DOCSLIB.ORG

The Wildlife of Gondwana Exhibition Curiousci! Ty

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Wildlife of Gondwana Exhibition Curiousci! Ty The Wildlife of Gondwana Exhibition CuriouSCI! ty Photograph provided by the Herald Sun: Boy and Dinosaur CuriouSCI! ty is the offspring of the Monash the National Museum of Natural Sciences Science Centre, which was launched in 1993 (Taiwan,) and Timor-Leste). as the brainchild of a research academic and Successful Exhibitions rely on strong the Vice Chancellor of Monash University. It relationships with host venues and research filled a community need – that of access to organisations such as, National Geographic content-rich science and technology Society (Washington), Paleontological information, particularly by youth, delivered in Institute of the Russian Academy of Sciences such a way that it could be understood, with (Moscow), Museo Palaeontologico Egidio observers empowered and enthused to seek Feruglio (Trelew, Argentina), Queen Victoria more and personally evaluate the information Museum and Art Gallery (Launceston), the they were accessing. Fukui Prefectural Dinosaur Museum, the CuriouSCI! ty is located in the science Gunma Prefectural Museum and the National precinct on the Clayton campus of Monash Museum (the latter 3 in Japan). University. Monash University is Australia’s CuriouSCI! ty and its outreach primary largest and most internationally focussed education partner PrimeSCI! highly value the University. Sir David Attenborough, the patron of the co-operative input to exhibitions and CuriouSCI! ty and PrimeSCI! . The Patron of this Centre is Sir David education modules by community groups, Photo by David McKay. Attenborough. government and the private sector, for example the SES (State Emergency Services), CuriouSCI! ty EMA (Emergency Management Australia), In the last 11 years CFA (Country Fire Authority), Qantas, and GlaxoSmithKlein and others. • Over 4+ million people have attended an MSC exhibition (1.2 million Australians, CuriouSCI! ty and PrimeSCI! are recognized 2.5+ million International) leaders in Science Outreach institutions and have sought to provide professional guidance • Topics covered include Geosciences to other organizations such as National (especially Palaeobiology), Natural Museum of Australia (Canberra), Kyoto Disasters, Human Biology, Science and Front Cover University Museum (Japan), the Gunma Art, Astronomy, Scientific Instrumentation, All of the dinosaurs exceptMuttaburrasaurus in Prefectural Museum (Japan), the this scene are from Early Cretaceous polar Climate Change Paleontological Institute of the Russian Victoria. From Right to left: an ankylosaur Minmi, Academy of Sciences (Moscow), the Atlascopcosaurus are in the background and a Exhibitions have toured around Australia and flying reptile (a pterosaur) in the air. (Credit: Artist internationally (including the the Burke Shanghai Natural History Museum (China), Peter Trusler, copyright Australia Post. This Museum (University of Washington, USA), the the Kotelnich Regional Museum (Russia), the material has been reproduced with permission of Singapore Science Centre, the Iranian the Australian Postal Corporation. The original New Jersey State Museum (USA), the Los Science and Technology Museum among work is held in the National Philatelic Collection). Angeles County Museum (USA), Argentina, Japan, Italy, the Singapore Science Centre, many others. The Exhibition This exhibition looks at the diversity of life in dynamic poses include a giant lizard Early modern life (Cambrian - Ordivician the great southern super-continent Gondwana (Megalania ) chasing a giant flightless bird 542-444 mya) from 3.8 billion years to present. (Bullockornis ), and an Antarctica dinosaur § Archaeocyathid colony blocks § (Cryolohophosaurus ). All furniture and Trilobite resting or feeding trace and worm The unique nature of the fauna of this protective perspex panels. Comprehensive traces continent and the complex interplay of § Rock specimens with Agnostid trilobite Education Kits for Levels Prep to Year 8 and changes over geological history provides an § Large selection of graptolites from the above. engaging context for exhibition attendees. Cambrian and Ordovician of Victoria. This exhibition is supported by Visions of Including Phyllograptus, Didymograptus The exhibition highlights the products of Australia, an Australian Government Program and Tetragraptus. research by some of the world's leading supporting touring exhibitions by providing palaeontologists, including staff from Monash Silurian (444-416 mya) funding assistance for the development and University. § Baragwanathia longfolia block (early land touring of cultural material across Australia plants) Components Specimen list § Trilobites 42 information panels More than 300 Precambrian (older than 542 mya) specimens of fossils and rocks (including § Slabs of Neoproterozoic material Dromornis stirtoni, Reconstruction of Central original and cast material), both fragmentary Australian Miocene. This reconstruction depicts a (metazoan body fossils and traces) scene in times past, 8 million years before the and full skeletons. Art works by Peter Trusler present. ThenDromornis stirtoni , the largest § Large slab of Banded Iron Formation and others depicting the animals and their species of "Mihirung", roamed the Central Australia landscape, browsing on leaves, fruit, flowers, palaeoenvironment. Skeletons mounted in petioles and twigs growing three or four metres above the ground. (Credit: Artist Peter Trusler) Koolasuchus cleelandi, the last surviving labyrinthodont amphibian, Early Cretaceous by P. Trusler Devonian (416-359 mya) Cretaceous (145.5-65.5 mya) § Large variety of Australian plant and § Limestone nodules New Zealand Specimens invertebrate material § Placoderm material § Monotreme humerus § Eastmanosteus calliospis skull Vertebrate fossils § Pterosaur humerus § Receptaculitids § Ankylosaur vertebra, rib § Qantassaurus intrepidus jaw & model § Block of Murindal limestone with fossils § Sauropod rib fragment § Rock specimen from polar site in Victoria § Stromatoporoids (Colonial reef building § Pterosaur distal ulna § Footprints from Winton Quarry, Queensland metazoans) § Small theropod (or bird) toe bone § Theropod partial claw § Slab with tabulate and tetracorals § Large theropod partial toe bone § Theropod ulna § Ammonites § Pterosaur? scapula (shoulder blade) § Trackway of an early amphibian Indian Specimens § Spinella yassensis (brachiopods) Central Asian Specimens § Ammonites § Large carnosaur in a dig scene Carboniferous (359-299 mya) § Ankylosaur skeleton Cainozoic (Tertiary) Eocene (55.8-33.9 mya) § Early amphibians and reptiles § Ornithomimosaur skeleton § A variety of invertebrates from Antarctica § Gondwanathere partial lower jaw Permian (299-251 mya) Antarctic Specimens § Dromornithid foot § Mesosaurus skeleton § Hadrosaur metatarsal § Crocodile and turtle material § Glossopteris plant slabs § Variety of invertebrates § Shark vertebrae Cainozoic (Tertiary) Oligocene (33.9-23 Mesozoic Triassic (251-205 mya) mya) § Palaeoniscid fish South American Specimens § Wynyardia skull (cast) § Deltasuchus kimberleyensis, labyrinthodont § Piatnizkysaurus skull § Emydura (turtle) plastron amphibian. § Herrerasaurus skull § Diprotodontid jaw § Thrinaxodon cast § Lystrosaurus, skull and skeleton Australian material Cainozoic (Tertiary) Miocene (23-5.3 mya) § Ichthyosaur model § Queensland dicynodont § Bullockornis partial skull § Rubidgia skull § Large variety of southern polar Australian § Neohelos partial lower jaw dinosaur material (including Timimus § Borhyaenid skeleton Jurassic (199-145.5 mya) hermani, Leaellynasaura amicigraphica, § Cryolophosaurus elliotti, mounted skeleton Megalosaurus, ?Allosauroid sp ., Cainozoic (Tertiary) Pliocene (5.3-2.6 mya) § Pterosaur humerus Serendipaceratops arthurcclarkei) § Didelphidae skull § Isolated carnosaur tooth § Ausktribosphenos nyktos lower jaw § Actenomys sp. skulls (Rodentia, § Prosauropod partial foot § Teinolophos trusleri lower jaw Caviomropha) § Tritylodont tooth § Chelycarapookus arcuatus, internal mould § 2Lagostomopsis sp. skeletons § Footprints of mammals of the shell § Paedotherium sp. Skull § A variety of invertebrates and plants from § Atlascopcosaurus loadsi lower jaw § Glaudodon ballaratensis, lower jaw, cast of locales around Australia and Sri Lanka. § Koolasuchus cleelandi partial lower jaw & type specimen clavicle § Ostrich bones from South Africa Cainozoic - Pleistocene (2.6- present) § Wide selection of casts of primitive Below: As the bottom-feeding dipnoan, § Sthenurus sp. jaws marsupials from Central Australia Griphognathus whitei, probes platypus-like in the § § organic rich mud at a depth of about 100 metres Diprotodon teeth Eggshells fromRhea , Dromornis and near the Late Devonian barrier reef of Gogo, § Megalania prisca skeleton attacking a Dinornis Western Australia, a curious arthrodire placoderm, Bullockornis skeleton § Bones from New Zealand Moas and Eastmanosteus calliaspis, comes to investigate the § Dromornis skull ground parrots commotion (Credit: Artist Peter Trusler from § § Wildlife of Gondwana by P. Vickers Rich & T.H. Palorchestes azeal skull and partial Platypus (Ornithorhyncus anatinus) skeleton Rich). skeleton § Zygomaturus skull § Neohelos skull and partial skeleton § Meiolania partial skull § New CaledonianSilvornis (extinct ground bird) bones § Lord Howe Is & Norfolk Is fossil birds § Large rock specimens from several different locales § Megatherium americana footprint § Toxodon platensis complete skeleton § Thylacosmilus, Propleopus and Eumegamys (rodent), skulls and carapace § Thylacosmilus
Load more

Recommended publications
  • Pleistocene Mammals and Paleoecology of the Western Amazon
    PLEISTOCENE MAMMALS AND PALEOECOLOGY OF THE WESTERN AMAZON By ALCEU RANCY A DISSERTATION PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY UNIVERSITY OF FLORIDA 1991 . To Cleusa, Bianca, Tiago, Thomas, and Nono Saul (Pistolin de Oro) . ACKNOWLEDGMENTS This work received strong support from John Eisenberg (chairman) and David Webb, both naturalists, humanists, and educators. Both were of special value, contributing more than the normal duties as members of my committee. Bruce MacFadden provided valuable insights at several periods of uncertainty. Ronald Labisky and Kent Redford also provided support and encouragement. My field work in the western Amazon was supported by several grants from the Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) , and the Universidade Federal do Acre (UFAC) , Brazil. I also benefitted from grants awarded to Ken Campbell and Carl Frailey from the National Science Foundation (NSF) I thank Daryl Paul Domning, Jean Bocquentin Villanueva, Jonas Pereira de Souza Filho, Ken Campbell, Jose Carlos Rodrigues dos Santos, David Webb, Jorge Ferigolo, Carl Frailey, Ernesto Lavina, Michael Stokes, Marcondes Costa, and Ricardo Negri for sharing with me fruitful and adventurous field trips along the Amazonian rivers. The CNPq and the Universidade Federal do Acre, supported my visit to the. following institutions (and colleagues) to examine their vertebrate collections: iii . ; ; Universidade do Amazonas, Manaus
    [Show full text]
  • From the Early Cretaceous Wonthaggi Formation (Strzelecki Group)
    Journal of Paleontology, 93(3), 2019, p. 543–584 Copyright © 2019, The Paleontological Society. 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. 0022-3360/19/1937-2337 doi: 10.1017/jpa.2018.95 New small-bodied ornithopods (Dinosauria, Neornithischia) from the Early Cretaceous Wonthaggi Formation (Strzelecki Group) of the Australian-Antarctic rift system, with revision of Qantassaurus intrepidus Rich and Vickers-Rich, 1999 Matthew C. Herne,1,2 Jay P. Nair,2 Alistair R. Evans,3 and Alan M. Tait4 1School of Environmental and Rural Science, University of New England, Armidale 2351, New South Wales, Australia <ornithomatt@ gmail.com> 2School of Biological Sciences, The University of Queensland, Brisbane, Queensland 4072, Australia <[email protected]> 3School of Biological Sciences, Monash University, Melbourne, Victoria 3800, Australia <[email protected]> 4School of Earth, Atmosphere & Environment, Monash University, Melbourne, Victoria 3800, Australia <[email protected]> Abstract.—The Flat Rocks locality in the Wonthaggi Formation (Strzelecki Group) of the Gippsland Basin, southeastern Australia, hosts fossils of a late Barremian vertebrate fauna that inhabited the ancient rift between Australia and Antarc- tica. Known from its dentary, Qantassaurus intrepidus Rich and Vickers-Rich, 1999 has been the only dinosaur named from this locality. However, the plethora of vertebrate fossils collected from Flat Rocks suggests that further dinosaurs await discovery. From this locality, we name a new small-bodied ornithopod, Galleonosaurus dorisae n.
    [Show full text]
  • R / 2J�J Ij Rjsj L)J J �� __Rj Ljlj F LANDED! VOLUME 2 - RAPTORS to PRATINCOLES
    -_r_/ 2J�J iJ_rJsJ l)J_J �� __rJ lJlJ_f LANDED! VOLUME 2 - RAPTORS TO PRATINCOLES In 1990 Oxford Univer sity Press published Volume One Over 70 colourpl ates illustr ated of the Ha11dbook of Austra­ by JeffDavies feature nearly lia 11, New Zeala11d a11d every species. Antarctic Birds to widespread acclaim. Now Volume Two, VOLUME2 covering Raptors to Pratin­ Contains vultures, hawks and coles, has been completed. eagles, falcons, galliformes and quail, Malleefowl a11d megapodes, Four more volumes are to be cranes,crakes and rails, bustards, published making this the the Australian and New Zealand most detailed and up-to-date resident waders, a11d plovers, reference work of the birds of lapwi11gs a11d douerels. Australasia. COMPREHENSIVE Each volume exami11es all aspects of bird lifeinc luding: • field i£Jentiflca1ion • dis1ribu1io11 and popula1io11 • social orga11iza1io11 The Handbook is the most ex­ • social behaviour citing and significant project •movements in Australasian ornithology to­ •plumages day and will have an •breeding • habitat enormous impact on the direc­ • voice tion of future research and the •food conservation of Au stralasian and Antarctic birds. _ • AVAI�!�! BER t�n�r? Volume 2 $250 RAOU Volumes 1 & 2 $499 -- m! CJOlltlllllCOIIIIYIOOI ORDER FORM Place your order with Oxford University Press by: cgJ Reply Paid 1641, Oxford University Press, D Please send me __ copy/copies of the Handbook of GPO Box 2784Y, Melbourne3001 Aus1ralia11, New Zealondand A111arc1ic Birds Volume 2 at the 11 (03) 646 4200 FAX (03) 646 3251 special pre-publication price of $250 (nonnal retail price $295) plus $7.50 for po stage and handling OR D I enclose my cheque/money order for$ _______ D Please send me set/sets of Volumes I a11d 2 of the D Please charge my Visa/Mastercard/Bankcard no.
    [Show full text]
  • Brains and Intelligence
    BRAINS AND INTELLIGENCE The EQ or Encephalization Quotient is a simple way of measuring an animal's intelligence. EQ is the ratio of the brain weight of the animal to the brain weight of a "typical" animal of the same body weight. Assuming that smarter animals have larger brains to body ratios than less intelligent ones, this helps determine the relative intelligence of extinct animals. In general, warm-blooded animals (like mammals) have a higher EQ than cold-blooded ones (like reptiles and fish). Birds and mammals have brains that are about 10 times bigger than those of bony fish, amphibians, and reptiles of the same body size. The Least Intelligent Dinosaurs: The primitive dinosaurs belonging to the group sauropodomorpha (which included Massospondylus, Riojasaurus, and others) were among the least intelligent of the dinosaurs, with an EQ of about 0.05 (Hopson, 1980). Smartest Dinosaurs: The Troodontids (like Troödon) were probably the smartest dinosaurs, followed by the dromaeosaurid dinosaurs (the "raptors," which included Dromeosaurus, Velociraptor, Deinonychus, and others) had the highest EQ among the dinosaurs, about 5.8 (Hopson, 1980). The Encephalization Quotient was developed by the psychologist Harry J. Jerison in the 1970's. J. A. Hopson (a paleontologist from the University of Chicago) did further development of the EQ concept using brain casts of many dinosaurs. Hopson found that theropods (especially Troodontids) had higher EQ's than plant-eating dinosaurs. The lowest EQ's belonged to sauropods, ankylosaurs, and stegosaurids. A SECOND BRAIN? It used to be thought that the large sauropods (like Brachiosaurus and Apatosaurus) and the ornithischian Stegosaurus had a second brain.
    [Show full text]
  • January 2005] Reviews Trivers's Theory Of
    January 2005] Reviews 367 Trivers's theory of parent-offspring conflict associated fauna and flora, biotic history of has shed relatively little empirical light on sib- Australia, possible feeding habits, and the like. licide in birds will undoubtedly provoke some The book's concept, organization, and visual raised eyebrows. But Mock's perspectives are so presentation are brilliant, but the execution has clearly articulated and thoughtfully explained some serious flaws. that even readers with dissenting views will be The first known species, Dromornis australis, unlikely to object strenuously. was described in 1874 by Richard Owen, and I highly recommend this book to anyone inter- for almost a century and a quarter the drom- ested in the evolutionary biology of family con- ornithids were associated with paleognathous flict. It will be especially useful to ornithologists ratites such as emus and cassowaries. The name working on such topics as hatching asynchrony "mihirung" was originally adopted for these siblicide, brood reduction, and parental care. birds by Rich (1979) from Aboriginal traditions And for anyone wanting to know how to write of giant emus (mihirung paringmal) believed pos- a scholarly biological book that will appeal to a sibly to apply to Genyornis. It was not until the general audience. More Than Kin and Less Than seminal paper of Murray and Megirian (1998), Kind should be essential reading.•RONALD L. based on newly collected Miocene skull mate- MUMME, Department of Biology, Allegheny College, rial, that the anseriform relationships of the 520 North Main Street, Meadville, Pennsylvania Dromornithidae were revealed. Six years later, 16335, USA. E-mail: [email protected] Murray and Vickers-Rich glibly and rather mis- leadingly refer to these birds as gigantic geese and imply that their nonratite nature should have been apparent earlier.
    [Show full text]
  • Onetouch 4.0 Scanned Documents
    / Chapter 2 THE FOSSIL RECORD OF BIRDS Storrs L. Olson Department of Vertebrate Zoology National Museum of Natural History Smithsonian Institution Washington, DC. I. Introduction 80 II. Archaeopteryx 85 III. Early Cretaceous Birds 87 IV. Hesperornithiformes 89 V. Ichthyornithiformes 91 VI. Other Mesozojc Birds 92 VII. Paleognathous Birds 96 A. The Problem of the Origins of Paleognathous Birds 96 B. The Fossil Record of Paleognathous Birds 104 VIII. The "Basal" Land Bird Assemblage 107 A. Opisthocomidae 109 B. Musophagidae 109 C. Cuculidae HO D. Falconidae HI E. Sagittariidae 112 F. Accipitridae 112 G. Pandionidae 114 H. Galliformes 114 1. Family Incertae Sedis Turnicidae 119 J. Columbiformes 119 K. Psittaciforines 120 L. Family Incertae Sedis Zygodactylidae 121 IX. The "Higher" Land Bird Assemblage 122 A. Coliiformes 124 B. Coraciiformes (Including Trogonidae and Galbulae) 124 C. Strigiformes 129 D. Caprimulgiformes 132 E. Apodiformes 134 F. Family Incertae Sedis Trochilidae 135 G. Order Incertae Sedis Bucerotiformes (Including Upupae) 136 H. Piciformes 138 I. Passeriformes 139 X. The Water Bird Assemblage 141 A. Gruiformes 142 B. Family Incertae Sedis Ardeidae 165 79 Avian Biology, Vol. Vlll ISBN 0-12-249408-3 80 STORES L. OLSON C. Family Incertae Sedis Podicipedidae 168 D. Charadriiformes 169 E. Anseriformes 186 F. Ciconiiformes 188 G. Pelecaniformes 192 H. Procellariiformes 208 I. Gaviiformes 212 J. Sphenisciformes 217 XI. Conclusion 217 References 218 I. Introduction Avian paleontology has long been a poor stepsister to its mammalian counterpart, a fact that may be attributed in some measure to an insufRcien- cy of qualified workers and to the absence in birds of heterodont teeth, on which the greater proportion of the fossil record of mammals is founded.
    [Show full text]
  • Phylogeny and Biogeography of Iguanodontian Dinosaurs, with Implications from Ontogeny and an Examination of the Function of the Fused Carpal-Digit I Complex
    Phylogeny and Biogeography of Iguanodontian Dinosaurs, with Implications from Ontogeny and an Examination of the Function of the Fused Carpal-Digit I Complex By Karen E. Poole B.A. in Geology, May 2004, University of Pennsylvania M.A. in Earth and Planetary Sciences, August 2008, Washington University in St. Louis A Dissertation submitted to The Faculty of The Columbian College of Arts and Sciences of The George Washington University in partial fulfillment of the requirements for the degree of Doctor of Philosophy August 31, 2015 Dissertation Directed by Catherine Forster Professor of Biology The Columbian College of Arts and Sciences of The George Washington University certifies that Karen Poole has passed the Final Examination for the degree of Doctor of Philosophy as of August 10th, 2015. This is the final and approved form of the dissertation. Phylogeny and Biogeography of Iguanodontian Dinosaurs, with Implications from Ontogeny and an Examination of the Function of the Fused Carpal-Digit I Complex Karen E. Poole Dissertation Research Committee: Catherine A. Forster, Professor of Biology, Dissertation Director James M. Clark, Ronald Weintraub Professor of Biology, Committee Member R. Alexander Pyron, Robert F. Griggs Assistant Professor of Biology, Committee Member ii © Copyright 2015 by Karen Poole All rights reserved iii Dedication To Joseph Theis, for his unending support, and for always reminding me what matters most in life. To my parents, who have always encouraged me to pursue my dreams, even those they didn’t understand. iv Acknowledgements First, a heartfelt thank you is due to my advisor, Cathy Forster, for giving me free reign in this dissertation, but always providing valuable commentary on any piece of writing I sent her, no matter how messy.
    [Show full text]
  • The Artist & Scientist03.Cdr
    The Artist and the Scientists Exhibition - Painting Prehistory from the Rocks. The artwork of Peter Trusler CuriouSCI! ty Photograph provided by the Herald Sun: Boy and Dinosaur CuriouSCI! ty is the offspring of the Monash the National Museum of Natural Sciences Science Centre, which was launched in 1993 (Taiwan,) and Timor-Leste). as the brainchild of a research academic and Successful Exhibitions rely on strong the Vice Chancellor of Monash University. It relationships with host venues and research filled a community need – that of access to organisations such as, National Geographic content-rich science and technology Society (Washington), Paleontological information, particularly by youth, delivered in Institute of the Russian Academy of Sciences such a way that it could be understood, with (Moscow), Museo Palaeontologico Egidio observers empowered and enthused to seek Feruglio (Trelew, Argentina), Queen Victoria more and personally evaluate the information Museum and Art Gallery (Launceston), the they were accessing. Fukui Prefectural Dinosaur Museum, the CuriouSCI! ty is located in the science Gunma Prefectural Museum and the National precinct on the Clayton campus of Monash Museum (the latter 3 in Japan). University. Monash University is Australia’s CuriouSCI! ty and its outreach primary largest and most internationally focussed education partner PrimeSCI! highly value the University. Sir David Attenborough, the patron of the co-operative input to exhibitions and CuriouSCI! ty and PrimeSCI! . The Patron of this Centre is Sir David education modules by community groups, Photo by David McKay. Attenborough. government and the private sector, for example the SES (State Emergency Services), CuriouSCI! ty EMA (Emergency Management Australia), In the last 11 years CFA (Country Fire Authority), Qantas, and GlaxoSmithKlein and others.
    [Show full text]
  • Pliocene), Falc6n State, Venezuela, Its Relationship with the Asterostemma Problem, and the Paleobiogeography of the Glyptodontinae ALFREDO A
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by RERO DOC Digital Library Pal&ontologische Zeitschrift 2008, Vol. 82•2, p. 139-152, 30-06-2008 New Glyptodont from the Codore Formation (Pliocene), Falc6n State, Venezuela, its relationship with the Asterostemma problem, and the paleobiogeography of the Glyptodontinae ALFREDO A. CARLINI, La Plata; ALFREDO E. ZURITA, La Plata; GUSTAVO J. SCILLATO-YANI~, La Plata; RODOLFO S,&,NCHEZ, Urumaco & ORANGEL A. AGUILERA, Coro with 3 figures CARLINI, A.A.; ZURITA,A.E.; SCILLATO-YANI~,G.J.; S.~NCHEZ,R. & AGUILERA,O.A. 2008. New Glyptodont from the Codore Formation (Pliocene), Falc6n State, Venezuela, its relationship with the Asterostemma problem, and the paleo- biogeography of the Glyptodontinae. - Palaontologische Zeitschrift 82 (2): 139-152, 3 figs., Stuttgart, 30. 6. 2008. Abstract: One of the basal Glyptodontidae groups is represented by the Propalaehoplophorinae (late Oligocene - mid- dle Miocene), whose genera (Propalaehoplophorus, Eucinepeltus, Metopotoxus, Cochlops, and Asterostemma) were initially recognized in Argentinian Patagonia. Among these, Asterostemma was characterized by its wide latitudinal distribution, ranging from southernmost (Patagonia) to northernmost (Colombia, Venezuela) South America. How- ever, the generic assignation of the Miocene species from Colombia and Venezuela (A.? acostae, A. gigantea, and A. venezolensis) was contested by some authors, who explicitly accepted the possibility that these species could corre- spond to a new genus, different from those recognized in southern areas. A new comparative study of taxa from Argen- tinian Patagonia, Colombia and Venezuela (together with the recognition of a new genus and species for the Pliocene of the latter country) indicates that the species in northern South America are not Propalaehoplophorinae, but represent the first stages in the cladogenesis of the Glyptodontinae glyptodontids, the history of which was heretofore restricted to the late Miocene - early Holocene of southernmost South America.
    [Show full text]
  • 4. Palaeontology
    118 4. Palaeontology Lionel Cavin, Damien Becker, Christian Klug Swiss Geological Survey – swisstopo, Schweizerisches Komitee für Stratigraphie, Naturhistorisches Museum Bern, Symposium 4: Palaeontology Schweizerische Paläontologische Gesellschaft, Kommission des Schweizerischen Paläontologischen Abhandlungen (KSPA) TALKS: 4.1 Aguirre-Fernández, G., Carrillo-Briceño, J. D., Sánchez, R., Jaramillo, C., Sánchez-Villagra, M. R.: Fossil whales and dolphins (Cetacea) from the Miocene of Venezuela and Colombia 4.2 Anquetin J.: A new diverse turtle fauna in the late Kimmeridgian of Switzerland 4.3 Bagherpour B., Bucher H., Brosse M., Baud A., Frisk Å., Guodun K.: Tectonic control on the deposition of Permian-Triassic boundary microbialites in the Nanpanjiang Basin (South China) 4.4 Carrillo J. D., Carlini A. A., Jaramillo C., Sánchez-Villagra M. R.: New fossil mammals from the northern neotropics (Urumaco, Venezuela, Castilletes, Colombia) and their significance for the new world diversity patterns and the Great American Biotic Interchange 4.5 Costeur L., Mennecart B., Rössner G.E., Azanza B.,: Inner ear in earyl deer 4.6 Hiard F., Métais G., Goussard F.: On the “thumb” of anoplotheriins: a 3D comparative study of the hand of Anoplotherium and Diplobune. 4.7 Klug C., Hoffmann R.: The origin of the complexity of ammonoid sutures 4.8 Koppka, J.: The oysters (Ostreoidea, Bivalvia) of the Reuchenette Formation (Kimmeridgian, Upper Jurassic) in Northwestern Switzerland 4.9 Leuzinger L., Kocsis L., Billon-Bruyat J.-P., Spezzaferri S.: Taxonomy and biogeochemistry of a new chondrichthyan fauna from the Swiss Jura (Kimmeridgian): an unusual isotopic signature for the hybodont shark Asteracanthus 4.10 Maridet O., Costeur L., Schwarz C., Furió M., van Glabbeek F.
    [Show full text]
  • Mammals and Stratigraphy : Geochronology of the Continental Mammal·Bearing Quaternary of South America
    MAMMALS AND STRATIGRAPHY : GEOCHRONOLOGY OF THE CONTINENTAL MAMMAL·BEARING QUATERNARY OF SOUTH AMERICA by Larry G. MARSHALLI, Annallsa BERTA'; Robert HOFFSTETTER', Rosendo PASCUAL', Osvaldo A. REIG', Miguel BOMBIN', Alvaro MONES' CONTENTS p.go Abstract, Resume, Resumen ................................................... 2, 3 Introduction .................................................................. 4 Acknowledgments ............................................................. 6 South American Pleistocene Land Mammal Ages ....... .. 6 Time, rock, and faunal units ...................... .. 6 Faunas....................................................................... 9 Zoological character and history ................... .. 9 Pliocene-Pleistocene boundary ................................................ 12 Argentina .................................................................... 13 Pampean .................................................................. 13 Uquian (Uquiense and Puelchense) .......................................... 23 Ensenadan (Ensenadense or Pampeano Inferior) ............................... 28 Lujanian (LuJanense or Pampeano lacus/re) .................................. 29 Post Pampean (Holocene) ........... :....................................... 30 Bolivia ................ '...................................................... ~. 31 Brazil ........................................................................ 37 Chile ........................................................................ 44 Colombia
    [Show full text]
  • Relative Demographic Susceptibility Does Not Explain the Extinction Chronology of Sahul's Megafauna
    bioRxiv preprint doi: https://doi.org/10.1101/2020.10.16.342303; this version posted October 19, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY 4.0 International license. 1 Full title: Relative demographic susceptibility does not explain the 2 extinction chronology of Sahul’s megafauna 3 Short title: Demographic susceptibility of Sahul’s megafauna 4 5 Corey J. A. Bradshaw1,2,*, Christopher N. Johnson3,2, John Llewelyn1,2, Vera 6 Weisbecker4,2, Giovanni Strona5, and Frédérik Saltré1,2 7 1 Global Ecology, College of Science and Engineering, Flinders University, GPO Box 2100, Adelaide, 8 South Australia 5001, Australia, 2 ARC Centre of Excellence for Australian Biodiversity and Heritage, 9 EpicAustralia.org, 3 Dynamics of Eco-Evolutionary Pattern, University of Tasmania, Hobart, Tasmania 10 7001, Australia, 4 College of Science and Engineering, Flinders University, GPO Box 2100, Adelaide, 11 South Australia 5001, Australia, 5 Research Centre for Ecological Change, University of Helsinki, 12 Viikinkaari 1, Biocentre 3, 00790, Helsinki, Finland 13 14 * [email protected] (CJAB) 15 ORCIDs: C.J.A. Bradshaw: 0000-0002-5328-7741; C.N. Johnson: 0000-0002-9719-3771; J. 16 Llewelyn: 0000-0002-5379-5631; V. WeisbecKer: 0000-0003-2370-4046; F. Saltré: 0000- 17 0002-5040-3911 18 19 Keywords: vombatiformes, macropodiformes, flightless birds, carnivores, extinction 20 Author Contributions: C.J.A.B and F.S. conceptualized the paper, and C.J.A.B.
    [Show full text]