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1.
宁夏香山群地层时代的再讨论 总被引:16,自引:0,他引:16
宁夏香山地区的香山群,多年来一直置于中寒武世或晚寒武世。通过近年来1:5万区调工作,据香山群与米钵山组所含化石内容、接触关系、变质程度、区域地层格架、沉积演化规律及大地构造环境分析、地球化学特征对比研究等揭示,香山群时代较米钵山组新,应属中─晚奥陶世。 相似文献
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<正> 河北磁县虎皮脑寒武、奥陶系剖面是华北地台南部的重要剖面,多年来没有发现任何古生物化石,下奥陶统划分没有依据。 笔者1983年观察研究了虎皮脑寒武—奥陶系剖面,首次在贾汪页岩之下发现了晚寒武世三叶虫、角石和牙形石,及早奥陶世亮甲山期牙形石,对该地区寒武系和奥陶系的划分及对比具有一定意义。 相似文献
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一、前言 广布于西南地区的中、晚寒武世娄山关群和晚寒武世三游洞群及其相当地层,由于发现化石很少,长期以来,其划分及对比问题未获解决。生物群性质更无从知晓。近年来,在川东、川东南、鄂西南、黔东北等地区的晚寒武世地层中,陆续发现一些化石,如三叶虫、头足类、藻类等。虽然种属不多,但意义重大,对解决西南地区的晚寒武世地层的划分和对比,起了重要作用。这些含化石的晚寒武世地层,主要分布在扬子区的边缘地带,显然与当时的沉积环境有关。 相似文献
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本文通过重新测制剖面和补充采样,系统检查和研究了崖脚剖面晚泥盆世晚期—晚石炭世早期牙形石生物地层。通过对在17个牙形石样品中获得的丰富的牙形石材料鉴定,厘定了一些重要牙形石分类。在此基础上,根据牙形石垂向分布特征,确定了带化石的层位。崖脚剖面五指山组上部和巴平组划分出7个牙形石带:五指山组上部为Palmatolepis graciliss辔moidalis带;巴平组下段分别为Siphonodella duplicate带,S.crenulata带,S.isosticha带,Scaliognathus preaanchoralis带和S.anchoralis带下部;巴平组上段为S.anchoralis带上部和Declinognathodas noduliferus noduliferus亚带;巴平组的牙形石带特征显示巴平组的地质时代为晚泥盆世—晚石炭世早期。巴平组地质时代的确定为不同相区层序地层划分,特别是对早石炭世斜坡相区地层划分与对比提供了可靠的依据。 相似文献
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香山群的解体及地层时代的重新厘定 总被引:3,自引:0,他引:3
宁夏一带的香山群,由于各种原因,其时代和地层的划分自建立以来一直处于争论不休的状态。产生这种问题的原因最终聚集在两个问题上的分歧:香山群的地层构造和化石产出部位的沉积构造环境分析上。根据野外的实际观察及前人资料的综合分析,香山群的构造并非成简单的单斜排列,各个单元的沉积也各具特征。其中第一和第三亚群(包括徐家圈组第四段)为秦—祁—贺裂陷槽裂陷初期的产物,分布于盆地的东缘,时代为中寒武—晚寒武世;第二亚群(不含徐家圈组第四段)和第四亚群为裂陷槽裂陷中晚期的产物,主要分布于盆地的西北缘,时代为奥陶纪。结合区域地层的综合分析,提出了早古生代贺兰裂陷盆地的沉积充填模式及地层格架。 相似文献
6.
<正> 滇西是云南寒武系比较发育的地区之一。特别是晚寒武世地层出露广泛,生物化石丰富,并具有独特的区域性色彩。寒武系主要出露于保山、施甸、龙陵、昌宁及潞西等地,可分为一个群3个组。 (一)上公养河群 公养河群为云南省地质局区测队(1965)所建立,标准地点位于龙陵县公养河一带。公养河群可分为上、下两个亚群,下亚群含藻类化石,可能属震旦系;上亚群划归寒武系。 相似文献
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西昆仑山分为北昆仑古生代复合沟弧带和南昆仑地块,依莎克群的形成时代和构造归属一直存在争议,库地蛇绿岩的形成时代亦无定论。本文运用电子探针微区成分分析和锆石U-Pb测年方法,对库地北西奴山依莎克群底部玄武岩中锆石进行了分析。获得依莎克群玄武岩中锆石LA-ICP-MS U-Pb年龄为519.5±1.2Ma,说明依莎克群玄武岩形成时代为中寒武世。与库地蛇绿岩构造环境和形成时代对比表明依莎克群玄武岩是库地蛇绿岩的组成部分,是原特提斯洋俯冲消减作用的产物。综合前人的年代学资料和本文成果表明库地蛇绿岩形成时代为中寒武世—晚寒武世。 相似文献
9.
香山群是一套经历轻微区域变质作用的陆源碎屑岩,夹有少量碳酸盐岩和硅质岩,主要位于河西走廊东部香山地区。迄今为止,前人已经做过大量工作,但是对香山群与该区奥陶纪米钵山组的关系、香山群的时代以及香山群的物源等问题还存在较大争议。笔者对香山群的碎屑锆石做了定年(LA-ICP-MS)工作,通过香山群与米钵山组锆石年龄的对比,发现米钵山组最年轻锆石(451±8)Ma比香山群最年轻锆石(525±3)Ma年轻,且香山群不含米钵山组其他年轻锆石成分,香山群时代应该晚于(525±3)Ma,而早于中奥陶世米钵山组,应属中—晚寒武世。香山群碎屑锆石年龄谱与华夏地块、阿拉善基底、华北西部和北祁连岩浆变质事件年龄差异显著,华夏地块、阿拉善基底、华北西部和北祁连不是香山群物源,而与澳大利亚西南部地区相似,同时根据香山群古水流分析结果,推测澳大利亚西南部可能是香山群的沉积物源。 相似文献
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西藏北部申扎县永珠地区德日昂玛-下拉剖面中石炭系和二叠系地层发育完整,出露良好,化石丰富。该剖面中查果罗玛组碳酸盐岩地层(泥盆纪—早石炭世)和下拉组(中二叠世)碳酸盐岩地层之间的碎屑岩夹灰岩地层,在沉积上表现为冰海相杂砾岩,在古生物化石面貌上表现为特提斯-冈瓦纳古生物群混生。古生物群混生的现象为石炭纪—二叠纪的特提斯生物区与冈瓦纳生物区之间的地层和古生物对比建立了一座桥梁。永珠组中上部地层中同时产有牙形石和腕足类,牙形石的研究表明其时代为晚石炭世莫斯科期,而腕足类的研究则表明其为早二叠世萨克马尔期。这一矛盾预示着在(亲)冈瓦纳相地区晚石炭世晚期地层缺失的意见需要重新审视。 相似文献
11.
ZHAO Xiaochen LIU Chiyang WANG Jianqiang DUAN Liang ZHAO Yan ZHANG Qihang LUO Wei 《《地质学报》英文版》2017,91(5):1680-1703
The eastern Hexi Corridor Belt (HCB) is located in the transitional belt among the Alxa Block, the Qilian Orogenic Belt and the North China Block. Because of its unique tectonic location, the tectonic setting, provenance, and even the age of the sedimentary strata in the eastern HCB during the Early Paleozoic remain controversial. This study analyzes the provenance of the poorly studied Xiangshan Group, discusses its age of development and tectonic setting in the eastern HCB using a combination of petrological, geochemical and LA-ICP-MS U-Pb zircon dating methods. Based on the youngest age peaks and the fossil evidence, we suggest that the Xiangshan Group is Middle Cambrian to Late Ordovician in age. The complexity of the geochemical characteristics and associated diagrams suggests that the early stage of the Xiangshan Group developed in a passive continental margin environment, late in the back-arc basin of the eastern HCB. Based on the sandstone detrital composition, whole-rock geochemistry and detrital zircon ages, we conclude that the Xiangshan Group had an early provenance that was mainly from the Qilian Block and a late provenance from the Qilian Block and the western Alxa Block. The eastern HCB and its northern and southern blocks have similar palaeontology, lithology and basement age characteristics to the South China Block. This indicates that the eastern HCB might not have formed in the intra-continental aulacogen of the North China Block during the Early Paleozoic but has a close affinity to eastern Gondwana. 相似文献
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香山群自建群以来,时代归属一直存在争议,通过区域地质调查,把香山群地质时代限定为中晚寒武世。为深入探讨鄂尔多斯西南边缘香山群形成的沉积环境和构造背景,对香山群狼嘴子组硅质岩岩石学、地球化学特征进行了综合分析。分析结果表明硅质岩SiO2含量为82.44%~98.13%,Al/(Fe Mn Al)比值为0.46~0.69,Al2O3/(Al2O3 Fe2O3)比值为0.53~0.77;LREE/HREE为3.57~8.45,轻重稀土分异作用强,LaN/CeN值0.66~1.15,Ce/Ce*值0.66~0.93,为大陆边缘型硅质岩,成岩过程包含热水沉积和正常沉积作用。同时,硅质岩建造中碎屑岩和产出的辉绿岩床的地球化学特征表明:碎屑岩沉积背景也属被动大陆边缘区,辉绿岩属于伸展作用构造背景下的大洋拉斑玄武岩系列。综合地质资料认为,在中晚寒武世,阿拉善地块南缘与鄂尔多斯地块西南缘具有离散型大陆边缘性质。 相似文献
13.
香山群主要分为4个亚群,在第一和第三亚群的灰岩扁豆体中采获三叶虫化石。香山群与下伏中奥陶统来钵山组关系为整合接触,不整合伏于志留系、泥盆系、石炭系之下。从沉积相序分析,香山群与下伏米钵山组表现为从大陆斜坡相至深海盆地相的特征。将香山群重新厘定,置于中奥陶统上部。 相似文献
14.
K. E. Degtyarev T. Yu. Tolmacheva A. A. Tretyakov A. B. Kotov A. S. Yakubchuk E. B. Salnikova Kuo-Lun Wang 《Doklady Earth Sciences》2017,472(1):26-30
Plagiogranites and conodonts from chert intercalations in basalts of the ophiolite association in the Tekturmas zone of Central Kazakhstan were subjected to the U?Pb geochronological and stratigraphic investigations, respectively. The age of plagiogranite crystallization is estimated to be 489 ± 8 Ma corresponding to the stratigraphic interval spanning from the uppermost Upper Cambrian to the lower Tremadocian. Conodonts from cherts of the Kuzek Formation are distributed along the section interval from the uppermost part of the Darriwilian (Middle Ordovician) to the lower part of the Sandbian (Upper Ordovician), which corresponds to the period of 457?460 Ma. It is revealed that the formation of the ophiolite section in the Tekturmas zone was a multistage process lasting from the Late Cambrian to the initial Late Ordovician. 相似文献
15.
保山西邑铅锌矿区香山组一段灰岩牙形石丰富,包括5属7种1个相似种及2个未定种,分别为:Ancyrodella curvata,A.nodosa,A.spp.,Ancyrognathus triangularis,Icriodus alternatus alternatus,I.sp.,Palmatolepis hassi,Pa.simpla,Polygnathus webbi,Po.cf.tenellus和Po.sp.。该牙形石组合面貌可与上泥盆统Late Palmatolepis rhenana带对比,表明研究区内香山组一段的时代为晚泥盆世弗拉斯期晚期,并非早石炭世。 相似文献
16.
The first definitive evidence for a late Middle to early Late Ordovician age for the Jindalee Group comes from identification of conodonts, including Periodon aculeatus, preserved in chert from an exposure northeast of Cootamundra, New South Wales. In the Grenfell area, the Hoskins Chert, a constituent formation of the Jindalee Group, also yields conodonts of the same general age, although no diagnostic species have been recognised. Conodonts found in the Jindalee Group, along with a distinctive fossil flora of probable cyanobacterial filaments, are similar to those of the Mugincoble Chert in the vicinity of Parkes. Age correlation of the Jindalee Group with the Girilambone Group is confirmed by the newly found conodonts, but at a much more precise level than previously inferred. However, the tectonic settings of the Jindalee and Girilambone Groups might have been quite distinct, with the Jindalee Group forming in an intra‐arc rift and the Girilambone Group depositing in the backarc Wagga Marginal Basin. 相似文献
17.
The eastern Hexi Corridor, northwest China, is located at the tectonic junction of the Alxa Block, the North China Craton, and the Qinling‐Qilian Orogen. The early Paleozoic Xiangshan Group record critical information regarding paleoenvironment, paleoclimate and paleotectonic setting, from which we here present a focused study on the chert beds within the Xiangshan Group. Through field mapping, microstructural observation, whole‐rock geochemistry analyses and detrital zircon dating, we suggest that the Xiangshan Group chert was deposited along a passive continental margin, formed primarily through biological activity with minor hydrothermal influence and terrestrial input. The characteristics of the chert support a low latitude sedimentary paleoenvironmental origin, and reveal the fact that the Alxa Block was separated from the North China craton, while emerged some paleogeographic affinity with the Qilian region in the Middle‐Late Cambrian. 相似文献
18.
秦岭褶皱带位于华北板块和扬子板块结合部位,其在河南省内的部分多划为东秦岭。东秦岭以商南-镇平缝合带分为东秦岭北部和东秦岭南部。东秦岭古生代生物古地理演变可以划分为6个阶段。在寒武纪至中奥陶世早期,东秦岭北部二郎坪海槽的寒武纪放射虫和早奥陶世牙形石与东秦岭南部淅川陆棚北部的寒武纪三叶虫、早奥陶世牙形石和头足类属华南生物省,而淅川陆棚南部的寒武纪三叶虫和早奥陶世牙形石属于华南生物省,兼有华北生物省分子。在中奥陶世晚期至奥陶纪末,二郎坪海槽的腹足类、头足类和珊瑚与淅川陆棚的牙形石、珊瑚、腕足类、头足类和三叶虫均属华北生物省。在早志留世,二郎坪海槽的珊瑚与淅川陆棚的笔石属华南生物省。在中志留世至早泥盆世,东秦岭未发现古生物化石,很可能为陆地,并与华北陆块联为一体。在中泥盆世至早石炭世,东秦岭北部柿树园海槽与东秦岭南部南湾海槽的孢子及淅川陆棚的晚泥盆世珊瑚、腕足类和古植物及早石炭世蜓属华南生物省。晚石炭世至二叠纪末,柿树园海槽的孢子见于华北生物省,东秦岭南部缺乏海相沉积。总之,在古生代,东秦岭经历了由华南生物省→华北生物省→华南生物省→华北陆→华南生物省→华北生物省6个阶段,组成3个演变旋回。东秦岭北部和南部生物古地理具有明显的演变方向的统一性和演变时间的相似性。 相似文献