Popo Wa Mbuga Ya Wanyama Ya Tarangire Bats of Tarangire

Total Page：16

File Type：pdf, Size：1020Kb

Web Version 1 Popo wa Mbuga ya Wanyama ya Tarangire Bats of Tarangire National Park Imetayarishwa na (created by): Bill Stanley & Rebecca Banasiak Utayarishaji na mfadhili (production and support): The Wildlife Conservation Society, The Field Museum of Natural History [[email protected]] [www.fieldmuseum.org/tanzania] Version 1 6/2009 © Field Museum of Natural History, Chicago Photos by: Bill Stanley and Charles A.H. Foley Epomophorus wahlbergi Hipposideros ruber Cardioderma cor Wahlberg's Epauletted Fruit Bat Noack's Leaf-nosed Bat Heart-nosed Bat Lavia frons Taphozous perforatus Nycteris hispida Yellow-winged Bat Egyptian Tomb Bat Hairy Slit-faced Bat Chaerephon pumilus Scotoecus hindei Scotophilus dinganii Little Free-tailed Bat Hinde's Lesser House Bat Yellow-bellied House Bat Neoromicia capensis Neoromicia nanus Neoromicia somalicus Cape Serotine Banana Pipistrelle Somali Serotine Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.....Small paragraph here.

Copy Link

Recommended publications

African Bat Conservation News
Volume 35 African Bat Conservation News August 2014 ISSN 1812-1268 © ECJ Seamark, 2009 (AfricanBats) Above: A male Cape Serotine Bat (Neoromicia capensis) caught in the Chitabi area, Okavango Delta, Botswana. Inside this issue: Research and Conservation Activities Presence of paramyxo and coronaviruses in Limpopo caves, South Africa 2 Observations, Discussions and Updates Recent changes in African Bat Taxonomy (2013-2014). Part II 3 Voucher specimen details for Bakwo Fils et al. (2014) 4 African Chiroptera Report 2014 4 Scientific contributions Documented record of Triaenops menamena (Family Hipposideridae) in the Central Highlands of 6 Madagascar Download and subscribe to African Bat Conservation News published by AfricanBats at: www.africanbats.org The views and opinions expressed in articles are no necessarily those of the editor or publisher. Articles and news items appearing in African Bat Conservation News may be reprinted, provided the author’s and newsletter refer- ence are given. African Bat Conservation News August 2014 vol. 35 2 ISSN 1812-1268 Inside this issue Continued: Recent Literature Conferences 7 Published Books / Reports 7 Papers 7 Notice Board Conferences 13 Call for Contributions 13 Research and Conservation Activities Presence of paramyxo- and coronaviruses in Limpopo caves, South Africa By Carmen Fensham Department of Microbiology and Plant Pathology, Faculty of Natural and Agricultural Sciences, University of Pretoria, 0001, Republic of South Africa. Correspondence: Prof. Wanda Markotter: [email protected] Carmen Fensham is a honours excrement are excised and used to isolate any viral RNA that student in the research group of may be present. The identity of the RNA is then determined Prof.
[Show full text]
The Diversity of Coronaviruses in Southern African Bat Populations
THE DIVERSITY OF CORONAVIRUSES IN SOUTHERN AFRICAN BAT POPULATIONS by Nadine Cronjé Dissertation presented for the degree of Doctor of Philosophy (Medical Virology) in the Faculty of Medicine and Health Sciences at Stellenbosch University Supervisor: Prof. Wolfgang Preiser Co-supervisors: Prof. Corrie Schoeman and Dr Ndapewa Ithete December 2017 Stellenbosch University https://scholar.sun.ac.za The financial assistance of the National Research Foundation (NRF) towards this research is hereby acknowledged. Opinions expressed and conclusions arrived at, are those of the author and are not necessarily to be attributed to the NRF. i Stellenbosch University https://scholar.sun.ac.za Declaration By submitting this dissertation electronically, I declare that the entirety of the work contained therein is my own, original work, that I am the sole author thereof (save to the extent explicitly otherwise stated), that reproduction and publication thereof by Stellenbosch University will not infringe any third party rights and that I have not previously in its entirety or in part submitted it for obtaining any qualification. December 2017 Copyright © 2017 Stellenbosch University All rights reserved ii Stellenbosch University https://scholar.sun.ac.za Summary Coronaviruses are RNA viruses encompassing four genera. The alpha- and betacoronaviruses have commonly been associated with mild disease in humans. However, outbreaks of severe respiratory disease in 2002 and 2012 led to the identification of novel highly pathogenic human coronaviruses, SARS- and MERS-CoV, respectively. Bats, order Chiroptera, are believed to be the reservoir host from which all mammalian coronaviruses have emerged. To date, few studies have been published on coronaviruses in South African bats.
[Show full text]
Article/19/7/12-1820-Techapp1.Pdf)
LETTERS Novel Bat-borne (S)–segment primer set (outer: OS- found by RT-PCR that used XSV- M55F, 5′-TAGTAGTAGACTCC-3′, specific primers. Hantavirus, and XSV-S6R, 5′-AGITCIGGRTC- Phylogenetic analyses was per- Vietnam CATRTCRTCICC-3′; inner: Cro- formed with maximum-likelihood 2F, 5′-AGYCCIGTIATGRGW- and Bayesian methods, and we used To the Editor: Compelling evi- GTIRTYGG-3′, and JJUVS-1233R, the GTR+I+Γ model of evolution, dence of genetically distinct hantavi- 5′-TCACCMAGRTGRAAGTGRT- as selected by the hierarchical like- ruses (family Bunyaviridae) in multi- CIAC-3. The bat was captured dur- lihood-ratio test in MrModel-test ple species of shrews and moles (order ing July 2012 in Xuan Son National version 2.3 and jModelTest version Soricomorpha, families Soricidae and Park, a nature reserve in Thanh Sơn 0.1 (10), partitioned by codon po- Talpidae) across 4 continents (1–7) District, Phu Tho Province, ≈100 sition. Results indicated 4 distinct suggests that soricomorphs, rather km west of Hanoi (21°07′26.75′N, phylogroups, with XSV sharing a than rodents (order Rodentia, families 104°57′29.98′′E). common ancestry with MGBV (Fig- Muridae and Cricetidae), might be the For confirmation, RNA extrac- ure). Similar topologies, supported primordial hosts (6,7). Recently, the tion and RT-PCR were performed in- by high bootstrap (>70%) and poste- host range of hantaviruses has been dependently in a laboratory in which rior node (>0.70) probabilities, were further expanded by the discovery that hantaviruses had never been handled. consistently derived when various insectivorous bats (order Chiroptera) After initial detection, the L-segment algorithms and different taxa and also serve as reservoirs (8,9).
[Show full text]
Molecular Phylogeny of Mobatviruses (Hantaviridae) in Myanmar and Vietnam
viruses Article Molecular Phylogeny of Mobatviruses (Hantaviridae) in Myanmar and Vietnam Satoru Arai 1, Fuka Kikuchi 1,2, Saw Bawm 3 , Nguyễn Trường Sơn 4,5, Kyaw San Lin 6, Vương Tân Tú 4,5, Keita Aoki 1,7, Kimiyuki Tsuchiya 8, Keiko Tanaka-Taya 1, Shigeru Morikawa 9, Kazunori Oishi 1 and Richard Yanagihara 10,* 1 Infectious Disease Surveillance Center, National Institute of Infectious Diseases, Tokyo 162-8640, Japan; [email protected] (S.A.); [email protected] (F.K.); [email protected] (K.A.); [email protected] (K.T.-T.); [email protected] (K.O.) 2 Department of Chemistry, Faculty of Science, Tokyo University of Science, Tokyo 162-8601, Japan 3 Department of Pharmacology and Parasitology, University of Veterinary Science, Yezin, Nay Pyi Taw 15013, Myanmar; [email protected] 4 Institute of Ecology and Biological Resources, Vietnam Academy of Science and Technology, Hanoi, Vietnam; [email protected] (N.T.S.); [email protected] (V.T.T.) 5 Graduate University of Science and Technology, Vietnam Academy of Science and Technology, Hanoi, Vietnam 6 Department of Aquaculture and Aquatic Disease, University of Veterinary Science, Yezin, Nay Pyi Taw 15013, Myanmar; [email protected] 7 Department of Liberal Arts, Faculty of Science, Tokyo University of Science, Tokyo 162-8601, Japan 8 Laboratory of Bioresources, Applied Biology Co., Ltd., Tokyo 107-0062, Japan; [email protected] 9 Department of Veterinary Science, National Institute of Infectious Diseases, Tokyo 162-8640, Japan; [email protected] 10 Paciﬁc Center for Emerging Infectious Diseases Research, John A.
[Show full text]
The Australasian Bat Society Newsletter, Number 31, Nov 2008
The Australasian Bat Society Newsletter, Number 31, Nov 2008 The Australasian Bat Society Newsletter Number 39 November 2012 ABS Website: http://abs.ausbats.org.au ABS Discussion list - email: [email protected] ISSN 1448-5877 © Copyright The Australasian Bat Society, Inc. (2012) The Australasian Bat Society Newsletter, Number 31, Nov 2008 The Australasian Bat Society Newsletter, Number 39, November 2012 – Instructions for Contributors – The Australasian Bat Society Newsletter will accept contributions under one of the following two sections: Research Papers, and all other articles or notes. There are two deadlines each year: 10th March for the April issue, and 10th October for the November issue. The Editor reserves the right to hold over contributions for subsequent issues of the Newsletter, and meeting the deadline is not a guarantee of immediate publication. Opinions expressed in contributions to the Newsletter are the responsibility of the author, and do not necessarily reflect the views of the Australasian Bat Society, its Executive or members. For consistency, the following guidelines should be followed: Emailed electronic copy of manuscripts or articles, sent as an attachment, is the preferred method of submission. Faxed and hard copy manuscripts will be accepted but reluctantly! Please send all submissions to the Newsletter Editor at the email or postal address below. Electronic copy should be in 11 point Arial font, left and right justified with 16 mm left and right margins. Please use Microsoft Word; any version is acceptable. Manuscripts should be submitted in clear, concise English and free from typographical and spelling errors. Please leave two spaces after each sentence.
[Show full text]
Close Relative of Human Middle East Respiratory Syndrome Coronavirus in Bat, South Africa
Publisher: CDC; Journal: Emerging Infectious Diseases Article Type: Letter; Volume: 19; Issue: 10; Year: 2013; Article ID: 13-0946 DOI: 10.3201/eid1910.130946; TOC Head: Letters to the Editor Article DOI: http://dx.doi.org/10.3201/eid1910.130946 Close Relative of Human Middle East Respiratory Syndrome Coronavirus in Bat, South Africa Technical Appendix Sampling Bats were sampled between November 2010 and mid-2012 at caves in Table Mountain National Park and in Millwood forest, Garden Route National Park (permit no. 11LB_SEI01), at Phinda Private Game Reserve in KwaZulu Natal (permit no. OP2021/2011) and in Greyton, Western Cape (permit no. AAA007-00373-0035). Bats were captured during emergence from roof roosts or cave entrances using a harp trap, hand-net or mist nets. Animal handling and sample collection was done in accordance with accepted international guidelines for mammals as set out in Sikes et al. (1). Individuals were then placed in individual cloth bags for up to 3 hours to collect faecal pellets. Faecal pellets were removed from each bag using sterile forceps and suspended in 1.0ml of RNAlater in a 2ml cryovial before transport to the laboratory in Tygerberg and virological testing under institutional clearance (ref. SU-ACUM12-00001). In the Western Cape, all bats were released unharmed. In Phinda, they were euthanized with halothane and retained as accessioned voucher specimens in the mammal collection of the Durban Natural Science Museum. Associated specimen derivatives (e.g. faecal pellets) were obtained through a museum loan (loan no. M201011_1). Species were determined based on morphological features following current systematics (2).
[Show full text]
Index of Handbook of the Mammals of the World. Vol. 9. Bats
Index of Handbook of the Mammals of the World. Vol. 9. Bats A agnella, Kerivoula 901 Anchieta’s Bat 814 aquilus, Glischropus 763 Aba Leaf-nosed Bat 247 aladdin, Pipistrellus pipistrellus 771 Anchieta’s Broad-faced Fruit Bat 94 aquilus, Platyrrhinus 567 Aba Roundleaf Bat 247 alascensis, Myotis lucifugus 927 Anchieta’s Pipistrelle 814 Arabian Barbastelle 861 abae, Hipposideros 247 alaschanicus, Hypsugo 810 anchietae, Plerotes 94 Arabian Horseshoe Bat 296 abae, Rhinolophus fumigatus 290 Alashanian Pipistrelle 810 ancricola, Myotis 957 Arabian Mouse-tailed Bat 164, 170, 176 abbotti, Myotis hasseltii 970 alba, Ectophylla 466, 480, 569 Andaman Horseshoe Bat 314 Arabian Pipistrelle 810 abditum, Megaderma spasma 191 albatus, Myopterus daubentonii 663 Andaman Intermediate Horseshoe Arabian Trident Bat 229 Abo Bat 725, 832 Alberico’s Broad-nosed Bat 565 Bat 321 Arabian Trident Leaf-nosed Bat 229 Abo Butterfly Bat 725, 832 albericoi, Platyrrhinus 565 andamanensis, Rhinolophus 321 arabica, Asellia 229 abramus, Pipistrellus 777 albescens, Myotis 940 Andean Fruit Bat 547 arabicus, Hypsugo 810 abrasus, Cynomops 604, 640 albicollis, Megaerops 64 Andersen’s Bare-backed Fruit Bat 109 arabicus, Rousettus aegyptiacus 87 Abruzzi’s Wrinkle-lipped Bat 645 albipinnis, Taphozous longimanus 353 Andersen’s Flying Fox 158 arabium, Rhinopoma cystops 176 Abyssinian Horseshoe Bat 290 albiventer, Nyctimene 36, 118 Andersen’s Fruit-eating Bat 578 Arafura Large-footed Bat 969 Acerodon albiventris, Noctilio 405, 411 Andersen’s Leaf-nosed Bat 254 Arata Yellow-shouldered Bat 543 Sulawesi 134 albofuscus, Scotoecus 762 Andersen’s Little Fruit-eating Bat 578 Arata-Thomas Yellow-shouldered Talaud 134 alboguttata, Glauconycteris 833 Andersen’s Naked-backed Fruit Bat 109 Bat 543 Acerodon 134 albus, Diclidurus 339, 367 Andersen’s Roundleaf Bat 254 aratathomasi, Sturnira 543 Acerodon mackloti (see A.
[Show full text]
Neoromicia Zuluensis – Zulu Pipistrelle Bat
Neoromicia zuluensis – Zulu Pipistrelle Bat recommends that zuluensis is specifically distinct from somalicus (Rautenbach et al. 1993). Assessment Rationale Listed as Least Concern in view of its wide distribution (estimated extent of occurrence within the assessment region is 246,518 km²), presumed large population, and because there are no major identified threats that could cause widespread population decline. It occurs in many protected areas across its range and appears to have a degree of tolerance for human modified habitats. Savannah woodlands are generally well protected in the assessment region. However, more research is needed into the roosting behaviour of this species to identify key roost sites and monitor subpopulation trends. Regional population effects: Its range is continuous with Zimbabwe and Mozambique through transfrontier parks, Trevor Morgan and thus dispersal is assumed to be occurring. However, it has relatively low wing loading (Norberg & Rayner 1987; Schoeman & Jacobs 2008), so significant rescue effects Regional Red List status (2016) Least Concern are uncertain. National Red List status (2004) Least Concern Reasons for change No change Distribution Global Red List status (2016) Least Concern This species is widespread in East and southern Africa. The eastern distribution ranges from Ethiopia and South TOPS listing (NEMBA) (2007) None Sudan to Uganda and Kenya (Happold et al. 2013). The CITES listing None southern range extends from Zambia and the southern parts of the Democratic Republic of the Congo to eastern Endemic No South Africa, and from eastern Angola to central Zambia, Zimbabwe, northern Botswana and northeastern Namibia The Zulu Pipistrelle Bat is also commonly known (Monadjem et al.
[Show full text]
Investigating the Role of Bats in Emerging Zoonoses
12 ISSN 1810-1119 FAO ANIMAL PRODUCTION AND HEALTH manual INVESTIGATING THE ROLE OF BATS IN EMERGING ZOONOSES Balancing ecology, conservation and public health interest Cover photographs: Left: © Jon Epstein. EcoHealth Alliance Center: © Jon Epstein. EcoHealth Alliance Right: © Samuel Castro. Bureau of Animal Industry Philippines 12 FAO ANIMAL PRODUCTION AND HEALTH manual INVESTIGATING THE ROLE OF BATS IN EMERGING ZOONOSES Balancing ecology, conservation and public health interest Edited by Scott H. Newman, Hume Field, Jon Epstein and Carol de Jong FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS Rome, 2011 Recommended Citation Food and Agriculture Organisation of the United Nations. 2011. Investigating the role of bats in emerging zoonoses: Balancing ecology, conservation and public health interests. Edited by S.H. Newman, H.E. Field, C.E. de Jong and J.H. Epstein. FAO Animal Production and Health Manual No. 12. Rome. The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO) concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The mention of speciﬁc companies or products of manufacturers, whether or not these have been patented, does not imply that these have been endorsed or recommended by FAO in preference to others of a similar nature that are not mentioned. The views expressed in this information product are those of the author(s) and do not necessarily reﬂect the views of FAO.
[Show full text]
Chapter 15 the Mammals of Angola
Chapter 15 The Mammals of Angola Pedro Beja, Pedro Vaz Pinto, Luís Veríssimo, Elena Bersacola, Ezequiel Fabiano, Jorge M. Palmeirim, Ara Monadjem, Pedro Monterroso, Magdalena S. Svensson, and Peter John Taylor Abstract Scientific investigations on the mammals of Angola started over 150 years ago, but information remains scarce and scattered, with only one recent published account. Here we provide a synthesis of the mammals of Angola based on a thorough survey of primary and grey literature, as well as recent unpublished records. We present a short history of mammal research, and provide brief information on each species known to occur in the country. Particular attention is given to endemic and near endemic species. We also provide a zoogeographic outline and information on the conservation of Angolan mammals. We found confirmed records for 291 native species, most of which from the orders Rodentia (85), Chiroptera (73), Carnivora (39), and Cetartiodactyla (33). There is a large number of endemic and near endemic species, most of which are rodents or bats. The large diversity of species is favoured by the wide P. Beja (*) CIBIO-InBIO, Centro de Investigação em Biodiversidade e Recursos Genéticos, Universidade do Porto, Vairão, Portugal CEABN-InBio, Centro de Ecologia Aplicada “Professor Baeta Neves”, Instituto Superior de Agronomia, Universidade de Lisboa, Lisboa, Portugal e-mail: [email protected] P. Vaz Pinto Fundação Kissama, Luanda, Angola CIBIO-InBIO, Centro de Investigação em Biodiversidade e Recursos Genéticos, Universidade do Porto, Campus de Vairão, Vairão, Portugal e-mail: [email protected] L. Veríssimo Fundação Kissama, Luanda, Angola e-mail: [email protected] E.
[Show full text]
African Bat Conservation News
Volume 41 African Bat Conservation News January 2016 ISSN 1812-1268 © ECJ Seamark, 2013 (AfricanBats) Above: Zulu Serotine Bat (Neoromicia zuluensis) caught at Telperion Nature Reserve, Gauteng, South Africa. Inside this issue: Observations, Discussions and Updates Recent changes in African bat taxonomy (2015 - 2016). Part I 2 Scientific contributions New distribution records of the Short-eared Trident Bat, Cloeotis percivali Thomas, 1901 (Chiroptera: 3 Rhinonycteridae) in South Africa Recent Literature Papers 9 Notice Board Conferences 15 Call for contributions 15 Download and subscribe to African Bat Conservation News published by AfricanBats at: www.africanbats.org The views and opinions expressed in articles are no necessarily those of the editor or publisher. Articles and news items appearing in African Bat Conservation News may be reprinted, provided the author’s and newsletter reference are given. African Bat Conservation News January 2016 vol. 41 2 ISSN 1812-1268 Observations, Discussions and Updates Recent changes in African Bat Taxonomy (2015 – 2016). Part I VICTOR VAN CAKENBERGHE1,2 AND ERNEST C.J. SEAMARK2,3 1University of Antwerp, Department of Biology, Lab for Functional Morphology, Campus Drie Eiken, Universiteitsplein, 1, B-2610 Antwerpen (Wilrijk), Belgium. 2AfricanBats, 357 Botha Ave, Kloofsig, 0157. 3Centre for Wildlife Management, University of Pretoria, Private Bag X20 Hatfield, Pretoria 0028, SouthAfrica. †Hipposideros (Pseudorhinolophus) amenhotepos data described Otompos harrisoni, of which the distribution Gunnell, Winkler, Miller, Head, El-Barkooky, Gawad, range extends from the Arabian Peninsula through Eritrea and Sanders, and Gingerich 2015 south to Ethiopia and Kenya. The species is named after the late Gunnell et al. (2015b) described H. amenhotepos from the renowned mammalogist, taxonomist and bat expert Dr.
[Show full text]
Baseline Assessment of the Bat Species on the Proposed Spitsvale Opencast Mining Project, Steelpoort, Limpopo Province
Baseline assessment of the bat species on the proposed Spitsvale opencast mining project, Steelpoort, Limpopo Province. Prepared by: Dawn Cory Toussaint For: Environmental Management Assistance (Pty) Ltd. PO Box 386, Sundra 2200 On behalf of BCR (Bushveld Chrome (Pty) Ltd. 1 1 Introduction Habitat destruction and global climate change are impacting the earth on a major scale and monitoring such without studying the response of specific taxa to these changes is insufficient to understand the reaching effects of these factors on complex biological communities (Jones et al. 2009). Specific taxa that show a measurable response to climate change and habitat destruction are extremely important as bioindicators, particularly in an environment prior to the land being transformed (Jones et al. 2009). Bats have enormous potential as bioindicators since they are taxonomically stable, one can monitor trends in their populations, short and long-term effects on their populations can be measured, and they are distributed on a global scale making the effects of habitat change comparable on a global scale (Jones et al. 2009, Jones et al. 2003). In addition to climate change (extremes in drought, heat, cold and precipitation), agricultural intensification, disease, fatalities induced by wind turbines, overhunting (in some regions bats are important food items for humans) and the loss of habitats, human-introduced toxins present in an ecosystem influence bat populations. Occupying higher trophic levels, insectivorous bats are sensitive to toxin accumulations in ecosystems and are likely to show consequences of pollutants faster than lower trophic level organisms such as herbivorous insects and birds (Jones et al. 2009, Griffiths et al.
[Show full text]