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1.
扬子区下、中奥陶统大湾组及其同期地层 总被引:5,自引:2,他引:5
华南扬子区不同地点奥陶纪的岩相、生物相变化显著。下、中奥陶统大湾组及其同期地层的总体走向为南西—北东向,横向上呈带状分布,从近岸到远岸呈渐变过渡。对四川长宁大官山组、贵州桐梓和沿河湄潭组以及湖北宜昌大湾组的比较研究发现,扬子区下、中奥陶统阿仑尼格期(Arenig)的地层按照其离岸的远近,在地层厚度、沉积相以及腕足动物分异度上呈现出规律性的变化。华南早、中奥陶世腕足动物的辐射首先发生在处于正常浅海底域环境的桐梓和沿河一带。 相似文献
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Svend Stouge David A. T. Harper George D. Sevastopulo Darren O'Mahony John Murray 《Geological Journal》2016,51(4):584-599
The Middle Ordovician Rosroe Formation consists of some 1350 m of coarse, mainly siliciclastic to volcaniclastic sedimentary rocks, deposited in a submarine fan environment, and is restricted to the southern limb of the South Mayo Trough, western Ireland. Discrete allochthonous blocks, reaching 5 m in size, are present in the formation at several localities. Conodonts recovered from these blocks, collected from two separate locations, are of late Early and mid Mid Ordovician age. The conodonts have high conodont‐alteration indices (CAI 5) indicative of temperatures as high as 300o to max. 480 °C; some found in the Lough Nafooey area have abnormally high indices (CAI 6), which correspond to temperatures of about 360o to max. 550 °C. The oldest fauna is dominated by Periodon aff. aculeatus and characterized by Oepikodus evae typical of the Oepikodus evae Zone (Floian Stage; Stage Slices Fl2–3, Lower Ordovician). The younger conodont assemblage, characterized by Periodon macrodentatus associated with Oistodella pulchra, is referred to the P. macrodentatus conodont Biozone (lower Darriwilian; Stage Slices Dw1–2). The Rosroe conodont assemblages are of Laurentian affinity; comparable faunas are well known from several locations along the east to south‐eastern platform margin of Laurentia and the Notre Dame subzone of central Newfoundland, Canada. The faunal composition from the limestone blocks suggests a shelf edge to slope (or fringing carbonate) setting. The faunal assemblages are coeval with, respectively, the Tourmakeady Formation (Floian–Dapingian) and Srah Formation (Darriwilian) in the Tourmakeady Volcanic Group in the eastern part of the South Mayo Trough and probably are derived from the same or similar laterally equivalent short‐lived carbonate successions that accumulated at offshore ‘peri‐Laurentian’ islands, close to and along the Laurentian margin. During collapse of the carbonate system in the late Mid Ordovician, the blocks were transported down a steep slope and into deep‐water by debris flows, mixing with other rock types now found in the coarse polymict clastics of the Rosroe Formation. The faunas fill the stratigraphical ‘gap’ between the Lower Ordovician Lough Nafooey Volcanic Group and the upper Middle Ordovician Rosroe Formation in the South Mayo Trough and represent a brief interval conducive to carbonate accumulation in an otherwise siliciclastic‐ and volcaniclastic‐dominated sedimentary environment. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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The Ordovician stratigraphy of southern-central Xizang (Tibet) has been revised based on new conodont data recovered from 43 samples in four stratigraphic units and their integration with existing nautiloid and graptolite data. The Histiodella holodentata and Pygodus serra biozones have been identified respectively in the Alai and Jiaqu formations of the Chiatsun Group exposed near Alai village in Nyalam County within the Himalayan terrane, and the Yangtzeplacognathus foliaceus Subbiozone (lower part of the Pygodus serra Biozone) in the Sangqu Formation exposed at the Guyu section within Zayu County in the Lhasa terrane. Recognition of these biozones has increased the precision of correlation of the middle-upper Darriwilian strata in the region. Regional reassessment of the Ordovician stratigraphy permitted by new biostratigraphic data has allowed revised definitions for the Chiatsun and Keerduo groups and the Sangqu and Xainza formations. The Chiatsun Group is defined herein to include three lithologically distinctive formations in descending order, the Jiaqu, the Alai and the Adang formations. The stratigraphic age for the Jiaqu and Alai formations in the type area ranges from the middle Darriwilian (Histiodella holodentata Biozone) to middle Katian (Hamarodus brevirameus Biozone), but the age of the Adang Formation remains less certain. 相似文献
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湖北宜昌和南漳奥陶系大湾组笔石生物地层 总被引:4,自引:4,他引:0
根据宜昌陈家河剖面大湾组的笔石标本,确立笔石序列自下而上为:Didymograptellus eobifidus带、Corymbograptus deflexus带和Azygograptus suecicus带(大湾组下段),Exigraptus clavus带和Undulogr aptusaustrodentatus带(大湾组上段)。对湖北南漳的全家湾和李家湾两剖面的大湾组进行了详细采集测量,其中全家湾剖面大湾组下段自下而上识别出D.eobifidus带、C.deflexus带和A.suecicus带;李家湾剖面大湾组下段自下而上识别出D.eobifidus带和A.suecicus带,证实南漳大湾组的底界与宜昌地区基本一致。 相似文献
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《Gondwana Research》2014,26(4):1294-1307
The end Ordovician (Hirnantian) extinction was the first of the five big Phanerozoic extinction events, and the first that involved metazoan-based communities. It comprised two discrete pulses, both linked in different ways to an intense but short-lived glaciation at the South Pole. The first, occurring at, or just below, the Normalograptus extraordinarius graptolite Biozone, mainly affected nektonic and planktonic species together with those living on the shallow shelf and in deeper water whereas the second, within the N. persculptus graptolite Biozone, was less focused, eradicating faunas across a range of water depths. In all about 85% of marine species were removed. Proposed kill mechanisms for the first phase have included glacially-induced cooling, falling sea level and chemical recycling in the oceans, but a general consensus is lacking. The second phase is more clearly linked to near-global anoxia associated with a marked transgression during the Late Hirnantian. Most recently, however, new drivers for the extinctions have been proposed, including widespread euxinia together with habitat destruction caused by plate tectonic movements, suggesting that the end Ordovician mass extinctions were a product of the coincidence of a number of contributing factors. Moreover, when the deteriorating climate intensified, causing widespread glaciation, a tipping point was reached resulting in catastrophe. 相似文献
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PEI FangRegional Geological Survey Party Henan Bureau of Geology Mineral Exploration Development Pingdingshan Henan 《《地质学报》英文版》2000,74(2):137-142
The Ordovician conodont faunal provinces were previously divided into the Midcontinent and Atlantic Faunal Regions situated respectively in low and high latitudes, where warm- and cold-water type conodont faunas flourished respectively. According to the international correlation this paper proposes the third Ordovician conodont faunal region-Qinling Faunal Region, in which cold-water conodont faunas were well developed in the Early to middle Middle Ordovician and warm-water conodont faunas were well developed in the late Middle and Late Ordovician, indicating that the Qinling Region was situated in high latitudes earlier and in low latitudes later. The origin was only due to plate movement In the Qinling Region the time interval of the change of the conodont fauna from the cold- to warm-water type was 4 Ma (from 474 to 470 Ma), during which the fauna geographically spanned 40° of latitudes, with a movement velocity of nearly 1.12 m/a, indicating that the high-latitude plates were divorced and reduced i 相似文献
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A proposed GSSP for the base of the Middle Ordovician Series: the Huanghuachang section,Yichang, China 总被引:2,自引:0,他引:2
XiaofengWang SvendStouge Bernd-D.Erdtmann XiaohongChen ZhihongLi ChuanshangWang QingluanZeng ZhiqiangZhou HuimingChen 《《幕》》2005,28(2):105-117
The Huanghuachang section near Yichang, southern China meets the requirements of Global Stratotype Section and Point (GSSP) for the base of the Middle Ordovician Series and the yet-to-be-named third stage of the Ordovician System (or lower stage of Middle Ordovician Series). The conodont succession at the section is complete across the Lower to Middle Ordovician series boundary and several excellent phylogenetic lineages of Baltoniodus, Trapezognathus, Periodon, and Microzarkodina are represented. The definition of the base of the Middle Ordovician is proposed to be the first appearance datum (FAD) of Baltoniodus? triangularis in the section. It is followed closely by the FAD of Microzarkodina flabellum, which is taken as a reasonable proxy for the boundary. This level approximates the boundary between the lower and upper intervals of the Azygograptus suecicus graptolite Biozone, and nearly coincides with the base of the Belonechitina henryi chitinozoan Biozone.The proposed GSSP for the base of the international Middle Ordovician Series is located in a roadside exposure at the base of Bed (SHod) 16, 10.57 m above the base of the Dawan Formation in the measured Huanghuachang section near Yichang City, southern China. The same faunal succession is also recorded from the Chenjiahe (formerly Daping) section, 5 km to the north of the Huanghuachang section. The proposed boundary horizon can be recognized and correlated globally with high precision in both relatively shallow-water carbonate facies as well as in deep-water graptolite facies. 相似文献
9.
A review of the distribution of different Ordovician conodont faunas in eight areas of the Tarim Region shows that these conodont faunas can be classified into the North China and South China types. The North China type is characterized by Aurilobodus leptosomatus, A. aurilobodus, A. simplex, Tangshanodus tanshanensis, Loxodus dissectus, Parasseratognathus paltodiformis, Microcoelodus symmetricus, Belodina compressa, B. confluens, Pseudobelodina dispansa, Yaoxianognathus yaoxianensis, and Taoqupognathus blandus. These were adapted to shallow, warm-water environments. The South China type is represented by the genera Amorphognathus, Baltoniodus, Cahabagnathus, Eoplacognathus, Lenodus, Microzarkodina, Oepikodus, Paroistodus, Paracordylodus, Periodon, Polonodus, and Pygodus, which were adapted to outer shelf, deeper, and colder water environments. Using the general pattern of conodont distribution, it is possible to interpret the various depositional environments and to reconstruct broad changes in palaeogeography of the Tarim Region during Ordovician time. In general, during Tremadocian to early Middle Ordovician time, most of the Tarim Region was a shallow semi-restricted platform that became deeper towards the north and east, with an open platform in Kalping and in the northern part of Taklimakan Desert. A slope and deep basin existed in the current Tianshan Mountains region. The Tarim sea was shallow during the Early Ordovician and became deeper during “Caradocian” (Sandbian and Early Katian) time, to become shallow again during “Ashgillian” (Late Katian) time, with the exception of part of central Taklimakan, which was a land area during “Caradocian” (Sandbian and Early Katian) time. 相似文献
10.
中国第一个“金钉子”剖面的建立 总被引:17,自引:5,他引:12
中国浙江常山黄泥塘发育了穿越中奥陶统达瑞威尔阶底界的连续地层剖面,笔石和牙形刺的连续演化序列使之得以成为全球对比的标准。经国际地层委员会奥陶系分会、国际地层委员会和国际地科联邮投和批准,已成为达瑞威尔阶的全球层型剖面点。 相似文献
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浙江临安板桥奥陶系胡乐组笔石新材料及其意义 总被引:1,自引:1,他引:0
报道在浙江临安板桥奥陶系剖面的胡乐组中发现的较丰富的笔石动物群,包括Pterograptus elegans,Expansograptus sp.1,Tylograptus sp.,Cryptograptus?sp.,Archicli macograptus angulatus,A.caelatus,Procli-macograptus angustatus等主要属种,应属达瑞威尔阶Pterograptus elegans笔石带。这一发现表明,临安板桥一带的胡乐组时代跨度非常局限,底界比浙赣交界"三山地区"的胡乐组之底高2个笔石带,顶界对比则低2个笔石带。其下伏牯牛潭组的顶界与宜昌三峡地区相比,也低了2个笔石带,具明显的穿时现象。 相似文献
14.
系统介绍湖北宜昌陈家河剖面下奥陶统分乡组和红花园组的几丁虫分布发育特征,将分乡组和红花园组的几丁虫自下而上划分为Lagenochitina destombesi带和Euconochitina symmetrica带,阐述了几丁虫组合特征,并与国外同期几丁虫生物带进行了对比。 相似文献
15.
岩相、生物区系和构造组合特征的重新研究表明,在我国南方奥陶纪可以识别出三种不同类型的构造古地理区,即扬子浅海碳酸盐岩台地相区、江南和南秦岭陆棚斜坡过渡相区和华夏陆缘岛弧和边缘盆地相区。前二者应归属于扬子地块;而沉积、生物组合特征以及槽模所指示NW320°的水流方向说明,后者似应归属于华夏地块,而不是华南地块。海南岛作为一个漂移地体,奥陶系可能属于印支地块台缘陆棚相区。年代和生物地层划分和对比研究表明,我国吉林白山大阳岔小阳桥寒武系与奥陶系界线剖面发育了完整的、具有广泛对比意义的牙形石和笔石序列,建议以牙形石Cordylodus intermedius的首现取代在分类上有争议且罕见的Iapetognathus fluctivagus,作为全球寒武系奥陶系界线划分的生物标志。湖南益阳南坝泥江口剖面保存了完整特马豆克期晚期至弗洛期早期笔石序列,建议用益阳阶取代“道保湾阶”作为我国奥陶系区域年代地层单位,易于与瑞典弗洛阶金钉子剖面对比。对宜昌附近黄花场、分乡、陈家河和普溪河等以及湖南慈利茅草铺大湾组至宝塔组含牙形石碳酸盐岩地层的系统采集和研究表明,大湾组自下而上可以分为上Oepikodus communis、Oepikodus evae (s.s.)、Periodon flabellum、Microzarkodina russica、Baltoniodus triangularis、Baltoniodus navis、B.norrlandicus和Lenodus antivariabilis等8个牙形石生物带,并讨论了它们与相关笔石带的对应关系。随着牙形石Protopederodus liripipus在黄花场和普溪河剖面宝塔组底界之上2~3 m出现以及相应碳同位素偏移,说明在扬子碳酸盐岩台地上奥陶统凯迪阶下界应置于宝塔组下部,与Hamarodus? europaeus牙形石带近底部大致相当或接近。据高分辨率离子探针(SHRIMP-II)锆石U-Pb年龄测定,宜昌岩屋咀晚奥陶世五峰组底部Dicellograptus complexus笔石带之下20 cm所发现斑脱岩夹层的年龄为(448.6±4.8) Ma;而田家场Paraorthograptus pacificus笔石带顶部斑脱岩夹层的年龄为(446.5±2.1) Ma,暗示宜昌地区五峰组大约经历了5.4 Ma的沉积时间。 相似文献
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三叶虫证据表明,除北疆区的阿尔泰地体和兴安区的额尔古纳-兴安地体与西伯利亚和劳伦陆块在动物群方面紧密关联外,中国奥陶纪的所有板块和大部分地体均系当时东泛冈瓦纳的重要组成部分,在生物地理上彼此密切相关。对这些属于东泛冈瓦纳的中国区块的台地或内陆棚三叶虫动物群的综合分析研究证明,它们在特马豆克期(Tremadocian)以及凯迪晚期-赫南特期(late Katian-Hirnantian)或阿石极期(Ashgill)应归属同一生物地理区,而在弗洛期-凯迪早期(Floian-early Katian)或阿仑尼克期-卡拉多克期(Arenig-Caradoc)则可划分为两个生物地理亚区:一个由华南、塔里木板块和安南或印支地体组成,另一个包括华北板块以及滇缅马、藏南、中天山-北山地体(可能还有海南地体)。饶有趣味的是在凯迪晚期或阿石极期开始发生的生物地理亚区解体之前,有关陆块的深水相三叶虫动物群已经历了从达瑞威尔中期(mid Darriwilian)至凯迪早期的长期频繁交流以及组成逐渐趋于齐一的过程。因此深水动物群之间的属种交流和一体化进程的发生、发展和完成显然均先于浅水一侧的三叶虫。 相似文献
17.
L. S. Normore Y. Y. Zhen L. M. Dent J. L. Crowley I. G. Percival M. T. D. Wingate 《Australian Journal of Earth Sciences》2018,65(1):61-73
A continuously cored section of more than 300 m through the Nambeet Formation and the basal part of the conformably overlying Willara Formation in the Olympic 1 petroleum well, drilled in the Canning Basin of northern Western Australia, yields valuable information that increases by more than 40% the number of precise isotopic ages available to constrain the Ordovician Period. New CA-IDTIMS U–Pb zircon ages for seven bentonite layers in the Olympic 1 core are integrated into a new conodont biostratigraphic framework for the Early Ordovician comprising four biozones recognised in this well. The weighted mean U–Pb dates range from 479.37 ± 0.16 Ma within the late Tremadocian Paroistodus proteus conodont Biozone, to 470.18 ± 0.13 Ma near the boundary between the Floian and Dapingian stages within the Jumudontus gananda conodont Biozone. The intervening Prioniodus oepiki–Serratognathus bilobatus conodont Biozone (early Floian) and succeeding Oepikodus communis conodont Biozone (middle Floian) are similarly well constrained by isotopic dates centred on ca 477 Ma for the early Floian and by three ages of 473–471 Ma for the middle Floian. The seven new isotopic dates significantly increase the precision of dating for the Early Ordovician, where previously only two ages with limited or imprecise biostratigraphic control were known globally. 相似文献
18.
通过对陕西紫阳、岚皋地区多个志留系特列奇阶剖面的研究,根据更为精确的化石定义,奥氏笔石属新种Oktavites ziyangensis sp. nov可以从Oktavites spiralis 居群中识别出来。新种O. ziyangensis 在笔石枝盘旋方式和胞管形态上与O. spiralis 和Oktavites contortus 均存在一定的相似性,三者共生层位为特列奇阶Spirograptus turriculatus 笔石带至Cyrtograptus lapworthi 笔石带。尽管新种O. ziyangensis 地层延限较长,但胞管的快速演化仍使其具备较强的地层对比意义。根据“深水起源、浅水扩散”的笔石演化模式推测,O. contortus-O. ziyangensis-O. spiralis 的演化过程是笔石在纵向上的生态位占据过程,而O. spiralis 居群形态差别则是笔石深度分带的结果。同时,关于O. spiralis 居群差异的研究,也为讨论弓笔石的起源和分类提供更多的参考依据。 相似文献
19.
The graptolite fauna across the Lower and Middle Ordovician boundary at the Huanghuachang GSSP section,Yichang and the Jianyangping section,Xingshan County is described. The taxonomy of the pendent didymograptids,the graptolite zonations across the base of Middle Ordovician and their correlations are discussed in this paper.The two revised graptolite zones,the Didymograptellus bifidus Zone and the Azygograptus suecicus Zone,can be well correlated to their equivalents elsewhere in the world. 相似文献
20.
论海南岛地区志留系 总被引:5,自引:3,他引:5
海南岛志留系以往被划分为上、中、下三个统。志留系之上是南好组 ,其层位以往被确定为下石炭统岩关阶 ,并认为它与其下的上志留统足赛岭组呈不整合接触。最近在南好组选层型剖面发现早志留世特里奇期晚期(L ate Telychian)的 Xinanospirifer腕足动物群和三叶虫 L atiproetus cf.latilimbatus (Grabau) ,重新论证了以往被确认为中志留统靠亲山组所产的腕足类、三叶虫和珊瑚化石其实都是特里奇期早至中期的分子。现在以无可争辩的事实证明了久归于下石炭统岩关阶南好组 ,以及其下的、以往被确定为上志留统足赛岭组、中志留统靠亲山组等所谓两个构造层的地层都应改归于下志留统 (L landovery Series)。北区下志留统仅有鲁丹期中期至爱隆期早期的黑色碳质页岩相和泥页岩相沉积 ,未发现任何大化石。南区下志留统发育较全 ,为细至中粗粒碎屑岩相夹碳酸盐岩相沉积 ,产丰富介壳相各门类化石 ;当时该区所生存的动物群与扬子区早志留世的关系非常密切 ,并在早志留世末期与扬子区大部分地区一样上升为陆 ,表明海南岛地区在当时属于扬子地台区范畴。 相似文献