wide pull apart basins within this shear system, have sedimentation patterns analogous to those of much larger pull-apart basins. They were formed and subsequently deformed by east-west extension and by north-west to south-east-orientated right-slip concurrently with basin filling. Palaeocurrent and maximum-clast size data indicate both lateral sediment transport from fault-bounded basin margins and longitudinal transport down the basin axes. The basins are filled primarily with coarse alluvial-fan and streamflow deposits derived from a surrounding igneous, sedimentary, and metamorphic provenance. Two of the basins contain basin-plain-type lacustrine turbidites that grade laterally into distal alluvial fan, fan-delta, and sublacustrine delta deposits. Talus deposits along the south-west margin of the basins contain megabreccia indicative of active uplift. Structures indicative of dewatering, liquefaction, and slumping suggest penecontemporaneous tectonism. 相似文献
16.
通过区域地质背景分析,认为东北地区处于活动大陆边缘构造背景下,形成了石炭纪—二叠纪泛盆地,松辽盆地是在残留的石炭系—二叠系盆地之上形成和演化的,石炭系—二叠系分布面积达7.2×104km2。地球化学分析表明,二叠系以极低变质岩为主,泥岩的有机质成熟度和丰度较高,剩余生烃潜力普遍较低。盆地东部地区的二叠系泥岩厚度超过1000m,而成熟度低于北部和西部地区,处于过成熟阶段,至今仍具备生烃能力。上覆中生代地层沉积后,东部地区的二叠系泥岩有机质成熟度增幅较大,发生了二次生烃,生烃量巨大并得到有效保存,形成原生和次生油气藏,具有较好的勘探前景。 相似文献
17.
The application of variations in the earth's gravity in groundwater exploration on a regional scale, especially in sedimentary
basins, metamorphic terrains, valley fills, and for buried alluvial channels, is well established. However, its use in hard
crystalline rocks is little known. In granite, for example, the upper weathered layer is a potential primary aquifer, and
the underlying fractured rock can form a secondary aquifer. Fracturing and weathering increases the porosity of a rock, thereby
reducing the bulk density. Changes in gravity anomalies of 0.1–0.7 mGal for granites, due to weathering or variations in lithology,
can be detected.
To test the use of gravity as a groundwater exploration tool for crystalline rocks, a gravity survey of the peninsular shield
granites underlying Osmania University Campus, Hyderabad, India, was undertaken. At the site, gravity anomalies reflect variations
in the lithology and in the thickness of weathered zones. These anomalies also define the position of intrusives and lineaments.
Areas of more deeply weathered granite that contain wells of higher groundwater yield are represented by negative gravity
values. In the weathered zone, well yield has an inverse relation to the magnitudes of residual gravity. The study confirms
the feasibility of gravity as a tool for groundwater exploration in crystalline rocks.
Electronic Publication 相似文献
18.
贵州南部的泥盆系为一个大型的楔状体。从深水背景的广西南丹罗富剖面到古陆边缘的贵阳乌当剖面,泥盆系由13个层序变薄尖灭成5个层序,这是泥盆纪早期海侵尖灭与晚期海退尖灭的结果。研究区泥盆系由海侵碎屑岩岩系到清水台地碳酸盐岩岩系地层序列构成2个二级层序,又可进一步划分为13个三级层序。二级层序和三级层序均由其特殊的沉积相序列组成。研究区泥盆系层序地层划分和层序地层格架的建立提供了一个在年代地层与海平面变化框架内研究“相迁移”的良好实例。 相似文献
19.
Being one of the largest gas fields ever discov-ered in the continental exploration of China , theKela-2 gas field in the Tari m basin has become afoundation for the reliable production of gas re-sources for the “West-to-East Gas Transmission”project . The Kuqa depressionis one of the most eco-nomically i mportant oil and gas prospecting districtsin the Tari mbasin, with a giant gas fieldfoundinitsnorthern central area . Many previous studies haveshown that the Paleogene Kuqa depression … 相似文献