DOCSLIB.ORG

Berichte Der Geologischen Bundesanstalt Nr. 46 V

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Berichte Der Geologischen Bundesanstalt Nr. 46 V ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at Berichte der Geologischen Bundesanstalt Nr. 46 V International Symposium Cephalopods - Present and Past Vienna 6 - 9th September 1999 Institute of Palaeontology, University of Vienna Geological Survey of Austria Museum of Natural History Vienna ABSTRACTS VOLUME Edited by Kathleen Histon Geologische Bundesanstalt Vienna, July 1999 1 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at Reference to this Volume: HISTON, K. (Ed.) V International Symposium Cephalopods - Present and Past, Vienna. Abstracts Volume. - Ber. Geol. Bundesanst. 46, 1-134, 111., Wien 1999 ISSN 1017-8880 Editor's address: Kathleen Histon Geological Survey of Austria Rasumofskygasse 23 A-1031 Vienna Austria Impressum: Alle Rechte für das In- und Ausland vorbehalten. Copyright Geologische Bundesanstalt, Wien, Österreich. Medieninhaber, Herausgeber und Verleger: Verlag der Geologischen Bundesanstalt, A-1031 Wien, Postfach 127, Rasumofskygasse 23, Österreich. Für die Redaktion verantwortlich: Kathleen Histon, Geologische Bundesanstalt Layout: Kathleen Histon, Geologische Bundesanstalt Druck: Offsetschnelldruck Riegelnik, A-1080 Wien Verlagsort und Gerichtsstand ist Wien Herstellungsort Wien Die Autoren sind für ihre Beiträge verantwortlich. Ziel der "Berichte der Geologischen Bundesanstalt" ist die Verbreitung wissenschaftlicher Ergebnisse durch die Geologische Bundesanstalt. Die "Berichte der Geologischen Bundesanstalt" sind im Buchhandel nur eingeschränkt erhältlich. 2 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at Invited Speakers Theo Engeser Berlin Larisa Doguzhaeva Moscow Scientific Board Sigurd von Boletzky France Richard A. Davis USA Larisa A. Doguzhaeva Russia Theo Engeser Germany Charles H. Holland Ireland William J. Kennedy UK Leopold Krystyn Austria Neil H. Landman USA Walter L. Manger USA Rudolf Schipp Germany Herbert Summesberger Austria Kazushige Tanabe Japan Gerd E.G.Westermann Canada Organising Committee Herbert Summesberger Austria Hans Peter Schönlaub Austria Leopold Krystyn Austria Kathleen Histon Ireland Sponsors: Federal Ministry for Education and Cultural Affairs "Austria Grant" City Council of Vienna, Wissenschafts- und Forschungsförderung "Vienna Grant" Lord Mayor of Vienna, Dr. Michael Häupl Town Council of Gumpoldskirchen Geological Survey of Austria, Vienna Museum of Natural History, Vienna Institute of Palaeontology, Vienna Acknowledgements The staff of the Geological Survey of Austria, in particular Irene Zorn, Angelika Vrablik, Veronika Zolnaritsch, Christian Widhalm and the members of the Palaeontology Department are thanked for their generous help and support throughout the preparation for this conference. The editor is grateful to Albert Daurer (Geological Survey) for his advice during the compilation of this volume. The assistance of the staff of the Natural History Museum and Institute of Palaeontology was greatly appreciated. 3 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at Contents Part 1 ABSTRACTS LISTED IN THEMATIC ORDER Part 2 AB STRACTS IN ALPHABETICAL ORDER OF FIRST AUTHOR ADDRESS LIST OF AUTHORS Parti KEYNOTE PRESENTATIONS DOGUZHAEVA, L. Early shell ontogeny in bactritoids and allied taxa: comparative morphology, shell wall ultrastructure and phylogenetic implication 32 ENGESER, T. Phylogeny of the "Post-Triassic" Nautiloids 36 BIOLOGY OF RECENT AND FOSSIL CEPHALOPODS ARKHIPKIN, A. & BIZIKOV, V. Statolith shape as an indicator of the life style in recent and extinct decapod cephalopods 14 BEUERLE1N, K., GEBAUER, M., VERSEN, B. & SCHIPP, R. Arterial hemolymph supply in the branchial hearts of the cuttlefish Sepia officinalis L. (Cephalopoda, Dibranchiata) 20 BOLETZKY, S. VON Yolk sac morphologies in cephalopod embryos 23 BOLETZKY, S. VON Dwarf cephalopods: conditions of reproduction at small size 24 DAVIES, R.A. & MAPES, R.H. Pits in internal molds of cephalopods 31 GLEADALL, I. G. The terminal region of the male genital tract in cephalopod systematics: A revised terminology and an illustration of intrageneric variation within one genus of Octopus 42 GONCALVES, I., SENDAO, J. & BORGES, T.C. Octopus vulgaris (Cephalopoda: Octopodidae) gametogeneses: A histological approach to the verification of the macroscopic maturity scales 44 HIELSCHER, B. & BOLETZKY, S. VON Organization and reorganization of the main nerve cord in untreated and regenerating tentacles of the cephalopod Sepia officinalis L 46 KENNEDY, W.J., COBBAN, W.A. & KLINGER, H.C. Muscle attachment and mantle-related features in Upper Cretaceous Baculites from the United States Western Interior 55 KEUPP, H. Injuries - a key to understanding life modes of ammonoids 56 LANDMAN, N.H., KLOFAK, S.M., O'SHEA, S. & MIKKELSEN, P.M. A giant squid in New York City 72 4 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at LESCH, C, KITZROW, D., KÄMPFER, P., NEEF, A. & SCHIPP, R. Microbiological and physiological studies on bacteria populations in the pericardial coelom of Nautilus pompilius L. (Cephalopoda, Tetrabranchiata) 73 LEWY, Z. The trophic control on the function of the Aulacoceratid and Belemnoid guard and phragmocone 74 MANGER, W. L., MEEKS, L.K. & RUSSELL, R.A. Evaluation of septal crowding as an indication of sexual maturity in some Lower and Middle Carboniferous ammonoids from the North American Midcontinent, United States 81 RICHTER, U. & FISCHER, R. Soft tissue attachment structures on pyritized internal molds of ammonoids 95 ROUGET, I. & NEIGE, P. Intraspecific variation of ammonoid embryonic growth stages and its bearing on post embryonic growth 97 RUTH, P. & SCHMIDTBERG, H. Ciliated cells on the digital tentacles of Nautilus pompilius L. indicate their function as sense organs (Cephalopoda, Tetrabranchiata) 98 SAUER, W. & MELO, Y. Estimating actual fecundity of aloliginid squid 100 STEPHAN, D.A. & STANTON, R.J. Jr. Impact of reproductive strategy on cephalopod evolution 106 SUMMESBERGER, H., JURKOVSEK, B. & KOLAR-JURKOVSEK, T. Upper jaws of Placenticeratidae from the Karst Plateau (Upper Cretaceous, Slovenia) 107 TANABE, K. & LANDMAN, N.H. Morphological diversity of the jaws of Cretaceous Ammonoidea 109 TANABE, K., MAPES, R.H., SASAKI, T. & LANDMAN, N.H. Comparative microanatomy of the siphuncular cord in Permian ammonoids and Recent Nautilus 110 VAN DER TUUK, L.T. & JAGT, J.W.M An enigmatic cephalopod jaw element from the latest Maastrichtian of the Netherlands 113 WESTERMANN, B. & SCHIPP, R. Cytological investigations on the digestive organs of Nautilus pompilius L. (Cephalopoda, Tetrabranchiata) 119 CONSTRUCTION MORPHOLOGY ARKADIEV, V.V. & VAVILOV, M.N. Types of lobe line development of the Middle Triassic Ammonoidea of the Boreal Area 13 BÄNDEL, K. Evaluation of constructional differences in Jurassic ammonite shells and Nautilus 17 CHECA, A.G. & KEUPP, H. Regulation of coiling in planispiral ammonites, inferred from cases of infestation in vivo by epizoans 27 EBBIGHAUSEN, V., BECKER, R.T. & BOCKWINKEL, J. Morphometric analysis of Paratornoceratinae (Goniatitida) from the early Famennian of southern Morocco... 35 KAPLAN, P. Biomechanics as a test of functional plausibility: Testing the adaptive value of terminal-countdown heteromorphy in Cretaceous ammonoids 54 KROGER, B. Shell loss due to predation- effects on ammonoid buoyancy 65 5 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at KULICKI, C, LANDMAN, N.H., HEANEY, M.J., MAPES, R.H. & TANABE, K. Morphology of the early whorls of goniatites from the Carboniferous Buckhorn Asphalt (Oklahoma) with aragonite preservation 68 KULICKI, C. & TANABE, K, The ultrastructure of the dorsal shell wall of Mesozoic ammonoids 69 MAPES, R.H., TANABE, K. & LANDMAN, N.H. Siphuncular membranes in Upper Paleozoic Prolecanitid Ammonoids from Nevada, USA 83 SPREY, A. Early ontogeny of three Callovian ammonite genera (Binatisphinctes, Kosmoceras (Spinikosmoceras) and Hecticoceras 105 WEITSCHAT, W. Wrinkle layer and dorsal muscle scars in Amauroceras ferrugineum from the Domerian of NW Germany.... 118 WESTERMANN, G.E.G. Recent hypotheses on mechanical and metabolic functions of septal fluting and sutural complexity in post- Carboniferous ammonoids 120 YACOBUCCI, M.M. Buckman's paradox: constraints on ammonoid ornament and shell shape 124 PHYLOGENY, SYSTEMATICS AVRAM, E. The taxonomic position and biostratigraphic value of the genus Pseudocrioceratites Egoian, 1969 (Lytoceratina) in Romania 15 BARDHAN, S., SARDAR, S. & JANA, S. The Middle Jurassic ammonite Kheraiceras Späth from the Indian Subcontinent 18 BECKER, R.T. Phylogeny and systematics of the Wocklumeriina (Ammonoidea, Clymeniida, Middle to Late Famennian).... 19 BOCKWINKEL, J., BECKER, R.T. & EBBIGHAUSEN, V. Variability and taxonomy of Maeneceras (Goniatitida, Sporadoceratidae) from the early Famennian of Southern Morocco 21 BOGDANOVA, T.N. & MIKHAILOVA, I.A. Origin and evolution of the Family Deshayesitidae Stoyanow, 1949 22 DAGYS, A. Phylogeny and taxonomy of the Boreal Anisian family Czekanowskitidae 29 DOGUZHAEVA, L.A., MAPES, R.H. & MUTVEI, H. Rostrum and phragmocone structures in the lower Carboniferous coleoid Hematites and its taxonomic assignment 33 DOGUZHAEVA, L.A., MUTVEI, H. & DONOVAN, D.T. Structure of the pro-ostracum and muscular mantle in Belemnites 34 ENGESER, T. The data retrieval system Nautiloidea (DRSN) + computer demonstration 37 GLOWNIAK, E. Biology and biogeography of the middle Oxfordian ammonites of the subgenus Platysphinctes: a new evidence from Poland 43 6 ©Geol. Bundesanstalt, Wien; download unter www.geologie.ac.at
Load more

Recommended publications
  • Common Name: Chiton Class: Polyplacophora
    Common Name: Chiton Class: Polyplacophora Scrapes algae off rock with radula 8 Overlapping Plates Phylum? Mollusca Class? Gastropoda Common name? Brown sea hare Class? Scaphopoda Common name? Tooth shell or tusk shell Mud Tentacle Foot Class? Gastropoda Common name? Limpet Phylum? Mollusca Class? Bivalvia Class? Gastropoda Common name? Brown sea hare Phylum? Mollusca Class? Gastropoda Common name? Nudibranch Class? Cephalopoda Cuttlefish Octopus Squid Nautilus Phylum? Mollusca Class? Gastropoda Most Bivalves are Filter Feeders A B E D C • A: Mantle • B: Gill • C: Mantle • D: Foot • E: Posterior adductor muscle I.D. Green: Foot I.D. Red Gills Three Body Regions 1. Head – Foot 2. Visceral Mass 3. Mantle A B C D • A: Radula • B: Mantle • C: Mouth • D: Foot What are these? Snail Radulas Dorsal HingeA Growth line UmboB (Anterior) Ventral ByssalC threads Mussel – View of Outer Shell • A: Hinge • B: Umbo • C: Byssal threads Internal Anatomy of the Bay Mussel A B C D • A: Labial palps • B: Mantle • C: Foot • D: Byssal threads NacreousB layer Posterior adductorC PeriostracumA muscle SiphonD Mantle Byssal threads E Internal Anatomy of the Bay Mussel • A: Periostracum • B: Nacreous layer • C: Posterior adductor muscle • D: Siphon • E: Mantle Byssal gland Mantle Gill Foot Labial palp Mantle Byssal threads Gill Byssal gland Mantle Foot Incurrent siphon Byssal Labial palp threads C D B A E • A: Foot • B: Gills • C: Posterior adductor muscle • D: Excurrent siphon • E: Incurrent siphon Heart G F H E D A B C • A: Foot • B: Gills • C: Mantle • D: Excurrent siphon • E: Incurrent siphon • F: Posterior adductor muscle • G: Labial palps • H: Anterior adductor muscle Siphon or 1.
    [Show full text]
  • Post-Carboniferous Stratigraphy, Northeastern Alaska by R
    Post-Carboniferous Stratigraphy, Northeastern Alaska By R. L. DETTERMAN, H. N. REISER, W. P. BROSGE,and]. T. DUTRO,JR. GEOLOGICAL SURVEY PROFESSIONAL PAPER 886 Sedirnentary rocks of Permian to Quaternary age are named, described, and correlated with standard stratigraphic sequences UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON 1975 UNITED STATES DEPARTMENT OF THE INTERIOR ROGERS C. B. MORTON, Secretary GEOLOGICAL SURVEY V. E. McKelvey, Director Library of Congress Cataloging in Publication Data Detterman, Robert L. Post-Carboniferous stratigraphy, northeastern Alaska. (Geological Survey Professional Paper 886) Bibliography: p. 45-46. Supt. of Docs. No.: I 19.16:886 1. Geology-Alaska. I. Detterman, Robert L. II. Series: United States. Geological Survey. Professional Paper 886. QE84.N74P67 551.7'6'09798 74-28084 For sale by the Superintendent of Documents, U.S. Government Printing Office Washington, D.C. 20402 Stock Number 024-001-02687-2 CONTENTS Page Page Abstract __ _ _ _ _ __ __ _ _ _ _ _ _ _ _ _ _ _ _ __ __ _ _ _ _ _ _ __ __ _ _ __ __ __ _ _ _ _ __ 1 Stratigraphy__:_Continued Introduction __________ ----------____ ----------------____ __ 1 Kingak Shale ---------------------------------------- 18 Purpose and scope ----------------------~------------- 1 Ignek Formation (abandoned) -------------------------- 20 Geographic setting ------------------------------------ 1 Okpikruak Formation (geographically restricted) ________ 21 Previous work and acknowledgments ------------------ 1 Kongakut Formation ----------------------------------
    [Show full text]
  • Cephalopoda) Diversity from Statolith Remains: Taxonomic Assignation, Fossil Record Analysis, and New Data for Calibrating Molecular Phylogenies
    New Eocene coleoid (Cephalopoda) diversity from statolith remains: taxonomic assignation, fossil record analysis, and new data for calibrating molecular phylogenies. Pascal Neige, Hervé Lapierre, Didier Merle To cite this version: Pascal Neige, Hervé Lapierre, Didier Merle. New Eocene coleoid (Cephalopoda) diversity from sta- tolith remains: taxonomic assignation, fossil record analysis, and new data for calibrating molecu- lar phylogenies.. PLoS ONE, Public Library of Science, 2016, 11 (5), pp.e0154062. 10.1371/jour- nal.pone.0154062. hal-01319404 HAL Id: hal-01319404 https://hal.archives-ouvertes.fr/hal-01319404 Submitted on 23 May 2016 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Distributed under a Creative Commons Attribution| 4.0 International License RESEARCH ARTICLE New Eocene Coleoid (Cephalopoda) Diversity from Statolith Remains: Taxonomic Assignation, Fossil Record Analysis, and New Data for Calibrating Molecular Phylogenies Pascal Neige1*, Hervé Lapierre2, Didier Merle3 1 Univ. Bourgogne Franche-Comté, CNRS, Biogéosciences, 6 bd Gabriel, 21000, Dijon, France, a11111 2 Département Histoire de la Terre, (MNHN, CNRS, UPMC-Paris6), Paris, France, 3 Département Histoire de la Terre, Sorbonne Universités (CR2P—MNHN, CNRS, UPMC-Paris6), Paris, France * [email protected] Abstract OPEN ACCESS New coleoid cephalopods are described from statolith remains from the Middle Eocene Citation: Neige P, Lapierre H, Merle D (2016) New (Middle Lutetian) of the Paris Basin.
    [Show full text]
  • ALBIAN AMMONITES of POLAND (Plates 1—25)
    PALAEONTOLOGIA POLQNICA mm ■'Ъ-Ь POL T S H ACADEMY OF SCIENCES INSTITUTE OF PALEOBIOLOGY PALAEONTOLOGIA POLONICA—No. 50, 1990 t h e a l b ia w AMMONITES OF POLAND (AMQNITY ALBU POLS К I) BY RYSZARD MARCINOWSKI AND JOST WIEDMANN (WITH 27 TEXT-FIGURES, 7 TABLES AND 25 PLATES) WARSZAWA —KRAKÔW 1990 PANSTWOWE WYDAWNICTWO NAUKOWE KEDAKTOR — EDITOR JOZEP KA2MIERCZAK 2ASTEPCA HEDAKTOHA _ ASSISTANT EDITOR m AôDAlenA BÛRSUK-BIALYNICKA Adres Redakcjl — Address of the Editorial Office Zaklad Paleobiologij Polska Akademia Nauk 02-089 Warszawa, AI. 2w irki i Wigury 93 KOREKTA Zespol © Copyright by Panstwowe Wydawnictwo Naukowe Warszawa — Krakôw 1990 ISBN 83-01-09176-2 ISSN 0078-8562 Panstwowe Wydawnielwo Naukowe — Oddzial w Krakowie Wydanie 1, Naklad 670 + 65 cgz. Ark. wyd. 15. Ark. druk. 6 + 25 wkladek + 5 wklejek. Papier offset, sat. Ill kl. 120 g. Oddano do skiadania w sierpniu 1988 r. Podpisano do druku w pazdzierniku 1990 r. Druk ukoriczono w listopadzie 1990 r. Zara. 475/87 Drukarnia Uniwersytetu Jagielloriskiego w Krakowie In Memory of Professor Edward Passendorfer (1894— 1984) RYSZARD MARCINOWSKI and JOST WIEDMANN THE ALBIAN AMMONITES OF POLAND (Plates 1—25) MARCINOWSKI, R. and WIEDMANN, J.: The Albian ammonites of Poland. Palaeonlologia Polonica, 50, 3—94, 1990. Taxonomic and ecological analysis of the ammonite assemblages, as well as their general paleogeographical setting, indicate that the Albian deposits in the Polish part of the Central European Basin accumulated under shallow or extremely shallow marine conditions, while those of the High-Tatra Swell were deposited in an open sea environment. The Boreal character of the ammonite faunas in the epicontinental area of Poland and the Tethyan character of those in the Tatra Mountains are evident in the composition of the analyzed assemblages.
    [Show full text]
  • Siphuncular Structure in the Extant Spirula and in Other Coleoids (Cephalopoda)
    GFF ISSN: 1103-5897 (Print) 2000-0863 (Online) Journal homepage: http://www.tandfonline.com/loi/sgff20 Siphuncular Structure in the Extant Spirula and in Other Coleoids (Cephalopoda) Harry Mutvei To cite this article: Harry Mutvei (2016): Siphuncular Structure in the Extant Spirula and in Other Coleoids (Cephalopoda), GFF, DOI: 10.1080/11035897.2016.1227364 To link to this article: http://dx.doi.org/10.1080/11035897.2016.1227364 Published online: 21 Sep 2016. Submit your article to this journal View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=sgff20 Download by: [Dr Harry Mutvei] Date: 21 September 2016, At: 11:07 GFF, 2016 http://dx.doi.org/10.1080/11035897.2016.1227364 Siphuncular Structure in the Extant Spirula and in Other Coleoids (Cephalopoda) Harry Mutvei Department of Palaeobiology, Swedish Museum of Natural History, Box 50007, SE-10405 Stockholm, Sweden ABSTRACT ARTICLE HISTORY The shell wall in Spirula is composed of prismatic layers, whereas the septa consist of lamello-fibrillar nacre. Received 13 May 2016 The septal neck is holochoanitic and consists of two calcareous layers: the outer lamello-fibrillar nacreous Accepted 23 June 2016 layer that continues from the septum, and the inner pillar layer that covers the inner surface of the septal KEYWORDS neck. The pillar layer probably is a structurally modified simple prisma layer that covers the inner surface of Siphuncular structures; the septal neck in Nautilus. The pillars have a complicated crystalline structure and contain high amount of connecting rings; Spirula; chitinous substance.
    [Show full text]
  • Vita Scientia Revista De Ciências Biológicas Do CCBS
    Volume III - Encarte especial - 2020 Vita Scientia Revista de Ciências Biológicas do CCBS © 2020 Universidade Presbiteriana Mackenzie Os direitos de publicação desta revista são da Universidade Presbiteriana Mackenzie. Os textos publicados na revista são de inteira responsabilidade de seus autores. Permite-se a reprodução desde que citada a fonte. A revista Vita Scientia está disponível em: http://vitascientiaweb.wordpress.com Dados Internacionais de Catalogação na Publicação (CIP) Vita Scientia: Revista Mackenzista de Ciências Biológi- cas/Universidade Presbiteriana Mackenzie. Semestral ISSN:2595-7325 UNIVERSIDADE PRESBITERIANA MACKENZIE Reitor: Marco Túllio de Castro Vasconcelos Chanceler: Robinson Granjeiro Pro-Reitoria de Graduação: Janette Brunstein Pro-Reitoria de Extensão e Cultura: Marcelo Martins Bueno Pro-Reitoria de Pesquisa e Pós-Graduação: Felipe Chiarello de Souza Pinto Diretora do Centro de Ciências Biológicas e da Saúde: Berenice Carpigiani Coordenador do Curso de Ciências Biológicas: Adriano Monteiro de Castro Endereço para correspondência Revista Vita Scientia Centro de Ciências Biológicas e da Saúde Universidade Presbiteriana Mackenzie Rua da Consolação 930, São Paulo (SP) CEP 01302907 E-mail: [email protected] Revista Vita Scientia CONSELHO EDITORIAL Adriano Monteiro de Castro Camila Sachelli Ramos Fabiano Fonseca da Silva Leandro Tavares Azevedo Vieira Patrícia Fiorino Roberta Monterazzo Cysneiros Vera de Moura Azevedo Farah Carlos Eduardo Martins EDITORES Magno Botelho Castelo Branco Waldir Stefano CAPA Bruna Araujo PERIDIOCIDADE Publicação semestral IDIOMAS Artigos publicados em português ou inglês Universidade Presbiteriana Mackenzie, Revista Vita Scientia Rua da Consolaçãoo 930, Edíficio João Calvino, Mezanino Higienópolis, São Paulo (SP) CEP 01302-907 (11)2766-7364 Apresentação A revista Vita Scientia publica semestralmente textos das diferentes áreas da Biologia, escritos em por- tuguês ou inglês: Artigo resultados científicos originais.
    [Show full text]
  • The Cretaceous of North Greenland
    ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Zitteliana - Abhandlungen der Bayerischen Staatssammlung für Paläontologie und Histor. Geologie Jahr/Year: 1982 Band/Volume: 10 Autor(en)/Author(s): Birkelund Tove, Hakansson Eckhart Artikel/Article: The Cretaceous of North Greenland - a stratigraphic and biogeographical analysis 7-25 © Biodiversity Heritage Library, http://www.biodiversitylibrary.org/; www.zobodat.at 7 Zitteliana 10 7-25 München, 1. Juli 1983 ISSN 0373-9627 The Cretaceous of North Greenland - a stratigraphic and biogeographical analysis By TOVE BIRKELUND & ECKART HÄKANSSON*) With 6 text figures and 3 plates ABSTRACT Mapping of the Wandel Sea Basin (81-84°N) has revealed realites, Peregrinoceras, Neotollia, Polyptycbites, Astieripty- an unusually complete Late Jurassic to Cretaceous sequence chites) are Boreal and Sub-Boreal, related to forms primarily in the extreme Arctic. The Cretaceous pan of the sequence in­ known from circum-arctic regions (Sverdrup Basin, Svalbard, cludes marine Ryazanian, Valanginian, Aptian, Albian, Tu­ Northern and Western Siberia), but they also have affinities to ranian and Coniacian deposits, as well as outliers of marine occurrences as far south as Transcaspia. The Early Albian Santonian in a major fault zone (the Harder Fjord Fault Zone) contains a mixing of forms belonging to different faunal pro­ west of the main basin. Non-marine PHauterivian-Barremian vinces (e. g. Freboldiceras, Leymeriella, Arctboplites), linking and Late Cretaceous deposits are also present in addition to North Pacific, Atlantic, Boreal/Russian platform and Trans­ Late Cretaceous volcanics. caspian faunas nicely together. Endemic Turonian-Coniacian Scapbites faunas represent new forms related to European An integrated dinoflagellate-ammonite-5«c/;D stratigra­ species.
    [Show full text]
  • Schmitz, M. D. 2000. Appendix 2: Radioisotopic Ages Used In
    Appendix 2 Radioisotopic ages used in GTS2020 M.D. SCHMITZ 1285 1286 Appendix 2 GTS GTS Sample Locality Lat-Long Lithostratigraphy Age 6 2s 6 2s Age Type 2020 2012 (Ma) analytical total ID ID Period Epoch Age Quaternary À not compiled Neogene À not compiled Pliocene Miocene Paleogene Oligocene Chattian Pg36 biotite-rich layer; PAC- Pieve d’Accinelli section, 43 35040.41vN, Scaglia Cinerea Fm, 42.3 m above base of 26.57 0.02 0.04 206Pb/238U B2 northeastern Apennines, Italy 12 29034.16vE section Rupelian Pg35 Pg20 biotite-rich layer; MCA- Monte Cagnero section (Chattian 43 38047.81vN, Scaglia Cinerea Fm, 145.8 m above base 31.41 0.03 0.04 206Pb/238U 145.8, equivalent to GSSP), northeastern Apennines, Italy 12 28003.83vE of section MCA/84-3 Pg34 biotite-rich layer; MCA- Monte Cagnero section (Chattian 43 38047.81vN, Scaglia Cinerea Fm, 142.8 m above base 31.72 0.02 0.04 206Pb/238U 142.8 GSSP), northeastern Apennines, Italy 12 28003.83vE of section Eocene Priabonian Pg33 Pg19 biotite-rich layer; MASS- Massignano (Oligocene GSSP), near 43.5328 N, Scaglia Cinerea Fm, 14.7 m above base of 34.50 0.04 0.05 206Pb/238U 14.7, equivalent to Ancona, northeastern Apennines, 13.6011 E section MAS/86-14.7 Italy Pg32 biotite-rich layer; MASS- Massignano (Oligocene GSSP), near 43.5328 N, Scaglia Cinerea Fm, 12.9 m above base of 34.68 0.04 0.06 206Pb/238U 12.9 Ancona, northeastern Apennines, 13.6011 E section Italy Pg31 Pg18 biotite-rich layer; MASS- Massignano (Oligocene GSSP), near 43.5328 N, Scaglia Cinerea Fm, 12.7 m above base of 34.72 0.02 0.04 206Pb/238U
    [Show full text]
  • Size Distribution of the Late Devonian Ammonoid Prolobites: Indication for Possible Mass Spawning Events
    Swiss J Geosci (2010) 103:475–494 DOI 10.1007/s00015-010-0036-y Size distribution of the Late Devonian ammonoid Prolobites: indication for possible mass spawning events Sonny Alexander Walton • Dieter Korn • Christian Klug Received: 17 December 2009 / Accepted: 18 October 2010 / Published online: 15 December 2010 Ó Swiss Geological Society 2010 Abstract Worldwide, the ammonoid genus Prolobites is Abbreviations only known from a few localities, and from these fossil SMF Senckenberg Museum, Frankfurt a. M., Germany beds almost all of the specimens are adults as shown by the MB.C. Cephalopod collection of the Museum fu¨r presence of a terminal growth stage. This is in marked Naturkunde Berlin (the collections of Franz contrast to the co-occurring ammonoid genera such as Ademmer, Werner Bottke, and Harald Simon Sporadoceras, Prionoceras, and Platyclymenia. Size dis- are incorporated here) tribution of specimens of Prolobites from three studied localities show that, unlike in the co-occurring ammonoid species, most of the material belongs to adult individuals. The morphometric analysis of Prolobites delphinus Introduction (SANDBERGER &SANDBERGER 1851) demonstrates the intra- specific variability including variants with elliptical coiling The mid-Fammenian (Late Devonian) ammonoid genus and that dimorphism is not detectable. The Prolobites Prolobites is only known from a few localities worldwide, material shows close resemblance to spawning populations mainly in the Rhenish Mountains and the South Urals. of Recent coleoids such as the squid Todarodes filippovae Where it does occur, the majority of the specimens show a ADAM 1975. Possible mass spawning events are discussed terminal growth stage suggesting that these are adults.
    [Show full text]
  • Geology of the Shepton Mallet Area (Somerset)
    Geology of the Shepton Mallet area (Somerset) Integrated Geological Surveys (South) Internal Report IR/03/94 BRITISH GEOLOGICAL SURVEY INTERNAL REPORT IR/03/00 Geology of the Shepton Mallet area (Somerset) C R Bristow and D T Donovan Contributor H C Ivimey-Cook (Jurassic biostratigraphy) The National Grid and other Ordnance Survey data are used with the permission of the Controller of Her Majesty’s Stationery Office. Ordnance Survey licence number GD 272191/1999 Key words Somerset, Jurassic. Subject index Bibliographical reference BRISTOW, C R and DONOVAN, D T. 2003. Geology of the Shepton Mallet area (Somerset). British Geological Survey Internal Report, IR/03/00. 52pp. © NERC 2003 Keyworth, Nottingham British Geological Survey 2003 BRITISH GEOLOGICAL SURVEY The full range of Survey publications is available from the BGS Keyworth, Nottingham NG12 5GG Sales Desks at Nottingham and Edinburgh; see contact details 0115-936 3241 Fax 0115-936 3488 below or shop online at www.thebgs.co.uk e-mail: [email protected] The London Information Office maintains a reference collection www.bgs.ac.uk of BGS publications including maps for consultation. Shop online at: www.thebgs.co.uk The Survey publishes an annual catalogue of its maps and other publications; this catalogue is available from any of the BGS Sales Murchison House, West Mains Road, Edinburgh EH9 3LA Desks. 0131-667 1000 Fax 0131-668 2683 The British Geological Survey carries out the geological survey of e-mail: [email protected] Great Britain and Northern Ireland (the latter as an agency service for the government of Northern Ireland), and of the London Information Office at the Natural History Museum surrounding continental shelf, as well as its basic research (Earth Galleries), Exhibition Road, South Kensington, London projects.
    [Show full text]
  • Palaeoecology and Palaeoenvironments of the Middle Jurassic to Lowermost Cretaceous Agardhfjellet Formation (Bathonian–Ryazanian), Spitsbergen, Svalbard
    NORWEGIAN JOURNAL OF GEOLOGY Vol 99 Nr. 1 https://dx.doi.org/10.17850/njg99-1-02 Palaeoecology and palaeoenvironments of the Middle Jurassic to lowermost Cretaceous Agardhfjellet Formation (Bathonian–Ryazanian), Spitsbergen, Svalbard Maayke J. Koevoets1, Øyvind Hammer1 & Crispin T.S. Little2 1Natural History Museum, University of Oslo, P.O. Box 1172 Blindern, 0318 Oslo, Norway. 2School of Earth and Environment, University of Leeds, Leeds LS2 9JT, United Kingdom. E-mail corresponding author (Maayke J. Koevoets): [email protected] We describe the invertebrate assemblages in the Middle Jurassic to lowermost Cretaceous of the Agardhfjellet Formation present in the DH2 rock-core material of Central Spitsbergen (Svalbard). Previous studies of the Agardhfjellet Formation do not accurately reflect the distribution of invertebrates throughout the unit as they were limited to sampling discontinuous intervals at outcrop. The rock-core material shows the benthic bivalve fauna to reflect dysoxic, but not anoxic environments for the Oxfordian–Lower Kimmeridgian interval with sporadic monospecific assemblages of epifaunal bivalves, and more favourable conditions in the Volgian, with major increases in abundance and diversity of Hartwellia sp. assemblages. Overall, the new information from cores shows that abundance, diversity and stratigraphic continuity of the fossil record in the Upper Jurassic of Spitsbergen are considerably higher than indicated in outcrop studies. The inferred life positions and feeding habits of the benthic fauna refine our understanding of the depositional environments of the Agardhfjellet Formation. The pattern of occurrence of the bivalve genera is correlated with published studies of Arctic localities in East Greenland and northern Siberia and shows similarities in palaeoecology with the former but not the latter.
    [Show full text]
  • Contributions in BIOLOGY and GEOLOGY
    MILWAUKEE PUBLIC MUSEUM Contributions In BIOLOGY and GEOLOGY Number 51 November 29, 1982 A Compendium of Fossil Marine Families J. John Sepkoski, Jr. MILWAUKEE PUBLIC MUSEUM Contributions in BIOLOGY and GEOLOGY Number 51 November 29, 1982 A COMPENDIUM OF FOSSIL MARINE FAMILIES J. JOHN SEPKOSKI, JR. Department of the Geophysical Sciences University of Chicago REVIEWERS FOR THIS PUBLICATION: Robert Gernant, University of Wisconsin-Milwaukee David M. Raup, Field Museum of Natural History Frederick R. Schram, San Diego Natural History Museum Peter M. Sheehan, Milwaukee Public Museum ISBN 0-893260-081-9 Milwaukee Public Museum Press Published by the Order of the Board of Trustees CONTENTS Abstract ---- ---------- -- - ----------------------- 2 Introduction -- --- -- ------ - - - ------- - ----------- - - - 2 Compendium ----------------------------- -- ------ 6 Protozoa ----- - ------- - - - -- -- - -------- - ------ - 6 Porifera------------- --- ---------------------- 9 Archaeocyatha -- - ------ - ------ - - -- ---------- - - - - 14 Coelenterata -- - -- --- -- - - -- - - - - -- - -- - -- - - -- -- - -- 17 Platyhelminthes - - -- - - - -- - - -- - -- - -- - -- -- --- - - - - - - 24 Rhynchocoela - ---- - - - - ---- --- ---- - - ----------- - 24 Priapulida ------ ---- - - - - -- - - -- - ------ - -- ------ 24 Nematoda - -- - --- --- -- - -- --- - -- --- ---- -- - - -- -- 24 Mollusca ------------- --- --------------- ------ 24 Sipunculida ---------- --- ------------ ---- -- --- - 46 Echiurida ------ - --- - - - - - --- --- - -- --- - -- - - ---
    [Show full text]