DOCSLIB.ORG

Appendix 7.4: Functional Diversity of Marine Ecosystems After the Late Permian Mass Extinction Event

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Appendix 7.4: Functional Diversity of Marine Ecosystems After the Late Permian Mass Extinction Event University of Plymouth PEARL https://pearl.plymouth.ac.uk 04 University of Plymouth Research Theses 01 Research Theses Main Collection 2015 Palaeoecology of the late Permian mass extinction and subsequent recovery Foster, William J. http://hdl.handle.net/10026.1/5467 Plymouth University All content in PEARL is protected by copyright law. Author manuscripts are made available in accordance with publisher policies. Please cite only the published version using the details provided on the item record or document. In the absence of an open licence (e.g. Creative Commons), permissions for further reuse of content should be sought from the publisher or author. Appendix 7.4: Functional diversity of marine ecosystems after the Late Permian mass extinction event Mode of Life assignments Table S1: Mode of Life assignments. In the functional columns each number corresponds to the model in Bambach et al. (S1), where for Tiering: 2 = erect; 3 = surficial; 4 = semi-infaunal; 5 = shallow infaunal; 6 = deep infaunal; for Motility: 1 = fast motile; 2 = slow motile; 3 = facultatively motile, unattached; 4 = facultatively motile, attached; 5 = stationary, unattached; 6 = stationary, attached; and for Feeding: 1 = suspension feeder; 2 = deposit feeder; 3 = miner; 4 = grazer; 5 = predator; 6 = other (i.e. chemosymbiosis).
Load more

Recommended publications
  • A Classification of Living and Fossil Genera of Decapod Crustaceans
    RAFFLES BULLETIN OF ZOOLOGY 2009 Supplement No. 21: 1–109 Date of Publication: 15 Sep.2009 © National University of Singapore A CLASSIFICATION OF LIVING AND FOSSIL GENERA OF DECAPOD CRUSTACEANS Sammy De Grave1, N. Dean Pentcheff 2, Shane T. Ahyong3, Tin-Yam Chan4, Keith A. Crandall5, Peter C. Dworschak6, Darryl L. Felder7, Rodney M. Feldmann8, Charles H. J. M. Fransen9, Laura Y. D. Goulding1, Rafael Lemaitre10, Martyn E. Y. Low11, Joel W. Martin2, Peter K. L. Ng11, Carrie E. Schweitzer12, S. H. Tan11, Dale Tshudy13, Regina Wetzer2 1Oxford University Museum of Natural History, Parks Road, Oxford, OX1 3PW, United Kingdom [email protected] [email protected] 2Natural History Museum of Los Angeles County, 900 Exposition Blvd., Los Angeles, CA 90007 United States of America [email protected] [email protected] [email protected] 3Marine Biodiversity and Biosecurity, NIWA, Private Bag 14901, Kilbirnie Wellington, New Zealand [email protected] 4Institute of Marine Biology, National Taiwan Ocean University, Keelung 20224, Taiwan, Republic of China [email protected] 5Department of Biology and Monte L. Bean Life Science Museum, Brigham Young University, Provo, UT 84602 United States of America [email protected] 6Dritte Zoologische Abteilung, Naturhistorisches Museum, Wien, Austria [email protected] 7Department of Biology, University of Louisiana, Lafayette, LA 70504 United States of America [email protected] 8Department of Geology, Kent State University, Kent, OH 44242 United States of America [email protected] 9Nationaal Natuurhistorisch Museum, P. O. Box 9517, 2300 RA Leiden, The Netherlands [email protected] 10Invertebrate Zoology, Smithsonian Institution, National Museum of Natural History, 10th and Constitution Avenue, Washington, DC 20560 United States of America [email protected] 11Department of Biological Sciences, National University of Singapore, Science Drive 4, Singapore 117543 [email protected] [email protected] [email protected] 12Department of Geology, Kent State University Stark Campus, 6000 Frank Ave.
    [Show full text]
  • Late Frasnian Athyridida (Brachiopoda) from Poland and the Late Devonian Biotic Turnover
    Late Frasnian Athyridida (Brachiopoda) from Poland and the Late Devonian biotic turnover TATJANA A. GRUNT and GRZEGORZ RACKI Grunt, T.A. & Racki, G. 1998. Late Frasnian Athyridida (Brachiopoda) from Poland and the Late Devonian biotic turnover.- Acta Palaeontologica Polonica 43,2,36I-j78. Late Frasnian representatives of the order Athyridida from the Holy Cross Mountains, Poland, support the idea that the Laurussian basins were the places of origin and radiation of the subfamilies Athyridinae and Meristinae during the middle and early late Paleozoic. At least three new species have been identified from two localities (Łgawa Hill and Kowala) in the Gałęztce Syncline. of these, one was probaby endemic (Merista rhe- nanensis sp. n.; maybe also ?Zonathyris sp. A), and two (Athyris postconcentrica sp. n. and Pachyplacoides postgyralea gen. et sp. n.) were more widely distributed in this part of the Laurussian shelĘ being known also from the East European Platform and Rheini- sches Schiefergebirge, respectively. This confums an intermediate biogeographic posi- tion of the Holy Cross Mountains area, belonging to an important centre of brachiopod origin and diversification. In contrast to other articulate brachiopods, athyńdids reveal a higher rate of diversification, especially at the species (and partly also generic) level, during the global Kellwasser Crisis. Key words: Brachiopoda, Athyńdida, taxonomy, biostratigraphy' biogeography, phylogeny, mass-extinction, Kellwasser Crisis, Frasnian, Famennian, Devonian, Poland. Tatjana A. Grunt [email protected], Paleontological Institute, Russian Academy of Sciences, Profsoyuznaya Str., 123, I17647 Moscow, Russia. Grzegorz Racki [[email protected]], Katedra Paleontologii i Stratygrafii, Uniwersytet Śląski, ul. Będzińska 60, PL-41-200 Sosnowiec, Poland.
    [Show full text]
  • Paleozoic Biostratigraphy and Paleontology Along the Mogollon Rim, Arizona
    PALEOZOIC BIOSTRATIGRAPHY AND PALEONTOLOGY ALONG THE MOGOLLON RIM, ARIZONA This one-day field trip permits examination of Devonian, Pennsyl­ vanian, and Permian stratigraphy and biostratigraphy. Pennsylvanian and Permian fossil localities will also be visited. The field trip guide consists of three separate articles. These involve, in order, paleontology, stratigraphy, and a road log. The road log from Payson to Pine, on pages 34-36 of the New Mexico Geological Society Thirteenth Field Conference Guidebook (1962), might also prove useful. PALEONTOLOGY OF THE NACO FORMATION IN THE KOHL RANCH AREA, ARIZONA by Stanley S. Beus NorthernArizona University and Douglas C. Brew University of Minnesota This trip will traver-se part of the Basin and Range Province north­ east of Tempe and end up in the transition zone between the Basin and Range and Colorado Plateau provinces below the Mogollon Rim. The total distance is about 230 miles. We will examine outcrops of Devonian through Permian age, and collect Devonian, Pennsylvanian and Permian fossils. The major col­ lecting site will be in the Naco Formation near Kohl Ranch, discussed below. Possible localities are indicated in figure 1. GENERAL STRATIGRAPHY lenses. The lower unbedded portion is generally interpreted to represent a regolith formed in situ via solution of the The Naco formation of central Arizona is a predom­ Redwall Limestone, whereas the upper portion consists inantly marine sequence of interbedded limestones and predominantly of insoluble residues reworked by marine or terrigenous sedimentary rocks of Pennsylvanian age. The perhaps both nonmarine and marine agencies (Huddle and formation is separated from the underlying Mississippian Dobrovolny, 1945, 1952; Brew, 1970; McKee and Redwall Limestone by a conspicuous regional disconfor­ Gutschick, 1969).
    [Show full text]
  • University of Nevada Reno Correlation of the Fauna V from The
    University of Nevada Reno Correlation of the Fauna v from the Middle Permian Section at Black Rock Northwestern, Nevada A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Geology Mines Library University of Nevada Reno, Nevada 89507 by Daniel Marshall Howe \\\ August 1975 ! K ilfE S EJBMRY T 2 o The thesis of Daniel Marshall Howe is approved: Dean; Graduate School University of Nevada Reno August, 1975 ACKNOWLEDGMENTS I would like to thank Dr. Joseph Lintz, Jr. for supervising and supporting the Masters problem. David Koliha and Larry Noble assisted in the field work. David was a constant source of enthusiasm and Larry's technical field knowledge and expertise were all invaluable to me. Diane Cornwall as curator of the University of Nevada museum helped with numerous tasks, and with Fred Gustafson they recommended numerous concepts and possible approaches I thank Mike Fiannaca. for his help in cutting the thin sections, and Wayne Kemp in helping to interpret them. I thank Dr. E.R. Larson in his availability and wisdom in keeping the original collections which he cheerfully made available to me when I enquired about the Black Rock. I thank Dr. Peter Comanor for joining my committee and spending time in the field with me. ABSTRACT Black Rock is located at the southwestern tip of the Black Rock Range in Humboldt County, northwestern Nevada. The Black Rock section consists of approxiamate- ly 2,500 feet of Middle Permian andesitic flows, lithic volcanic wackes, and limestone. Two of the limestone horizons have yielded faunules.
    [Show full text]
  • Program, Elěadáskivonatok, Kirándulásvezetě 7. Magyar Ěslénytani Vándorgyķlés
    PROGRAM, ELěADÁSKIVONATOK, KIRÁNDULÁSVEZETě 7. MAGYAR ěSLÉNYTANI VÁNDORGYĶLÉS 2004. MÁJUS 6–8. BEREMEND A MAGYARHONI FÖLDTANI TÁRSULAT ěSLÉNYTANI-RÉTEGTANI SZAKOSZTÁLYA RENDEZÉSÉBEN 7. MAGYAR ėSLÉNYTANI VÁNDORGYĥLÉS PROGRAMJA BEREMEND, 2004. MÁJUS 6–8. ELėADÓÜLÉS – 1. NAP (CSÜTÖRTÖK) DélelĘtt – LevezetĘ elnök: Vörös Attila 11:30 Heindl József Köszöntés és megnyitó (Beremend polgármestere) Pálfy József 11:40 – 12:00 ėsi Attila NövényevĘ krokodil a magyarországi felsĘ-krétából (Bakony) 12:00 – 12:20 Pászti Andrea Rhenanoperca minuta Gaudant et Micklich (Pisces, Perciformes) a középsĘ-eocén Messeli Formációból (Messel, Németország) 12:20 – 12:40 Gál Erika FelsĘ pleisztocén madárcsontleletek a Kálvária 4. sz. barlangból 12:40 – 13:00 DezsĘ József, A beremendi SzĘlĘhegy hasadékai és kitöltéseik a Tóth Judit morfológiai megfigyelések tükrében 13:00 – 14:30 EBÉDSZÜNET, POSZTEREK Délután 1. – LevezetĘ elnök: Galácz András 14:30 – 15:00 Vörös Attila ÜledékképzĘdési epizódok és faunaváltozások a villányi jura rétegsorban 15:00 – 15:20 Görög Ágnes A mecseki foltos márga foraminiferái 15:20 – 15:40 Szabó János Magyarországi terrének jura Ęsföldrajzi helyzete a Tethys és a kapcsolódó tengerek új gastropoda- faunisztikai eredményeinek tükrében 15:40 – 16:00 Dulai Alfréd, Lobothyris ? subgregaria: egy kora-jura Elvis faj a Pálfy József Nyugati-Tethys területén 16:00 – 16:30 KÁVÉSZÜNET Délután 2. – LevezetĘ elnök: Dulai Alfréd 16:30 – 16:50 FĘzy István, Négy eltĦnt réteg nyomában. Milyen korú volt az Nico M.M. Janssen ammoniteszes pad a zirci Márványbányában? 16:50 – 17:10 Galácz András Paleocén Nautiloideák Líbiából 17:10 – 17:30 Katona Lajos Pannóniai puhatestĦ faunák a Balaton-felvidék feltárásaiból Este – Nyilvános elĘadás 17:45 – 19:00 Kordos László Beremend és a magyar gerinces paleontológia 19:30 VACSORA (a Zokogó Majom étteremben) 7.
    [Show full text]
  • Rare Middle and Upper Devonian Dalmanelloid (Orthida) of the Cantabrian Mountains, N Spain
    SPANISH JOURNAL OF PALAEONTOLOGY Rare Middle and Upper Devonian dalmanelloid (Orthida) of the Cantabrian Mountains, N Spain Jenaro L. GARCÍA-ALCALDE Departamento de Geología, Universidad de Oviedo, c/ Jesús Arias de Velasco s/n, 33005 Oviedo, Spain; [email protected] García-Alcalde, J.L. 2018. Rare Middle and Upper Devonian dalmanelloid (Orthida) of the Cantabrian Mountains, N Spain. [Formas raras de dalmaneloideos (Orthida) del Devónico Medio y Superior de la Cordillera Cantábrica, N España]. Spanish Journal of Palaeontology, 33 (1), 57-82. Manuscript received 3 October 2017 © Sociedad Española de Paleontología ISSN 2255-0550 Manuscript accepted 6 March 2018 ABSTRACT RESUMEN Rare Cantabrian Dalmanellidae (Costisorthis lisae nov. sp.), Se describen y fi guran por primera vez en España braquiópodos Dicoelosiidae (Teichertina cf. peregrina, T. cf. fi tzroyensis), órtidos inusuales de las familias Dalmanellidae (Costisorthis and Mystrophoridae (Mystrophora sp., Biernatium sucoi nov. lisae n. sp), Dicoelosiidae (Teichertina cf. peregrina y sp., and Biernatium sp. 2) are described and fi gured for the fi rst Teichertina cf. fi tzroyensis) y Mystrophoridae (Mystrophora time in Spain. Most of them are scarce forms that occur only in sp., Biernatium sucoi nov. sp. y Biernatium sp. 2). La mayoría certain localities. All the species but one came from the lower de ellos son escasos y aparecen en localidades puntuales. part of the Portilla (province of León) and Candás (province Todas las especies menos una proceden de la parte baja de of Asturias) formations, Faunal Interval 21, Polygnathus las formaciones Portilla (en León) y Candás (en Asturias), rhenanus/P. varcus conodont zone, middle Givetian. The Intervalo Faunístico 21, Biozona de Polygnathus rhenanus/P.
    [Show full text]
  • Sedimentology, Taphonomy, and Palaeoecology of a Laminated
    Palaeogeography, Palaeoclimatology, Palaeoecology 243 (2007) 92–117 www.elsevier.com/locate/palaeo Sedimentology, taphonomy, and palaeoecology of a laminated plattenkalk from the Kimmeridgian of the northern Franconian Alb (southern Germany) ⁎ Franz Theodor Fürsich a, , Winfried Werner b, Simon Schneider b, Matthias Mäuser c a Institut für Paläontologie, Universität Würzburg, Pleicherwall 1, 97070 Würzburg, Germany LMU b Bayerische Staatssammlung für Paläontologie und Geologie and GeoBio-Center , Richard-Wagner-Str. 10, D-80333 München, Germany c Naturkunde-Museum Bamberg, Fleischstr. 2, D-96047 Bamberg, Germany Received 8 February 2006; received in revised form 3 July 2006; accepted 7 July 2006 Abstract At Wattendorf in the northern Franconian Alb, southern Germany, centimetre- to decimetre-thick packages of finely laminated limestones (plattenkalk) occur intercalated between well bedded graded grainstones and rudstones that blanket a relief produced by now dolomitized microbialite-sponge reefs. These beds reach their greatest thickness in depressions between topographic highs and thin towards, and finally disappear on, the crests. The early Late Kimmeridgian graded packstone–bindstone alternations represent the earliest plattenkalk occurrence in southern Germany. The undisturbed lamination of the sediment strongly points to oxygen-free conditions on the seafloor and within the sediment, inimical to higher forms of life. The plattenkalk contains a diverse biota of benthic and nektonic organisms. Excavation of a 13 cm thick plattenkalk unit across an area of 80 m2 produced 3500 fossils, which, with the exception of the bivalve Aulacomyella, exhibit a random stratigraphic distribution. Two-thirds of the individuals had a benthic mode of life attached to hard substrate. This seems to contradict the evidence of oxygen-free conditions on the sea floor, such as undisturbed lamination, presence of articulated skeletons, and preservation of soft parts.
    [Show full text]
  • From the Upper Triassic (Norian) of Northern Carnic Pre-Alps (Udine, Northeastern Italy)
    GORTANIA. Geologia,GORTANIA Paleontologia, Paletnologia 35 (2013) Geologia, Paleontologia, Paletnologia 35 (2013) 11-18 Udine, 10.IX.2014 ISSN: 2038-0410 Alessandro Garassino ACANTHOCHIRANA TRIASSICA N. SP. Günter Schweigert Giuseppe Muscio AND ANTRIMPOS COLETTOI N. SP. (DECAPODA: AEGERIDAE, PENAEIDAE) FROM THE UPPER TRIASSIC (NORIAN) OF NORTHERN CARNIC PRE-ALPS (UDINE, NORTHEASTERN ITALY) Acanthochirana TRIASSICA N. SP. E AntrimPOS COLETTOI N. SP. (DECAPODA: AEGERIDAE, PENAEIDAE) DAL TRIASSICO SUPERIORE (NORICO) DELLA PREALPI CARNICHE SETTENTRIONALI (UDINE, ITALIA NORDORIENTALE) Riassunto breve - I crostacei decapodi del Triassico superiore (Norico) della Dolomia di Forni sono stati descritti da Ga- rassino et al. (1996). La recente scoperta di un piccolo campione, rivenuto nella Valle del Rio Seazza e in quella del Rio Rovadia, ha permesso un aggiornamento relativo ai crostacei decapodi delle Prealpi Carniche. Gli esemplari studiati sono stati assegnati a Acanthochirana triassica n. sp. (Aegeridae Burkenroad, 1963) e Antrimpos colettoi n. sp. (Penaeidae Rafinesque, 1815). Acanthochirana triassica n. sp. estende il range stratigrafico di questo genere nel Triassico superiore, mentre Antrimpos colettoi n. sp. rappresenta la seconda specie di questo genere segnalata nel Triassico superiore d’Italia. La scoperta di queste due nuove specie incrementa il numero delle specie di peneidi conosciuti nel Norico dell’alta Val Ta- gliamento (Prealpi Carniche settentrionali). Parole chiave: Crustacea, Decapoda, Aegeridae, Penaeidae, Triassico superiore, Prealpi Carniche. Abstract - The decapod crustaceans from the Upper Triassic (Norian) of the Dolomia di Forni Formation were reported by Garassino et al. (1996). The recent discovery of a small sample from this Formation between Seazza and Rovadia brooks allowed updating the decapod assemblages from the Norian of Carnic Pre-Alps.
    [Show full text]
  • From the Western of the United
    from the Western of the United GEOLOGICAL SURVEY P R® BES&lON AL PAPER 1057 Early Triassic Terebratulid Brachiopods from the Western Interior of the United States By PETER R. HOOVER GEOLOGICAL SURVEY PROFESSIONAL PAPER 1057 Description and illustration offive species of terebratulid brachiopods, and discussion of their distribution and developmental and evolutionary history UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON : 1979 UNITED STATES DEPARTMENT OF THE INTERIOR CECIL D. ANDRUS, Secretary GEOLOGICAL SURVEY H. William Menard, Director Library of Congress Cataloging in Publication Data Hoover, Peter R. Early Triassic Terebratulid Brachiopods from the Western Interior of the United States (Geological Survey Professional Paper 1057) Bibliography: p. 19 Includes index Supt. of Docs. No.: I 19:16:1057 1. Terebratulida, Fossil. 2. Paleontology Triassic. 3. Paleontology The West. I. Title. II. Series: United States Geological Survey Professional Paper 1057 QE797.T29H66 564'.8 77-608314 For sale by the Superintendent of Documents, U.S. Government Printing Office Washington, D.C. 20402 Stock Number 024-001-03182-5 CONTENTS Page Page Systematic paleontology Continued Abstract ....................... 1 Family Dielasmatidae Continued Introduction .................... 1 Subfamily Dielasmatinae. Previous work................ 1 Rhaetina Waagen ..... Present study ................ 3 Family Terebratulidae ......... 9 Acknowledgments ............ 3 Subfamily Plectoconchiinae. 9 Fossil localities cited in this report. .... 3 Vex, n. gen. ......... 9 Stratigraphic setting of the brachiopods 4 Family Cryptonellidae ......... 11 Faunal relationships. .............. 6 Subfamily Cryptacanthiinae . 11 Biostratigraphic implications........ 6 Obnixia, n. gen. ...... 11 Systematic paleontology............ 7 Family Zeilleriidae ............ 17 Family Dielasmatidae.......... 7 Periallus, n. gen. ......... 17 Subfamily Zugmayeriinae . 7 References cited. ................. 19 Portneufia, n. gen. .... 7 Index ......................... 21 ILLUSTRATIONS [Plates follow index] PLATE 1.
    [Show full text]
  • Decapod Crustaceans from the Middle Jurassic Opalinus Clay of Northern Switzerland, with Comments on Crustacean Taphonomy
    0012-9402/04/030381-12 Eclogae geol. Helv. 97 (2004) 381–392 DOI 10.1007/s00015-004-1137-2 Birkhäuser Verlag, Basel, 2004 Decapod crustaceans from the Middle Jurassic Opalinus Clay of northern Switzerland, with comments on crustacean taphonomy WALTER ETTER Key words: Decapoda, Peracarida, Jurassic, Switzerland, ecology, crustacean taphonomy ABSTRACT ZUSAMMENFASSUNG Four species of decapod crustaceans from the Middle Jurassic Opalinus Clay Aus dem Opalinuston (Mittlerer Jura, Aalenian) der Nordschweiz werden vier (Aalenian) of Northern Switzerland are described. Of these, Mecochirus cf. Arten von decapoden Krebsen beschrieben. Von Aeger sp., Eryma cf. bedelta eckerti is the most common one, while Eryma cf. bedelta, Glyphea sp. and und Glyphaea sp. wurden nur ganz wenige Exemplaren gefunden, während Aeger sp. were present as individuals, or only a few specimens. The preserva- Mecochirus cf. eckerti etwas häufiger ist. Die Erhaltungsbedingungen waren tion of these crustaceans ranges from moderate to excellent, reflecting the während der Ablagerung des Opalinustones günstig, was sich in einer geringen favourable taphonomic conditions of the depositional environment. An inter- Disartikulations- und Fragmentationsrate der Krebse widerspiegelt. Ein in- esting aspect of the taphocoenosis in the Opalinus Clay is that the decapod teressanter Aspekt der Taphocoenose ist die deutliche Dominanz der Klein- crustaceans are by far outnumbered by small peracarid crustaceans (isopods krebse (Peracarida: Isopoden und Tanaidaceen). Dies dürfte die Zahlenver- and tanaids). This is interpreted as reflecting the original differences in abun- hältnisse der ehemaligen Lebensgemeinschaft widerspiegeln. In den meisten dance. Yet this distribution is not frequently encountered in sedimentary se- Ablagerungen dominieren jedoch die decapoden Krebse, wogegen Peracarida quences where decapods (although rare) are far more common than isopods äusserst selten sind.
    [Show full text]
  • Carboniferous Formations and Faunas of Central Montana
    Carboniferous Formations and Faunas of Central Montana GEOLOGICAL SURVEY PROFESSIONAL PAPER 348 Carboniferous Formations and Faunas of Central Montana By W. H. EASTON GEOLOGICAL SURVEY PROFESSIONAL PAPER 348 A study of the stratigraphic and ecologic associa­ tions and significance offossils from the Big Snowy group of Mississippian and Pennsylvanian rocks UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON : 1962 UNITED STATES DEPARTMENT OF THE INTERIOR STEWART L. UDALL, Secretary GEOLOGICAL SURVEY Thomas B. Nolan, Director The U.S. Geological Survey Library has cataloged this publication as follows : Eastern, William Heyden, 1916- Carboniferous formations and faunas of central Montana. Washington, U.S. Govt. Print. Off., 1961. iv, 126 p. illus., diagrs., tables. 29 cm. (U.S. Geological Survey. Professional paper 348) Part of illustrative matter folded in pocket. Bibliography: p. 101-108. 1. Paleontology Montana. 2. Paleontology Carboniferous. 3. Geology, Stratigraphic Carboniferous. I. Title. (Series) For sale by the Superintendent of Documents, U.S. Government Printing Office Washington 25, B.C. CONTENTS Page Page Abstract-__________________________________________ 1 Faunal analysis Continued Introduction _______________________________________ 1 Faunal relations ______________________________ 22 Purposes of the study_ __________________________ 1 Long-ranging elements...__________________ 22 Organization of present work___ __________________ 3 Elements of Mississippian affinity.._________ 22 Acknowledgments--.-------.- ___________________
    [Show full text]
  • A Quantitative Study of Benthic Faunal Patterns Within the Pennsylvanian and Early Permian
    PALAIOS, 2006, v. 21, p. 316–324 Research Report DOI: 10.2110/palo.2005.P05-82e A QUANTITATIVE STUDY OF BENTHIC FAUNAL PATTERNS WITHIN THE PENNSYLVANIAN AND EARLY PERMIAN NICOLE BONUSO* AND DAVID J. BOTTJER Department of Earth Sciences, University of Southern California, 3651 Trousdale Parkway, Los Angeles, California, 90089-0740, USA e-mail: [email protected] ABSTRACT primary literature. Mudge and Yochelson’s (1962) monograph describes the stratigraphy and paleontology of the Pennsylvanian–Permian Mid- Using abundance data, this study explores quantitative patterns from continent of Kansas using over 300 fossil collections. Yancey and Stevens marine benthos, including implications for paleogeography, deposi- (1981) studied the Early Permian of Nevada and Utah extensively, re- tional environment, stratigraphic position, taxonomic groups (bra- corded abundance data from 55 localities, and identified paleocommun- chiopod or mollusc), substrate preferences, and ecological niches. ities based on the faunal comparisons and relative abundances within each Twenty-nine brachiopod- and bivalve-dominated fossil assemblages sample collected. As a result, three groups of commonly occurring com- from the Pennsylvanian and Early Permian of North and South Amer- munities emerged: (1) nearshore, mollusc-dominated; (2) open-shelf, non- ica, Thailand, and Australia were analyzed from carbonate-platform molluscan; and (3) deeper water, offshore mollusc-dominated. More re- environments; specifically, Nevada, Kansas, Oklahoma, Texas, Utah, cently, Olszewski and Patzkowsky (2001) documented the reoccurrence New Mexico, Venezuela, Kanchanaburi (Thailand), and Queensland of Pennsylvanian–Permian Midcontinent brachiopod and bivalve associ- (Australia). Samples were categorized by paleogeographic location, de- ations through time (Olszewski and Patzkowsky, 2001). Using a combi- positional environment, and age to help differentiate factors control- nation of data from Mudge and Yochelson (1962) and their own data, ling the faunal patterns.
    [Show full text]