DOCSLIB.ORG

Studying Elephantselephants Edited by Kadzo Kangwana Awf Technical Handbook Series 7

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Studying Elephantselephants Edited by Kadzo Kangwana Awf Technical Handbook Series 7 STUDYINGSTUDYING ELEPHANTSELEPHANTS EDITED BY KADZO KANGWANA AWF TECHNICAL HANDBOOK SERIES 7 African Wildlife Foundation The origination and production of “Studying Elephants” was made possible through funding from the European Union, through the African Elephant Conservation Coordinating Group. Additional funds were provided by the African Wildlife Foundation. The opinions expressed in this publication are those of the authors alone and do not imply any opinions whatsoever on the part of the European Union. The African Wildlife Foundation is fully responsible for the contents of this book and any omissions or errors are not the responsibility of the European Union. Edited by Kadzo Kangwana African Wildlife Foundation Nairobi, Kenya © Copyright AFRICAN WILDLIFE FOUNDATION First Published 1996 ISBN: 9966-9915-0-6 Cover Photo by Cynthia Moss: Amboseli elephants, Loxodonta africana, Amboseli National Park, Kenya. Graphic design by Jacaranda Designs Limited P.O. Box 76691, Nairobi, Kenya. Reproduction of this publication for educational or other non-commercial purposes is authorised without prior written permission from the copyright holder provided the source is fully acknowledged. Reproduction of this publication for resale or other commercial purposes is prohibited without prior written permission of the copyright holder. Typeset in Palatino, Times and Lithos Bold. Printed in Kenya. Published by the AFRICAN WILDLIFE FOUNDATION, Nairobi, Kenya. STUDYING ELEPHANTS Edited by KADZO KANGWANA African Wildlife Foundation Nairobi, Kenya THE AFRICAN WILDLIFE FOUNDATION The African Wildlife Foundation (AWF), established in 1961, works towards building the capacity of African individuals and institutions to manage their natural resources effectively. AWF follows this mission in order to increase the sustainable contribution of natural resources to local and national economies, and to promote the sound protection and management of these resources by Africa’s own peoples. AWF helps build capacity in natural resource management through programme activities in protected area management, environmental awareness, policy development and implementation, conservation science, support for species and habitats of prime ecological significance, and community-based approaches to conservation. AWF’s current portfolio includes four distinct and complementary programme areas, ranging from the traditional to the innovative. These programmes are: * Species and Ecosystem Conservation * Community Conservation *Training, Institutional Development and Education * Commerce and Conservation For further information about the African Wildlife Foundation and its current projects please write to AWF at: P.O. Box 48177, Nairobi, Kenya or 1717 Massachusetts Ave. NW, Washington DC 20036, USA THE AWF SERIES OF HANDBOOKS ON TECHNIQUES IN AFRICAN WILDLIFE ECOLOGY 1. Counting Animals. M. Norton-Griffiths. 1978. 2. Measuring the Distribution of Animals in Relation to the Environment. D. Western and J. J. R. Grimsdell. 1979. 3. Studying Predators. B. C. R. Bertram. 1979. 4. Ecological Monitoring. J. J. R. Grimsdell. 1978. 5. Population Dynamics of Large Mammals. A. R. E. Sinclair and J. J. R. Grimsdell. 1982. 6. Counting Birds. D. Pomeroy. 1992. 7. Studying Elephants. Editor K. Kangwana. 1996. If you would like to order a copy of any of the handbooks, please write to: African Wildlife Foundation, P.O. Box 48177 Nairobi, Kenya Tel: (254-2)710367 Fax: 710372 CONTENTS Acknowledgement ............................................................................................................... i List of Contributor ............................................................................................................... ii Introduction ......................................................................................................................... iii Chapter 1. The African Elephant Joyce Poole .......................................................................................................................... 1 SECTION 1: ELEPHANT MANAGEMENT Chapter 2. Making Management Decisions from Data Holly Dublin & Russell Taylor ........................................................................................... 10 SECTION 2: COUNTING ELEPHANTS Chapter 3. Counting Elephants from the Air - Sample Counts Susan Mbugua ..................................................................................................................... 21 Chapter 4. Counting Elephants from the Air - Total Counts lain Douglas-Hamilton ........................................................................................................ 28 Chapter 5. Estimating Forest Elephant Abundance by Dung Counts Richard Barnes .................................................................................................................... 38 Chapter 6. Direct Counts of Elephants from the Ground Hugo Jachmann ...................................................................................................................49 SECTION 3: STUDYING POPULATIONS Chapter 7. Getting to know a Population Cynthia Moss....................................................................................................................... 58 Chapter 8. Studying Elephant Movements hn Whyte ............................................................................................................................. 75 Chapter 9. Studying Elephant – Habitat Interactions Keith Lindsay ...................................................................................................................... 90 Chapter 10. Studying the Behaviour of Elephants Phyllis Lee ........................................................................................................................... 98 SECTION 4: DEVELOPING RESEARCH TECHNIQUES Chapter 11. Studying Vocal Communication in Elephants Karen McComb ................................................................................................................... 112 Chapter 12. Satellite Tracking of Elephants Chris Thouless ..................................................................................................................... 120 Chapter 13. Studying the Reproductive Physiology of Elephants Hamisi Mutinda ................................................................................................................... 126 Chapter 14. What We Can Learn from Tusks Nioroge Ngure ..................................................................................................................... 130 SECTION 5: ELEPHANTS IN THEIR HUMAN CONTEXT Chapter 15. Assessing the Impact of Human-Elephant Interactions Kadzo Kangwana ................................................................................................................ 138 Chapter 16. Monitoring Law Enforcement and Illegal Activities Nigel Leader-Williams ........................................................................................................ 148 SECTION 6: HANDLING ELEPHANTS Chapter 17. How to Immobilise Elephants Chris Thouless ..................................................................................................................... 164 Chapter 18. Collecting Data from Dead Elephants Ian Whyte ............................................................................................................................ 171 ACKNOWLEDGEMENTS The production of this book has been made possible by a grant from the European Union, administered by the African Elephant Conservation Coordinating Group through the Environment and Development Group (EDG), and supplementary funds from the African Wildlife Foundation (AWF) and the AWF/PARCS project. Early concepts for the book benefitted from the input of Ruth Chunge, Steve Cobb, lain Douglas-Hamilton, Holly Dublin, Deborah Snelson and Mark Stanley Price. Very special thanks are due to all authors for agreeing to contribute to the book and donating their time by accepting minimal fees for writing chapters. Several authors contributed further by reviewing chapters, and for this AWF is grateful. AWF is also grateful to Deborah Ross for donating the illustrations for Chapter 7. Special thanks are due to Deborah Snelson for proof-reading all the chapters, and to Chryssee Perry Martin and Cynthia Moss for copy editing the book. AWF is grateful to the Endangered Wildlife Trust for organising the translation of “Studying Elephants” into Portuguese, and to Ursula Taube for translating the book into French. For support throughout this project, thanks are due to AWF staff both in Washington and Nairobi, and to staff of the Environment and Development Group whose contributions have been many. Without them “Studying Elephants” would not have become a reality. i CONTRIBUTORS Richard Barnes Department of Biology 0116, University of California, San Diego, La Jolla CA 92093-0116, U.S.A. lain Douglas-Hamilton P.O. Box 54667, Nairobi, Kenya. Holly T. Dublin WWF Regional Office Eastern Africa, P.O Box 62440, Nairobi, Kenya. Nicholas Georgiadis Mpala Ranch P.O. Box 92, Nanyuki, Kenya. Hugo Jachmann Luangwa Intergrated Resource Development Project, P.O. Box 510249, Chipata, Zambia. Kadzo Kangwana African Wildlife Foundation, P.O. Box 48177, Nairobi, Kenya. Nigel Leader-Williams Planning and Assessment for Wildlife Management, Department of Wildlife, P.O. Box 63150, Dar es Salaam, Tanzania. Phyllis C. Lee University of Cambridge, Department of Biological Anthropology, Downing Street, Cambridge, U.K Keith Lindsay Environment and Development Group,
Load more

Recommended publications
  • Newsletter March 2021
    Dzanga Sangha Protected Areas © David Santiago Newsletter March 2021 Wildlife During the month of March, the UICN publicly announced two decisions concerning forest elephants. The first one was declaring the forest elephant (Loxodonta Cyclotis) an altogether different species, as until recently it was merely considered a subspecies. The second decision was declaring this species critically endangered. Dzanga Sangha remains for the moment one of the few places in all of Africa where the number of individuals has remained relatively stable in recent years, and it is also the place where they are most easily observed. The links attached below talk more about this subject. https://www.theguardian.com/environment/2021/mar/25/shades-of-grey-how-to-tell-african-elephant-species-apart- aoe https://www.theguardian.com/commentisfree/2021/mar/25/africas-forest-elephant-has-been-largely-overlooked-now- we-need-to-fight-for-it-aoe https://www.nationalgeographic.com/animals/article/both-african-elephant-species-are-now-endangered-one-critically https://citizen.co.za/news/south-africa/environment/2466472/african-elephant-status-change-a-wake-up-call-for- humans/ https://theconversation.com/new-decisions-by-global-conservation-group-bolster-efforts-to-save-africas-elephants- 158157 In the other hand, Terence Fuh, Head of Primate Habituation, Research and Monitoring for the DSPA has been listed among the top 100 Young African Conservation Leaders, out of the 565 nominations received from 425 youth organizations and networks which underwent a rigorous judging and verification process. https://top100youth.africa/ Over the last three years we have had a total of 4 gorillas babies born into the three habituated groups in DSPA.
    [Show full text]
  • Asian Elephant • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •• • • • • • • • Elephas Maximus
    Asian elephant • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •• • • • • • • • Elephas maximus Classification What groups does this organism belong to based on characteristics shared with other organisms? Class: Mammalia (all mammals) Order: Proboscidea (large tusked and trunked mammals) Family: Elephantidae (elephants and related extinct species) Genus: Elephas (Asian elephants and related extinct species) Species: maximus (Asian elephant) Distribution Where in the world does this species live? Most Asian elephants live in India, Sri Lanka, and Thailand with small populations in Nepal, Bhutan, Bangladesh, China, Myanmar, Cambodia, Laos, Vietnam, Malaysia, Sumatra, and Borneo. Habitat What kinds of areas does this species live in? They are considered forest animals, but are found in a variety of habitats including tropical grasslands and forests, preferring areas with open grassy glades within the forest. Most live below 10,000 feet (3,000m) elevation although elephants living near the Himalayas will move higher into the mountains to escape hot weather. Physical Description How would this animal’s body shape and size be described? • Asian elephants are the largest land animal on the Asian continent. • Males’ height at the shoulder ranges from eight to ten feet (2.4-3m); they weigh between 7,000 and 13,250 pounds (3500-6000kg). • Females are between six and eight feet tall (1.95-2.4m) at the shoulder and weigh between 4,400 and 7,000 pounds (2500-3500kg). • Their skin is dark gray with freckled pink patches and sparse hair; the skin ranges from very thin at the ears to one inch thick (2.54cm) on the back. • Their most prominent feature is a long trunk that has a single finger on the upper edge.
    [Show full text]
  • Distinguishing Extant Elephants Ivory from Mammoth Ivory Using a Short
    www.nature.com/scientificreports OPEN Distinguishing extant elephants ivory from mammoth ivory using a short sequence of cytochrome b gene Jacob Njaramba Ngatia1, Tian Ming Lan2,3,4, Yue Ma1,5, Thi Dao Dinh1, Zhen Wang1,5, Thomas D. Dahmer6 & Yan Chun Xu1,5,7* Trade in ivory from extant elephant species namely Asian elephant (Elephas maximus), African savanna elephant (Loxodonta africana) and African forest elephant (Loxodonta cyclotis) is regulated internationally, while the trade in ivory from extinct species of Elephantidae, including woolly mammoth, is unregulated. This distinction creates opportunity for laundering and trading elephant ivory as mammoth ivory. The existing morphological and molecular genetics methods do not reliably distinguish the source of ivory items that lack clear identifcation characteristics or for which the quality of extracted DNA cannot support amplifcation of large gene fragments. We present a PCR-sequencing method based on 116 bp target sequence of the cytochrome b gene to specifcally amplify elephantid DNA while simultaneously excluding non-elephantid species and ivory substitutes, and while avoiding contamination by human DNA. The partial Cytochrome b gene sequence enabled accurate association of ivory samples with their species of origin for all three extant elephants and from mammoth. The detection limit of the PCR system was as low as 10 copy numbers of target DNA. The amplifcation and sequencing success reached 96.7% for woolly mammoth ivory and 100% for African savanna elephant and African forest elephant ivory. This is the frst validated method for distinguishing elephant from mammoth ivory and it provides forensic support for investigation of ivory laundering cases.
    [Show full text]
  • African Elephant Genetics: Enigmas and Anomalies†
    Journal of Genetics (2019) 98:83 © Indian Academy of Sciences https://doi.org/10.1007/s12041-019-1125-y PERSPECTIVES African elephant genetics: enigmas and anomalies† ALFRED L. ROCA1,2∗ 1Department of Animal Sciences, and 2Carl R. Woese Institute for Genomic Biology, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA *E-mail: [email protected]. Received 5 November 2018; revised 28 March 2019; accepted 27 May 2019 Keywords. elephants; mito-nuclear; subspecies; effective population size; glacial refugia. During the last two decades, our understanding of the Introduction genetics of African elephant populations has greatly increas- ed. Strong evidence, both morphological and genetic, sup- Morphological analyses of skull dimensions of African ele- ports recognition of two African elephant species: the phants from widespread locations in Africa have revealed savanna elephant (Loxodonta africana) and the forest ele- complete separation morphologically between forest and phant (L. cyclotis). Among elephantids, phylogeographic savanna elephants, with a few intermediaries primarily patterns for mitochondrial DNA are highly incongruent with in habitat transition zones (Groves and Grubb 2000a, b; those detected using nuclear DNA markers, and this incon- Grubb et al. 2000). Various nuclear genetic studies have gruence is almost certainly due to strongly male-biased gene also reported that forest and savanna elephants are genet- flow in elephants. As our understanding of elephant popula- ically distinct and deeply divergent (Roca et al. 2001; tion genetics has grown, a number of observations may be Comstock et al. 2002; Rohland et al. 2010; Palkopoulou considered enigmatic or anomalous. Here, several of these et al. 2018), with a limited degree of ongoing hybridization are discussed.
    [Show full text]
  • News from the Amboseli Trust for Elephants Training Program Young Males May-June 2016
    IIn tth ii s ii ssu e...... News from the Amboseli Trust for Elephants Training Program Young Males May-June 2016 An Appeal Greetings! Qu ii ck L ii n k s A key tenet of the Amboseli Elephant Research Project is to share our knowledge in Homepage - Elephant Trust order to promote elephant conservation across Africa and Asia. We chose Amboseli Support our Work back in 1972 because the population there was relatively natural with no restriction Elatia of movement and low levels of poaching. The Amboseli elephants provided a baseline of biology, behavior and ecology. Of course, conditions have changed greatly over the 43 years, but the elephants still move in and out of the Park into the greater ecosystem on trails that they have used for hundreds of years. There are still low levels of poaching, which means there are intact families led by older matriarchs and large bulls in their 40s and 50s. There are many ways to share knowledge. We have done it through training courses (see story below); assistance and data sharing with other scientists; collaborating with partners in the ecosystem; and through the media in articles, books and films. Much of what we know about elephants today has come from Amboseli and we are proud of that, but we have much more to do to convince the public that elephants are worth saving. Each of the people we have trained and each person who has seen one of our films or read one of our books has been affected by learning about elephants.
    [Show full text]
  • Thailand About Wildaid
    THAILAND ABOUT WILDAID ildAid’s mission is to end the illegal wildlife trade in our lifetimes by reducing demand Wthrough public awareness campaigns and providing comprehensive marine protection. The illegal wildlife trade is estimated to be worth over $10 billion (USD) per year and has drastically reduced many wildlife populations around the world. Just like the drug trade, law and enforcement efforts have not been able to resolve the problem. Every year, hundreds of millions of dollars are spent protecting animals in the wild, yet virtually nothing is spent on stemming the demand for wildlife parts and products. WildAid is the only organization with a mission focused on reducing the demand for these products, with the strong and simple message: When the buying stops, the killing can too. Via public service announcements and short-form documentary pieces, WildAid partners with Save the Elephants and African Wildlife Foundation to educate consumers and to reduce the demand for ivory products worldwide. Through our highly leveraged pro-bono media distribution EVERY YEAR, UP TO outlets, our message reaches hundreds of millions of people each year in China alone. www.wildaid.org CONTACT INFORMATION WILDAID 333 Pine Street #300 San Francisco, CA 94104 33,000 ELEPHANTS Tel: 415.834.3174 Christina Vallianos ARE KILLED FOR THEIR IVORY [email protected] PARTNERS Special thanks Save the Elephants to the following supporters & partners African Wildlife Foundation who have made this work possible: PHOTOGRAPHERS Poulomee Basu Kristian Schmidt Vichan Poti Chris Schmid COVER PHOTO Chris Schmid IVORY DEMAND IN THAILAND | wildaid.org/elephants PAGE // 2 PAGE // 3 Baby elephant staying next to its mother in Etosha National Park, Namibia (Chris Schmid) EXECUTIVE SUMMARY rowing affluence in Asia has and control ivory trading and aware that Thailand’s ivory Gproduced a new class of ivory possession by passing the new trade is contributing to the consumers who have reignited Elephant Ivory Act in 2015 and poaching crisis in Africa.
    [Show full text]
  • Elephants Are Large Mammals of the Family Elephantidae and the Order Proboscidea
    Elephants are large mammals of the family Elephantidae and the order Proboscidea. Traditionally, two species are recognised, the African elephant (Loxodonta africana) and the Asian elephant (Elephas maximus), although some evidence suggests that African bush elephants and African forest elephants are separate species (L. africana and L. cyclotis respectively). Elephants are scattered throughout sub-Saharan Africa, South Asia, and Southeast Asia. Elephantidae are the only surviving family of the order Proboscidea; other, now extinct, families of the order include mammoths and mastodons. Male African elephants are the largest surviving terrestrial animals and can reach a height of 4 m (13 ft) and weigh 7,000 kg (15,000 lb). All elephants have several distinctive features the most notable of which is a long trunk or proboscis, used for many purposes, particularly breathing, lifting water and grasping objects. Their incisors grow into tusks, which can serve as weapons and as tools for moving objects and digging. Elephants' large ear flaps help to control their body temperature. Their pillar-like legs can carry their great weight. African elephants have larger ears and concave backs while Asian elephants have smaller ears and convex or level backs. Elephants are herbivorous and can be found in different habitats including savannahs, forests, deserts and marshes. They prefer to stay near water. They are considered to be keystone species due to their impact on their environments. Other animals tend to keep their distance, predators such as lions, tigers, hyenas and wild dogs usually target only the young elephants (or "calves"). Females ("cows") tend to live in family groups, which can consist of one female with her calves or several related females with offspring.
    [Show full text]
  • AC27 Doc. 12.5
    Original language: English AC27 Doc. 12.5 CONVENTION ON INTERNATIONAL TRADE IN ENDANGERED SPECIES OF WILD FAUNA AND FLORA ____________ Twenty-seventh meeting of the Animals Committee Veracruz (Mexico), 28 April – 3 May 2014 Interpretation and implementation of the Convention Review of Significant Trade in specimens of Appendix-II species [Resolution Conf. 12.8 (Rev. CoP13)] SELECTION OF SPECIES FOR TRADE REVIEWS FOLLOWING COP16 1. This document has been prepared by the Secretariat. 2. In Resolution Conf. 12.8 (Rev. CoP13) on Review of Significant Trade in specimens of Appendix-II species, the Conference of the Parties: DIRECTS the Animals and Plants Committees, in cooperation with the Secretariat and experts, and in consultation with range States, to review the biological, trade and other relevant information on Appendix-II species subject to significant levels of trade, to identify problems and solutions concerning the implementation of Article IV, paragraphs 2 (a), 3 and 6 (a)... 3. In accordance with paragraph a) of that Resolution under the section Regarding conduct of the Review of Significant Trade, the Secretariat requested UNEP-WCMC to produce a summary from the CITES Trade Database of annual report statistics showing the recorded net level of exports for Appendix-II species over the five most recent years. Its report is attached as Annex 1 (English only) to the present document. The raw data used to prepare this summary are available in document AC27 Inf. 2. 4. Paragraph b) of the same section directs the Animals Committee, on the basis of recorded trade levels and information available to it, the Secretariat, Parties or other relevant experts, to select species of priority concern for review (whether or not such species have been the subject of a previous review).
    [Show full text]
  • Tusked Elephants Challenge the Current View of Elephant Evolution
    SHORT REPORT Palaeogenomes of Eurasian straight- tusked elephants challenge the current view of elephant evolution Matthias Meyer1*, Eleftheria Palkopoulou2, Sina Baleka3, Mathias Stiller1, Kirsty E H Penkman4, Kurt W Alt5,6, Yasuko Ishida7, Dietrich Mania8, Swapan Mallick2, Tom Meijer9, Harald Meller8, Sarah Nagel1, Birgit Nickel1, Sven Ostritz10, Nadin Rohland2, Karol Schauer8, Tim Schu¨ ler10, Alfred L Roca7, David Reich2,11,12, Beth Shapiro13, Michael Hofreiter3* 1Max Planck Institute for Evolutionary Anthropolgy, Leipzig, Germany; 2Department of Genetics, Harvard Medical School, Boston, United States; 3Evolutionary Adaptive Genomics, Institute for Biochemistry and Biology, Department for Mathematics and Natural Sciences, University of Potsdam, Potsdam, Germany; 4Department of Chemistry, University of York, York, United Kingdom; 5Center of Natural and Cultural History of Man, Danube Private University, Krems-Stein, Austria; 6Department of Biomedical Engineering and Integrative Prehistory and Archaeological Science, Basel University, Basel, Switzerland; 7Department of Animal Sciences, University of Illinois at Urbana-Champaign, Urbana, United States; 8State Office for Heritage Management and Archaeology Saxony-Anhalt with State Museum of Prehistory, Halle, Germany; 9Naturalis Biodiversity Center, Leiden, Netherlands; 10Thu¨ ringisches Landesamt fu¨ r Denkmalpflege und Archa¨ ologie, Weimar, Germany; 11Broad Institute of Harvard and MIT, Cambridge, United States; 12Howard Hughes Medical Institute, Harvard Medical School, Boston, United States; 13Department of Ecology and Evolutionary Biology, University of California, Santa *For correspondence: mmeyer@ Cruz, United States eva.mpg.de (MM); michael. [email protected] (MH) Competing interests: The Abstract The straight-tusked elephants Palaeoloxodon spp. were widespread across Eurasia authors declare that no during the Pleistocene. Phylogenetic reconstructions using morphological traits have grouped them competing interests exist.
    [Show full text]
  • News from the Amboseli Trust for Elephants
    IIn tth ii s ii ssu e...... Trading Ivory is a Death Knell News from the Amboseli Trust for Elephants What Does our US Office Do? July - August 2016 Sexing Elephants Greetings! Qu ii ck L ii n k s CITES - the Convention in Trade in Endangered Species of Wild Fauna and Flora - Homepage - Elephant Trust is a multilateral treaty, which was ostensibly created to ensure that endangered Support our Work plants and animals are not threatened by trade. Originally signed in 1973 by 80 Elatia countries there are now 182 parties to the convention. The parties meet every three years and this year they will meet in Johannesburg, South Africa at the end of September. (See the article below.) It is important to know that CITES is a trade convention, not a conservation convention. The emphasis is on the successful regulation of trade in endangered species not in stopping trade. All trade is allowed unless it can be shown to be seriously detrimental. Often that is very difficult to prove and in those circumstances trade will continue. Species may be put on one of three lists called Appendices. Appendix 1 affords the most protection and Appendix III the least. The African elephant is currently split-listed, that is, all populations across Africa are on Appendix I, except those of Botswana, Namibia, South Africa and Zimbabwe, which are on Appendix II. What it means is that the Appendix I countries cannot trade in ivory or any other products of elephants such as feet, hair or skin, nor can there be trade in live elephants.
    [Show full text]
  • WIAS Discussion Paper No.2018-001 Proboscidean Fossils (Mammalia
    WIAS Discussion Paper No.2018-001 Proboscidean fossils (Mammalia) from the Quaternary deposits on Stegodon Cave, Thungwa, Satun Province, southern Thailand November 23, 2018 Jaroon Duangkrayom Nakhon Ratchasima Rajabhat University Yuichiro Nishioka Waseda Institute for Advanced Study, Waseda University Chen Shaokun Chongqing China Three Gorges Museum Pratueng Jintasakul Nakhon Ratchasima Rajabhat University Narongrit Thungprue Thungwa District Rattapong Worawansongkham Manang District 1-6-1 Nishiwaseda, Shinjuku-ku, Tokyo 169-8050, Japan Tel: 03-5286-2460 ; Fax: 03-5286-2470 WIAS Discussion Paper No.2018-001 --------------------------------------------- Proboscidean fossils (Mammalia) from the Quaternary deposits on Stegodon Cave, Thungwa, Satun Province, southern Thailand Jaroon Duangkrayom1, Yuichiro Nishioka2*, Chen Shaokun3, Pratueng Jintasakul1, Narongrit Thungprue4, Rattapong Worawansongkham5 Abstract The mammalian fossil assemblage was newly discovered from Quaternary deposits on Stegodon Cave, Thungwa District, Satun Province, southern Thailand. The fossil-bearing laterite is distributed on the floor throughout the cave, which had been possibly transported and reworked several times by tidal stream-flow in the cave, and yields many dental and bone fossils of mammals. The mammalian fossil assemblage is preliminarily classified into six genera belonging to three orders: Proboscidea (Stegodon, Elephas), Perissodactyla (Rhinoceros), and Artiodactyla (Bubalus, Capricornis, Cervus/Rusa). Stegodon molars have irregular enamel folding with scallop chevrons and low amplitude, which are similar to S. orientalis from East Asia rather than S. trigonocephalus from Java. Elephas sp. is indeterminate taxonomically in a species level, but it is somewhat more primitive than extant E. maximus, in having molars with thicker enamel, higher enamel amplitude folding, and lower number of laminae. These characteristics are observed in Pleistocene species of Elephas, such as E.
    [Show full text]
  • African Forest Elephant Social Networks: Fission−Fusion Dynamics, but Fewer Associations
    Vol. 25: 165–173, 2014 ENDANGERED SPECIES RESEARCH Published online September 19 doi: 10.3354/esr00618 Endang Species Res African forest elephant social networks: fission−fusion dynamics, but fewer associations Stephanie G. Schuttler1,*, Alden Whittaker2, Kathryn J. Jeffery3,4,5, Lori S. Eggert1 1Division of Biological Sciences, 226 Tucker Hall, University of Missouri, Columbia, MO 65211, USA 2Zakouma National Park, African Parks Network, PO Box 510, N’Djaména, Republic of Chad 3Agence Nationale des Parcs Nationaux, BP20379, Libreville, Gabon 4School of Natural Sciences, University of Stirling, Stirling FK9 4LA, UK 5Institut de Recherche en Ecologie Tropicale, BP13354, Libreville, Gabon ABSTRACT: For animal species with dynamic interactions, understanding social patterns can be difficult. Social network analysis quantifies associations and their intensity between individuals within a population, revealing the overall patterns of the society. We used networks to test the hypothesis that the elusive African forest elephant Loxodonta cyclotis exhibits fission−fusion social dynamics, similar to other elephant species. We observed associations between individuals in savanna clearings in Lopé National Park, Gabon, in 2006, 2008, and 2010. When possible, dung was collected from individuals for genetic analyses using 10 microsatellite loci and the mitochon- drial DNA control region. Using simple ratio association indices, networks were created for each year, wet and dry seasons, individuals detected at least twice, and for all females. We identified 118 unique adult females, for 40 of which we obtained genetic information. Networks had low densities, many disconnected components, short average path lengths, and high clustering coeffi- cients. Within components, average relatedness was 0.093 ± 0.071 (SD) and females appeared to share mitochondrial haplotypes.
    [Show full text]