DOCSLIB.ORG

Redalyc.VERTEBRATE PALEONTOLOGY in CENTRAL

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Redalyc.VERTEBRATE PALEONTOLOGY in CENTRAL Red de Revistas Científicas de América Latina, el Caribe, España y Portugal Sistema de Información Científica Lucas, Spencer G. VERTEBRATE PALEONTOLOGY IN CENTRAL AMERICA: 30 YEARS OF PROGRESS Revista Geológica de América Central, , 2014, pp. 139-155 Universidad de Costa Rica San José, Costa Rica Available in: http://www.redalyc.org/articulo.oa?id=45433963013 Revista Geológica de América Central, ISSN (Printed Version): 0256-7024 [email protected] Universidad de Costa Rica Costa Rica How to cite Complete issue More information about this article Journal's homepage www.redalyc.org Non-Profit Academic Project, developed under the Open Acces Initiative Revista Geológica de América Central, Número Especial 2014: 30 Aniversario: 139-155, 2014 DOI: 10.15517/rgac.v0i0.16576 ISSN: 0256-7024 VERTEBRATE PALEONTOLOGY IN CENTRAL AMERICA: 30 YEARS OF PROGRESS PALEONTOLOGÍA DE VERTEBRADOS EN AMÉRICA CENTRAL: 30 AÑOS DE PROGRESO Spencer G. Lucas New Mexico Museum of Natural History and Science, 1801 Mountain Road N. W., Albuquerque, New Mexico 87104 USA [email protected] (Recibido: 7/08/2014; aceptado: 10/10/2014) ABSTRACT: Vertebrate paleontology began in Central America in 1858 with the first published records, but the last 30 years have seen remarkable advances. These advances range from new localities, to new taxa to new analyses of diverse data. Central American vertebrate fossils represent all of the major taxonomic groups of vertebrates—fishes, amphibians, reptiles (especially turtles), birds and mammals (mostly xenarthrans, carnivores and ungulates)—but co- verage is very uneven, with many groups (especially small vertebrates) poorly represented. The vertebrate fossils of Central America have long played an important role in understanding the great American biotic interchange. New data and analyses identify a Miocene Central American peninsula that extended from Guatemala to Panama, and suggest the possibility of a Central American province of vertebrate endemism and evolution. The Central American record of ver- tebrate fossils needs augmentation, especially of microvertebrate fossils, and a more detailed chronological framework to enhance our current understanding of vertebrate evolution and biogeography in the New World. Keywords: Central America, vertebrate paleontology, great American biotic interchange, Central American peninsula, Central American province. RESUMEN: La paleontología de vertebrados inició en América Central en 1858 con los primeros registros publicados; sin embargo, en los últimos 30 años se han visto avances notables. Estos avances varían desde nuevas localidades, nuevos taxones, a nuevos análisis de datos diversos. Los fósiles de vertebrados de América Central representan todos los grupos taxonómicos principales de vertebrados—peces, anfibios, reptiles (tortugas en particular), aves y mamíferos (mayormente xenartros, carnívoros y ungulados)—pero la cobertura es muy irregular con muchos grupos (especial- mente los vertebrados pequeños) pobremente representados. Los fósiles de vertebrados de América Central han jugado un papel importante en la comprensión del gran intercambio biótico americano. Nuevos datos y análisis identifican una LUCAS, S. G., 2014: Vertebrate paleontology in Central America: 30 years of progress.- Rev. Geol. Amér. Central, Número Especial 2014: 30 Aniversario: 139-155, DOI: 10.15517/rgac.v0i0.16576 140 REVISTA GEOLÓGICA DE AMÉRICA CENTRAL península Mioceno Centroamericano que se extendía desde Guatemala a Panamá y sugieren la posibilidad de una pro- vincia Centroamericana de endemismo de vertebrados y evolución. El registro centroamerico de fósiles de vertebrados requiere aumento, especialmente de los fósiles microvertebrados, así como un marco cronológico más detallado para mejorar nuestra comprensión actual de la evolución de los vertebrados y biogeografía en el Nuevo Mundo. Palabras clave: América Central, paleontología de vertebrados, gran intercambio biótico américano, Península de América Central, provincia centroamericana. INTRODUCTION Earliest discoveries Vertebrate paleontology began in Central During the 1800s, fossil vertebrates were dis- America in 1858, with the first scientific report covered in Honduras, Nicaragua and Panama and of vertebrate fossils from Honduras (Lucas et al., published on by LeConte (1858), Squier (1858), 2011). The next 130 years witnessed the disco- Leidy (1859, 1870, 1886) and Blake (1862), very and study of fossil vertebrates from all of among others. In the early 1900s, they were dis- the countries of Central America (Fig. 1), most covered in Costa Rica (Alfaro, 1911; Alvarado, of it in a very haphazard and unsystematic way. 1986, 1989, 1994). Discoveries in Guatemala, El This record of fossil vertebrates is concentrated Salvador and Belize came later (Osborn, 1929; in sedimentary rocks of late Cenozoic (Miocene- Ibarra, 1980; Czaplewski et al., 2003; Cisneros, Pleistocene) age. Perhaps Webb (1985), who mas- 2008). The early discoveries were made mostly terfully reviewed the “great American interchan- by travelers, military men or naturalists who ship- ge” (migration of vertebrates between North and ped their fossils to the United States, where North South America after closure of the Panamanian American paleontologists studied them and pu- isthmus), best summarized most of what we had blished the results. This produced a spotty record learned 30 years ago from this fossil record by of (mostly) Pleistocene large mammals that drew identifying Central America as a pathway for little interest from vertebrate paleontologists. vertebrate dispersal during the late Cenozoic, but not an important center of vertebrate evolu- tion. Nevertheless, much has been learned since A developing record Webb’s article, and the last 30 years of vertebrate paleontology in Central America have continued The record of Central American fossil verte- to unearth an important fossil record that has great brates advanced greatly during the 20th Century. bearing on questions of vertebrate evolution and This is largely because a few geologists and pa- biogeography in the New World. leontologists decided to search in Central America for vertebrate fossils to develop a better record. And, interest in the late Cenozoic interchange of HISTORICAL PERSPECTIVE vertebrates between North and South America identified the Central American vertebrate fossil I divide the history of vertebrate paleontolo- record as biogeographically significant. gy in Central America into three phases: earliest Furthermore, in 1930, a turning point in the discoveries (1858-1930), a developing record history of Central American vertebrate paleon- (1930-1980) and a vertebrate paleontological re- tology appeared in the form of Alfonso Segura naissance of discovery and study (1980-present). Paragua (1913-2003) (Fig. 2), the first native Revista Geológica de América Central, Número Especial 2014: 30 Aniversario: 139-155, 2014 / ISSN: 0256-7024 LUCAS: Vertebrate paleontology in Central America: 30 years of progress 141 Fig. 1: Map of Central Ameriac showing some principal vertebrate fossil localities. Loclities are: 1 = Estanzuela (Pleistocene), 2 = Rio Carboneras (Miocene), 3 = Gracias (Miocene), 4 = Yeroconte (Pleistocene), 5 = Barranca del Sisimico (Pleistocene), 6 = El Hormiguero (Pleistocene), 7 = Tomayate (Pleistocene), 8 = Corinto (Miocene), 9 =El Bosque (Pleistocene), 10 = El Palmar (Pleistocene), 11 = Bajo Barrantes (Pleistocene), 12 = Peninsula de Nicoya (Pleistocene), 13 = San Gerardo de Limoncito (Miocene), 14 = Azuero Peninsula (Pleistocene), 15 = Canal Zone (Miocene). Costa Rican geologist and Central America’s first paleontology of an entire Central American coun- native vertebrate paleontologist (Alvarado, 1989, try (El Salvador), including the first report on the 1994). Segura actually spent time in the United important locality of El Hormiguero (Fig. 1). States working at the Smithsonian Institution in The rich patron of vertebrate paleontolo- Washington, D. C., and this included collecting gy of the American Museum of Natural History vertebrate fossils with Smithsonian vertebrate (AMNH) in New York, Childs Frick (1883- paleontology curator Charles W. Gilmore (1874- 1965), sent AMNH fossil collector John Blick to 1945). Segura described various Costa Rican ver- Honduras in 1929, and he discovered Miocene tebrate fossils, including important discoveries mammals, including gomphothere proboscidean on the Nicoya Peninsula and the Bajo Barrantes fossils near Tapasunas (Frick, 1933). locality, one of the most diverse vertebrate fos- Both a 1937-1938 paleontological expedition sil sites in Central America and still the subject of the University of Chicago (USA) and a later ex- of ongoing research (Segura, 1938, 1941, 1942, pedition of the Field Museum of Natural History 1944, 1963) (Fig. 1). (also Chicago, USA) in 1941-42 collected vertebra- The other countries of Central America, te fossils in Honduras (Olson and McGrew, 1941; however, relied on foreign (mostly North McGrew, 1942; Lucas, 2008). Their collections from American) expertise in vertebrate paleontolo- the Gracias Formation of late Miocene (Hemphillian) gy. Thus, Stirton and Gealey (1949) presented age produced what was long Central America’s most the first attempt to summarize the vertebrate diverse Miocene vertebrate fauna (Fig. 1). Revista Geológica de América Central, Número Especial 2014: 30 Aniversario: 139-155, 2014 / ISSN: 0256-7024 142 REVISTA GEOLÓGICA DE AMÉRICA CENTRAL In 1950-1951, a Smithsonian expedi-
Load more

Recommended publications
  • Ancient Mitogenomes Shed Light on the Evolutionary History And
    Ancient Mitogenomes Shed Light on the Evolutionary History and Biogeography of Sloths Frédéric Delsuc, Melanie Kuch, Gillian Gibb, Emil Karpinski, Dirk Hackenberger, Paul Szpak, Jorge Martinez, Jim Mead, H. Gregory Mcdonald, Ross Macphee, et al. To cite this version: Frédéric Delsuc, Melanie Kuch, Gillian Gibb, Emil Karpinski, Dirk Hackenberger, et al.. Ancient Mitogenomes Shed Light on the Evolutionary History and Biogeography of Sloths. Current Biology - CB, Elsevier, 2019. hal-02326384 HAL Id: hal-02326384 https://hal.archives-ouvertes.fr/hal-02326384 Submitted on 22 Oct 2019 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. 1 Ancient Mitogenomes Shed Light on the Evolutionary 2 History and Biogeography of Sloths 3 Frédéric Delsuc,1,13,*, Melanie Kuch,2 Gillian C. Gibb,1,3, Emil Karpinski,2,4 Dirk 4 Hackenberger,2 Paul Szpak,5 Jorge G. Martínez,6 Jim I. Mead,7,8 H. Gregory 5 McDonald,9 Ross D. E. MacPhee,10 Guillaume Billet,11 Lionel Hautier,1,12 and 6 Hendrik N. Poinar2,* 7 Author list footnotes 8 1Institut des Sciences de l’Evolution de Montpellier
    [Show full text]
  • Research, Society and Development, V. 9, N. 7, E316973951, 2020 (CC by 4.0) | ISSN 2525-3409 | DOI
    Research, Society and Development, v. 9, n. 7, e316973951, 2020 (CC BY 4.0) | ISSN 2525-3409 | DOI: http://dx.doi.org/10.33448/rsd-v9i7.3951 Mendes, MS, Zanesco, T, Melki, LB, Rangel, CC, Ferreira, BM, Lima, CV, Oliveira, MA & Candeiro, CRA. (2020). Eremotherium (Xenarthra, Mammalia) das coleções da Universidade Federal de Goiás, Brasil. Research, Society and Development, 9(7): 1-18, e316973951. Eremotherium (Xenarthra, Mammalia) das coleções da Universidade Federal de Goiás, Brasil Eremotherium (Xenarthra, Mammalia) from the collections of the Universidade Federal de Goiás, Brazil Eremotherium (Xenarthra, Mammalia) de las colecciones de la Universidade Federal de Goiás, Brasil Recebido: 25/04/2020 | Revisado: 01/05/2020 | Aceito: 07/05/2020 | Publicado: 14/05/2020 Millena Silva Mendes ORCID: http://orcid.org/0000-0003-3894-7331 Universidade Federal de Goiás, Brasil E-mail: [email protected] Tábata Zanesco ORCID: http://orcid.org/0000-0002-6850-629 Universidade Federal do Rio de Janeiro, Brasil E-mail: [email protected] Luiza Bomfim Melki ORCID: http://orcid.org/0000-0003-0862-8946 Universidade Federal do Rio de Janeiro, Brasil E-mail: [email protected] Caio César Rangel ORCID: http://orcid.org/0000-0001-8707-9441 Universidade Federal de Uberlândia, Brasil E-mail: [email protected] Bruno Martins Ferreira ORCID: http://orcid.org/0000-0001-9498-9179 Universidade Federal de Goiás, Brasil E-mail: [email protected] Cláudia Valéria Lima ORCID: http://orcid.org/0000-0001-9991-2541 1 Research, Society and Development,
    [Show full text]
  • Evolutionary and Functional Implications of Incisor Enamel Microstructure Diversity in Notoungulata (Placentalia, Mammalia)
    Journal of Mammalian Evolution https://doi.org/10.1007/s10914-019-09462-z ORIGINAL PAPER Evolutionary and Functional Implications of Incisor Enamel Microstructure Diversity in Notoungulata (Placentalia, Mammalia) Andréa Filippo1 & Daniela C. Kalthoff2 & Guillaume Billet1 & Helder Gomes Rodrigues1,3,4 # The Author(s) 2019 Abstract Notoungulates are an extinct clade of South American mammals, comprising a large diversity of body sizes and skeletal morphologies, and including taxa with highly specialized dentitions. The evolutionary history of notoungulates is characterized by numerous dental convergences, such as continuous growth of both molars and incisors, which repeatedly occurred in late- diverging families to counter the effects of abrasion. The main goal of this study is to determine if the acquisition of high-crowned incisors in different notoungulate families was accompanied by significant and repeated changes in their enamel microstructure. More generally, it aims at identifying evolutionary patterns of incisor enamel microstructure in notoungulates. Fifty-eight samples of incisors encompassing 21 genera of notoungulates were sectioned to study the enamel microstructure using a scanning electron microscope. We showed that most Eocene taxa were characterized by an incisor schmelzmuster involving only radial enamel. Interestingly, derived schmelzmusters involving the presence of Hunter-Schreger bands (HSB) and of modified radial enamel occurred in all four late-diverging families, mostly in parallel with morphological specializations, such as crown height increase. Despite a high degree of homoplasy, some characters detected at different levels of enamel complexity (e.g., labial versus lingual sides, upper versus lower incisors) might also be useful for phylogenetic reconstructions. Comparisons with perissodactyls showed that notoungulates paralleled equids in some aspects related to abrasion resistance, in having evolved transverse to oblique HSB combined with modified radial enamel and high-crowned incisors.
    [Show full text]
  • The Great American Biotic Interchange: Patterns and Processes Author(S): S
    The Great American Biotic Interchange: Patterns and Processes Author(s): S. David Webb Source: Annals of the Missouri Botanical Garden, Vol. 93, No. 2 (Aug., 2006), pp. 245-257 Published by: Missouri Botanical Garden Press Stable URL: http://www.jstor.org/stable/40035724 . Accessed: 08/04/2014 23:14 Your use of the JSTOR archive indicates your acceptance of the Terms & Conditions of Use, available at . http://www.jstor.org/page/info/about/policies/terms.jsp . JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact [email protected]. Missouri Botanical Garden Press is collaborating with JSTOR to digitize, preserve and extend access to Annals of the Missouri Botanical Garden. http://www.jstor.org This content downloaded from 137.111.226.20 on Tue, 8 Apr 2014 23:14:05 PM All use subject to JSTOR Terms and Conditions THE GREAT AMERICAN BIOTIC S. David Webb2 INTERCHANGE: PATTERNS AND PROCESSES1 Abstract Whenthe Panamanianland bridgewas emplacedabout 2.7 Ma, it triggeredthe GreatAmerican Biotic Interchange(GABI), a major mingling of land mammal faunas between North and South America. Four families of northern immigrants (Procyonidae,Felidae, Tayassuidae,and Camelidae)diversified at moderaterates, while four others, Canidae, Mustelidae, Cervidae, and especially Muridae, evolved explosively. As a consequence, half of living South American genera are descendantsof northernimmigrants. The other major consequence of the interchangewas the conquest of tropical North Americaby immigrantsfrom Amazonia, an episode that justifies the term NeotropicalRealm.
    [Show full text]
  • Revised Stratigraphy of Neogene Strata in the Cocinetas Basin, La Guajira, Colombia
    Swiss J Palaeontol (2015) 134:5–43 DOI 10.1007/s13358-015-0071-4 Revised stratigraphy of Neogene strata in the Cocinetas Basin, La Guajira, Colombia F. Moreno • A. J. W. Hendy • L. Quiroz • N. Hoyos • D. S. Jones • V. Zapata • S. Zapata • G. A. Ballen • E. Cadena • A. L. Ca´rdenas • J. D. Carrillo-Bricen˜o • J. D. Carrillo • D. Delgado-Sierra • J. Escobar • J. I. Martı´nez • C. Martı´nez • C. Montes • J. Moreno • N. Pe´rez • R. Sa´nchez • C. Sua´rez • M. C. Vallejo-Pareja • C. Jaramillo Received: 25 September 2014 / Accepted: 2 February 2015 / Published online: 4 April 2015 Ó Akademie der Naturwissenschaften Schweiz (SCNAT) 2015 Abstract The Cocinetas Basin of Colombia provides a made exhaustive paleontological collections, and per- valuable window into the geological and paleontological formed 87Sr/86Sr geochronology to document the transition history of northern South America during the Neogene. from the fully marine environment of the Jimol Formation Two major findings provide new insights into the Neogene (ca. 17.9–16.7 Ma) to the fluvio-deltaic environment of the history of this Cocinetas Basin: (1) a formal re-description Castilletes (ca. 16.7–14.2 Ma) and Ware (ca. 3.5–2.8 Ma) of the Jimol and Castilletes formations, including a revised formations. We also describe evidence for short-term pe- contact; and (2) the description of a new lithostratigraphic riodic changes in depositional environments in the Jimol unit, the Ware Formation (Late Pliocene). We conducted and Castilletes formations. The marine invertebrate fauna extensive fieldwork to develop a basin-scale stratigraphy, of the Jimol and Castilletes formations are among the richest yet recorded from Colombia during the Neogene.
    [Show full text]
  • Place Names Describing Fossils in Oral Traditions
    Place names describing fossils in oral traditions ADRIENNE MAYOR Classics Department, Stanford University, Stanford CA 94305 (e-mail: [email protected]) Abstract: Folk explanations of notable geological features, including fossils, are found around the world. Observations of fossil exposures (bones, footprints, etc.) led to place names for rivers, mountains, valleys, mounds, caves, springs, tracks, and other geological and palaeonto- logical sites. Some names describe prehistoric remains and/or refer to traditional interpretations of fossils. This paper presents case studies of fossil-related place names in ancient and modern Europe and China, and Native American examples in Canada, the United States, and Mexico. Evidence for the earliest known fossil-related place names comes from ancient Greco-Roman and Chinese literature. The earliest documented fossil-related place name in the New World was preserved in a written text by the Spanish in the sixteenth century. In many instances, fossil geonames are purely descriptive; in others, however, the mythology about a specific fossil locality survives along with the name; in still other cases the geomythology is suggested by recorded traditions about similar palaeontological phenomena. The antiquity and continuity of some fossil-related place names shows that people had observed and speculated about miner- alized traces of extinct life forms long before modern scientific investigations. Traditional place names can reveal heretofore unknown geomyths as well as new geologically-important sites. Traditional folk names for geological features in the Named fossil sites in classical antiquity landscape commonly refer to mythological or and modern Greece legendary stories that accounted for them (Vitaliano 1973). Landmarks notable for conspicuous fossils Evidence for the practice of naming specific fossil have been named descriptively or mythologically locales can be found in classical antiquity.
    [Show full text]
  • 71St Annual Meeting Society of Vertebrate Paleontology Paris Las Vegas Las Vegas, Nevada, USA November 2 – 5, 2011 SESSION CONCURRENT SESSION CONCURRENT
    ISSN 1937-2809 online Journal of Supplement to the November 2011 Vertebrate Paleontology Vertebrate Society of Vertebrate Paleontology Society of Vertebrate 71st Annual Meeting Paleontology Society of Vertebrate Las Vegas Paris Nevada, USA Las Vegas, November 2 – 5, 2011 Program and Abstracts Society of Vertebrate Paleontology 71st Annual Meeting Program and Abstracts COMMITTEE MEETING ROOM POSTER SESSION/ CONCURRENT CONCURRENT SESSION EXHIBITS SESSION COMMITTEE MEETING ROOMS AUCTION EVENT REGISTRATION, CONCURRENT MERCHANDISE SESSION LOUNGE, EDUCATION & OUTREACH SPEAKER READY COMMITTEE MEETING POSTER SESSION ROOM ROOM SOCIETY OF VERTEBRATE PALEONTOLOGY ABSTRACTS OF PAPERS SEVENTY-FIRST ANNUAL MEETING PARIS LAS VEGAS HOTEL LAS VEGAS, NV, USA NOVEMBER 2–5, 2011 HOST COMMITTEE Stephen Rowland, Co-Chair; Aubrey Bonde, Co-Chair; Joshua Bonde; David Elliott; Lee Hall; Jerry Harris; Andrew Milner; Eric Roberts EXECUTIVE COMMITTEE Philip Currie, President; Blaire Van Valkenburgh, Past President; Catherine Forster, Vice President; Christopher Bell, Secretary; Ted Vlamis, Treasurer; Julia Clarke, Member at Large; Kristina Curry Rogers, Member at Large; Lars Werdelin, Member at Large SYMPOSIUM CONVENORS Roger B.J. Benson, Richard J. Butler, Nadia B. Fröbisch, Hans C.E. Larsson, Mark A. Loewen, Philip D. Mannion, Jim I. Mead, Eric M. Roberts, Scott D. Sampson, Eric D. Scott, Kathleen Springer PROGRAM COMMITTEE Jonathan Bloch, Co-Chair; Anjali Goswami, Co-Chair; Jason Anderson; Paul Barrett; Brian Beatty; Kerin Claeson; Kristina Curry Rogers; Ted Daeschler; David Evans; David Fox; Nadia B. Fröbisch; Christian Kammerer; Johannes Müller; Emily Rayfield; William Sanders; Bruce Shockey; Mary Silcox; Michelle Stocker; Rebecca Terry November 2011—PROGRAM AND ABSTRACTS 1 Members and Friends of the Society of Vertebrate Paleontology, The Host Committee cordially welcomes you to the 71st Annual Meeting of the Society of Vertebrate Paleontology in Las Vegas.
    [Show full text]
  • From the Late Miocene–Early Pliocene of the Southern Central Andes, NW Argentina
    Journal of Paleontology, 91(3), 2017, p. 566–576 Copyright © 2017, The Paleontological Society 0022-3360/15/0088-0906 doi: 10.1017/jpa.2016.160 First record of Toxodontidae (Mammalia, Notoungulata) from the late Miocene–early Pliocene of the southern central Andes, NW Argentina Ricardo A. Bonini,1 Gabriela I. Schmidt,2 Marcelo A. Reguero,1 Esperanza Cerdeño,3 Adriana M. Candela,1 and Natalia Solís4 1División Paleontología de Vertebrados, Facultad de Ciencias Naturales y Museo, Paseo del Bosque s/n, B1900FWA La Plata, Argentina 〈[email protected]〉; 〈[email protected]〉; 〈[email protected]〉 2Laboratorio de Paleontología de Vertebrados, Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción (CICYTTP- CONICET), Materi y España, 3105, Diamante, Entre Ríos, Argentina 〈[email protected]〉 3Paleontología, IANIGLA, CCT-CONICET Mendoza, Avda. Ruiz Leal s/n, 5500 Mendoza, Argentina 〈[email protected]〉 4Museo de Geología, Minería y Paleontología, Instituto de Geología y Minería, Universidad Nacional de Jujuy. Avda. Bolivia 1661, 4600 San Salvador de Jujuy, Argentina 〈[email protected]〉 Abstract.—A new species of toxodontid notoungulate, Xotodon maimarensis n. sp., is described from the Maimará Formation (late Miocene–early Pliocene), Jujuy Province, northwestern Argentina. This is the first record of a tox- odontid from the Eastern Cordillera. The specimen is housed at the Museo de Geología, Mineralogía y Paleontología, Instituto de Geología y Minería de la Universidad Nacional de Jujuy. It consists of an incomplete mandible preser- ving the right mandibular ramus with part of the dental series, partially preserved symphysis with all the incisors, and a small portion of the left ramus without teeth.
    [Show full text]
  • Latest Pliocene Northern Hemisphere Glaciation Amplified by Intensified Atlantic Meridional Overturning Circulation
    ARTICLE https://doi.org/10.1038/s43247-020-00023-4 OPEN Latest Pliocene Northern Hemisphere glaciation amplified by intensified Atlantic meridional overturning circulation ✉ Tatsuya Hayashi 1 , Toshiro Yamanaka 2, Yuki Hikasa3, Masahiko Sato4, Yoshihiro Kuwahara1 & Masao Ohno1 1234567890():,; The global climate has been dominated by glacial–interglacial variations since the intensifi- cation of Northern Hemisphere glaciation 2.7 million years ago. Although the Atlantic mer- idional overturning circulation has exerted strong influence on recent climatic changes, there is controversy over its influence on Northern Hemisphere glaciation because its deep limb, North Atlantic Deep Water, was thought to have weakened. Here we show that Northern Hemisphere glaciation was amplified by the intensified Atlantic meridional overturning cir- culation, based on multi-proxy records from the subpolar North Atlantic. We found that the Iceland–Scotland Overflow Water, contributing North Atlantic Deep Water, significantly increased after 2.7 million years ago and was actively maintained even in early stages of individual glacials, in contrast with late stages when it drastically decreased because of iceberg melting. Probably, the active Nordic Seas overturning during the early stages of glacials facilitated the efficient growth of ice sheets and amplified glacial oscillations. 1 Division of Environmental Changes, Faculty of Social and Cultural Studies, Kyushu University, 744 Motooka, Fukuoka 819-0395, Japan. 2 School of Marine Resources and Environment, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Tokyo 108-8477, Japan. 3 Department of Earth Sciences, Graduate School of Natural Science and Technology, Okayama University, 1-1, Naka 3-chome, Tsushima, Okayama 700-8530, Japan. 4 Department of Earth ✉ and Planetary Science, The University of Tokyo, 7-3-1 Hongo, Tokyo 113-0033, Japan.
    [Show full text]
  • The Cave at the End of the World
    CHAPTER 1 The Cave at the End of the World Cueva del Medio and the Early Colonization of Southern South America Fabiana M. Martin, Dominique Todisco, Joel Rodet, Francisco J. Prevosti, Manuel San Román, Flavia Morello, Charles Stern, and Luis A. Borrero The early history of the human exploration and the chronological range of herbivore remains colonization of Fuego-Patagonia is based on evi- recovered by Nami, dictated a taphonomic ap- dence obtained from four diferent and widely proach. Accordingly, we discuss the diferent separated regions: the Central Plateau (Miotti agents involved in the accumulation of the bone 1998), the Pali Aike Lava Field (Bird 1988), Ul- assemblages at the end of the Pleistocene. This tima Esperanza (Nami 1987; Prieto 1991; Jackson presentation will focus on geoarchaeological and Prieto 2005), and northern Tierra del Fuego and chronological issues, with an emphasis on (Massone 2004). In this chapter we will review Nami’s distinction of two early archaeological the data from one of the sites that produced cru- components. The existence of a Late Holocene cial evidence for our understanding of this pro- component is also relevant. Finally, the archaeo- cess: Cueva del Medio. This is a large exogenous logical evidence will be evaluated and compared cave located in Ultima Esperanza, Chile, at the with nearby sites. Cerro Benítez (51°34.209 S, 72°36.161 W), ori- The presence of carnivore and herbivore re- ented toward the southwest (Figure 1.1). Cueva mains not associated with the human occupa- del Milodón and several other caves and rock- tions (Nami 1987, 1993, 1994a; Prieto et al.
    [Show full text]
  • (Mylodon Darwinii) Using Mitogenomic and Nuclear Exon Data
    Resolving the phylogenetic position of Darwin’s extinct ground sloth (Mylodon darwinii) using mitogenomic and nuclear exon data Frédéric Delsuc, Melanie Kuch, Gillian C. Gibb, Jonathan Hughes, Paul Szpak, John Southon, Jacob Enk, Ana T. Duggan, and Hendrik N. Poinar Supplementary Material Table S1: Taxon sampling and sequence accession numbers. Table S2: Detailed results of the PartitionFinder analysis for the mitogenomic dataset. Table S3: Detailed results of the PartitionFinder analysis for the nuclear dataset. Table S4: Detailed comparisons between our Mylodon mitogenome and the one produced by Slater et al. (2016). Figure S1: mapDamage DNA fragmentation and nucleotide mis-incorporation plots. Figure S2: mapDamage DNA fragment length distributions. Figure S3: Bayesian mitogenomic tree under the CAT-GTR+G4 mixture model (PhyloBayes). Figure S4: Bayesian mitogenomic tree under a mixed model (MrBayes). Figure S5: Maximum likelihood mitogenomic tree under a GTR+G+I mixed model (RAxML). Figure S6: Bayesian nuclear tree under the CAT-GTR+G4 mixture model (PhyloBayes). Figure S7: Bayesian nuclear tree under a mixed model (MrBayes). Figure S8: Maximum likelihood nuclear tree under a GTR+G mixed model (RAxML). Figure S9: Bayesian mitogenomic chronogram under the CAT-GTR+G4 mixture model and an autocorrelated lognormal model of clock relaxation (PhyloBayes). Figure S10: Bayesian nuclear chronogram under the CAT-GTR+G4 mixture model and an autocorrelated lognormal model of clock relaxation (PhyloBayes). Figure S11: Comparison of the two Mylodon mitogenomes aligned with the Choloepus didactylus reference mitogenome. Figure S12: Maximum likelihood tree of sloth mitogenomes under a single GTR+G model (RAxML). Table S1. Detailed taxonomic sampling and corresponding sequence accession numbers of the mitochondrial and nuclear datasets.
    [Show full text]
  • La Brea and Beyond: the Paleontology of Asphalt-Preserved Biotas
    La Brea and Beyond: The Paleontology of Asphalt-Preserved Biotas Edited by John M. Harris Natural History Museum of Los Angeles County Science Series 42 September 15, 2015 Cover Illustration: Pit 91 in 1915 An asphaltic bone mass in Pit 91 was discovered and exposed by the Los Angeles County Museum of History, Science and Art in the summer of 1915. The Los Angeles County Museum of Natural History resumed excavation at this site in 1969. Retrieval of the “microfossils” from the asphaltic matrix has yielded a wealth of insect, mollusk, and plant remains, more than doubling the number of species recovered by earlier excavations. Today, the current excavation site is 900 square feet in extent, yielding fossils that range in age from about 15,000 to about 42,000 radiocarbon years. Natural History Museum of Los Angeles County Archives, RLB 347. LA BREA AND BEYOND: THE PALEONTOLOGY OF ASPHALT-PRESERVED BIOTAS Edited By John M. Harris NO. 42 SCIENCE SERIES NATURAL HISTORY MUSEUM OF LOS ANGELES COUNTY SCIENTIFIC PUBLICATIONS COMMITTEE Luis M. Chiappe, Vice President for Research and Collections John M. Harris, Committee Chairman Joel W. Martin Gregory Pauly Christine Thacker Xiaoming Wang K. Victoria Brown, Managing Editor Go Online to www.nhm.org/scholarlypublications for open access to volumes of Science Series and Contributions in Science. Natural History Museum of Los Angeles County Los Angeles, California 90007 ISSN 1-891276-27-1 Published on September 15, 2015 Printed at Allen Press, Inc., Lawrence, Kansas PREFACE Rancho La Brea was a Mexican land grant Basin during the Late Pleistocene—sagebrush located to the west of El Pueblo de Nuestra scrub dotted with groves of oak and juniper with Sen˜ora la Reina de los A´ ngeles del Rı´ode riparian woodland along the major stream courses Porciu´ncula, now better known as downtown and with chaparral vegetation on the surrounding Los Angeles.
    [Show full text]