广西东攀剖面二叠-三叠系界线附近头足类动物群与地质时代讨论

在广西东攀二叠-三叠系界线剖面中发现了Domataceras guangxiensis, Lopingoceras guangdeensis Zhao,Liang et Zheng,Schizoloboceras fusuiensis, Agathiceras sp., Stacheoceras sp.,Pernodoceras robustum Chao et Liang,Dushanoceras cf.rotolarium Zhao, Liang et Zheng,Huananoceras cf.perornatum Chao et Liang,Qianjiangoceras sp.,Laibinoceras cf.compressum Yang,Glyptophiceras sp.,Lytophiceras cf. chamunda(Diener),Ophiceras tingi Tien,Ophiceras sp.化石.在剖面的第2～12-2层产Pernodoceras,Dushanoceras,Huananoceras和Qianjiangoceras化石,均为长兴期菊石带Pseudotirolites-Rotodiscoceras的共生化石.第12-3层产长兴期菊石Laibinoceras cf.compressum Yang.第13-1A～16层产Lytophiceras和 Ophiceras,为早三叠世菊石带Ophiceras-Lytophiceras的带化石.东攀剖面菊石的分布及其与华南其他地区的对比研究表明,广西东攀剖面二叠-三叠系界线位于第12-3层(厚55 cm)内部或者位于第13-1A层的底部.     

广西东攀剖面二叠一三叠系界线附近头足类动物群与地质时代讨论

在广西东攀二叠一三叠系界线剖面中发现了Domataceras guangziensis，Lopingoceras guangdeensis Zhao，Liang et Zheng，Schizoloboceras fusuiensis，Agathiceras sp．，Stacheocerassp．，Pernodoceras robustum Chao et Liang，Dushanoceras cf．rotolarium Zhao，Liang et Zheng，Huananoceras cf．peromatum Chao et Liang，Qianjiangocerassp．，Laibinoceras cf．compressum Yang，Glyptophiceras sp．，Lytophiceras cf．chamunda（Diener），Ophicer as tingi Tien，Ophiceras sp．化石。在剖面的第2～12—2层产Pernodoceras，Dushanoceras，Huananoceras和纰njiangoceras化石，均为长兴期菊石带Pseudotirolites.Rotodiscoceras的共生化石。第12—3层产长兴期菊石Laibinoceras cf．compressum Yang。第13-1A-16层产Lytophiceras和Ophiceras，为早三叠世菊石带Ophiceras-Lytophiceras的带化石。东攀剖面菊石的分布及其与华南其他地区的对比研究表明，广西东攀剖面二叠一三叠系界线位于第12—3层（厚55cm）内部或者位于第13—1A层的底部。     

Nd-Sr Isotopic Geochemistry of the Late Archean-Paleoproterozoic Granitoids in the Lüliang-Wutai Terrain,North China Craton,and Implications for Petrogenesis

1 Introduction The tectono-thermal evolution of the North China Craton (NCC) in Late Archean to Paleoproterozoic times has long been attractive to many researchers (Wan et al., 2000; Zhao et al., 2000, 2002; Guo et al., 2001; Liu et al., 2002; Zhai and Liu 2003; Zhai, 2004; Yu et al., 2004; Kr?ner et al., 2005; Wilde et al., 2005). Zhao et al. (2000, 2002) proposed a tectono-thermo framework for the evolution of the NCCbased on detailed petrological and geochronological data, and they …     

U-Pb Zircon Dating of the Granitic Conglomerates of the Hutuo Group： Affinities to the Wutai Granitoids and Significance to the Tectonic Evolution of the Trans-North China Orogen

1 Introduction The North China Craton (NCC) is considered to be the oldest and largest cratonic block in China. Recent studies to gain understanding of basement architecture of the NCC has led to its division into the Western and Eastern Blocks, separated by a N-S trending Paleoproterozoic Trans-North China Orogen (TNCO) (Fig. 1; Zhao et al., 1998, 1999a, 2000a, 2001a; Wilde et al., 2002). Although there is now abroad consensus that the final assembly of the NCC was completed by th…     

An Early Carboniferous Flora of the Huadu Locality from South China: Its Taxonomic Composition,Paleophytogeographical Position and Paleoecological Interpretation

The Huadu flora of Guangdong Province, South China contains the lepidodendrid Lepidodendron shanyangense Wu et He, its putative rhizophore Stigmaria cf. ficoides （Brongniart） Sternberg; sphenophyte s.l. Archaeocalamites scrobiculatus （Brongniart） Stur; bowmanitid Sphenophyllum tenerrimum （Ettingshausen） Stur; pteridophyll Sphenopteris sp. of uncertain taxonomic position; undetermined ferns gen. et sp. nov.; lyginopterid pteridosperm Rhodeopteridium hsianghsiangense （Sze） Zhang, Zhao et Wu, a trigonocarpoid pteridosperm represented by fronds and isolated pinnules of Paripteris gigantea （Sternberg） Gothan, male fructifications of Potoniea sp., and seeds of Trigonocarpus sp. Ecologically, the Early Carboniferous （Visean） Huadu vegetation was divided into two neighboring communities： （1） a near-shore hydrophilous ＂community A＂ with predominating Archaeocalamites and Rhodeopteridium; and （2） a wet forest ＂community B＂ with predominating shrubby trigonocarpalean pteridosperm Paripteris gigantea （Sternberg） Gothan and tall tree-like lepidodendrid Lepidodendron shanyangense Wu et He. The Huadu vegetation was physiognomically similar to present-day low-latitude mangrove forest.     

Ore-forming Response to Syndepositional Submarine Volcanism in Langshan-Zhaertai Mesoproterozoic SEDEX Ore Belt, Inner Mongolia, China

INTRODUCTIONThe L angshan- Zhaertai metallogenic belt is a typicalSEDEX belt of the Mesoproterozoic passive continental m ar-gins in the west section of the northern margin of the NorthChina platform(Zhai et al.,1997) (Fig.1) .The ore- form inggeological setting,the division and correlation of the host suc-cession,the geological features of typical ore deposits andtheir genesis of the belt have been described in references(Zhai et al.,1997;Wang and Zhao,1994;Wang et al.,1992 ;L i et…     

Paleoproterozoic Potassic Granitoids in the Sushui Complex from the Zhongtiao Mountains, Northern China： Geochronology, Geochemistry and Petrogenesis

1 Introduction The early Precambrian basement of the North China Craton (NCC) consists mainly of the Eastern Continental Block, the Western Continental Block and the Trans-North China Orogen (TNCO, or “the Central Tectonic Zone”), which formed by continental collision between the Eastern and Western Blocks (Zhao et al., 1998). This evolutionary model has now been widely accepted (Wu and Zhong, 1998; Guan et al., 2002; Guo et al., 2002; Liu et al., 2002a, b; Liu et al., 2004a, b;…     

A DYNAMIC MODEL OF MULTIDIRECTIONAL COLLISION-WEDGING UPLIFT OF THE QINGHAI-TIBET PLATEAU

1. IntroductionThe formation and evolution of the Qinghai-Tibet plateau have long attracted geoscientists from the world, especially since the 1980s. They proposed numerous models of its formation and evolution (England et al. 1986, Tapponnier et al. 1982, Mattauer 1986, Zhao et al. 1987, Wu et al. 1991, Li, 1995, Zeng et al. 1992, Zhao et al., 1996, Xiao et al. 1998). In this paper we will discuss the uplift mechanism of the Qinghai-Tibet plateau from the tectonic framework of deformatio…     

Discovery of the Middle-Late Triassic elasmobranch ichthyoliths from the Guanling area,Guizhou,SW China

应用Johns等(1997)的形态分类系统，对首次报道出现于贵州关岭地区中上三叠统的软骨鱼类的微体化石进行了初步研究，描述了其中的1个牙齿化石(可能属于弓鲛鳖科的)和7个鳞片类化石的形态属种，其中包括两个鳞片类化石的新属种，即Lobaticorona cf. floriditurris,Sacrisubcorona co. circabasis,Glabrisubcarona co.arduidevexa,Parvi-corona dacrysulca n.gen.et.n.sp.s.f.Annulicorona pyramidalis n.gen.et.n.sp.s.f.,new(?) paragenera A和new(?) paragenera B。还初步探讨了软骨鱼类微体化石在三叠纪地层划分中的应用，以及中国西南部三叠纪软骨鱼类与北美相当地层中软骨鱼类的洲际对比。     

松潘-甘孜造山带早白垩世古生物化石的新发现

近期,四川省地质调查院在松潘-甘孜造山带的义敦岛弧地区开展1:50000热打幅、定波幅区域地质调查中,采获大量早白垩世晚期的珊瑚化石和少量水螅、刺毛虫化石,其中以Latusastraea xigazeensis Liao et Xia日喀则宽星珊瑚、Preverastraea iseli(prever)伊赛普雷弗星珊瑚、Stylina qiebulaensis Liao切不拉准柱珊瑚3种最为丰富,另外还有Agathelia asperella Reuss粗糙闭珊瑚、Cladophyllia qiebulaensis Liao切布拉枝珊瑚、Diplocoenia cf.hayasakai Eguchi早板双通珊瑚(相似种)、Eohydnophora tosaensis Yabe et Eguchi土佐始峰峦珊瑚、Gonicora cf．annulata Roniewicz环角珊瑚(相似种)、Spongiomorpha asiatica Yabe et Sugiyama亚洲海绵状水螅、Spongiomorpha asiatica xainzaensis Deng亚洲海绵状水螅申扎亚种、Pseudomillestroma reticulate Deng网状假千口刺毛虫.     

Features of Tight Sandstone Reservoir and Origin of Tightness: An Example from Chang-7 Member, Triassic Yanchang Formation in Chenghao Area, Ordos Basin

<正>1 Introduction Permeability of Member-6,Member-7,and Member-8,Triassic Yangchang Formation in Ordos Basin is lower than 1?0~(-3)μm~2,so sandstone in those formations are typical tight reservoir(Zhao et al.,2012a,2012b;Yang et al.,2013).Because of the maximum flooding event of Late Triassic during deposition of Chang-7 Member,the lacustrine basin had a wide range of deposition area and     

Report on 34 Ga SHRIMP Zircon Age from the Yuntaishan Geopark in Jiaozuo, Henan Province

1 Introduction According to recent researches, the North China Craton consists of three parts: the eastern block, western block and central zone (Zhao, 2001; Wilde et al., 2002). Paleoarchean continental blocks and zircon residuals have only been found in a few regions, such as Anshan, East Liaoning (Liu et al., 1992; Song et al., 1996; Wan et al., 2002, 2005), Caozhuang, East Hebei (Liu et al., 1992) and Xinyang, West Henan (Zheng et al., 2004), which are mainly distributed in the east…     

A GIS Approach to Prediction of Copper Deposits

INTRODUCTIONGeo-anomaly (GA) ,according to the Geo-Anomaly The-ory proposed by Professor Zhao Pengda,is the geological bod-ies or the combination of the geological bodies that are obvi-ously different from their surrounding geological bodies instructure,formation and genetic sequence.The ore body is avery special type of GA.The examination of the GA environ-ment is the basis of ore-prospecting,the premise of ore-find-ing and the criterion of target selection (Chi et al.,1 997) .The G…     

GEOPHYSICS

20090077 Ji Shaocheng (Département des Génies Civil. Géologique et des Mines, école Polytechnique de Montréal; Montréal, H3C 3A7, Canada); Wang Qian Break-Up of the North China Craton through Lithospheric Thinning (Acta Geologica Sinica, ISSN0001-5717, CN11-1951, 82(2), 2008, p.174-193, 9 illus., 2 tables, 195 refs., with English abstract)     

New Discovery of ~1866 Ma High-temperature Mylonite in the Helanshan Complex: Marking a Late-stage Ductile Shearing in the Khondalite Belt, North China Craton

正Objective The Khondalite Belt is a nearly E–W-trending Paleoproterozoic Himalayan-type orogen in the Western Block of the North China Craton. It is regarded as a result of the collision between the northern Yinshan Block and the southern Ordos Block at ～1.95 Ga, which led to the formation of the united basement of the Western Block(e.g., Zhao et al., 2005; Yin et al., 2011). The Khondalite Belt has undergone long-term continent-continen collisional orogenic processes, and a remarkable series of late-stage orogen-parallel ductile shear zones developed(e.g., Huang et al., 2013; Gong et al., 2014).     

湖南桑植洪家关中三叠世轮藻化石

本文描述了湖南桑植县洪家关、芙蓉桥的巴东组轮藻化石,它们归属于4个属17个种(其中包括3个新种和2个未定种),即Stellatochara sellingii Horn of Rantzien, S. hoellvicensis Horn of Rantzien, S. badongensis Lu, S. maedleri Horn of Rantzien, S. longipiriformis Huang, S. sangzhiensis Hu et Zeng(sp. nov.), S. zhongshane-nsis Huang, S. cf. subsphaerica Kozur et Reinhardt,? Stellatochara sp. 1, Stellatochara sp. 2; Stenochara donetziana Saidakovsky, S. blanda Saidakovsky, S. ovata Saidakovsky, S. furongqiaoensis Hu et Zeng(sp. nov.); Porochara nanjing-ensis Huang; Vladimiriella dongtunensis(Zhao), V. obtusoformis Hu et Zeng(sp. nov.)。该轮藻组合是以Stellatochara和Stenochara二属丰富为其显著特点,其中有些种过去曾发现于瑞典、德国、苏联、保加利亚的中三叠统和我国的二马营群、巴东组、黄马青组和聊城组。它们的时代是同时期的。     

A New Hiatus within the Lutetian of the El Basatin Section,Gebel Mokattam,Egypt:Field and Sedimentological Observations,with Special Emphasis on Nummulites

The Eocene succession of the El Basatin Section in Gebel Mokattam, east of Cairo, consists, from base to top, of two main units; the Mokattam and Maadi Formations. The Mokattam Formation consists of two Members, the Building Stone Member and the Giushi Member. The Upper Building Stone Member yielded six species of Nummulites belonging to the Upper Lutetian. These species are: Nummulites farisi Hussein et al., 2004; Nummulites cf. praegizehensis Boukhary and Hussein-Kamel, 1993; Nummulites cf. gizehensis(Forsk?l, 1775); Nummulites discorbinus(Schlotheim 1820) and Arxina schwageri(Silvestri, 1928) emended by Boukhary et al. 2012 and Nummulites crassichordatus Boukhary et al., 2010. The Giushi Member yielded three species that indicate a Bartonian age. These species, which continued from their first appearance in the Upper Building Stone Members, are N. discorbinus, A. schwageri and N. crassichordatus. The Maadi Formation, which has been previously considered to be of Bartonian–Priabonian age, is devoid of fossils in the study section. The two members of the Mokattam Formation represent a carbonate platform facies. The deposition of the Upper Building Stone Member was disturbed during the Lutetian by slumping and a convolute-bedding interval, indicating a short hiatus. The subsequent regression resulted in a very shallow marine to near-shore facies in the above Maadi Formation.     

Reservoir Characteristics of Tight Sandstone of Shanxi Formation in Linxing Area in the North of Ordos Basin

<正>1 Introduction The sandstone of Shanxi formation in Upper Paleozoic in the north of Ordos basin is very tight,thin,quick lateral changes and strong heterogeneity.It is a lithologic trap and subtle gas reservoir.It is very difficult to analyze gas enrichment factors and predict high yield zone(Hao et al.,2011;Zhao et al.,2012).The tight sandstone of Shanxi formation in Upper Paleozoic Permian in Linxing area in     

Developing a Geological Management Information System： National Important Mining Zone Database

INTRODUCTIONGeographic information systems (GIS) is a newtechnology of storing and processing spatial informa-tion , which can combine graphics with many types ofdatabase .It can also exhibit accurate and real spaceinformation with charts and texts according to actualneed ,and canintegrate geographic locations and cor-related data attributes as an organic whole .Geoscien-tists have shown GIS to be a very useful tool in theanalysis of geoscience problems (Zhao et al .,2004 ;Singer ,1993…     

Phytolith Records in Vermicular Red Earth:Implications for Bioclimatic Variationsduring Pleistocene

INTRODUCTIONVermicular red earth is distributed widely in South China,significant for the research into Quaternary environment andglobal change. Huang (1993) discovered the evidence of human activities-popple tools in vermicular red earth of the middle-upper reaches of Hanshui Riverl Zhu et al. (1991 ) statedthat red earth was a good information carrier of global changeafter the research into tropic red earth and environment byweathered mineral and geochemistry. Zhao and Yang (1995)stud…