DOCSLIB.ORG

Carnivorous Mammals from the Middle Eocene Washakie Formation, Wyoming, USA, and Their Diversity Trajectory in a Post-Warming World

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Carnivorous Mammals from the Middle Eocene Washakie Formation, Wyoming, USA, and Their Diversity Trajectory in a Post-Warming World Journal of Paleontology, Volume 95, Memoir 82, 2021, p. 1–115 Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of The Paleontological Society. All rights reserved. This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/ by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited. 0022-3360/21/1937-2337 doi: 10.1017/jpa.2020.74 Carnivorous mammals from the middle Eocene Washakie Formation, Wyoming, USA, and their diversity trajectory in a post-warming world Susumu Tomiya,1,2,3 Shawn P. Zack,4 Michelle Spaulding,5 and John J. Flynn2,6 1Center for International Collaboration and Advanced Studies in Primatology, Kyoto University Primate Research Institute, 41-2 Kanrin, Inuyama, Aichi 484-8506, Japan <[email protected]> 2Negaunee Integrative Research and Gantz Family Collections Centers, Field Museum of Natural History, 1400 South Lake Shore Drive, Chicago, Illinois 60605, USA 3University of California Museum of Paleontology, Berkeley, California 94720, USA 4Department of Basic Medical Sciences, University of Arizona College of Medicine, 425 N Fifth Street, Phoenix, Arizona 85004, USA <[email protected]> 5Department of Biological Sciences, Purdue University Northwest, 1401 S US Highway 421, Westville, Indiana 46391, USA <mspauldi@ pnw.edu> 6Richard Gilder Graduate School and Division of Paleontology, American Museum of Natural History, 200 Central Park West, New York, New York 10024, USA <jfl[email protected]> Abstract.—The middle Eocene Washakie Formation of Wyoming, USA, provides a rare window, within a single deposi- tional basin, into the faunal transition that followed the early Eocene warming events. Based on extensive examination, we report a minimum of 27 species of carnivorous mammals from this formation, more than doubling the previous taxic count. Included in this revised list are a new species of carnivoraform, Neovulpavus mccarrolli n. sp., and up to ten other possibly new taxa. Our cladistic analysis of early Carnivoraformes incorporating new data clarified the array of middle Eocene taxa that are closely related to crown-group Carnivora. These anatomically relatively derived carnivoraforms collectively had an intercontinental distribution in North America and east Asia, exhibiting notable variations in body size and dental adaptation. This time period also saw parallel trends of increase in body size and dental sectoriality in distantly related lineages of carnivores spanning a wide range of body sizes. A new, model-based Bayesian analysis of diversity dynamics accounting for imperfect detection revealed a high probability of substantial loss of carnivore species between the late Bridgerian and early Uintan North American Land Mammal ‘Ages’, coinciding with the dis- appearance of formerly common mammals such as hyopsodontids and adapiform primates. Concomitant with this decline in carnivore diversity, the Washakie vertebrate fauna underwent significant disintegration, as measured by patterns of coordinated detection of taxa at the locality level. These observations are consistent with a major biomic transition in the region in response to climatically induced opening-up of forested habitats. UUID: http://zoobank.org/9162f1a6-a12c-4d55-ba1d-dc66e8cda261 Introduction 2013; Silvestro et al., 2015; Slater, 2015; Balisi et al., 2018). Given the general rarity of mammalian carnivore fossils, Early discoveries of middle Eocene mammalian carnivores in sustained efforts to uncover, document, and reconstruct the North America stimulated development of ideas about the pro- diversity of fossil carnivore taxa are fundamental to research cesses of carnivore evolution, and were essential components in this area. of the new evolutionary synthesis in the middle of the twentieth The middle Eocene Washakie Formation of south central century (Simpson, 1944). Matthew’s(1909) systematic work on Wyoming and northwestern Colorado have produced a wealth middle Eocene-aged (Bridgerian and Uintan North American of vertebrate fossils since the late nineteenth century (Black Land Mammals ‘Ages’ [NALMAs]) mammals from Wyoming and Dawson, 1966; Roehler, 1973; Turnbull, 1978, 2002). envisioned opportunities for differential dietary adaptations as A classic collection of Washakie fossil vertebrates curated at a major driver of diversification in various groups of primarily the American Museum of Natural History (AMNH) paved the carnivorous mammals, and conceptualized the advantage of way for the early works of Granger (1909) and Matthew ecological incumbency in their evolutionary histories. More (1909), which established the basic biostratigraphic framework than a century later, these hypotheses continue to be explored for the formation. In the early 1950s, a major research program and refined in various systems at different scales (Van Valken- centered on the Washakie fauna was initiated under the direction burgh, 1999; Van Valkenburgh et al., 2004; Wesley-Hunt, of William D. Turnbull of the Field Museum of Natural History 2005; Friscia and Van Valkenburgh, 2010; Sandom et al., (FMNH), building on earlier work by Rainer Zangerl, and 1 Downloaded from https://www.cambridge.org/core. IP address: 170.106.33.14, on 27 Sep 2021 at 11:06:02, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/jpa.2020.74 2 Journal of Paleontology 95(S82):1–115 extended by John Flynn (who filled the FMNH fossil mammal hyaenodontans, and carnivoramorphans. For convenience, we curator position after Turnbull retired). Over five decades, Turn- informally refer to them collectively as ‘carnivores’ while recog- bull, Flynn, and colleagues collected extensively in the Washa- nizing that some of their middle Eocene members may have kie Basin, building one of the largest collections of vertebrate been omnivorous or frequently consumed invertebrates, and fossils from the Washakie Formation. This collection has served are thus more accurately described as a broad set of animalivores as the basis for a number of publications (Turnbull, 1978, 1991, (Friscia et al., 2007; Friscia and Van Valkenburgh, 2010). We 2002; Turnbull and Martill, 1988; McCarroll et al., 1996a, b), also note that non-mammalian carnivores such as crocodiles, but the vast majority of the fossils remain undescribed. snakes, and large birds, all of which are known from the Washa- A recent three-year project at FMNH reorganized and kie Formation, may have played important ecological roles as expanded knowledge of this collection through the cataloging predators of mammals. of ∼3,000 additional specimens (see Acknowledgments), mak- ing the time ripe for a renewed examination of the vertebrate Geological and paleoenvironmental setting diversity in the Washakie Formation. This paper aims to advance our knowledge of the Bridgerian–Uintan faunal transition in the Geology and NALMA biochronology.—Exposures of the central Rocky Mountain region during an early phase of carni- Washakie Formation cover an area of ∼1,600 km2 in the voran evolution and dynamic turnover in other carnivore clades Washakie Basin of south-central Wyoming, and are present in (Eizirik et al., 2010; Tomiya, 2011; Tomiya and Tseng, 2016). the Sand Wash Basin of northwestern Colorado (Roehler, Our objectives are as follows: (1) we thoroughly reevaluate pre- 1973; Turnbull, 1978; Stucky et al., 1996; Fig. 1). Within the viously reported occurrences of carnivorous mammals from the Washakie Basin, the Washakie Formation unconformably Washakie Formation, and describe taxonomically significant overlies the Green River Formation and is divided into the late specimens that have yet to be reported in the literature; (2) we Bridgerian Kinney Rim Member (Twkk) and the late present a revised phylogenetic hypothesis for early carnivora- Bridgerian to Uintan Adobe Town Member; the latter is forms to provide the evolutionary context for interpreting the further divided, informally, into lower (Twka1), middle morphological diversity of middle Eocene taxa from the Washa- (Twka2), and upper (Twka3) units based on stratigraphy kie Basin; (3) we investigate whether the sharp drop in diversity (Turnbull, 1978; Flynn, 1986), with auxiliary information on of carnivorous taxa from ca. 49 to ca. 45 Ma in western North characteristic mammalian assemblages (Roehler, 1973, 1992; America (from 13 to 5 genera, or a 62% loss; Wesley-Hunt, McCarroll et al., 1996b; Robinson et al., 2004; Murphey 2005) is detected within a single depositional basin after et al., 2018; Fig. 2). We generally follow Roehler’s(1973) accounting for sampling incompleteness. Such an assessment— designation of lower (Twka1 of later authors) and middle made possible by the substantial temporal span of the Washakie Basin sequence and the availability of specimen-level taxon-occurrence data—is essential for elucidating the mechan- isms of diversity dynamics at larger geographic scales. This study is concerned with taxa from the lower and mid- dle units of the Adobe Town Member of the Washakie Forma- tion (abbreviated as Twka1 and Twka2, respectively, in which “wk” and “a” denote Washakie Formation and Adobe Town Member [Turnbull, 1978]), because no ordinally identifiable carnivore specimen has been recovered from the underlying Kinney Rim Member, and only two are known from the upper unit of the Adobe Town Member (Twka3). We intend to describe
Load more

Recommended publications
  • Download File
    Chronology and Faunal Evolution of the Middle Eocene Bridgerian North American Land Mammal “Age”: Achieving High Precision Geochronology Kaori Tsukui Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the Graduate School of Arts and Sciences COLUMBIA UNIVERSITY 2016 © 2015 Kaori Tsukui All rights reserved ABSTRACT Chronology and Faunal Evolution of the Middle Eocene Bridgerian North American Land Mammal “Age”: Achieving High Precision Geochronology Kaori Tsukui The age of the Bridgerian/Uintan boundary has been regarded as one of the most important outstanding problems in North American Land Mammal “Age” (NALMA) biochronology. The Bridger Basin in southwestern Wyoming preserves one of the best stratigraphic records of the faunal boundary as well as the preceding Bridgerian NALMA. In this dissertation, I first developed a chronological framework for the Eocene Bridger Formation including the age of the boundary, based on a combination of magnetostratigraphy and U-Pb ID-TIMS geochronology. Within the temporal framework, I attempted at making a regional correlation of the boundary-bearing strata within the western U.S., and also assessed the body size evolution of three representative taxa from the Bridger Basin within the context of Early Eocene Climatic Optimum. Integrating radioisotopic, magnetostratigraphic and astronomical data from the early to middle Eocene, I reviewed various calibration models for the Geological Time Scale and intercalibration of 40Ar/39Ar data among laboratories and against U-Pb data, toward the community goal of achieving a high precision and well integrated Geological Time Scale. In Chapter 2, I present a magnetostratigraphy and U-Pb zircon geochronology of the Bridger Formation from the Bridger Basin in southwestern Wyoming.
    [Show full text]
  • Hyaenodontidae (Creodonta, Mammalia) and the Position of Systematics in Evolutionary Biology
    Hyaenodontidae (Creodonta, Mammalia) and the Position of Systematics in Evolutionary Biology by Paul David Polly B.A. (University of Texas at Austin) 1987 A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Paleontology in the GRADUATE DIVISION of the UNIVERSITY of CALIFORNIA at BERKELEY Committee in charge: Professor William A. Clemens, Chair Professor Kevin Padian Professor James L. Patton Professor F. Clark Howell 1993 Hyaenodontidae (Creodonta, Mammalia) and the Position of Systematics in Evolutionary Biology © 1993 by Paul David Polly To P. Reid Hamilton, in memory. iii TABLE OF CONTENTS Introduction ix Acknowledgments xi Chapter One--Revolution and Evolution in Taxonomy: Mammalian Classification Before and After Darwin 1 Introduction 2 The Beginning of Modern Taxonomy: Linnaeus and his Predecessors 5 Cuvier's Classification 10 Owen's Classification 18 Post-Darwinian Taxonomy: Revolution and Evolution in Classification 24 Kovalevskii's Classification 25 Huxley's Classification 28 Cope's Classification 33 Early 20th Century Taxonomy 42 Simpson and the Evolutionary Synthesis 46 A Box Model of Classification 48 The Content of Simpson's 1945 Classification 50 Conclusion 52 Acknowledgments 56 Bibliography 56 Figures 69 Chapter Two: Hyaenodontidae (Creodonta, Mammalia) from the Early Eocene Four Mile Fauna and Their Biostratigraphic Implications 78 Abstract 79 Introduction 79 Materials and Methods 80 iv Systematic Paleontology 80 The Four Mile Fauna and Wasatchian Biostratigraphic Zonation 84 Conclusion 86 Acknowledgments 86 Bibliography 86 Figures 87 Chapter Three: A New Genus Eurotherium (Creodonta, Mammalia) in Reference to Taxonomic Problems with Some Eocene Hyaenodontids from Eurasia (With B. Lange-Badré) 89 Résumé 90 Abstract 90 Version française abrégéé 90 Introduction 93 Acknowledgments 96 Bibliography 96 Table 3.1: Original and Current Usages of Genera and Species 99 Table 3.2: Species Currently Included in Genera Discussed in Text 101 Chapter Four: The skeleton of Gazinocyon vulpeculus n.
    [Show full text]
  • (Mammalia) from the French Locality of Aumelas (Hérault), with Possible New Representatives from the Late Ypresian
    geodiversitas 2020 42 13 né – Car ig ni e vo P r e e s n a o f h t p h é e t S C l e a n i r o o z o m i e c – M DIRECTEUR DE LA PUBLICATION / PUBLICATION DIRECTOR: Bruno David, Président du Muséum national d’Histoire naturelle RÉDACTEUR EN CHEF / EDITOR-IN-CHIEF : Didier Merle ASSISTANT DE RÉDACTION / ASSISTANT EDITOR : Emmanuel Côtez ([email protected]) MISE EN PAGE / PAGE LAYOUT : Emmanuel Côtez COMITÉ SCIENTIFIQUE / SCIENTIFIC BOARD : Christine Argot (Muséum national d’Histoire naturelle, Paris) Beatrix Azanza (Museo Nacional de Ciencias Naturales, Madrid) Raymond L. Bernor (Howard University, Washington DC) Alain Blieck (chercheur CNRS retraité, Haubourdin) Henning Blom (Uppsala University) Jean Broutin (Sorbonne Université, Paris, retraité) Gaël Clément (Muséum national d’Histoire naturelle, Paris) Ted Daeschler (Academy of Natural Sciences, Philadelphie) Bruno David (Muséum national d’Histoire naturelle, Paris) Gregory D. Edgecombe (The Natural History Museum, Londres) Ursula Göhlich (Natural History Museum Vienna) Jin Meng (American Museum of Natural History, New York) Brigitte Meyer-Berthaud (CIRAD, Montpellier) Zhu Min (Chinese Academy of Sciences, Pékin) Isabelle Rouget (Muséum national d’Histoire naturelle, Paris) Sevket Sen (Muséum national d’Histoire naturelle, Paris, retraité) Stanislav Štamberg (Museum of Eastern Bohemia, Hradec Králové) Paul Taylor (The Natural History Museum, Londres, retraité) COUVERTURE / COVER : Made from the Figures of the article. Geodiversitas est indexé dans / Geodiversitas is indexed in: – Science
    [Show full text]
  • 7 X 11 Long.P65
    Cambridge University Press 978-0-521-73586-5 - Carnivoran Evolution: New Views on Phylogeny, Form, and Function Edited by Anjali Goswami and Anthony Friscia Index More information Index Page numbers in bold type refers to figures. Acinonyx jubatus, 226, 304 Arctoidea, 12, 27, 30, 31, 40, 94, 104 Actiocyon, 115, 125 Artiodactyla, 312 active replacement, 311 Atilix paludinosis, 9 Adelphailurus, 411 Ailuridae, 11, 30, 92–126, 231, 304 badgers, see Mustelidae diagnosis, 116 bamboo, 12, 94 Ailurinae, 92, 116–20 Barbourofelinae, 10, 34, 295, 301 Ailuropoda, 15, 20, 31, 94, 104, 107, 226 basicranium, 37, 65, 107, 155, 157, 158, 159 Ailurus, 117, 126 Bassaricyon, 11 Ailurus fulgens, 3, 30, 93, 126 Bassaricyon lasius, 377 alisphenoid canal, 82, 107, 110 Bassariscus, 231, 238 allometry, 43, 165, 168 Bassariscus astutus, 388 multiphasic, 172–6, 178–85 Bathygale, 32 postcranial, 411–59 bear-dogs, see Amphicyonidae Alopecocyon, 112, 113, 115, 122, 125 behaviour, 411, 454 Alopex lagopus, 392 Bergmann’s Rule, 396 American lion, see Panthera leo cf. atrox biogeography, 225–39, 247–65, 361 Amphictis, 30, 92, 109, 112, 115, 116, biomechanics 123–124 cranial, 466–81 Amphicynodon, 109 postcranial, 450–9 Amphicynopsis, 297 bite force, 466–81 Amphicyon major, 299 body size, 39–43, 226, 248, 249, 269, Amphicyonidae, 17, 34, 41, 142, 193, 295 270, 301, 314, 325, 330, 412, 413 Ancient DNA, 25 bone cracking, 8, 16, 19, 289, 304 Andrewsarchus, 304 brain size, 39, 43–7 Aonyx, 236 lions, 168 aquatic species, 4, see Pinnipedia Buxolestes, 271 ArcGIS, 379 Arctictis,
    [Show full text]
  • Attachment J Assessment of Existing Paleontologic Data Along with Field Survey Results for the Jonah Field
    Attachment J Assessment of Existing Paleontologic Data Along with Field Survey Results for the Jonah Field June 12, 2007 ABSTRACT This is compilation of a technical analysis of existing paleontological data and a limited, selective paleontological field survey of the geologic bedrock formations that will be impacted on Federal lands by construction associated with energy development in the Jonah Field, Sublette County, Wyoming. The field survey was done on approximately 20% of the field, primarily where good bedrock was exposed or where there were existing, debris piles from recent construction. Some potentially rich areas were inaccessible due to biological restrictions. Heavily vegetated areas were not examined. All locality data are compiled in the separate confidential appendix D. Uinta Paleontological Associates Inc. was contracted to do this work through EnCana Oil & Gas Inc. In addition BP and Ultra Resources are partners in this project as they also have holdings in the Jonah Field. For this project, we reviewed a variety of geologic maps for the area (approximately 47 sections); none of maps have a scale better than 1:100,000. The Wyoming 1:500,000 geology map (Love and Christiansen, 1985) reveals two Eocene geologic formations with four members mapped within or near the Jonah Field (Wasatch – Alkali Creek and Main Body; Green River – Laney and Wilkins Peak members). In addition, Winterfeld’s 1997 paleontology report for the proposed Jonah Field II Project was reviewed carefully. After considerable review of the literature and museum data, it became obvious that the portion of the mapped Alkali Creek Member in the Jonah Field is probably misinterpreted.
    [Show full text]
  • Description and Correlation of Eocene Rocks in Stratigraphie Reference Sections for the Green River and Washakie Basins, Southwest Wyoiming
    Description and Correlation of Eocene Rocks in Stratigraphie Reference Sections for the Green River and Washakie Basins, Southwest Wyoiming U.S. GEOLOGICAL SURVEY PROFESSIONAE PAPER 1506-D Description and Correlation of Eocene Rocks in Stratigraphic Reference Sections for the Green River and Washakie Basins, Southwest Wyoming By HENRY W. ROEHLER GEOLOGY OF THE EOCENE WASATCH, GREEN RIVER, AND BRIDGER (WASHAKIE) FORMATIONS, GREATER GREEN RIVER BASIN, WYOMING, UTAH, AND COLORADO U.S. GEOLOGICAL SURVEY PROFESSIONAL PAPER 1506-D Includes analyses of Eocene rocks in the Washakie basin UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON : 1992 U.S. DEPARTMENT OF THE INTERIOR MANUEL LUJAN, JR., Secretary U.S. GEOLOGICAL SURVEY Dallas L. Peck, Director Any use of trade, product, or firm names in this publication is for descriptive purposes only and does not imply endorsement by the U.S. Government Library of Congress Cataloging in Publication Data Roehler, Henry W. Description and correlation of Eocene rocks in stratigraphic reference sections for the Green River and Washakie basins, Southwest Wyoming : includes analyses of Eocene rocks in the Washakie Basin / by Henry W. Roehler. p. cm. (Geology of the Eocene Wasatch, Green River and Bridger (Washakie) formations, greater Green River Basin, Wyoming, Utah, and Colorado) (U.S. Geological Survey professional paper ; 1506-D) Includes bibliographical references. Supt. of Docs, no.: I 19.16:1506-D 1. Geology, Stratigraphic Eocene. 2. Stratigraphic correlation Wyoming. 3. Geology Wyoming. I. Title. II. Series. III. Series: U.S. Geological Survey professional paper : 1506-D. QE692.2.R58 1992 551.7'84'09787 dc20 91-4442 CIP For sale by Book and Open-File Report Sales, U.S.
    [Show full text]
  • Rapid and Early Post-Flood Mammalian Diversification Videncede in the Green River Formation
    The Proceedings of the International Conference on Creationism Volume 6 Print Reference: Pages 449-457 Article 36 2008 Rapid and Early Post-Flood Mammalian Diversification videncedE in the Green River Formation John H. Whitmore Cedarville University Kurt P. Wise Southern Baptist Theological Seminary Follow this and additional works at: https://digitalcommons.cedarville.edu/icc_proceedings DigitalCommons@Cedarville provides a publication platform for fully open access journals, which means that all articles are available on the Internet to all users immediately upon publication. However, the opinions and sentiments expressed by the authors of articles published in our journals do not necessarily indicate the endorsement or reflect the views of DigitalCommons@Cedarville, the Centennial Library, or Cedarville University and its employees. The authors are solely responsible for the content of their work. Please address questions to [email protected]. Browse the contents of this volume of The Proceedings of the International Conference on Creationism. Recommended Citation Whitmore, John H. and Wise, Kurt P. (2008) "Rapid and Early Post-Flood Mammalian Diversification Evidenced in the Green River Formation," The Proceedings of the International Conference on Creationism: Vol. 6 , Article 36. Available at: https://digitalcommons.cedarville.edu/icc_proceedings/vol6/iss1/36 In A. A. Snelling (Ed.) (2008). Proceedings of the Sixth International Conference on Creationism (pp. 449–457). Pittsburgh, PA: Creation Science Fellowship and Dallas, TX: Institute for Creation Research. Rapid and Early Post-Flood Mammalian Diversification Evidenced in the Green River Formation John H. Whitmore, Ph.D., Cedarville University, 251 N. Main Street, Cedarville, OH 45314 Kurt P. Wise, Ph.D., Southern Baptist Theological Seminary, 2825 Lexington Road.
    [Show full text]
  • AMERICAN MUSEUM NOVITATES Published by Number 603 the American Mueuem of NATURAL HISTORY March 28, 1933 W~ ~~~~~~ ~E Yor Cit
    AMERICAN MUSEUM NOVITATES Published by Number 603 THE AmERICAN MuEuEm OF NATURAL HISTORY March 28, 1933 w~ ~~~~~~ ~e Yor Cit 56.9,74 D (1182: 54) THE SKULL OF DISSOPSALIS CARNIFEX PILGRIM, A MIOCENE CREODONT FROM INDIA BY EDWIN H. COLBERT The Creodonts are generally considered as typical of Eocene times, with occasional phylogenetic lines extending into the Oligocene period, when the entire suborder became virtually extinct. Discoveries made in the last score of years have shown us that two genera of creodonts, both of them belonging to the hyaenodont group, persisted into the Miocene period. One of these genera, Metapterodon, is from the diamond fields of South Africa, and its stratigraphic position shows that it barely survived the transition from Oligocene into Miocene times.' The other genus, Dissopsalis, from the lower Siwalik beds of northern India, persisted well into the Miocene period, and consequently is the last known survivor of creodont evolution. Dissopsalis was described by Pilgrim on the basis of some scattered and fragmentary teeth.2 Subsequent to the description of his original material, no new finds came to light until 1922, when Mr. Barnum Brown of the American Museum obtained a skull and part of a mandible, as well as several scattered teeth, from the lower Siwalik beds of the north- ern Punjab States. These remains, hitherto undescribed, form the basis of the description in this paper. Further and more critical considerations of the genus will be presented in a subsequent work, which will comprise a detailed examination of the entire Siwalik fauna in the American Museum.
    [Show full text]
  • University of Michigan University Library
    CONTRIBUTIONS FROM THE MUSEUM OF PALEONTOLOGY THE UNIVERSITY OF MICHIGAN VOL.31, NO. 2, PP. 43-78 AU~US~15,2003 SMALL LIMNOCYONINES (HYmNODONTIDAE, MAMMALIA) FROM THE BRIDGERIAN MIDDLE EOCENE OF WYOMING: THINOCYON, PROLIMNOCYON, AND IMDODON, NEW GENUS MICHAEL MORLO AND GREGG F. GUNNELL MUSEUM OF PALEONTOLOGY THE UNIVERSITY OF MICHIGAN ANN ARBOR CONTRIBUTIONS FROM THE MUSEUM OF PALEONTOLOGY Philip D. Gingerich, Director This series of contributions from the Museum of Paleontology is a medium for publication of papers based chiefly on collections in the Museum. When the number of pages issued is sufficient to make a volume, a title page plus a table of contents will be sent to libraries on the Museum's mailing list. This will be sent to individuals on request. A list of the separate issues may also be obtained by request. Correspondence should be directed to the Publications Secretary, Museum of Paleontology, The University of Michigan, 1109 Geddes Road, Ann Arbor, Michigan 48 109-1079 ([email protected]). VOLS. 2-3 1: Parts of volumes may be obtained if available. Price lists are available upon inquiry. Text and illustrations 02003 by the Museum of Paleontology, University of Michigan SMALL LIMNOCYONINES (HYAENODONTIDAE, MAMMALIA) FROM THE BRIDGERIAN MIDDLE EOCENE OF WYOMING: THINOCYON, PROLIMNOCYON, AND IRIDODON, NEW GENUS MICHAEL MORLO1 AND GREGG F. GUNNELL~ Abstract - The fossil record of small Limnocyoninae from the Bridgerian land- mammal age is reviewed and new specimens are described. Among 120 examined specimens of Thinocyon, 96 represent the type species, T velox, with the other 24 representing T medius. The relatively large sample size of I: velox demonstrates the great size and morphological variability of this species.
    [Show full text]
  • A Survey of Cenozoic Mammal Baramins
    The Proceedings of the International Conference on Creationism Volume 8 Print Reference: Pages 217-221 Article 43 2018 A Survey of Cenozoic Mammal Baramins C Thompson Core Academy of Science Todd Charles Wood Core Academy of Science Follow this and additional works at: https://digitalcommons.cedarville.edu/icc_proceedings DigitalCommons@Cedarville provides a publication platform for fully open access journals, which means that all articles are available on the Internet to all users immediately upon publication. However, the opinions and sentiments expressed by the authors of articles published in our journals do not necessarily indicate the endorsement or reflect the views of DigitalCommons@Cedarville, the Centennial Library, or Cedarville University and its employees. The authors are solely responsible for the content of their work. Please address questions to [email protected]. Browse the contents of this volume of The Proceedings of the International Conference on Creationism. Recommended Citation Thompson, C., and T.C. Wood. 2018. A survey of Cenozic mammal baramins. In Proceedings of the Eighth International Conference on Creationism, ed. J.H. Whitmore, pp. 217–221. Pittsburgh, Pennsylvania: Creation Science Fellowship. Thompson, C., and T.C. Wood. 2018. A survey of Cenozoic mammal baramins. In Proceedings of the Eighth International Conference on Creationism, ed. J.H. Whitmore, pp. 217–221, A1-A83 (appendix). Pittsburgh, Pennsylvania: Creation Science Fellowship. A SURVEY OF CENOZOIC MAMMAL BARAMINS C. Thompson, Core Academy of Science, P.O. Box 1076, Dayton, TN 37321, [email protected] Todd Charles Wood, Core Academy of Science, P.O. Box 1076, Dayton, TN 37321, [email protected] ABSTRACT To expand the sample of statistical baraminology studies, we identified 80 datasets sampled from 29 mammalian orders, from which we performed 82 separate analyses.
    [Show full text]
  • Contributions from the Museum of Paleontology
    CONTRIBUTIONS FROM THE MUSEUM OF PALEONTOLOGY THE UNIVERSITY OF MICHIGAN Vol. 24, No. 23, p. 281-307 (5 text-figs.) December 1,1977 PARTIAL SKULL OF PALEOSINOPA SZMPSONZ (MAMMALIA, INSECTIVORA), LATEST PALEOCENE HOBACK FORMATION, CENTRAL WESTERN WYOMING, WITH SOME GENERAL REMARKS ON THE FAMILY PANTOLESTIDAE BY JOHN A. DORR, JR. MUSEUM OF PALEONTOLOGY THE UNIVERSITY OF MICHIGAN MUSEUM OF PALEONTOLOGY THE UNIVERSITY OF MICHIGAN ANN ARBOR CONTRIBUTIONS FROM THE MUSEUM OF PALEONTOLOGY Gerald R. Smith, Director Robert V. Kesling, Editor Diane Wurzinger, Editor for this number The series of contributions from the Museum of Paleontology is a medium for the publication of papers based chiefly upon the collection in the Museum. When the num- ber of pages issued is sufficient to make a volume, a title page and a table of contents will be sent to libraries on the mailing list, and to individuals upon request. A list of the separate papers may also be obtained. Correspondence should be directed to the Museum of Paleontology, The University of Michigan, Ann Arbor, Michigan, 48109. VOLS. 11-XXIV. Parts of volumes may be obtained if available. Price lists available upon inquiry. PARTIAL SKULL OF PALEOSZNOPA SZMPSONI (MAMMALIA, INSECTNORA), LATEST PALEOCENE HOBACK FORMATION, CENTRAL WESTERN WYOMING, WITH SOME GENERAL REMARKS ON THE FAMILY PANTOLESTIDAE BY John A. Dorr, Jr. Abstract.- A newly discovered, nearly complete skull and upper dentition of latest Paleocene Paleosinopa simpsoni is described. The University of Michigan speci- men is the oldest known relatively complete pantolestid skull. It is compared with older pantolestid dentitions and with known skulls and dentitions of younger forms, especially middle Eocene Pantolestes natans and P.
    [Show full text]
  • 1 Journal of Vertebrate Paleontology
    JOURNAL OF VERTEBRATE PALEONTOLOGY SUPPLEMENTARY DATA Craniodental and postcranial morphology of Indohyaenodon raoi from the early Eocene of India, and its implications for ecology, phylogeny, and biogeography of hyaenodontid mammals RAJENDRA S. RANA,1 KISHOR KUMAR,2 SHAWN P. ZACK,*,3, 4 FLOREAL SOLÉ,5 KENNETH D. ROSE,6 PIETER MISSIAEN,5 LACHHAM SINGH,1 ASHOK SAHNI,7 and THIERRY SMITH5 1 Department of Geology, H.N.B. Garhwal University, Srinagar 246175, Uttarakhand, India, [email protected]; 2 Wadia Institute of Himalayan Geology, 33 General Mahadeo Singh Road, Dehradun 248001 Uttarakhand, India, [email protected]; 3 Department of Basic Medical Sciences, University of Arizona College of Medicine-Phoenix, Phoenix, Arizona 85004 U.S.A., [email protected]; 4 School of Human Evolution and Social Change, Arizona State University, Tempe, Arizona 85287 U.S.A.; 5 Department of Paleontology, Royal Belgian Institute of Natural Sciences, Rue Vautier 29, B- 1000 Brussels, Belgium, [email protected]; [email protected]; [email protected]; 6 Johns Hopkins University School of Medicine, Baltimore, Maryland 21205 U.S.A., [email protected]; 7 Department of Geology, Lucknow University, Lucknow 226001 India, [email protected] * Corresponding author. 1 APPENDIX S1. CHARACTER LIST 1. First mental foramen (from Solé, 2013): (0) below p1 or (1) below p2. 2. Second mental foramen (from Solé, 2013): (0) below p3 or (1) below p4. 3. Premolar diastemata (modified from Solé, 2013): (0) premolar series crowded, no diastema between p2 and p3, gap between c and p2 small or (1) small diastema between p2 and p3, gap between c and p2 small or (2) large diastema between p2 and p3, gap between c and p2 small or (3) large diastema between p2 and p3, gap between c and p2 large or (4) no diastema between p2 and p3, large gap between c and p2.
    [Show full text]