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Further Assessment of the Genus Neodon and the Description of a New Species from Nepal
RESEARCH ARTICLE Further assessment of the Genus Neodon and the description of a new species from Nepal 1³ 2 2 3 Nelish PradhanID , Ajay N. Sharma , Adarsh M. Sherchan , Saurav Chhetri , 4 1³ Paliza Shrestha , C. William KilpatrickID * 1 Department of Biology, University of Vermont, Burlington, Vermont, United States of America, 2 Center for Molecular Dynamics±Nepal, Kathmandu, Nepal, 3 Department of Biology, Trinity University, San Antonio, Texas, United States of America, 4 Department of Plant and Soil Science, University of Vermont, Burlington, Vermont, United States of America a1111111111 ³ These authors are joint senior authors on this work. a1111111111 * [email protected] a1111111111 a1111111111 a1111111111 Abstract Recent molecular systematic studies of arvicoline voles of the genera Neodon, Lasiopod- omys, Phaiomys, and Microtus from Central Asia suggest the inclusion of Phaiomys leu- OPEN ACCESS curus, Microtus clarkei, and Lasiopodomys fuscus into Neodon and moving Neodon juldaschi into Microtus (Blanfordimys). In addition, three new species of Neodon (N. linz- Citation: Pradhan N, Sharma AN, Sherchan AM, Chhetri S, Shrestha P, Kilpatrick CW (2019) Further hiensis, N. medogensis, and N. nyalamensis) have recently been described from Tibet. assessment of the Genus Neodon and the Analyses of concatenated mitochondrial (Cytb, COI) and nuclear (Ghr, Rbp3) genes recov- description of a new species from Nepal. PLoS ered Neodon as a well-supported monophyletic clade including all the recently described ONE 14(7): e0219157. https://doi.org/10.1371/ and relocated species. Kimura-2-parameter distance between Neodon from western Nepal journal.pone.0219157 compared to N. sikimensis (K2P = 13.1) and N. irene (K2P = 13.4) was equivalent to genetic Editor: Johan R. -
Molecular Phylogeny and Biogeography of Oriental Voles: Genus Eothenomys (Muridae, Mammalia)
MOLECULAR PHYLOGENETICS AND EVOLUTION Molecular Phylogenetics and Evolution 33 (2004) 349–362 www.elsevier.com/locate/ympev Molecular phylogeny and biogeography of Oriental voles: genus Eothenomys (Muridae, Mammalia) Jing Luoa,1, Dongming Yanga, Hitoshi Suzukic, Yingxiang Wangd, Wei-Jen Chene, Kevin L. Campbellf, Ya-ping Zhanga,b,* a Laboratory of Molecular Biology of Domestic Animals, and Cellular and Molecular Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming 650223, China b Laboratory of Conservation and Utilization of Bio-resource, Yunnan University, Kunming 650091, China c Laboratory of Ecology and Genetics, Graduate School of Environmental Earth Science, Hokkaido University, Sapporo 060-0810, Japan d Mammalogy Division, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China e Department of Biology, University of Konstanz, D-78457, Konstanz, Germany f Department of Zoology, University of Manitoba, Winnipeg, Man., Canada R3T 2N2 Received 7 December 2003; revised 21 May 2004 Available online 29 July 2004 Abstract Oriental voles of the genus Eothenomys are predominantly distributed along the Southeastern shoulder of the Qinghai-Tibetan Plateau. Based on phylogenetic analyses of the mitochondrial cytochrome b gene (1143bp) obtained from 23 specimens (eight spe- cies) of Oriental voles collected from this area, together with nucleotide sequences from six specimens (two species) of Japanese red- backed voles (Eothenomys andersoni and Eothenomys smithii) and five species of the closely related genus Clethrionomys, we revised the systematic status of Eothenomys. We also tested if vicariance could explain the observed high species diversity in this area by correlating estimated divergence times to species distribution patterns and corresponding paleo-geographic events. -
Some Chinese Vertebrates
LIBRARY UWVESilTY OF CALIFORNIA DAVIS flDemoirs of the flBuseum of Comparative Zoology? \ i II \ i; V \ i; ii COLLEG K. VOL. XL. No. i. SOME CHINESE VERTEBRATES. INTRODUCTION . BY SAMUEL HENSHAW. PISCES Bv SAMUEL GARM.AN. AMPHIBIA AND REPT1LIA BY THOMAS HARBOUR. AM . BY JOHN E. THAYER AND OUTRAM BANGS. MAMMALIA BY GLOVER M. ALLEN. WITH SIX PLATi.s. CAMBRIDGE, U.S.A.: priuteo for tbe Aueeum. AUGUST, 1912. ADemolrs of tbe flDuseum of Comparative Zoology AT HARVARD COLLEGE. VOL. XL. No. 4. SOME CHINESE VERTEBEATES. INTRODUCTION . BY SAMUEL HENSHAW. PISCES .... BY SAMUEL GARMAN. AMPHIBIA AND REPTILIA BY THOMAS BARBOUR. AVES .... BY JOHN E. THAYER AND OUTRAM BANGS. MAMMALIA BY GLOVER M. ALLEN. WITH SIX PLATES. CAMBRIDGE, U.S.A.: prtnteo for tbe flDuseum. AUGUST, 1912. SOME CHINESE VERTEBRATES. CONTENTS. PAO INTRODUCTION. BY SAMUEL HENSHAW 107 PISCES. BY SAMUEL CARMAN .111 AMPHIBIA AND REPTILIA. BY THOMAS BARBOUK .... .125 AVES. BY JOHN E. THAYER AND OUTRAM BANGS ...... 137 201 MAMMALIA. BY GLOVER M. ALLEN . INTRODUCTION. BY SAMUEL HENSHAW. THE collections described in the following pages were made in the Chinese provinces of Hupeh and Szechwan during the years 1907 and 1908. With hardly an exception they represent the work of Mr. Walter R. Zappey while he was attached to the expedition sent out by the Arnold Arboretum, under the direc- tion of Mr. E. H. Wilson, the well-known botanical collector. Mr. John E. Thayer, recognizing the need of zoological work in lower China, secured the consent of Prof. C. S. Sargent, the Director of the Arnold Arboretum, for a trained collector to accompany Mr. -
Genus/Species Skull Ht Lt Wt Stage Range Abalosia U.Pliocene S America Abelmoschomys U.Miocene E USA A
Genus/Species Skull Ht Lt Wt Stage Range Abalosia U.Pliocene S America Abelmoschomys U.Miocene E USA A. simpsoni U.Miocene Florida(US) Abra see Ochotona Abrana see Ochotona Abrocoma U.Miocene-Recent Peru A. oblativa 60 cm? U.Holocene Peru Abromys see Perognathus Abrosomys L.Eocene Asia Abrothrix U.Pleistocene-Recent Argentina A. illuteus living Mouse Lujanian-Recent Tucuman(ARG) Abudhabia U.Miocene Asia Acanthion see Hystrix A. brachyura see Hystrix brachyura Acanthomys see Acomys or Tokudaia or Rattus Acarechimys L-M.Miocene Argentina A. minutissimus Miocene Argentina Acaremys U.Oligocene-L.Miocene Argentina A. cf. Murinus Colhuehuapian Chubut(ARG) A. karaikensis Miocene? Argentina A. messor Miocene? Argentina A. minutissimus see Acarechimys minutissimus Argentina A. minutus Miocene? Argentina A. murinus Miocene? Argentina A. sp. L.Miocene Argentina A. tricarinatus Miocene? Argentina Acodon see Akodon A. angustidens see Akodon angustidens Pleistocene Brazil A. clivigenis see Akodon clivigenis Pleistocene Brazil A. internus see Akodon internus Pleistocene Argentina Acomys L.Pliocene-Recent Africa,Europe,W Asia,Crete A. cahirinus living Spiny Mouse U.Pleistocene-Recent Israel A. gaudryi U.Miocene? Greece Aconaemys see Pithanotomys A. fuscus Pliocene-Recent Argentina A. f. fossilis see Aconaemys fuscus Pliocene Argentina Acondemys see Pithanotomys Acritoparamys U.Paleocene-M.Eocene W USA,Asia A. atavus see Paramys atavus A. atwateri Wasatchian W USA A. cf. Francesi Clarkforkian Wyoming(US) A. francesi(francesci) Wasatchian-Bridgerian Wyoming(US) A. wyomingensis Bridgerian Wyoming(US) Acrorhizomys see Clethrionomys Actenomys L.Pliocene-L.Pleistocene Argentina A. maximus Pliocene Argentina Adelomyarion U.Oligocene France A. vireti U.Oligocene France Adelomys U.Eocene France A. -
Arvicolinae and Outgroup Mitochondrial Genome Accession Numbers
Supplementary Materials: Table S1: Arvicolinae and outgroup mitochondrial genome accession numbers. Species Name Accession Number Lasiopodomys brandtii MN614478.1 Lasiopodomys mandarinus JX014233.1 Lasiopodomys gregalis MN199169.1 Microtus fortis fortis JF261174.1 Microtus fortis calamorum JF261175.1 Microtus kikuchii AF348082.1 Neodon irene NC016055.1 Neodon fuscus MG833880.1 Neodon sikimensis KU891252.1 Microtus rossiaemeridionalis DQ015676.1 Microtus levis NC008064.1 Microtus arvalis MG948434.1 Terricola subterraneus MN326850.1 Microtus agrestis MH152570.1 Microtus richardsoni MT225016.1 Microtus ochrogaster KT166982.1 Proedromys liangshanensis FJ463038.1 Arvicola amphibius MN122828.1 Myodes regulus NC016427.1 Myodes rufocanus KT725595.1 Myodes rutilus MK482363.1 Myodes glareolus KF918859.1 Eothenomys melanogaster KP997311.1 Eothenomys miletus KX014874.1 Eothenomys chinensis FJ483847.1 Eothenomys Inez KU200225.1 Ondatra zibethicus KU177045.1 Dicrostonyx hudsonius KX683880.1 Dicrostonyx groenlandicus KX712239.1 Dicrostonyx torquatus MN792940.1 Prometheomys schaposchnikowi NC049036.1 Cricetulus griseus DQ390542.2 Peromyscus polionotus KY707301.1 Sigmodon hispidus KY707311.1 Mus musculus V00711.1 Table S2: Sequenced Wildwood Trust water vole samples. Sample Sample Enclosure Local ID Sex No. Type No. 1 Tissue TB31 - - 2 Tissue WW46 - - 3 Tissue WW0304/34 - Male 4 Tissue WW34/39 - - 5 Hair Q88 - Male 6 Hair Q100 - Male 7 Hair R95 - Male 8 Hair R12 - Male 9 Hair R28 - Male 10 Hair Q100 - Male 11 Faecal R2 2228 Male 12 Faecal Q52 2245 Female 13 Faecal Q42 2218 Female 14 Faecal Q7 2264 Female 15 Faecal Q75a 2326 Female 16 Faecal R50 2232 Male 17 Faecal R51 2225 Male 18 Faecal Q58 2314 Male 19 Faecal Q100 2185 Female 20 Faecal R27 2445 Female Table S3: Additional water vole sequences from previous publications. -
Ther5 1 017 024 Golenishchev.Pm6
Russian J. Theriol. 5 (1): 1724 © RUSSIAN JOURNAL OF THERIOLOGY, 2006 The developmental conduit of the tribe Microtini (Rodentia, Arvicolinae): Systematic and evolutionary aspects Fedor N. Golenishchev & Vladimir G. Malikov ABSTRACT. According to the recent data on molecular genetics and comparative genomics of the grey voles of the tribe Microtini it is supposed, that their Nearctic and Palearctic groups had independently originated from different lineages of the extinct genus Mimomys. Nevertheless, that tribe is considered as a natural taxon. The American narrow-skulled voles are referred to a new taxon, Vocalomys subgen. nov. KEY WORDS: homology, homoplasy, phylogeny, vole, Microtini, evolution, taxonomy. Fedor N. Golenishchev [[email protected]] and Vladimir G. Malikov [[email protected]], Zoological Institute, Russian Academy of Sciences, Universitetskaya nab. 1, Saint-Petersburg 199034, Russia. «Êàíàë ðàçâèòèÿ» ïîëåâîê òðèáû Microtini (Rodentia, Arvicolinae): ñèñòåìàòèêî-ýâîëþöèîííûé àñïåêò. Ô.Í. Ãîëåíèùåâ, Â.Ã. Ìàëèêîâ ÐÅÇÞÌÅ.  ñîîòâåòñòâèè ñ ïîñëåäíèìè äàííûìè ìîëåêóëÿðíîé ãåíåòèêè è ñðàâíèòåëüíîé ãåíîìè- êè ñåðûõ ïîëåâîê òðèáû Microtini äåëàåòñÿ âûâîä î íåçàâèñèìîì ïðîèñõîæäåíèè íåàðêòè÷åñêèõ è ïàëåàðêòè÷åñêèõ ãðóïï îò ðàçíûõ ïðåäñòàâèòåëåé âûìåðøåãî ðîäà Mimomys. Íåñìîòðÿ íà ýòî, äàííàÿ òðèáà ñ÷èòàåòñÿ åñòåñòâåííûì òàêñîíîì. Àìåðèêàíñêèå óçêî÷åðåïíûå ïîëåâêè âûäåëÿþòñÿ â ñàìîñòîÿòåëüíûé ïîäðîä Vocalomys subgen. nov. ÊËÞ×ÅÂÛÅ ÑËÎÂÀ: ãîìîëîãèÿ, ãîìîïëàçèÿ, ôèëîãåíèÿ, ïîëåâêè, Microtini, ýâîëþöèÿ, òàêñîíîìèÿ. Introduction The history of the group in the light of The Holarctic subfamily Arvicolinae Gray, 1821 is the molecular data known to comprise a number of transberingian vicari- ants together with a few Holarctic forms. Originally, The grey voles are usually altogether regarded as a the extent of their phylogenetic relationships was judged first-hand descendant of the Early Pleistocene genus on their morphological similarity. -
Diverzita a Biologie Kryptosporidií Hrabošovitých (Arvicolinae)
JIHOČESKÁ UNIVERZITA V ČESKÝCH BUDĚJOVICÍCH ZEMĚDĚLSKÁ FAKULTA Diverzita a biologie kryptosporidií hrabošovitých (Arvicolinae) Diversity and biology of Cryptosporidium in Arvicolinae rodents disertační práce Ing. Michaela Horčičková Školitel: prof. Ing. Martin Kváč, Ph.D. České Budějovice, 2018 Disertační práce Horčičková, M. 2018: Diverzita a biologie kryptosporidií hrabošovitých (Arvicolinae) [Diversity and biology of Cryptosporidium in Arvicolinae rodents]. Jihočeská univerzita v Českých Budějovicích, Zemědělská fakulta, 123 s. PROHLÁŠENÍ Předkládám tímto k posouzení a obhajobě disertační práci zpracovanou na závěr doktorského studia na Zemědělské fakultě Jihočeské univerzity v Českých Budějovicích. Prohlašuji tímto, že jsem práci vypracovala samostatně, s použitím odborné literatury a dostupných zdrojů uvedených v seznamu, jenž je součástí této práce. Dále prohlašuji, že v souladu s § 47b zákona č. 111/1998 Sb. v platném znění, souhlasím se zveřejněním své disertační práce a to v úpravě vzniklé vypuštěním vyznačených částí archivovaných Zemědělskou fakultou, elektronickou cestou ve veřejně přístupné sekci databáze STAG, provozované Jihočeskou univerzitou v Českých Budějovicích na jejích internetových stránkách. Prohlášení o vědeckém příspěvku výsledků práce Tato disertační práce je založena na výsledcích řady vědeckých publikací, které vznikly za účasti dalších spoluautorů. Na tomto místě prohlašuji, že jsem v rámci studia diverzity a hostitelské specifity kryptosporidií parazitujících u hrabošovitých provedla většinu původního výzkumu a tato práce je založena na vědeckých výsledcích, jimiž jsem hlavní autorkou. V Českých Budějovicích dne 8. července 2018 …………………………… Ing. Michaela Horčičková SEZNAM IMPAKTOVANÝCH PUBLIKACÍ Disertační práce vychází z těchto publikací: Horčičková M., Čondlová Š., Holubová N., Sak B., Květoňová D., Hlásková L., Konečný R., Sedláček F., Clark M.E., Giddings C., McEvoy J.M., Kváč M. 2018: Diversity of Cryptosporidium in common voles and description of Cryptosporidium alticolis sp. -
Diversification of Muroid Rodents Driven by the Late Miocene Global Cooling Nelish Pradhan University of Vermont
University of Vermont ScholarWorks @ UVM Graduate College Dissertations and Theses Dissertations and Theses 2018 Diversification Of Muroid Rodents Driven By The Late Miocene Global Cooling Nelish Pradhan University of Vermont Follow this and additional works at: https://scholarworks.uvm.edu/graddis Part of the Biochemistry, Biophysics, and Structural Biology Commons, Evolution Commons, and the Zoology Commons Recommended Citation Pradhan, Nelish, "Diversification Of Muroid Rodents Driven By The Late Miocene Global Cooling" (2018). Graduate College Dissertations and Theses. 907. https://scholarworks.uvm.edu/graddis/907 This Dissertation is brought to you for free and open access by the Dissertations and Theses at ScholarWorks @ UVM. It has been accepted for inclusion in Graduate College Dissertations and Theses by an authorized administrator of ScholarWorks @ UVM. For more information, please contact [email protected]. DIVERSIFICATION OF MUROID RODENTS DRIVEN BY THE LATE MIOCENE GLOBAL COOLING A Dissertation Presented by Nelish Pradhan to The Faculty of the Graduate College of The University of Vermont In Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy Specializing in Biology May, 2018 Defense Date: January 8, 2018 Dissertation Examination Committee: C. William Kilpatrick, Ph.D., Advisor David S. Barrington, Ph.D., Chairperson Ingi Agnarsson, Ph.D. Lori Stevens, Ph.D. Sara I. Helms Cahan, Ph.D. Cynthia J. Forehand, Ph.D., Dean of the Graduate College ABSTRACT Late Miocene, 8 to 6 million years ago (Ma), climatic changes brought about dramatic floral and faunal changes. Cooler and drier climates that prevailed in the Late Miocene led to expansion of grasslands and retreat of forests at a global scale. -
Karyotypic Relationships of the Tatra Vole (Microtus Tatricus)
Folia Zool. – 53(3): 279–284 (2004) Karyotypic relationships of the Tatra vole (Microtus tatricus) Natália MARTÍNKOVÁ1, Petra NOVÁ2, Olga V. SABLINA3, Alexander S. GRAPHODATSKY3 and Jan ZIMA1* 1 Institute of Vertebrate Biology, Academy of Sciences of the Czech Republic, Květná 8, CZ-603 65 Brno, Czech Republic; e-mail: [email protected]; [email protected] 2 Department of Zoology, Faculty of Science, Charles University, Viničná 7, CZ-128 44 Praha, Czech Republic; e-mail: [email protected] 3 Institute of Cytology and Genetics, Russian Academy of Sciences, Siberian Branch, Novosibirsk 6030090, Russia; e-mail: [email protected] Received 22 December 2003; Accepted 25 August 2004 A b s t r a c t . This study reports for the first time the banding pattern on chromosomes of the Tatra vole, Microtus tatricus, as revealed by G-, C-, and Ag-NOR staining procedures. The banded karyotype of M. tatricus was compared with Microtus (Terricola) subterraneus, M. (Stenocranius) gregalis, and M. (Blanfordimys) aghanus. The karyotype of M. tatricus possesses highly derived features, e.g., the low diploid number of chromosomes or unique combinations of arms in the biarmed autosomes. It is almost impossible to find clear relationships of M. tatricus with other extant vole species from the point of view of comparative karyology. The karyotypic changes in voles are apparently not accompanied by adequate divergence in morphological and genetic traits. Key words: chromosomes, banding pattern, phylogeny, M. subterraneus, M. gregalis, M. afghanus Introduction The Tatra vole, Microtus tatricus (Kratochvíl, 1952) is the only mammalian species endemic to the Carpathian Mountains. -
GIS Assessment of the Status of Protected Areas in East Asia
CIS Assessment of the Status of Protected Areas in East Asia Compiled and edited by J. MacKinnon, Xie Yan, 1. Lysenko, S. Chape, I. May and C. Brown March 2005 IUCN V 9> m The World Conservation Union UNEP WCMC Digitized by the Internet Archive in 20/10 with funding from UNEP-WCMC, Cambridge http://www.archive.org/details/gisassessmentofs05mack GIS Assessment of the Status of Protected Areas in East Asia Compiled and edited by J. MacKinnon, Xie Yan, I. Lysenko, S. Chape, I. May and C. Brown March 2005 UNEP-WCMC IUCN - The World Conservation Union The designation of geographical entities in this book, and the presentation of the material, do not imply the expression of any opinion whatsoever on the part of UNEP, UNEP-WCMC, and IUCN concerning the legal status of any country, territory, or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. UNEP-WCMC or its collaborators have obtained base data from documented sources believed to be reliable and made all reasonable efforts to ensure the accuracy of the data. UNEP-WCMC does not warrant the accuracy or reliability of the base data and excludes all conditions, warranties, undertakings and terms express or implied whether by statute, common law, trade usage, course of dealings or otherwise (including the fitness of the data for its intended use) to the fullest extent permitted by law. The views expressed in this publication do not necessarily reflect those of UNEP, UNEP-WCMC, and IUCN. Produced by: UNEP World Conservation Monitoring Centre and IUCN, Gland, Switzerland and Cambridge, UK Cffti IUCN UNEP WCMC The World Conservation Union Copyright: © 2005 UNEP World Conservation Monitoring Centre Reproduction of this publication for educational or other non-commercial purposes is authorized without prior written permission from the copyright holder provided the source is fully acknowledged. -
A Checklist of the Mammals of South-East Asia
A Checklist of the Mammals of South-east Asia A Checklist of the Mammals of South-east Asia PHOLIDOTA Pangolin (Manidae) 1 Sunda Pangolin (Manis javanica) 2 Chinese Pangolin (Manis pentadactyla) INSECTIVORA Gymnures (Erinaceidae) 3 Moonrat (Echinosorex gymnurus) 4 Short-tailed Gymnure (Hylomys suillus) 5 Chinese Gymnure (Hylomys sinensis) 6 Large-eared Gymnure (Hylomys megalotis) Moles (Talpidae) 7 Slender Shrew-mole (Uropsilus gracilis) 8 Kloss's Mole (Euroscaptor klossi) 9 Large Chinese Mole (Euroscaptor grandis) 10 Long-nosed Chinese Mole (Euroscaptor longirostris) 11 Small-toothed Mole (Euroscaptor parvidens) 12 Blyth's Mole (Parascaptor leucura) 13 Long-tailed Mole (Scaptonyx fuscicauda) Shrews (Soricidae) 14 Lesser Stripe-backed Shrew (Sorex bedfordiae) 15 Myanmar Short-tailed Shrew (Blarinella wardi) 16 Indochinese Short-tailed Shrew (Blarinella griselda) 17 Hodgson's Brown-toothed Shrew (Episoriculus caudatus) 18 Bailey's Brown-toothed Shrew (Episoriculus baileyi) 19 Long-taied Brown-toothed Shrew (Episoriculus macrurus) 20 Lowe's Brown-toothed Shrew (Chodsigoa parca) 21 Van Sung's Shrew (Chodsigoa caovansunga) 22 Mole Shrew (Anourosorex squamipes) 23 Himalayan Water Shrew (Chimarrogale himalayica) 24 Styan's Water Shrew (Chimarrogale styani) Page 1 of 17 Database: Gehan de Silva Wijeyeratne, www.jetwingeco.com A Checklist of the Mammals of South-east Asia 25 Malayan Water Shrew (Chimarrogale hantu) 26 Web-footed Water Shrew (Nectogale elegans) 27 House Shrew (Suncus murinus) 28 Pygmy White-toothed Shrew (Suncus etruscus) 29 South-east -
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OCCASION P PER No. 297 Records of the Zoological Survey of ndia Li t of valid Rodent taxa (Class: Ma malia, Order: Rodentia) from Indian Subcontinent includ· g Myanmar M.S. PRAD AN AND S.S. TALMALE ZOOLOGIC L SURVEY OF I ' DIA OCCASIONAL PAPER No. 297 RECORDS OF THE ZOOLOGICAL SURVEY OF INDIA List of valid Rodent taxa (Class: Mammalia, Order: Rodentia) from Indian Subcontinent including Myanmar M.S. PRADHANI AND S.S. TALMALE2 Zoological Survey of India Western Regional Centre, Vidyanagar, Sector 29, Rawet Road PCNTDA Post, Pune, Maharashtra 411 044 Email: [email protected][email protected] Edited by the Director, Zoological Survey of India, Kolkata ~m Zoological Survey of India Kolkata CITATION Pradhan, M.S. and Talmale, S.S. 2009. List of valid Rodent taxa (Class : Mammalia; Order : Rodentia) from Indian Subcontinent including Myanmar, Rec. zool. Surv. India, Gcc. Paper No. 297 : 1-239. (Published by the Director, Zool. Surv. India, Kolkata) Published : October, 2009 ISBN J78-81-8171-224-0 t; Gnv!. of India, 2009 ALL RIGHTS RESERVED • No Part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise without the prior permission of the publisher. • This book is sold subject to the condition that it shall not, by way of trade, be lent, resold, hired out or otherwise disposed off without the publisher's consent, in a form of binding or cover other than that in which, it is published. • The correct price of this publication is the price printed on this page.