新疆塔克拉玛干沙漠轮南区奥陶纪牙形刺及Pygodus属的演化北大核心CSCD

详细描述我国新疆塔克拉玛干沙漠东北部轮南探区50井的中-上奥陶统界线附近的牙形刺动物群,包括Pygodus anserinus,P.serra,P.xinjiangensis,Ansella jemtlandica,Cornuodus longibasis,Periodon aculeatus,Protopanderodus calceatus,P.cooperi,P.varicostatus,Scabbardella altipes,Spinodus spinatus和Cahabagnathus sweeti等,由上而下可划分Pygodus anserinus,P.serra和P.xinjiangensis等3个牙形刺带,并以Pygodus anserinus带的底界稍偏上处视为中-上奥陶统界线。尤为重要的是,本文对Pygodus xinjiangensis的有效性、Pygodus属的演化趋势及其3个种的区别进行详细讨论,同时说明Pygodus anserinus由P.serra演化而来。     

湖北宜昌真金和陈家河奥陶系牯牛潭组至宝塔组的牙形刺及其地层意义

根据采自湖北宜昌分乡陈家河和远安真金两剖面奥陶系牯牛潭组至宝塔组的牙形刺,将该段地层的牙形刺生物带自上而下综合划分为Hamarodus brevirameus,Amorphognathus superbus,Baltoniodus alobatus,Pygodus anserinus-Yangtzeplacognathus jianyeensis,Yangtzeplacognathus protoramosus,Yangtzeplacognathus foliaceus,Histiodella kristinae-Eoplacognathus suecicus,Dzikodus tablepointensis,Lenodus variabilis和Lenodus antivariabilis等牙形刺生物带。其中宝塔组之Hamarodus brevirameus,Amorphognathus superbus生物带及Baltoniodus alobatus生物带顶部归为凯迪阶(Katian),庙坡组Baltoniodus alobatus生物带大部和Pygodus anserinus-Yangtzeplacognathus jianyeensis生物带中上部归为桑比阶(Sandbian),而牯牛潭组的Yangtzeplacognathus protoramosus至Lenodus antivariabilis等牙形刺生物带和庙坡组Pygodus anserinus-Yangtzeplacognathus jianyeensis生物带下部则归入达瑞威尔阶(Darriwillian)。这一牙形刺带序列与宜昌黄花场和分乡剖面的牙形刺生物带相一致。     

皖南石台地区奥陶系牙形刺

本文研究了安徽省石台地区奥陶系红花园组至汤山组牙形刺的组合特征及其序列,共发现了牙形刺36属64种。文中描述其中地层意义较大的12属16种。建立了12个牙形刺化石带,其中一组合带。自上而下为: Hamarodus europacus带;Amorphognathus superbus带;Amorphognathus tvearensis带; Baltoniodus variabilis带;Pygodus anserinus-Eoplacognathus jianyeensis带; Pygodus serrus带;Eoplacognathus suecicus带;Amorphognathus variabilis带; Paroistodus originalis带; Periodon flabellum带;Oepikodus evae带; Serratognathus tangshanensis带。 本区奥陶系牙形刺的面貌属北大西洋生物地理区。这些牙形刺化石带基本上可与我国宜昌地区、宁镇地区以及西欧奥陶系的牙形刺化石带进行对比。     

内蒙古乌海大石门奥陶系牙形刺和Histiodella动物群发现的意义

本文描述了内蒙古乌海大石门剖面奥陶系的牙形刺动物群:下克里摩里组主要有Histiodella kristinae,H.holodentata,H.wuhaiensis sp.nov.,Polonodus newfoundlandensis和Paroistodus horridus等,应归属于中奥陶统达瑞威尔阶(Darriwilian)之Histiodella kristinae带,并在同一剖面上与笔石Pterograptus elegans带和Didymograptus murchisoni带下部相当;下克里摩里组顶部产Histiodella kristinae,Baltoplacognathus cf.reclinatus,Periodon aculeatus和Protopanderodus rectus等,所以大石门剖面的Histiodella kristinae带顶部可能已与北欧Pygodus serra带之底部相当;乌拉力克组底部的砾状灰岩透镜体产有牙形刺Pygodus anserinus?,Protopanderodus liripipus,Yangtzeplacognathus protoramosus和Dapsilodus viruensis等,其中Pygodus anserinus?Pa分子(器官种的一组成分子)的口面瘤齿列的瘤齿比较粗糙,与典型的Pygodus anserinus稍有不同,且在牙形刺十分丰富的样品中仅有一枚此种之Pa分子,所以本文尚有疑问地把这层砾状灰岩归入Pygodus anserinus带,同时不能排除把它归入Pygodus serra带顶部Yangtzeplacognathus protoramosus亚带的可能。由于此剖面牙形刺化石与丰富的笔石共生,为牙形刺带与笔石带的精确对比提供了直接证据。Histiodella动物群在此剖面的发现,不仅具有十分重要的地层意义,而且具有明显的岩相古地理意义。本文详细描述了新种Histiodella wuhaiensis并讨论了Histiodella属5个种之区别。     

新疆顺北油田和塔河油田中—上奥陶统牙形刺生物地层

通过对新疆顺北油田B、C两井与塔河油田D井中-上奥陶统牙形刺的研究,从一间房组上部至恰尔巴克组下部识别出Dzikodus tablepointensis,Eoplacognathus suecicus,Pygodus serra和Pygodus anserinus-Yangtzeplacognathus jianyeensis等4个生物带。结合塔河油田A井的牙形刺研究,进而将两个地区的一间房组上部归为中奥陶统达瑞威尔阶中上部,恰尔巴克组归为上奥陶统桑比阶中下部,良里塔格组归为上奥陶统桑比阶中上部至凯迪阶下部,桑塔木组底部归为凯迪阶中部。顺北油田和塔河油田的中-上奥陶统牙形刺生物地层序列可以与塔里木盆地的区域标准牙形刺生物带进行对比。     

塔里木中央隆起区上奥陶统的牙形刺

塔里木板块中央隆起区的上奥陶统,即巴楚露头剖面吐木休克组和良里塔格组以及塔克拉玛干沙漠腹地塔中油田井下良里塔格组皆为灰岩相.作者对前人报道的牙形刺带作了修改,首次系统描述牙形刺动物群全貌,共计14属21种.在曾归入Pygodus serra带和P.anserinus带的吐木休克组底部和下部发现Yangtzeplacognathus jianyeensis,故应改为Yangtzeplacognathus jianyeensis带;吐木休克组中部因发现Baltoniodus alobatus和B.variabilis共生,应属B.alobatus带.在Yangtzeplacognathus jianyeensis带和Baltoniodus alobatus带之间尚未发现可靠的B.variabilis,因此是否存在B.variabilis带尚存疑问.巴楚露头区上奥陶统的牙形刺序列由下而上应为Yangtzeplacognathus jianyeensis带,Baltoniodus variabilis带?,B.alobatus带和Belodina confluens带.塔中的良里塔格组则可识别出B.confluens带和Yaoxianognathus yaoxianensis带.将中央隆起区牙形刺动物群组合与其相邻的柯坪地块进行对比,说明晚奥陶世因两个地理区水深的差异导致牙形刺带完整性的差异.     

陕西宁强—四川广元地区奥陶系“涧草沟组”和宝塔组牙形刺生物地层研究之新进展

开展陕西宁强范家沟、赵家坝和四川广元谭家沟3条剖面奥陶系牙形刺生物地层研究。在宁强地区"涧草沟组"发现了凯迪阶中部的Protopanderodus insculptus生物带,它相当于湖北宜昌地区上奥陶统临湘组之同名带;宝塔组由上而下可划分为Hamarodus brevirameus,Baltoniodus variabilis,Yangtzeplacognathus jianyeensis和Y.foliaceus等牙形刺带,属达瑞威尔阶上部至凯迪阶下部,可与湖北宜昌地区中-上奥陶统牯牛潭组顶部至宝塔组的同名带对比;广元地区宝塔组则见Baltoniodus variabilis和Yangtzeplacognathus jianyeensis生物带,属达瑞威尔阶顶部至桑比阶,可与湖北宜昌地区庙坡组或南京地区大田坝组的同名带对比。上述发现改变了先前的认识:陕西宁强地区宝塔组划分为Hamarodus europaeus和Eoplacognathus jianyeensis两牙形刺带,与湖北宜昌地区庙坡组和宝塔组地层相当;四川广元地区宝塔组归入Pygodus serra-Eoplacognathus foliaceus牙形刺带,与湖北宜昌地区牯牛潭组对比。邱洪荣(1989)建立的4个新种可能是一些老属种不同形态的组成分子,因此在本文属种描述部分把它们分别列入相应属种的同义名录。     

湖北宜昌远安真金和界岭奥陶系牯牛潭组顶部的牙形刺及其地层意义（英文）

本文描述了采自湖北宜昌远安真金和界岭剖面奥陶系牯牛潭组顶部的牙形刺,它们有Baltoniodus prevariabilis,Drepanoistodus venustus,Panderodus gracilis,Periodon aculeatus,Protopanderodus calceatus,P.varicostatus?,Yangtzeplacognathus foliaceus和Y.protoramosus等,确认宜昌地区牯牛潭组顶部应归属于奥陶系达瑞威尔阶Pygodus serra带之Yangtzeplacognathus protoramosus亚带,并可与宜昌黄花场剖面和南京汤山外杆沟剖面同名组顶部及新疆柯坪羊吉坎剖面一间房组顶部的牙形刺带相对比。同时,它要比重庆城口大槽剖面牯牛潭组顶部的牙形刺带低3个带(Pygodus anserinus带至Baltoniodus variabilis带),这一事实也说明了牯牛潭组顶部在中国扬子地台的穿时性。     

浙赣地区上奥陶统砚瓦山组的牙形刺及其地层意义*

描述产自浙江常山205国道剖面上奥陶统砚瓦山组的牙形刺,主要有Baltoniodus alobatus,B.variabilis,Periodon aculeatus,Dapsilodus viruensis,Scabbardella altipes和Panderodus gracilis等,可归入Baltoniodus alobatus带。浙赣地区奥陶系砚瓦山组自建立以来都被归入瀚江期,并与宝塔组对比。本文根据当前的发现并结合以前报道的砚瓦山组牙形刺化石,认为砚瓦山组自下而上可识别出Pygodus anserinus,Baltoniodus alobatus和Hamarodus brevirameus(=Hamarodus europaeus)等带,其时代应归为桑比早期至凯迪早期,并可与华南扬子区的庙坡组大部(或大田坝组)至宝塔组对比。其中,Pygodus anserinus带和Baltoniodus alobatus带见于浙江常山、江山地区,Hamarodus brevirameus带则见于江西武宁。在常山黄泥塘金钉子剖面,砚瓦山组底部为Pygodus anserinus带;在常山205国道剖面则见Baltoniodus alobatus带;但在江西武宁地区,砚瓦山组从底部起,几乎全都归为Hamarodus brevirameus带。因而,砚瓦山组在江西武宁与浙江常山等地之底界并不一致,有明显的穿时现象。本文牙形刺生物地层研究还表明,晚奥陶世古滕贝格的δ13 C的正偏移事件(GICE)在常山地区的起始时间不会早于B.alobatus带。     

我国北方石炭-二叠系牙形刺序列再认识

文中根据当前比较统一的牙形刺分带原则,对我国北方石炭二叠系的牙形刺序列进行了研究和重新定义。我国北方地区石炭二叠系的牙形刺带或组合带由上而下可综合如下：Sweetognathus whitei,S.inornatus,Streptognathodus barskovi,S.isolatus,S.elegantulus-S.oppletus,Idiognathodus magnificus-Neognathodus roundyi,Idiognathodus delicatus-Neognathodus bothrops,Idiognathoides corrugatus-I.sinuatus,Declinognathodus noduliferus,Gnathodus bilineatus bollandensis和Gnathodus bilineatus bilineatus带或组合带。本文同时介绍了牙形刺带和组合带在我国北方的分布、时代及其对比。     

河北唐山下奥陶统牙形刺生物地层的新认识

本文作者在安太庠等(1983)研究过的唐山赵各庄剖面,对下奥陶统冶里组和亮甲山组较系统地采集了牙形刺样品,通过对所获牙形刺标本和安太库等(1983)所描述的牙形刺动物群仔细研究后,对包括分带和对比意见有新的认识。安太庠等(1983)把自寒武系凤山组顶部至下奥陶统亮甲山组这段地层,自下而上建立了Cordylodus proavus,Utahconus beimadaoensis-Monocostodus sevierensis,Cordylodus rotundatus-"Acodus"oneotensis,Scolopodus quadraplicatus-S.opimus,Scalpellodus tersus,Serratognathus bilobatus,S.extensus和Paraserratognathus paltodiformis等8带,其中Cordylodus proavus带为寒武系顶,Utahconus beimadaoensis-Monocostodus sevierensis至Scolopodus quadraplicatus-S.opimus等带为下奥陶统冶里组,其余则为下奥陶统亮甲山组,寒武系-奥陶系界线置于Utahconus beimadaoensis-Monocostodus sevierensis带之底。这一牙形刺序列和寒武系-奥陶系界线划分方案在国内被广泛引用至今(王志浩等,2011)。本文通过补充采集到的牙形刺标本和安太庠等(1983)报道的材料,根据一些重要分子在地层中的分布及公认的牙形刺分带原则,对安太庠等(1983)的牙形刺分带方案重新修订,自下而上修订为Cordylodus proavus,C.lindstromi,Iapetognathus jilinensis,Cordylodus angulatus,Chosonodina herfurthi-Rossodus manitouensis,Glyptoconus quadraplicatus,Scalpellodus tersus-Triangulodus aff.bifidus,Serratognathus bilobatus,S.extensus和Paraserratognathus obesus等10带,寒武系-奥陶系界线则置于Iapetognathus jilinensis带之底。根据这一修订后的牙形刺序列,寒武系顶至下奥陶统冶里组部分的牙形刺带可与国内、外相同层位的牙形刺带进行精细对比,而亮甲山组的牙形刺虽有明显的地方性特点,但除其顶部因更具地方性而不能直接对比外,其中下部仍可与华南区下奥陶统红花园组相对比。     

贵州沿河土地坳下奥陶统牙形石

本文报道了采自贵州沿河土地坳下奥陶统的牙形石,计有２５属３９种,根据牙形石组合特片分析,认为其与黔北其它地区下奥陶统牙形石组合面貌基本一致,属北大西洋牙形石动物地理区。     

山东莱芜地区晚寒武世炒米店组牙形石生物地层学研究

本文报道了山东莱芜地区黄羊山剖面炒米店组的牙形石生物地层学研究成果。在该剖面上寒武统的炒米店组建立了9个牙形石带,自上而下分别是Cordylodusangulatus带,C.lindstromi带,C.intermedius带,C.proavus带,Eoconodontusnotchpeakensis带,Proconodontusmuelleri带,P.posterocostatus带,P.tenuiserratus带和Prooneotodusrotundatus-Muelleroduserectus带。牙形石动物群的面貌显示该地区炒米店组顶部在时代上已属早奥陶世,表明该地区的寒武-奥陶界线与三山子组白云岩的底界并不一致,后者在层位上稍高。建立并描述了一副牙形石新种Westergaardodinahuangyangshanensissp.nov.。     

EARLY ORDOVICIAN CONODONTS FROM TARUTAO ISLAND,SOUTHERN PENINSULAR THAILAND

Abstract: Early Ordovician conodont faunas of the Thung Song Formation on Tarutao Island, southern peninsular Thailand, consist of 14 known species belonging to 17 genera, and eight undescribed species. Utahconus tarutaoensis and Filodontus tenuis are new species. Three conodont zones: the Rossodus manitouensis Zone, the Utahconus tarutaoensis Zone and the Filodontus tenuis Zone, in ascending order, are defined in the study sections. These are coeval with the interval from the Rossodus manitouensis Zone to the Acodus deltatus‐Oneotodus costatus Zone of the standard zonation in the North American Midcontinent. Based on the conodonts studied here and fossils previously reported from Tarutao Island, the Thung Song Formation is early Tremadocian to middle Arenig (Ibexian) in age. This formation is lithostratigraphically subdivided into the S1 to S5 members, and our study sections consist of the S1 to S3 members. These strata accumulated on a shelf in the Early Ordovician. The depositional environments of the limestones making up the S1 and S3 members were in deeper‐shelf conditions. Limestone and shale of the S2 member formed in a shallow‐water, high‐energy environment.     

A new study of Olenekian–Anisian boundary conodont biostratigraphy of the Tulong section in Himalaya Terrane,southern Tibet

The Himalaya Terrane of southern Tibet exposes successive shallow-marine carbonate deposits from the Lower to Upper Triassic, and is a key region for studying the Triassic conodont biostratigraphy at the northern margin of the Indian Plate. On the basis of newly collected samples from the Kangshare and Laibuxi formations at the Tulong section, 11 conodont species of 7 genera were identified, and four conodont zones were established, namely, the Novispathodus abruptus Zone (lower Spathian, first reported in Tibet), the Columbitella jubata Zone (middle Spathian), the Triassospathodus symmetricus Zone (upper Spathian), and the Chiosella timorensis Zone (lowermost Anisian) in ascending order. The first occurrence (FO) of Chiosella timorensis indicates the Olenekian–Anisian boundary (OAB) at Bed 25, upper part of the Kangshare Formation. The regional and global correlation of these conodont zones is synthesized.     

Harnessing stratigraphic bias at the section scale: conodont diversity in the Homerian (Silurian) of the Midland Platform,England

Fossil abundance and diversity in geological successions are subject to bias arising from shifting depositional and diagenetic environments, resulting in variable rates of fossil accumulation and preservation. In simulations, this bias can be constrained based on sequence‐stratigraphic architecture. Nonetheless, a practical quantitative method of incorporating the contribution of sequence‐stratigraphic architecture in community palaeoecology and diversity analyses derived from individual successions is missing. As a model of faunal turnover affected by the stratigraphic bias, we use the ‘Mulde event’, a postulated mid‐Silurian interval of elevated conodont turnover, which coincides with global eustatic sea‐level changes and which has been based on regionally constrained observations. We test whether conodont turnover is highest at the boundary corresponding to the ‘event’ and post‐‘event’ interval against the alternative that conodont turnover reflects habitat tracking and peaks at facies shifts. Based on the previously documented, parasequence‐level stratigraphic framework of sections in the northern and central part of the Midland Platform, the relative controls of sequence‐stratigraphic architecture, time and depositional environment over conodont distribution are evaluated using permutational multivariate analysis of variance. The depositional environment controls the largest part of variability in conodont assemblage composition, whereas the postulated ‘Mulde event’, or genuine temporal change in conodont diversity, cannot be detected. Depending on the binning of the stratigraphic succession, contrasting diversity and turnover patterns can be produced. The simple approach proposed here, emulating partitioning of β diversity into spatial and temporal components, may help to constrain the stratigraphic bias, even at the scale of an individual section.     

Proposed stratotype for the base of the highest Cambrian stage at the first appearance datum of Cordylodus andresi, Lawson Cove section, Utah, USA

We propose a candidate for the Global Standard Stratotype-section and Point (GSSP) for the base of the highest stage of the Furongian Series of the Cambrian System. The section is at Lawson Cove in the Ibex area of Millard County, Utah, USA. The marker horizon is the first appearance datum (FAD) of the conodont Cordylodus andresi Viira et Sergeyeva in Kaljo et al. [Kaljo, D., Borovko, N., Heinsalu, H., Khazanovich, K., Mens, K., Popov, L., Sergeyeva, S., Sobolevskaya, R., Viira, V., 1986. The Cambrian–Ordovician boundary in the Baltic–Ladoga clint area (North Estonia and Leningrad Region, USSR). Eesti NSV Teaduste Akadeemia Toimetised. Geologia 35, 97–108]. At this section and elsewhere this horizon also is the FAD of the trilobite Eurekia apopsis (Winston et Nicholls, 1967). This conodont characterizes the base of the Cordylodus proavus Zone, which has been recognized in many parts of the world. This trilobite characterizes the base of the Eurekia apopsis Zone, which has been recognized in many parts of North America. The proposed boundary is 46.7 m above the base of the Lava Dam Member of the Notch Peak Formation at the Lawson Cove section. Brachiopods, sequence stratigraphy, and carbon-isotope geochemistry are other tools that characterize this horizon and allow it to be recognized in other areas.