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1.
陕西韩城寒武系出露良好 ,化石丰富 ,假整合覆盖于厚约 2 0 m的霍山组石英砂岩之上 ,从下寒武统上部至奥陶系为沉积连续。本区寒武系主要以紫色和黄色泥页岩、泥灰岩、灰岩和白云质灰岩为主 ,从下到上可划分为馒头组、毛庄组、徐庄组、张夏组和三山子组。根据在本区寒武系发现的三叶虫化石 ,韩城地区寒武系可划分为 14个生物带 ,自上而下为 :Blackwelderia带 ,Damesella带 ,L iopeishania带 ,Dorpyge richthofeni带 ,Crepicephalina带 ,Manchuriella带 ,Poriagraulos带 ,Inouyops带 ,Sunaspis带 ,H suchuagia带 ,Shantungaspis带 ,Probowmaniella带 ,Weijiaspis带和 Redlichia murakamii带。 相似文献
2.
西藏北部班戈地层分区下白垩统郎山组、康曲组和余穷组地层层序研究 总被引:2,自引:0,他引:2
在西藏自治区北部区域地质调查过程中 ,在班戈地层分区的下白垩统郎山组之上发现一套厚约 180 0 m的滨海—浅海相碳酸盐岩、陆源细碎屑岩岩石组合 ,该套组合不属于郎山组定义之内 ,且出露良好、层序稳定、标志清楚、厚度巨大、化石丰富 ,并具有很强的可填图性。因此 ,我们将整合于郎山组之上 ,岩性以杂色微—薄层状钙质泥岩、钙质 (粉 )砂岩与泥质生物灰岩的韵律产出为特征 ,产圆笠虫、腹足类、双壳类等化石的地层命名为康曲组 ;将整合于康曲组之上 ,下部以灰—深灰色中薄层状泥质生物灰岩、圆笠虫泥晶灰岩、钙质泥岩等韵律出现为特征 ,上部以灰色中—厚层状含硅质结核圆笠虫泥晶灰岩、圆笠虫泥晶灰岩夹灰绿色薄层状钙质砂岩为特征 ,富含圆笠虫、腕足类、腹足类、双壳类及海胆等化石的地层定名为余穷组。时代均置于早白垩世晚期 相似文献
3.
M. L. Nagori S. C. Khosla S. R. Jakhar 《Journal of the Geological Society of India》2013,81(4):514-520
Previous work on the fauna and flora of the Cambay shale underlying as well as inter-bedded within the lignite seams of Vastan lignite mine, Gujarat allows the shale to be assigned a Lower Eocene age. However, there is no record of occurrence of any fossil from the sedimentary beds succeeding the shale-lignite sequence that might fix upper age limit of the Cambay shale. We record a characteristic Middle Eocene ostracod assemblage from the Nummulitic marl/limestone, immediately overlying the shale-lignite sequence from the Tadkeshwar lignite mine close to the Vastan lignite mine. The assemblage comprises 22 species, many of which widely occur in the Middle Eocene beds of Kachchh, Rajasthan and adjacent areas of Pakistan. 相似文献
4.
Based on the study of lithology, sedimentology and paleontology at the Permian-Triassic boundary in Liaotian, Northwestern Jiangxi Province, the sequence stratigraphy and depositional environments across the boundary are reconstructed. The top part of the Upper Permian Changxing Formation is composed of very thick-bedded ligh-colored dolomitic limestone formed in high deposition rate on carbonate ramp,which indacates a transgression systems tract (TST). The Lower Triassic Qinglong Formation shows continuous deposition with the underlying Upper Permian. The lower member of Qinglong Formation consists of calcareous shale, shelly limestome and dolomitic limestone with abundant bivalves (Claraia sp.) and trace fossills (Chondrites). The calcareous shale at the bottom of Lower Triassic indicates a calm deep water environment to form the condensed section (CS). The shelly limestome and dolomitic limeston with shell fossils, intraclast, algal ooide show clean but turbulent environment of carbonate ramp, which produce the deposition of highstand systems tract (TST). 相似文献
5.
G.I. Abdel-Gawad S.G. Saber S.H. El Shazly Y.F. Salama 《Journal of African Earth Sciences》2011,59(4-5):359-372
Five radiolitid rudist species are described from the Turonian sequence of Abu Roash area. They are recognized in three rudist biostromes that occur in two informal members of Abu Roash Formation; the Rudist- and the Actaeonella-bearing limestone–marl members. The three biostromes show autochthonous and parautochthonous fabrics and moderate to high packing potential. The first rudist biostrome at the base of the Rudist-bearing limestone–marl member (Middle Turonian) contains Durania gaensis, Praeradiolites ponsianus and Bournonia fourtaui. The second biostrome in the same member consists of Bournonia roashensis. The third biostrome that recognized in the Actaeonella-bearing limestone–marl member (Late Turonian) consists of Durania arnaudi. Rudist biostromes in the Rudist-bearing limestone–marl member were deposited on subtidal rudist shoals with moderate to high energy versus that of the Actaeonella-bearing limestone–marl member that deposited in low to moderate energy on deeper part of subtidal rudist shoals. The exposed Turonian succession at Abu Roash area could be divided into three depositional sequences bounded by three sequence boundaries (paleosols and angular unconformity).The first rudist biostrome in the Rudist-bearing limestone–marl member represents the lower part of the transgressive systems tract of the first depositional sequence. The deepening upward trend of the transgressive systems tract is due to increase of accommodation space in transgressive context during relative sea-level rise episode. On the other hand, the second rudist biostrome in the Rudist-bearing limestone–marl member and the third rudist biostrome in the Actaeonella-bearing limestone–marl member are in shallowing-upward set sequence forming the highstand systems tract of the first and third depositional sequences. This indicates that, the accommodation space was being filled more rapidly than was being created during the highstand stage. 相似文献
6.
Deep-water stratigraphic cyclicity and carbonate mud mound development in the Middle Cambrian Marjum Formation, House Range, Utah, USA 总被引:1,自引:0,他引:1
Abstract In mid‐Middle Cambrian time, shallow‐water sedimentation along the Cordilleran passive margin was abruptly interrupted by the development of the deep‐water House Range embayment across Nevada and Utah. The Marjum Formation (330 m) in the central House Range represents deposition in the deepest part of the embayment and is composed of five deep‐water facies: limestone–argillaceous limestone rhythmites; shale; thin carbonate mud mounds; bioturbated limestone; and cross‐bedded limestone. These facies are cyclically arranged into 1·5 to 30 m thick parasequences that include rhythmite–mound, rhythmite–shale, rhythmite–bioturbated limestone and rhythmite–cross‐bedded limestone parasequences. Using biostratigraphically constrained sediment accumulation rates, the parasequences range in duration from ≈14 to 270 kyr. The mud mounds are thin (<2 m), closely spaced, laterally linked, symmetrical domes composed of massive, fenestral, peloidal to clotted microspar with sparse unoriented, poorly sorted skeletal material, calcitized bacterial(?) filaments/tubes and abundant fenestrae and stroma‐ tactoid structures. These petrographic and sedimentological features suggest that the microspar, peloids/clots and syndepositional micritic cement were precipitated in situ from the activity of benthic microbial communities. Concentrated growth of the microbial communities occurred during periods of decreased input of fine detrital carbonate transported offshore from the adjacent shallow‐water carbonate platform. In the neighbouring Wah Wah Range and throughout the southern Great Basin, coeval mid‐Middle Cambrian shallow‐water carbonates are composed of abundant metre‐scale, upward‐shallowing parasequences that record high‐frequency (104?105 years) eustatic sea‐level changes. Given this regional stratigraphic relationship, the Marjum Formation parasequences probably formed in response to high‐frequency sea‐level fluctuations that controlled the amount of detrital carbonate input into the deeper water embayment. During high‐frequency sea‐level rise and early highstand, detrital carbonate input into the embayment decreased as a result of carbonate factory retrogradation, resulting in the deposition of shale (base of rhythmite–shale parasequences) or thin nodular rhythmites, followed by in situ precipitated mud mounds (lower portion of rhythmite–mound parasequences). During the ensuing high‐frequency sea‐level fall/lowstand, detrital carbonate influx into the embayment increased on account of carbonate factory pro‐ gradation towards the embayment, resulting in deposition of rhythmites (upper part of rhythmite–mound parasequences), reworking of rhythmites by a lowered storm wave base (cross‐bedded limestone deposition) or bioturbation of rhythmites by a weakened/lowered O2‐minimum zone (bioturbated lime‐ stone deposition). This interpreted sea‐level control on offshore carbonate sedimentation patterns is unique to Palaeozoic and earliest Mesozoic deep‐water sediments. After the evolution of calcareous plankton in the Jurassic, the presence or absence of deeper water carbonates was influenced by a variety of chemical and physical oceanographic factors, rather than just physical transport of carbonate muds. 相似文献
7.
Iftikhar Ahmed Abbasi Mohammad Haneef Shams Obaid Farukh Daud Amjad Waheed Qureshi 《Arabian Journal of Geosciences》2012,5(3):471-480
Over 1 km thick Mesozoic sedimentary sequence is exposed over a wide area in the Upper Indus basin of north Pakistan along the western margin of the Indian Plate. The Mesozoic sequence is comprised of clastic facies in the lower part, while carbonate facies are dominant in the upper part. About 200 m thick mixed sequence of interbedded sandstone, siltstone, clay, and carbonaceous shale represents the lower Jurassic Datta Formation in the Salt and Trans Indus Ranges in North Pakistan. The Datta Formation constitutes important reservoir horizons in a number of oil fields in the western Himalayan foreland basins where it is encountered at a depth of about 4 km in various wells. The Datta Formation is described from different parts of the range front to understand the internal architecture of various sedimentary facies and their depositional system. The thickness and lithofacies assemblages of the Datta Formation change in different parts of the range front as well as in subsurface of the Upper Indus basin. The Datta Formation represents a coarsening upward deltaic sequence in most parts of the basin. On the basis of lithological variations and sedimentary structures, a number of depositional facies have been recognized which include channel belt facies, floodplain/abandoned channel facies, swamp facies, and lagoonal facies. Further north, in the Kalachitta and Hazara regions, the siliciclastic facies change to more complex assemblages of interbedded bauxite, silcrete, marl, and some limestone. These sediments represent deposition in a delta-plain setting of a fluvial-dominated delta with northwestward flowing channels. 相似文献
8.
东昆仑东段下三叠统洪水川组沉积序列与盆地构造原型恢复 总被引:4,自引:0,他引:4
下三叠统洪水川组沉积地层研究结果表明,洪水川组由底到顶可划分为6个岩性段,一段主要为灰绿-肝红色粗碎屑岩及紫红色细碎屑岩组合;二段主要为灰绿色含砾粗砂岩、粗砂岩夹砾岩组合;三段以深灰色-灰黑色薄层-中薄层灰岩为主,四段主要为浅灰色-灰色中-薄层粉砂岩夹灰色薄层灰岩组合,五段主要为鲍马序列中某几段有规律的浊积岩组合,六段主要为灰色中薄层细砾岩、含细砾粗砂岩、细砂岩夹薄层钙质粉砂岩及灰岩组合。岩石组合及沉积结构构造特征表明,洪水川组一段和二段属于扇三角洲沉积体系,三段和四段属于浅海混积陆棚沉积体系,五段属于半深海-深海浊流沉积体系,六段属于滨浅海沉积体系。洪水川组沉积序列与弧前盆地沉积序列相似,记录了一个弧前盆地初始沉积、正常沉积、晚期沉积等连续的沉积-构造演化过程,认为洪水川组是一套形成于阿尼玛卿-布青山古特提斯洋向北俯冲过程中的弧前盆地的产物,客观记录了东昆仑三叠纪弧前盆地形成及古洋壳俯冲过程。 相似文献
9.
云南兰坪中排李子坪铅锌矿矿床成因 总被引:1,自引:0,他引:1
铅锌矿产于下白垩统景星组下段泥质粉砂岩、钙质砂岩和中侏罗统花开左组上段砂岩夹薄层泥灰岩介壳灰岩中,脉状、透镜状、层状、似层状等产出。NNE向断裂的交叉夹持部位的旁侧派生次级断裂及层间破碎带是主要容矿构造,矿床成因为沉积-中低温热液改造构造控矿型。 相似文献
10.
The Cretaceous(Albian-Cenomanian) Dalmiapuram Formation is one of the economically significant constituents in the hydrocarbon-producing Cauvery rift basin, SE India that opened up during the Late Jurassic e Early Cretaceous Gondwanaland fragmentation. The fossil-rich Dalmiapuram Formation,exposed at Ariyalur within the Pondicherry sub-basin of Cauvery Basin, rests in most places directly on the Archean basement and locally on the Lower Cretaceous(Barremian-Aptian) Basal Siliciclastic Formation. In the Dalmiapuram Formation, a facies association of tectonically-disturbed phase is sandwiched between two drastically quieter phases. The early syn-rift facies association(FA 1), records the first carbonate marine transgression within the basin, comprising a bar-lagoon system with occasionally storms affecting along the shore and a sheet-like non-recurrent biomicritic limestone bed on the shallow shelf that laterally grades into pyrite e glauconite-bearing dark-colored shale in the deeper shelf. Spectacular breccias together with varied kinds of mass-flow products comprise the syn-rift facies association(FA 2). While the breccias occur at the basin margin area, the latter extend in the deeper inland sea. Clast composition of the coarse clastics includes large, even block-sized limestone fragments and small fragments of granite and sandstone from the basement.Marl beds of quieter intervals between tectonic pulses occur in alternation with them. Faulted basal contact of the formation, and small grabens filled by multiple mass-flow packages bear the clear signature of the syntectonic activity localized contortions, slump folds, and pillow beds associated with mega slump/slide planes and joints, which corroborates this contention further. This phase of tectonic intervention is followed by another relatively quieter phase and accommodates the late syn-rift facies association(FA 3). A tidal bar-interbar shelf depositional system allowed a transgressive systems tract motif to grow eventually passing upwards into the Karai Shale Formation, whose contact with the Dalmiapuram Formation is gradational. 相似文献
11.
S.J. Gallagher C.V. MacDermot I.D. Somerville M. Pracht A.G. Sleeman 《Geological Journal》2006,41(1):61-91
The Burren region in western Ireland contains an almost continuous record of Viséan (Middle Mississippian) carbonate deposition extending from Chadian to Brigantian times, represented by three formations: the Chadian to Holkerian Tubber Formation, the Asbian Burren Formation and the Brigantian Slievenaglasha Formation. The upper Viséan (Holkerian–Brigantian) platform carbonate succession of the Burren can be subdivided into six distinct depositional units outlined below. (1) An Holkerian to lower Asbian unit of skeletal peloidal and bryozoan bedded limestone. (2) Lower Asbian unit of massive light grey Koninckopora‐rich limestone, representing a shallower marine facies. (3) Upper Asbian terraced limestone unit with minor shallowing‐upward cycles of poorly bedded Kamaenella‐rich limestone with shell bands and palaeokarst features. This unit is very similar to other cyclic sequences of late Asbian age in southern Ireland and western Europe, suggesting a glacio‐eustatic origin for this fourth‐order cyclicity. (4) Lower Brigantian unit with cyclic alternations of crinoidal/bryozoan limestone and peloidal limestone with coral thickets. These cycles lack evidence of subaerial exposure. (5) Lower Brigantian bedded cherty dark grey limestone unit, deposited during the maximum transgressive phase of the Brigantian. (6) Lower to upper Brigantian unit mostly comprising cyclic bryozoan/crinoidal cherty limestone. In most areas this youngest unit is truncated and unconformably overlain by Serpukhovian siliciclastic rocks. Deepening enhanced by platform‐wide subsidence strongly influenced later Brigantian cycle development in Ireland, but localized rapid shallowing led to emergence at the end of the Brigantian. A Cf5 Zone (Holkerian) assemblage of microfossils is recorded from the Tubber Formation at Black Head, but in the Ballard Bridge section the top of the formation has Cf6 Zone (Asbian) foraminiferans. A typical upper Asbian Rugose Coral Assemblage G near the top of the Burren Formation is replaced by a lower Brigantian Rugose Coral Assemblage H in the Slievenaglasha Formation. A similar change in the foraminiferans and calcareous algae at this Asbian–Brigantian formation boundary is recognized by the presence of upper Asbian Cf6γ Subzone taxa in the Burren Formation including Cribrostomum lecomptei, Koskinobigenerina sp., Bradyina rotula and Howchinia bradyana, and in the Slievenaglasha Formation abundant Asteroarchaediscus spp., Neoarchaediscus spp. and Fasciella crustosa of the Brigantian Cf6δ Subzone. The uppermost beds of the Slievenaglasha Formation contain a rare and unusual foraminiferal assemblage containing evolved archaediscids close to tenuis stage indicating a late Brigantian age. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
12.
重庆石柱漆辽乡下奥陶统可划分为13种沉积微相和5种沉积亚相。结合露头沉积学研究得出该时段沉积环境的演化序列为:南津关组和分乡组下部以灰岩为主,夹陆源碎屑透镜体和鲕粒灰岩,属于局限台地亚相;分乡组的中上部以鲕粒滩和泥页岩为主,属于典型的开阔台地亚相;红花园组的底部以生物碎屑灰岩与泥岩互层为主,红花园的中上部为深灰色巨厚层含燧石结核灰岩、砾屑灰岩夹生物碎屑灰岩,分别属于台地边缘浅滩亚相和台地前缘斜坡亚相;大湾组的生物碎屑灰岩与页岩互层属于内陆棚亚相。综合分析表明研究区下奥陶统是一个水体向上变深的沉积旋回。 相似文献
13.
混鱼龙(爬行动物:鱼龙类)在云南罗平中三叠统的发现 总被引:3,自引:0,他引:3
本文首次报导和系统描述了在云南罗平中三叠统关岭组上部发现的混鱼龙Mixosaurus kuhnschnyderi Brimkmann, 1998,并与国内外同期地层中已知的混鱼龙种进行了比较。此外,还简单介绍了该鱼龙化石在云南罗平一带中三叠统发现的生物学、地层学和生物古地理分区意义。 相似文献
14.
塔中Ⅰ号断裂带奥陶系良里塔格组礁滩储集体模式与预测 总被引:1,自引:0,他引:1
塔里木盆地奥陶系良里塔格组礁滩储集体位于塔里木盆地塔中Ⅰ号断裂带的东部。研究目的层良里塔格组,由下部泥灰岩段、中部颗粒灰岩段和上部泥灰岩段组成。礁滩储集体主要发育在良里塔格组9个准层序中的PS7和PS8准层序组。从岩心观察入手,建立了良里塔格组礁滩体的地质模式,在此基础上,通过对已知礁滩体测井响应和地震反射特征分析并结合地震特征属性建立了地震识别模式。利用该模式预测研究区礁滩储集体有利分布区,预测结果为近年钻探的塔中821井等井所证实,获得高产油流,说明建立起来的地质—地球物理综合模式符合客观实际,能有效地指导勘探。 相似文献
15.
新疆哈拉阿拉特山地区的地层和沉积环境 总被引:1,自引:0,他引:1
本文根据对新疆准噶尔盆地西北缘的哈拉阿拉特山地区的石炭系、二叠系所作的地层研究以所获的生物化石、岩矿特征、元素分布、粘土矿物组合等新资料,确定了本地区地层的时代、层序,修正了前人的认识。并对哈拉阿拉特山区的沉积环境进行了分析,探讨了沉积相演化过程。对准噶尔盆地的形成演化提出了见解。 相似文献
16.
西准噶尔洪古勒楞组及泥盆-石炭系界线 总被引:18,自引:3,他引:15
<正> 新疆西准噶尔和布克赛尔蒙古自治县的沙尔布尔提山一带,上泥盆统发育,其下部称朱鲁木特组,为陆相地层,上部为洪古勒楞组,下石炭统称为黑山头组。洪古勒楞组建于1979年(曾亚参、肖世禄1979,侯鸿飞等1979)。1985年笔者重测洪古勒楞组的命名剖面,发现它可能位于向斜构造上,地层有重复,缺失与石炭系接触的上部地层;此外发现三个泥盆—石炭系的连续剖面。 相似文献
17.
18.
中上扬子地区二叠纪缺氧环境 总被引:1,自引:1,他引:0
中上扬子地区二叠纪缺氧环境较为发育,缺氧沉积的岩石类型主要有黑色泥页岩、黑色薄层硅岩,
深灰色-灰黑色中-薄层泥晶石灰岩和含泥石灰岩。前 3种岩石类型常形成暗色泥页岩-薄层硅岩-泥晶石灰
岩组合,而含泥石灰岩则主要为眼球状石灰岩的 “ 眼皮”部分。分别对这两种组合的岩石特征、古生物特征及
地球化学特征进行了研究,并分析了各自的沉积环境以及缺氧环境的成因。分析认为暗色泥页岩-薄层硅岩-
泥晶石灰岩组合为盆地、盆地边缘或斜坡环境的产物,其缺氧环境主要为大规模的海侵形成;眼球状石灰岩的
“ 眼皮”部分应为碳酸盐岩台地的产物,其缺氧环境应为上升流作用形成。 相似文献
19.
The Stark metalliferous black shale is a member of the Dennis Formation, which is a cyclothemic limestone and shale unit in the Missourian (Upper Pennsylvanian) Kansas City Group. Paleomagnetic analysis of 96 specimens from 7 sites indicates that the characteristic remanent magnetization of the Stark Shale yields a Late Mississippian to Early Pennsylvanian age. This age is close to, but slightly older than, the Middle Pennsylvanian host rock age and implies that the metalliferous content of the shale is syngenetic in origin. 相似文献