共查询到16条相似文献,搜索用时 283 毫秒
1.
LI Hua MA Xueping WEI Longming School of Earth Space Sciences Peking University Beijing China 《《地质学报》英文版》2009,83(3)
The Caiziyan Middle and Upper Devonian boundary section is located approximately 30 km northeast of Guilin.It hosts relatively abundant benthic and common-rare pelagic fossils,including brachiopods,corals,tentaculites,and conodonts,which may serve as a better suitable section for pelagic and neritic stratigraphic correlation.In this section,10"standard"conodont zones are recognized across the Givetian-Frasnian boundary,including,in descending order,the Lower hassi Zone,punctata Zone,transitans Zone,the U... 相似文献
2.
Devonian Sea-Level Change Rhythms in South China and Coupling Relationships Among the Earth-spheres 总被引:5,自引:0,他引:5
Gong Yiming Faculty of Earth Science China University of Geosciences Wuhan Hubei Wu Yi Guangxi Institute of Geology Nanning GuangxiDu Yuansheng Feng Qinglai Liu BenpeiChina University of Geosciences Wuhan Hubei 《《地质学报》英文版》1997,71(4):370-385
Twenty orthosequences and their corresponding sea-level change (SLC) cycles have been recognized in the Devonian overlying the Caledonian unconformity, of which 9, 5.5 and 5.5 occurred in the Lower, Middle and Upper Devonian respectively. They can be grouped into 4 orthosequence sets, in which the maximum flooding surfaces lie in the sulcutus Zone (D12), perbonus Zone (D13), Middle and Upper varcus Zone (D22) and gigas Zone (D21) respectively. Four instant palaeogeographical reconstructions of South China have been made in the Emsian and Givetian. Devonian sea-level change rhythms of South China can be divided into 3 categories: the autorhythmic, the worldwide and regional allorhythmic, and the coupling-rhythmic. They developed respectively in the Famennian, Pragian, Eifelian, Lochkovian, Emsian, Givetian, Frasnian and the F / F (between the Frasnian and Famennian) event. The cause of the worldwide allorhythmic SLC of the Pragian and Eifelian under comparatively dry, warm and tranquil conditions may be 相似文献
3.
YAO Jianxin JI Zhansheng WANG Liting WANG Yanbin WU Zhenjie LIU Dunyi WU Guichun ZHANG Jianwei LI Suping 《《地质学报》英文版》2011,85(2):408-420
The demarcation of the Lower–Middle Triassic boundary is a disputed problem in global stratigraphic research. Lower–Middle Triassic strata of different types, from platform to basin facies, are well developed in Southwest China. This is favorable for the study of the Olenekian–Anisian boundary and establishing a stratotype for the Qingyan Stage. Based on research at the Ganheqiao section in Wangmo county and the Qingyan section in Guiyang city, Guizhou province, six conodont zones have been recognized, which can be correlated with those in other regions, in ascending order as follows: 1, Neospathodus cristagalli Interval-Zone; 2, Neospathodus pakistanensis Interval-Zone; 3, Neospathodus waageni Interval-Zone; 4, Neospathodus homeri-N. triangularis Assemblage-Zone; 5, Chiosella timorensis Interval-Zone; and 6, Neogongdolella regalis Range-Zone. An evolutionary series of the Early–Middle Triassic conodont genera Neospathodus-Chiosella-Neogongdolella discovered in the Ganheqiao and Qingyan sections has an intermediate type named Neospathodus qingyanensis that appears between Neospathodus homeri and Chiosella timorensis in the upper part of the Neospathodus homeri-N. triangularis Zone, showing an excellent evolutionary relationship of conodonts near the Lower–Middle Triassic boundary. The Lower–Middle Triassic boundary is located at 1.5 m below the top of the Ziyun Formation, where Chiosella timorensis Zone first appears in the Qingyan section, whereas this boundary is located 0.5 m below the top of the Ziyun Formation, where Chiosella timorensis Zone first appears in the Ganheqiao section. There exists one nearly 6-m thick vitric tuff bed at the bottom of the Xinyuan Formation in the Ganheqiao section, which is usually regarded as a lithologic symbol of the Lower–Middle Triassic boundary in South China. Based on the analysis of high-precision and high-sensitivity Secondary Ion Mass Spectrum data, the zircon age of this tuff has a weighted mean 206Pb/238U age of 239.0±2.9Ma (2s), which is a directly measured zircon U-Pb age of the Lower–Middle Triassic boundary. The Ganheqiao section in Wangmo county can therefore provide an excellent section through the Lower–Middle Triassic because it is continuous, the evolution of the conodonts is distinctive and the regionally stable distributed vitric tuff near the Lower–Middle Triassic boundary can be regarded as a regional key isochronal layer. This section can be regarded not only as a standard section for the establishment of the Qingyan Stage in China, but also as a reference section for the GSSP of the Lower–Middle Triassic boundary. 相似文献
4.
Paul COPPER 《《地质学报》英文版》2005,79(4):437-452
The Wangchengpo Frasnian section of Dushan County contains two atrypid brachiopod assemblages. The lower is characterized by the Atryparia (Costatrypa) dushanensis fauna that appears at the base of the Hejiazhai Member approximately in the falsiovalis to transitans conodont zones: the upper is characterized by the Radiatrypa yangi fauna, which appears in the Lujiazhai Member approximately correspondent with the hassi to Upper rhenana conodont zones. Atrypid brachiopods, together with other brachiopods from the Dushan section show that the Hejiazhai Member is of Frasnian age. Preliminary analyses of Frasnian atrypid brachiopods from sections of South China indicate that there are nine genera and subgenera including Atryparia (Costatrypa), Kyrtatrypa, Spinatrypa, lsospinatrypa, Spinatrypina, lowatrypa, Desquamatia (Desquamatia). Desquamatia (Seratrypa), and Radiatr)pa. Atrypid species diversity did not change much through the Frasnian. On a regional scale in South China, most atrypid species went extinct prior to the Frasnian/Famennian boundary. At any specific locality or section, these atrypids became extinct about 20-40 m below the Frasnian/Famennian (F/F) boundary, within the linguiformis conodont Zone, marking this as the major extinction level. Three new atrypid species are described: Atryparia (Costatrypa) dushanensis, lowatrypa pseudobodini, and Radiatrypa yangi. 相似文献
5.
The base of the Middle Ordovician (i.e. Dapingian Stage) has been defined at the first appearance datum (FAD) of conodont Baltoniodus? triangularis at Huanghuachang, Yichang, China, but the precise correlation of the boundary to regions of other facies remain to be resolved. Herein we review the biostratigraphy and chemostratigraphy of the Huanghuachang Global Standard Stratotype-Section and Point (GSSP) section, and present our latest stratigraphic work on the nearby Chenjiahe section in Yichang, and the Hengtang Quarry section, Jiangshan, Zhejiang, which is regarded as representative of slope facies. The conodont and graptolite biostratigraphy as well as chemostratigraphy of the Chenjiahe section indicate that the base of the Middle Ordovician also falls within the graptolite Azygograptus suecicus Zone, and coincides with a high or maximum δ13C value within a minor positive carbon isotope excursion, suggesting that the base boundary can be readily recognized across the entire Yangtze Gorges area. The integrated graptolite and conodont biostratigraphy and chemostratigraphy of the Hengtang section, Jiangshan, indicates that the basal boundary probably falls within the graptolite Isograptus caduceus imitatus Zone that overlies the Azygograptus suecicus Zone, and coincides with a remarkable drop of δ13C. This difference indicates that a multi-disciplinary approach is critical to identify the base boundary in those regions where the Baltoniodus? triangularis is absent. 相似文献
6.
Yoshihito KAMATA Hidetoshi HARA Katsumi UENO Apsorn SARDSUD Thasinee CHAROENTITIRAT Punya CHARUSIRI Ken-ichiro HISADA 《地球学报》2012,33(S1):36-37
The Inthanon Zone of Northern Thailand, origi-nally proposed by Barr and Macdonald (1991), is characterized by the occurrence of Paleo-Tethyan pe-lagic sediments including Carboniferous–Permian seamount-type carbonate associated with oceanic ba-saltic rocks and Middle Devonian–Middle Triassic radiolarian chert (Ueno, 1999; Ueno and Hisada, 2001; Ueno and Charoentitirat, 2011). These pelagic rocks have been mainly studied from the viewpoint of bio-stratigraphy to clarify the duration of their deposition. These studies concluded the Paleo-Tethys to be a vast ocean basin once existed between the Indochina and Sibumasu continental blocks during Devo-nian–Triassic times. 相似文献
7.
DENG Faliang LIU Xijun YU Hongxi YAO Ye ZHANG Zhiguo WEI Weilie LI Rui 《《地质学报》英文版》2022,96(4):1166-1180
The global Hangenberg Crisis or Hangenberg Extinction is a mass extinction near the Devonian–Carboniferous boundary. Comprehensive research of petrology and geochemistry on the Devonian–Carboniferous boundary, as exposed in the Nanbiancun auxiliary stratotype section, South China, elucidates paleoenvironmental changes and controls on marine strontium (87Sr/86Sr) and carbonate carbon (δ13Ccarb) isotopes during the Hangenberg Crisis. The new 87Sr/86Sr data reveal a regression in the Middle Siphonodella praesulcata Zone, while the Hangenberg Extinction was occurring in South China. Moreover, the δ13Ccarb data records a negative excursion near the base of the Middle Siphonodella praesulcata Zone that may have been connected with the Hangenberg Extinction. A positive δ13Ccarb excursion, corresponding with the Upper Siphonodella praesulcata Zone, may reflect the effects of a vigorous biological pump. The magnitude of the Hangenberg Carbon Isotopic Excursion in peak δ13carb values and δ13Ccarb gradient in carbonate Devonian–Carboniferous boundary sections of the South China Craton during the Hangenberg Crisis, are a function of depositional water depth and distance from the shore. The carbon cycling during the Hangenberg Carbon Isotopic Excursion had a much stronger impact on oceanic surface waters than on the deep ocean and the δ13Ccarb gradient of local seawater was likely caused by enhanced marine productivity, associated with biological recovery in platform sediments during the Hangenberg Crisis. 相似文献
8.
This paper introduces a new section of the Devonian-Carboniferous boundary in Huohua area, Ziyun County, Guizhou Province, South China. The Huohua section of Upper Devonian and Lower Carboniferous is well-outcropped along a new countryside road. In this section, the D-C boundary beds can be grouped into three litho-units: the Daihua Formation, the Changshun Shale and the "Wangyou Formation", from which more than 30 conodont samples were collected and processed. According to our current study, some important conodonts in the Daihua Formation and the Changshun Shale have been recognized, such as Palmatolepis tenuipunctata, Pa. glabra, Pa. marginifera, Pa. gracilis, Polygnathus vogesi and Polygnathus purus purus. A few conodonts have been found from the Wangyou Formation, such as Polygnathus communis and Hindeodella subtilis. Based on the comparison with the Muhua section in Changshun county and the Hasselbachtal section in Germany in lithology, sedimentology and conodont biostratigraphy, the D-C boundary could be temporarily placed between Bed 25 and Bed 26, namely between the Changshun Shale and the Wangyou Formation. 相似文献
9.
Two Upper Devonian to Lower Carboniferous sections, namely the Bulongguoer and Haer(Gennaren area) in the Junggar Basin, Central Asian Orogenic Belt, in northwestern China were examined with regard to ichnology and palynology. The deposits of the Hongguleleng Formation and Namu Member of the Heishantou Formation, respectively, are mostly unbioturbated or poorly bioturbated, with poorly diversified trace fossils, which indicate unfavourable conditions for the burrowing benthic community during the Late Devonian and Early Carboniferous. The main factor governing the growth of the bioturbating population was the rapid sedimentation of fine-grained, volcanic material documented as tempestites, which buried the benthic fauna. In the Bulongguoer section, the presence of miospores Teichertospora torquata and Grandispora gracilis enabled identification of the broad Teichertospora torquata–Grandispora gracilis Miospore Zone from the transitional Frasnian/Famennian interval. More accurate identification of palynostratigraphical levels(DE and CZ Miospore zones) is only tentative. On the basis of palynofacies analysis, samples from the lower Bulongguoer section indicate deposition in more proximal conditions, whereas samples from the top of the section indicate deposition in a more distal environment. In the Haer section, only a general biostratigraphic indication for the Tournaisian was possible, owing to poor preservation of organic matter. 相似文献
10.
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
11.
广西六景泥盆纪吉维阶-弗拉斯阶界线层牙形石生物地层 总被引:2,自引:1,他引:1
广西六景泥盆系剖面是我国泥盆系标准剖面之一 ,通过对其吉维阶 -弗拉斯阶界线上下地层进行详细的牙形石生物地层研究 ,自上而下识别出 12个牙形石带 :Palmatolepis jamieae带、Palmatolepis hassi带、Palmatolepispunctata带、Palmatolepistransitans带、上 Mesotaxisfalsiovalis带、下 Mesotaxisfalsiovalis带、Klapperina dispar-ilis带、上 Schmidtognathus hermanni- Polygnathus cristatus带、下 Schmidtognathus hermanni- Polygnathus cristatus带、上 Polygnathus varcus带、中 Polygnathus varcus带、下 Polygnathus varcus带。吉维阶 -弗拉斯阶界线 (即中 -上泥盆统界线 )由 Ancyrodella binodosa→ Ancyrodella rotundiloba early form→ Ancyrodella rotundiloba late form这一演化线系中的 Ancyrodella rotundiloba early form的首次出现确定 ,处于下 Mesotaxis falsiovalis带下部 ,在谷闭组底界之上 1.80 m处。 相似文献
12.
笔者在广西象州中坪马鞍山剖面上泥盆统“融县组”中部,首次发现了地层连续、岩性均一、牙形石带齐全的弗拉斯阶/法门阶界线层。这一界线层完全符合国际泥盆纪地层分会(SDS 1983)作出的关于划分弗拉斯阶/法门阶界线条件的决议。并与被誉为盆地相最佳剖面的西德Schmidt剖面(SDS Newsl.1986,no.1,Doc.C)的牙形石序列基本一致。无论是从岩石的均一性或是牙形石生物的连续性上,马鞍山剖面完全可与西德Schmidt剖面媲美,它是目前国内研究弗拉斯阶/法门阶界线的理想剖面之一。本文除了对这一界线进 相似文献
13.
广西东北部泥盆系发育良好,化石丰富,对研究中国华南地区泥盆纪生物地层具有重要意义。对广西全州地区东山剖面上泥盆统佘田桥组、锡矿山组和孟公坳组进行了系统的化石采集及室内分析,共获得104枚牙形石化石和34件腕足类化石。经鉴定,牙形石共21属19种,腕足类化石共6属9种。根据化石种属在东山剖面上的分布,自下而上可划分出8个牙形石带:Icriodus brecis带,Schmidtognathus hermanni-Polygnathus cristatus带,Schmidtognatus wittekindtii带,Palmatolepis linguiformis带,Palmatolepis triangularis带,Palmatolepis rhomboidea带,Icriodus cornutus带和Palmatolepis gracilis manca-Rhodalepis polylophodontiformis带,指示研究区内佘田桥组、锡矿山组、孟公坳组分别对应国际年代地层单位的弗拉斯阶上部、法门阶下部和法门阶中上部,并通过Palmatolepis triangularis的首现确立了该地区弗拉斯阶和法门阶(F-F)的界线;在东山剖面共划分出2个腕足类组合带:弓石燕(Cyrtospirifer)组合带和云南贝(Yunnanella)-帐幕石燕(Tenticosififer)组合带,它们分别与东山剖面中牙形石Palmatolepis falsiovalis-Palmatolepis linguiformis带、Palmatolepis rhomboidea-Palmatolepis marginifera带对应。 相似文献
14.
Damien Pas Anne-Christine Da Silva Thomas Suttner Erika Kido Pierre Bultynck Monica Pondrelli Carlo Corradini David De Vleeschouwer Claudia Dojen Frédéric Boulvain 《International Journal of Earth Sciences》2014,103(2):519-538
The development and behavior of million year-scaled depositional sequences recorded within Palaeozoic carbonate platform has remained poorly examined. Therefore, the understanding of palaeoenvironmental changes that occur in geological past is still limited. We herein undertake a multi-disciplinary approach (sedimentology, conodont biostratigraphy, magnetic susceptibility (MS), and geochemistry) of a long-term succession in the Carnic Alps, which offers new insights into the peculiar evolution of one of the best example of Palaeozoic carbonate platform in Europe. The Freikofel section, located in the central part of the Carnic Alps, represents an outstanding succession in a fore-reef setting, extending from the Latest Givetian (indet. falsiovalis conodont zones) to the Early Famennian (Lower crepida conodont zone). Sedimentological analysis allowed to propose a sedimentary model dominated by distal slope and fore-reef-slope deposits. The most distal setting is characterized by an autochthonous pelagic sedimentation showing local occurrence of thin-bedded turbiditic deposits. In the fore-reef slope, in a more proximal setting, there is an accumulation of various autochthonous and allochthonous fine- to coarse-grained sediments originated from the interplay of gravity-flow currents derived from the shallow-water and deepwater area. The temporal evolution of microfacies in the Freikofel section evolves in two main steps corresponding to the Freikofel (Unit 1) and the Pal (Unit 2) limestones. Distal slope to fore-reef lithologies and associate changes are from base to top of the section: (U1) thick bedded litho- and bioclastic breccia beds with local fining upward sequence and fine-grained mudstone intercalations corresponding, in the fore-reef setting, to the dismantlement of the Eifelian–Frasnian carbonate platform during the Early to Late Frasnian time (falsiovalis to rhenana superzones) with one of the causes being the Late Givetian major rift pulse; (U2) occurrence of thin-bedded red nodular and cephalopod-bearing limestones with local lithoclastic grainstone intercalations corresponding to a significant deepening of the area and the progressive withdrawal of sedimentary influxes toward the basin, in relation with Late Frasnian sea-level rise. MS and geochemical analyses were also performed along the Freikofel section and demonstrate the inherent parallel link existing between variation in MS values and proxy for terrestrial input. Interpretation of MS in terms of palaeoenvironmental processes reflects that even though distality remains the major parameter influencing MS values, carbonate production and water agitation also play an important role. 相似文献
15.
湘中佘田桥剖面上泥盆统弗拉斯阶地层研究新进展 总被引:3,自引:1,他引:2
湘中佘田桥剖面的佘田桥阶大致与弗拉斯阶范围一致 ,其下为吉维阶泥质灰岩 ,含腕足类 Emanuella tak-wanensis等及竹节石 Viriatellina kienelensis等。佘田桥阶自下而上分别为榴江组、蒸水河组、老江冲组。榴江组主要是紫红色粉砂质泥岩 /粉砂岩互层、底部为黑色薄层硅质岩。蒸水河组下部以灰黑色及暗灰色钙质泥页岩为主 ,含介形虫 Bertillonella erecta、B.cicatricosa?、Franklinella calcarata、Entomozoe(N ehdentomis) tenera及菊石 Meso-beloceras?sp.;上部泥质灰岩、似瘤状灰岩、粉砂质泥岩含牙形石 Palmatolepis cf.semichatovae、大型菊石 Mantico-ceras sp.及介形虫 Entomozoe(N ehdentomis) pseudorichterina。老江冲组以泥页岩为主 ,顶部附近则出现一些泥质灰岩、似瘤状泥灰岩层 ,产丰富的小嘴贝类、无洞贝类及弓石燕类等腕足动物 ,少量海绵 (?)及珊瑚等。佘田桥阶的顶界与弗拉斯阶的顶界一致 ,即以无洞贝类和大量四射珊瑚的绝灭为标志 ,而 Yannanellina腕足动物群的出现开始于锡矿山阶 (或法门阶 )。综合各类化石资料 ,佘田桥剖面的榴江组大致相当于牙形石 falsiovalis带— punctata带 ,蒸水河组相当于 L ower hassi带— L ower rhenana带 ,老江冲组相当于 U pper rhenana带— linguiform 相似文献
16.
国际泥盆系GSSP与华南泥盆系划分 总被引:4,自引:1,他引:3
简要介绍国际泥盆系各阶界线定义、界线层型,以及目前进行的国际泥盆系埃姆斯阶、吉维阶、弗拉斯阶和法门阶亚阶划分的情况,并讨论了中国区域性阶与国际性阶之间的关系:除了埃姆斯阶和法门阶在华南分别进一步细分为郁江阶和四排阶以及锡矿山阶和邵东阶等外,那高岭阶、应堂阶、东岗岭阶和佘田桥阶大致分别相当于布拉格阶、艾费尔阶、吉维阶和弗拉斯阶;今后需加强对上述几个中国区域性阶底界确切时代的研究。国际泥盆系中各亚阶在我国大体可以应用,但吉维阶中亚阶-上亚阶、弗拉斯阶下亚阶-中亚阶的分界及最上法门亚阶的底界在华南台地相区岩石地层上不易划分。 相似文献