DOCSLIB.ORG

(Genus Bufo, Bufonidae) Author(S) MATSUI, Masafumi Cita

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
(Genus Bufo, Bufonidae) Author(S) MATSUI, Masafumi Cita Morphometric Variation Analyses and Revision of the Title Japanese Toads (Genus Bufo, Bufonidae) Author(s) MATSUI, Masafumi Contributions from the Biological Laboratory, Kyoto Citation University (1984), 26(3-4): 209-428 Issue Date 1984-07-31 URL http://hdl.handle.net/2433/156031 Right Type Departmental Bulletin Paper Textversion publisher Kyoto University Contr. biot. Lab. K),oto Univ., Vol. 26, pp. 209-428 Issued 31 July 1984 Morphometric Variation Analyses and Revision of the Japanese Toads (Genus Bufo, Bu fonidae)i) Masafumi MATsui Abstract Two problems havc been involved in the classification of the Japanese toads : (1) relation- ships with the continental forms, and (2) relationships among forms hitherto described within the islands. The present study was undertaken with the purpose ot- resolving the latter problem, and to achieve this, morphometric variation analyses were made ofa large number of preserved specimens. The results were synthesized with the hitherto accumulated non- metrical and non-morphological information so as to taxonomfcally revise the Japanese toads. A historical review of the classificat{on of theJapanese toads revealed that the most complex problems were involved in the still-water breeding forms from the main islands (= the Japanese common toad), and that thc taxonomic confusion was caused mainly by previous authors' classification through examination ofa small number ofspecimens notwithstanding the great variability ofexternal morphometric characters ofthe toads. The critical points for measurc- ments fbr each character, and problcms with measurement crrors duc to variant fixation and preservation are discussed. Allomorphic relations of 30 charactcrs to SVL were analyzed fbr four age/sex groups o{' 147 Japanese common toads from rvlomoyama, Kyoto, with thc result that many characters should be trcated separately tbr three groups, i.c., young, adult males, and adult females. Besides, it was determined that simple ratios to SVL should not be calculated for many characters. For theJapanese common toad, SVL and relativc value (ACV:=theoretical value calculated by the allomorphic relationship of each character to SVL) of 10 selected characters for each of 2,525 specimens belonging to 96 populations were analyzed, and the presence or absence of intrapopulational age and sexual variations and of interpopulational variations was noted. From these analyses, the Japanese common tbad was divided into northeastern (A) and southwestern (B) types chiefiy by the relative size of thc tympanum diameter. For the two types of the .Japanese common toad, presence of morphometric clines in re!ation to geographical and/or climatological parameteis was in- vestigated. Clear clinal tendencies were found mostly in type A, whereas few clear trends were detected in type B. Taxonomical meaning of the clines was discussed, and it was suggested that the Japanese common toad should be split into taxa beiow the species level. Similar morphometric analyses were made on the still-water breeding Miyako toad from thc Ryukyu Archipelago. The results for 176 specimens from 4 populations ind{cated that this form was very uniform in. external morphometry, that it greatly differed from the Japanesc common toad in several characters, and that the differences were greater bctween this form and geograph{cally adjacent type B Japanese common toads in some characters. Similar analyscs were also performed on 265 specimens of 13 populations of thc stream-breeding ,Japanese stream toad. Interpopulation variation in this form was very small. Comparisons with sympatric and allopatric populations of thc Japanese common toad wcre made with the, result that the two fbrms were found to be morphometrically almost complctcly separatcd, showing grcatest differentiation in thc zQne. of sympatry. Taxonomic ('onclusions wcre drawn with thesc rcsults in mind. For tlie.Japa. ncsÅë c,ommon toad, thc typc scries or topc)- types of each of the hitherto described fbrms wcre compared with thc othcr populations and it was determined that neither type A nor typc B can bc split further. Thc syntypes of Bqfo l) Part of a thesis submitted to the Faculty of Scien(:e of Kyoto University in partial fu1filment ot' the requirein(,".nts for the D. Sc. degree. 210 MMATsul vul•garis .iaPonicus, which is the oldest of all the described forms from Japan and is now kept in Leiden, were examined and a lectotype was designated and described. This form clearly belonged to type B. 'rhc nature of the intergradation of morphometric. variations between type A and type B is discussed, and special attention is paid to the sudden change in the morphocline in the tympanum diameter. From this discussion, the relation of thc two typcs is regarded as subspecific, and they are treated as B. j'aponicus fbrmosus (type A) and B. i j'aponicus (type B). For the Miyako toad, the morphometric difference f'rom the Japanese, common toad in the adjacent distribution range was studied, and the two fbrms are regarded as belonging to the different lineages. In addition, the known results ofartificial hybridization support this idea, and therefbre, the form is regarded as specifically different from J'aPonicus and is treated as a subspecies (mi akonis) of the northeastern Chinese species B. gargarizans. The Japanese stream toad has been showii to have strong genetic compatibility with the Japanese common toad. Therefbre, from the viewpoint of evolutionary taxonomy, the taxonomic value of the evidence from genetical sources is discussed. The two forms are distributed sympatrically, but are judged to seldom interbreed or show morphological inter- gradation in nature. Thus, notwithstanding the strong genetic compatibility of the artificial hybrids, theJapanese stream toad is regarded as a full species, B. torrenticota, as was originally described. In conclusion, the Japanese toads are taxonomically divided into three species, Bufo j'aPonicus (.i. J'aPonicus Schlegel, 1838 and i formosus Boulenger, 1883), B. gargarizans miyakonis Okada, l931, and B. torrenticola M. Matsui, 1976. Contents Introduction .,............,...............,..........,.........................,...... 214 I History and problems of the taxonomy of the Japanese toads . 216 1. A historical review ofclassification oftheJapanese toads ........,.. 216 a) 1826-1907 ••••J•••'''''''''''''''''''''''''''''''''''''''''''''''''''''''-'''' t--t 216 b) 1908-1942 .......................,.....•-•-••••••••J••••••••••••-•••-i•••-•-•• .220 c) 1943-1966 ........................,......,..,,,.,......,..,............,...... .221 - .---+- . d) 1967- .""".."",".".H"H.,.,..,.-."..".,.,",..",.",H",...,.,. 22l 2. Taxonomic problems and characters to be chosen ,.••J.J•.••J•JJ-•••• 222 a) Taxonomicproblem.......,....,.,.,...,...,.,.,..,.,......,...,....,,..,., .222 b) Characters to be chosen .....,.........,.....,.,.............,...,......., 224 +- --..---- ------ II General description of materials and methods of observation - -- -t -- -J- -i- -- -- - . 225 l. "daterials .,.,H,.""."..,.,".,.".."..,,",,H,.,H.,". ---J-.-J----- - -. - --- -- l .-- - -J -- - 225 a) Population ..............................,.,........,.,..,. 22Jr --------------- -----J------------ d b) Determination ofsex and maturity ......,......,. ---t------l-- . ----4---------- . 230 2. 0bservation methods ......,....,......••-•••-•••••i•••- ---------+----- ------------------ 234 a) Methodsofmeasurements ....,...,.,.,...,.,........ ---J-J--------- -t -- -. -- -- --- --- -J 234 b) Dimensions measured ............,.,................., --------------- -- -- -- -J -- --- -- E-. 236 i) Standardcharacterdimension .......,......,.., -i -- -- -- -- --- -------------..-.. 236 ii) Characterdimensionsofhcadregion ..,...... -. -.. - --t --- --t -- 237 iii) Characterdimensionsofforelimb .,,,.,.......,. 238 iv) Character dimensions ofhindlimb ,..,.........,. 238 c) Shrinkag.ein fixedspecimens .....,....,.........,,., 239 1) Shrinkag. e caused by forrnalin fixation ......,., ..239 ------t------ -t -- - --. --- -- --- -J 2) Shrinkagcin toads long preservcd in cthanol ----t--t----4 -tt--tttttttt-- . 240 llI Intrapopulation allomorphosis in the Japanese commontoad from Momeyama) Kyoto...................,...........................,....,....,., 242 -----.------------ . Materials and methods ...........................,..,...,.... 243 ------------- . .-------------+-.- . Results .....".......................................,............, , 244 -- -- -'- i' -- -- -l---t--l--------- . a) Regression to allomorphicformulae ,.............. 244 --Jl--t-----l-- -----------------l . ' b) 'I"ypes ofallomorphosis in each agc/sex group ••, 249 ----t---,--------t MorPhometr7 and Revision ofJaPanese Toads 211 c) Comparisons ofallomorphic relations among agelsex groups ....... .... ..250 . + . + . ...254 d) CharacteristicsofallomorphiccoeMcientsinthecombinedgroups . Discussion .................................................................................. ..257 . + Regression formula and correlation coefficients ............................... .257 + Slope and position of the regression lines .....................................,.. .258 . , Intrapopulationvariation,.......................,..........................,......... ,....259 . ' Growth gradient and function .................................................... ......260 . IV Morphometric variation in the Japanese cornmon toad ............. ...261 . , Materials and methods ..,..............,...........,.....,•......,............,.•••••• . .261 , . a) Materials ..........................,...........,.................................
Load more

Recommended publications
  • The Spemann Organizer Meets the Anterior‐
    The Japanese Society of Developmental Biologists Develop. Growth Differ. (2015) 57, 218–231 doi: 10.1111/dgd.12200 Original Article The Spemann organizer meets the anterior-most neuroectoderm at the equator of early gastrulae in amphibian species Takanori Yanagi,1,2† Kenta Ito,1,2† Akiha Nishihara,1† Reika Minamino,1,2 Shoko Mori,1 Masayuki Sumida3 and Chikara Hashimoto1,2* 1JT Biohistory Research Hall, 1-1 Murasaki-cho, Takatsuki, Osaka 569-1125, 2Department of Biological Sciences, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, and 3Institute for Amphibian Biology, Hiroshima University, Kagamiyama, Higashi-Hiroshima, Hiroshima 739-8526, Japan The dorsal blastopore lip (known as the Spemann organizer) is important for making the body plan in amphibian gastrulation. The organizer is believed to involute inward and migrate animally to make physical contact with the prospective head neuroectoderm at the blastocoel roof of mid- to late-gastrula. However, we found that this physical contact was already established at the equatorial region of very early gastrula in a wide variety of amphibian species. Here we propose a unified model of amphibian gastrulation movement. In the model, the organizer is present at the blastocoel roof of blastulae, moves vegetally to locate at the region that lies from the blastocoel floor to the dorsal lip at the onset of gastrulation. The organizer located at the blastocoel floor con- tributes to the anterior axial mesoderm including the prechordal plate, and the organizer at the dorsal lip ends up as the posterior axial mesoderm. During the early step of gastrulation, the anterior organizer moves to estab- lish the physical contact with the prospective neuroectoderm through the “subduction and zippering” move- ments.
    [Show full text]
  • Genetic Distance and Social Compatibility in the Aggregation Behavior of Japanese
    bioRxiv preprint doi: https://doi.org/10.1101/453316; this version posted October 25, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. 1 Original Article 2 3 Genetic distance and social compatibility in the aggregation behavior of Japanese 4 toad tadpoles 5 6 Running title: 7 Genetic influence in tadpole’s aggregation 8 9 Kazuko Hase1,2, Masato S. Abe1,3, and Masakazu Shimada1 10 1Department of General Systems Studies, The University of Tokyo, Meguro, Tokyo 153- 11 8902, Japan 12 2Department of Evolutionary Studies of Biosystems, The Graduate University for 13 Advanced Studies [SOKENDAI], Shonan Village, Hayama, Kanagawa 240-0193, Japan 14 3 RIKEN AIP, Nihonbashi 1-chome Mitsui Building, 1-4-1 Nihonbashi, Chuo-ku, Tokyo 103- 15 0027, Japan. 16 17 Corresponding: 18 Kazuko Hase, Department of Evolutionary Studies of Biosystems, The Graduate University 19 for Advanced Studies [SOKENDAI] 20 Shonan Village, Hayama, Kanagawa 240-0193, Japan 21 TEL: 81-46-858-1617 22 E-mail: [email protected] 23 24 25 bioRxiv preprint doi: https://doi.org/10.1101/453316; this version posted October 25, 2018. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. 26 Abstract 27 From microorganism to vertebrates, living things often exhibit social aggregation. One of 28 anuran larvae, dark-bodied toad tadpoles (genus Bufo) are known to aggregate against 29 predators. When individuals share genes from a common ancestor for whom social 30 aggregation was a functional trait, they are also likely to share common recognition cues 31 regarding association preferences, while greater genetic distances make cohesive aggregation 32 difficult.
    [Show full text]
  • Vertebrate Natural History Lab Manual John W. Bickham Michael J. Smolen Christopher R. Harrison 1997 Revision Departme
    WFSC 302: Vertebrate Natural History Lab Manual John W. Bickham Michael J. Smolen Christopher R. Harrison 1997 Revision Department of Wildlife & Fisheries Sciences Texas A&M University Spring 2009 Revision by Toby Hibbitts Acknowedgements The authors would like to acknowledge all those students and teaching assistants who have contributed to the continuing evolution of this lab manual. We would also like to thank Eduardo G. Salcedo for his excellent drawings of the fish, herps and protochordates. 1 Kingdom Animalia Phylum Hemichordata Class Enteropneusta Acorn Worms Class Pterobranchia Phylum Chordata Subphylum Urochordata Class Ascidiacea Benthic Tunicates Class Larvacea Pelagic Tunicates Class Thaliacea Salps Subphylum Cephalochordata Amphioxus Order Myxiniformes Family Myxinidae Hagfish Subphylum Vertebrata Superclass Agnatha Class Cephalaspidomorphi Order Petromyzontiformes Family Petromyzontidae Lampreys Superclass Gnathostomata Class Chondrichthyes Subclass Holocephali Order Chimaeriformes Family Chimaeridae Ratfish Subclass Elasmobranchii Order Pristiformes Family Pristidae Sawfishes Order Carcharhiniformes Family Sphyrnidae Hammerheads Order Orectolobiformes Family Ginglymostomatidae Nurse Shark Order Torpediniformes Family Torpedinidae Electric Rays Order Myliobatiformes Family Dasyatidae Stingrays Order Rajiformes Family Rajidae Skates Class Osteichthyes Subclass Sarcopterygii Order Lepidosireniformes Family Lepidosirenidae African Lungfishes Subclass Actinopterygii Order Polypteriformes Family Polypteridae Bichirs Order Acipenseriformes
    [Show full text]
  • 510733.Pdf (3.951Mb)
    T.C. RECEP TAYYİP ERDOĞAN ÜNİVERSİTESİ FEN BİLİMLERİ ENSTİTÜSÜ TÜRKİYE’DEKİ Bufo bufo VE Bufo verrucosissimus TÜRLERİNİN MORFOLOJİK YÖNDEN KARŞILAŞTIRILMASI CANTEKİN DURSUN TEZ DANIŞMANI PROF. DR. NURHAYAT ÖZDEMİR TEZ JÜRİLERİ PROF. DR. BİLAL KUTRUP DOÇ. DR. SERKAN GÜL YÜKSEK LİSANS TEZİ BİYOLOJİ ANABİLİM DALI RİZE-2018 Her Hakkı Saklıdır ÖNSÖZ Türkiye’de yayılış gösteren Bufo bufo ve Bufo verrucosissimus türlerinin morfolojik yönden karşılaştırıldığı bu çalışma, Recep Tayyip Erdoğan Üniversitesi, Fen Bilimleri Enstitüsü, Biyoloji Anabilim Dalı’nda ‘‘Yüksek Lisans Tezi’’ olarak hazırlanmıştır. Lisansüstü eğitimime başladığım ilk günden bugüne kadar, bilgi ve birikimlerini benimle paylaşan, akademik ilerleyişimdeki yol göstericilerim ve geleceğim için desteklerine her daim ihtiyacım olan değerli danışman hocam Sayın Prof. Dr. Nurhayat ÖZDEMİR ve değerli hocam Sayın Doç. Dr. Serkan GÜL’e sonsuz teşekkürlerimi sunarım. Hayatımın her aşamasında maddi ve manevi desteklerini esirgemeyen, her zaman yanımda olan, değerli aile bireylerim babam Fikri DURSUN'a, annem Binniye DURSUN'a ve kardeşim Özge DURSUN'a teşekkürü bir borç bilirim. Ayrıca, 3 yıl boyunca bir ekip ruhuyla beraber çalıştığımız ve bu sürecin her aşamasında yanımda olan, desteklerini esirgemeyen değerli dostlarım Özge ÖZKAN’a, Ebru KIZILHAN’a ve her daim destekçim olan değerli dostum Hasan ALBAYRAK’a içtenlikle teşekkür ederim. Hazırlanan bu Yüksek lisans tezi Tübitak tarafından 114Z823 nolu proje ile desteklenmiştir. Cantekin DURSUN I II ÖZET TÜRKİYE’DEKİ Bufo bufo VE Bufo verrucosissimus TÜRLERİNİN MORFOLOJİK YÖNDEN KARŞILAŞTIRILMASI Cantekin DURSUN Recep Tayyip Erdoğan Üniversitesi Fen Bilimleri Enstitüsü Biyoloji Anabilim Dalı Yüksek Lisans Tezi Danışmanı: Prof. Dr. Nurhayat ÖZDEMİR Bu tez çalışmasının amacı Türkiye’de dağılım gösteren Bufo cinsine ait olan Bufo bufo (Linneaus, 1758) ve Bufo verrucosissimus (Pallas, 1814) türleri arasındaki morfolojik farklılıkların belirlenmesidir.
    [Show full text]
  • The Wildlife in Japan
    T he 日本 Wildlife in の J apan 自然 The Wildlife in Japan Published in March 2015 Chuo-godochosha No. 5, 1-2-2 Kasumigaseki, Chiyoda-ku, Tokyo 100-8975, Japan http://www.env.go.jp/ © Ministry of the Environment 2015 This brochure is printed on recycled paper. Edited and published by : Wildlife Division, Nature Conservation Bureau Editorial work : Japan Wildlife Research Center Design : artpost inc. Photos provided by : Hitoshi Imai, Harumi Iida, Kazuo Unno, Yoshiteru Eguchi, Katsumi Kawasaki, Kenji Kitaura, Masahide Kubota, Kano Koide, Yasumasa Kobayashi, Atsushi Sakurai, Yasushi Sugawara, Takao Sugeta, Hiroshi Takahashi, Tomonari Nakajima, Kenji Numata, Fumihiko Ban, Shinichi Hirasawa, Yukio Horiguchi, Misaki Mizukami, Kazuo Minato, Katsuhiko Mori, Noriaki Yamamoto, Shiro Yabe, Hisashi Yokota, Pika Fan Club and Society of Scientific Photography(SSP) 1 1 Flora of Japan The flora of Japan can be roughly classified into the following four categories based on the differences in temperature and precipitation: alpine zone, subalpine zone, summer-green broad-leaved forest zone and evergreen broad-leaved forest zone. The alpine zone is dominated by stone pines, the subalpine zone is dominated by spruces, and evergreen needle-leaved trees, the summer-green broad-leaved forest zone is dominated by deciduous broad-leaved trees such as Japanese beeches and Japanese oaks, and the evergreen broad-leaved forest zone is dominated by evergreen broad-leaved trees such as Yabutsubaki (Camellia japonica) and Shii (Castanopsis spp.) The Japanese archipelago is long, stretching from north to south, and has mountain ranges exceeding 3,000 m ; therefore, its vegetation changes both horizontally (with latitude) and vertically (with altitude).
    [Show full text]
  • Phylogeographic and Population Insights of the Asian Common Toad
    Phylogeographic and population insights of the Asian common toad (Bufo gargarizans) in Korea and China: population isolation and expansions as response to the ice ages Amae¨l Borze´e1,7, Joana L. Santos2, Santiago Sa´nchez-RamI´rez3,4, Yoonhyuk Bae5, Kyongman Heo6, Yikweon Jang7 and Michael Joseph Jowers2,8 1 Laboratory of Behavioural Ecology and Evolution, School of Biological Sciences, Seoul National University, Seoul, South Korea 2 CIBIO/InBIO (Centro de Investigac¸a˜o em Biodiversidade e Recursos Gene´ticos), Universidade do Porto, Campus Agrario De Vaira˜o, Portugal 3 Department of Ecology and Evolutionary Biology, University of Toronto, Toronto, ON, Canada 4 Department of Natural History, Royal Ontario Museum, Toronto, ON, Canada 5 Academy of Life Science and Biotechnology, Hallym University, Chuncheon, South Korea 6 College of Natural Science, Sangmyung University, Seoul, South Korea 7 Department of Life Sciences, Division of EcoScience, Ewha Womans University, Seoul, South Korea 8 National Institute of Ecology, Geumgang-ro, Maseo-myeon, Seocheon-gun, South Chungcheong Province, South Korea ABSTRACT The effects of ice ages on speciation have been well documented for many European and North American taxa. In contrast, very few studies have addressed the consequences of such environmental and topographical changes in North East Asian species. More precisely, the Korean Peninsula offers a unique model to assess patterns and processes of speciation as it hosts the northern- and eastern-most distribution limit of some widespread Asian taxa. Despite this, studies addressing Submitted 1 March 2017 Accepted 25 October 2017 phylogeographic patterns and population genetics in the peninsula and surrounding Published 28 November 2017 countries are few and studies for most families are lacking.
    [Show full text]
  • Vergleichend Anatomische Studien an Den Nasalen Und Vomeronasalen Olfaktorischen Organen Der Anuren Unter Funktionsmorphologischen Und Phylogenetischen Aspekten
    VERGLEICHEND ANATOMISCHE STUDIEN AN DEN NASALEN UND VOMERONASALEN OLFAKTORISCHEN ORGANEN DER ANUREN UNTER FUNKTIONSMORPHOLOGISCHEN UND PHYLOGENETISCHEN ASPEKTEN Dissertation zur Erlangung des akademischen Grades einer Doktorin der Naturwissenschaften (Dr. rer. nat.) im Fachbereich Naturwissenschaften der Universität Kassel vorgelegt von Christine Nowack Kassel, im Mai 2008 Datum der mündlichen Prüfung: 02. Juli 2008 Erster Gutachter: Prof. Dr. A. Wöhrmann-Repenning Zweiter Gutachter: Prof. Dr. R. Wagner I Danksagung An allererster Stelle und mit aller Herzlichkeit möchte ich mich bei meiner „Doktormutter“ Frau Prof. Dr. Angela Wöhrmann-Repenning bedanken. Dies gilt zum einen natürlich für die Bereitstellung des Arbeitsplatzes und die thematische Anregung, aber auch – und das im Be- sonderen – für die über das eigentliche Maß einer Doktoranden-Betreuung hinausgehende, manchmal strenge, aber immer offene, ehrliche und außerordentlich konstruktive Zusammen- arbeit. Die persönliche und freundschaftliche Atmosphäre innerhalb der Arbeitsgruppe und der stetige methodische und inhaltliche Austausch unter den Mitarbeitern waren für das Ge- lingen dieser Arbeit maßgeblich mit verantwortlich. Dem Zoo Frankfurt und insbesondere dem stellvertretenden Zoodirektor und Leiter des Exo- tariums Dipl.-Biol. Rudolf Wicker danke ich für die großzügige Abgabe von verschiedenen Anuren, ebenso wie dem Leiter des Aquariums Dietzenbach Herbert Nigl, dem Leiter der Arbeitsgruppe Herpetologie am Forschungsinstitut Senckenberg in Frankfurt Dr. Gunther Köhler, sowie
    [Show full text]
  • Developing Assisted Reproductive Technologies for Endangered North American Amphibians
    Mississippi State University Scholars Junction Theses and Dissertations Theses and Dissertations 1-1-2016 Developing Assisted Reproductive Technologies for Endangered North American Amphibians Cecilia Jane Langhorne Follow this and additional works at: https://scholarsjunction.msstate.edu/td Recommended Citation Langhorne, Cecilia Jane, "Developing Assisted Reproductive Technologies for Endangered North American Amphibians" (2016). Theses and Dissertations. 1373. https://scholarsjunction.msstate.edu/td/1373 This Dissertation - Open Access is brought to you for free and open access by the Theses and Dissertations at Scholars Junction. It has been accepted for inclusion in Theses and Dissertations by an authorized administrator of Scholars Junction. For more information, please contact [email protected]. Template A v3.0 (beta): Created by J. Nail 06/2015 Developing assisted reproductive technologies for endangered North American amphibians By TITLE PAGE Cecilia Jane Langhorne A Dissertation Submitted to the Faculty of Mississippi State University in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy in Animal Physiology in the Department of Biochemistry, Molecular Biology, Entomology and Plant Pathology Mississippi State, Mississippi May 2016 Copyright by COPYRIGHT PAGE Cecilia Jane Langhorne 2016 Developing assisted reproductive technologies for endangered North American amphibians By APPROVAL PAGE Cecilia Jane Langhorne Approved: ____________________________________ Scott T Willard (Major Professor/Graduate
    [Show full text]
  • Amphibian and Reptile Pet Markets in the Eu: an Investigation and Assessment
    AMPHIBIAN AND REPTILE PET MARKETS IN THE EU: AN INVESTIGATION AND ASSESSMENT Phillip C Arena Catrina Steedman Clifford Warwick Murdoch University Emergent Disease Foundation Emergent Disease Foundation Peel Campus Riverside House Riverside House Education Drive River Lawn Road River Lawn Road Mandurah Tonbridge Tonbridge Western Australia 6210 Kent TN9 1EP Kent TN9 1EP UK UK Arena, Steedman and Warwick, 2012 AMPHIBIAN AND REPTILE PET MARKETS IN THE EU: AN INVESTIGATION AND ASSESSMENT CONTENTS Page SUMMARY 5 INTRODUCTION 6 General 6 Animal welfare 8 Human health 9 Invasive alien species PROJECT REMIT 11 Animal welfare 11 Public health and safety 11 Invasive alien species 11 RELEVANT KEY LITERATURE 11 Brief overview of some key existing reports on wildlife markets 11 Scientific 11 Semi-scientific 11 Non-scientific/not-determined 12 PROTOCOL & METHODS 12 Animal welfare assessment 12 Monitoring of the thermal environment 12 Figure 1. Line of sight 13 Table 1. Behavioural signs of captivity-stress 13 Figure 2. Sample table giving recording method for signs of arousal and discomfort 13 and related keys Human health and visitor behaviour assessments 14 Figure 3a. Initial mode of contact observation system 14 Figure 3b. Subsequent mode of contact observation system 14 Figure 4. Mode of contact recording system 14 Invasive alien species assessment 14 RESULTS 15 Animal welfare 15 Figure 5. Stress-related behaviours among amphibians and reptiles at European markets 15 Figure 6. Proportion of animals exhibiting determined stress-related versus 15 undetermined behaviours Figure 7. Proportion of animals exhibiting specific stress-related behaviours 16 Monitoring of the thermal environment 16 Table 2.
    [Show full text]
  • Bufo Japonicus Formosus
    HERPETOLOGICAL JOURNAL, Vol. 9, pp. 9-13 (1999) BREEDING SITE FIDELITY IN THE JAPANESE TOAD, BUFO JAPONICUS FORMOSUS TAMOTSU KUSAN01, KAZUKO MARUYAMA2 AND SHIGENORI KANENK01 1Department of Biology, Faculty of Science, TokyoMe tropolitan Un iversity, Minami-ohsawa 1-1, Hachioji, Tokyo 192-0397, Japan 2Tsujido 5948-1, Fujisawa, Kanagawa 251-0047, Japan A breeding population of Japanese toads, Bufo japonicusformosus was studied at two ponds in Yamakita-machi, Kanagawa Prefecture, Japan, during the three breeding seasons of 1992- 1994. The movement of toads between the ponds was monitored by mark-recapture studies. Although the two ponds were only 30 m apart, most toads did not switch ponds within or between years. A binomial test and bootstrap simulation rejected the null hypothesis that individual toads selected their breeding ponds randomly from year to year. Mating success and other ecological and behavioural characteristics were compared between male toads that exhibited site fidelity and those that switched ponds during the study period, but we could not detect any significantdifferences between them. This study demonstrated strong site fidelity in B.j.formosus, but failed to show quantitative advantages or disadvantages ofreturning annually to the same pond. Key words: Bufo japonicus fo rmosus, site fidelity, movement between ponds, mating success INTRODUCTION does not necessarily indicate that toads actively select particular ponds. In fact, Reading (1991) showed Many species of anurans spend their non-breeding et al. season in terrestrial home ranges although they breed in that in B. bufo the degree ofrelocation between ponds is correlated negatively with the distance between ponds. wetlands such as ponds.
    [Show full text]
  • 592 INDEX EA2 P592 607 Indexnew 12/24
    EA2_p592_607_IndexNew 12/24/04 11:01 AM Page 592 592 INDEX INDEX A Agelaius phoeniceius 351 Anairetes parulus 328 Antimore rostrata 496 Argiope spp. 540 aardvark 175, 175 Agkistrodon spp. 401, 413 Anas spp. 256, 258, 258 Antipathes furcata 522 Argonauta argo 531, 531 aardwolf 147, 147 Agouti spp. 232, 236, 236 Anaspides tasmaniae 549 antlers 194, 194 Argulus foliaceus 548 aba 473, 473 agoutis 232, 236, 236 anchoveta 479, 479 antlion 579, 581, 581 argus, great 255, 255 abalone, European edible 528 Agriope bruennichi 539 Ancylus fluviatilis 529 antpitta, streak-chested 326 Argusianus argus 255, 255 Ablennes hians 499 Agrotis infusa 74, 74, 572 Andigena hypoglauca 321 ants 561, 574, 578 Argynnis paphia 573 Ablepharus kitaibelii 385, 387 Ahaetulla nasuta 406 Andrias davidianus 421, 421 bull ant 578 Argyrodes gibbosus 541 carpenter ant 578 Abraliopsis morisii 530 Ailuropoda melanoleuca 57, 59, Androctonus australis 537 Argyropelecus olfersi 491 consumption by poison-arrow Abrocoma cinerea 238, 238 122, 130, 131, 131, 132, Androngo trivittatus 384 arid environments 46, 46 132 frogs 32, 443 Abronia aurita 391 Aneides lugubris 425, 425 Arion rufus 529 Ailurus fulgens 130, 132, 132 giant hunting ant 578 Acanthaster planci 584 anemonefish, clown 508 armadillos 82, 82, 83, 83 Aipysurus laevis 411 honey ant 578 Acanthisitta chloris 330 anemones see sea anemones Arothron meleagris 512, 512 Aix sponsa 258, 258 leaf-cutter ant 15, 32, 578 Acanthiza chrysorrhoa 334 angel insects 579 Artamus superciliosus 335 akohekohe 352 pharaoh ant 578 Acanthocardia aculeata 527 angel squeaker 485 red wood ant 578 Artemia salina 547, 547 Alaemon alaudipes 339 Acanthocybium solandri 510 angelfishes 452, 498, 507, 507, slave-making ant 578 Arthroleptis wahlbergii 447 Alauda arvensis 339 Acanthodactylus pardalis 389, 389 508, 508 thief ant 578 arthropods 516, 534–82 albatrosses 57, 264, 264 Acanthophis antarcticus 410, 410 anglemouth, veiled 491 trap-jaw ant 578 Arvicanthis niloticus 228 Albula spp.
    [Show full text]
  • Title Variation in Coded Morphological Characters in the Japanese
    Variation in Coded Morphological Characters in the Japanese Title Common Toad from Momoyama, Kyoto, Japan Author(s) Matsui, Masafumi Citation Zoological Science (1985), 2(1): 95-103 Issue Date 1985 URL http://hdl.handle.net/2433/65062 Right (c) 日本動物学会 / Zoological Society of Japan Type Journal Article Textversion publisher Kyoto University ZOOLOGICAL SCIENCE 2: 95-103 (1985) © 1985 Zoological Society of Japan Variation in Coded Morphological Characters in the Japanese Common Toad from Momoyama, Kyoto, Japan MASAFUMI MATSUI Biological Laboratory, Yoshida College, Kyoto University, Sakyo, Kyoto 606, Japan ABSTRACT — Variation in 30 attribute characters was analyzed in the Japanese common toad, Bufo japonicus japonicus, from Momoyama, Kyoto, Japan. Extremely small, metamorphosed young quickly changed their morphology until they grew to be ca. 33 mm in SVL. Larger young showed no sexual dimorphism. Sexual maturity caused greater morphological divergence in males than in females, and adult males were distinct from the remaining sex/age groups in many characters, especially in wart characters. It is suggested that extremely small young, larger young, adult males, and adult females should be treated separately in analyses of coded morphological characters for taxonomic purposes. INTRODUCTION MATERIALS AND METHODS Japanese toads, like other members of the Bufo The 122 Japanese common toads (Bufo j. bufo complex, are notoriously difficult to classify. japonicus) used in this study were collected in Taxonomic revision from the analysis of mor- Momoyama, Fushimi-ku, Kyoto during 1972 and phometric characters has been made by Matsui 1977. Data for each age/sex group regarding [1]. As pointed out in that paper, some other season of collection, number of sampled indivi• morphological characters, such as body coloration duals, and body size are summarized in Table 1.
    [Show full text]