DOCSLIB.ORG

Review Species List of the European Herpetofauna – 2020 Update by The

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Review Species List of the European Herpetofauna – 2020 Update by The Amphibia-Reptilia (2020) DOI:10.1163/15685381-bja10010 brill.com/amre Review Species list of the European herpetofauna – 2020 update by the Taxonomic Committee of the Societas Europaea Herpetologica Jeroen Speybroeck1,∗, Wouter Beukema2, Christophe Dufresnes3, Uwe Fritz4, Daniel Jablonski5, Petros Lymberakis6, Iñigo Martínez-Solano7, Edoardo Razzetti8, Melita Vamberger4, Miguel Vences9, Judit Vörös10, Pierre-André Crochet11 Abstract. The last species list of the European herpetofauna was published by Speybroeck, Beukema and Crochet (2010). In the meantime, ongoing research led to numerous taxonomic changes, including the discovery of new species-level lineages as well as reclassifications at genus level, requiring significant changes to this list. As of 2019, a new Taxonomic Committee was established as an official entity within the European Herpetological Society, Societas Europaea Herpetologica (SEH). Twelve members from nine European countries reviewed, discussed and voted on recent taxonomic research on a case-by-case basis. Accepted changes led to critical compilation of a new species list, which is hereby presented and discussed. According to our list, 301 species (95 amphibians, 15 chelonians, including six species of sea turtles, and 191 squamates) occur within our expanded geographical definition of Europe. The list includes 14 non-native species (three amphibians, one chelonian, and ten squamates). Keywords: Amphibia, amphibians, Europe, reptiles, Reptilia, taxonomy, updated species list. Introduction 1 - Research Institute for Nature and Forest, Havenlaan 88 Speybroeck, Beukema and Crochet (2010) bus 73, 1000 Brussel, Belgium (SBC2010, hereafter) provided an annotated 2 - Wildlife Health Ghent, Department of Pathology, Bacteriology and Avian Diseases, Ghent University, species list for the European amphibians and Salisburylaan 133, 9820 Merelbeke, Belgium non-avian reptiles. A decade later, a sizable 3 - LASER, College of Biology and the Environment, amount of new research has been produced, Nanjing Forestry University, Nanjing, China 4 - Museum of Zoology, Senckenberg Dresden, A.B. fuelling the need for a contemporary update. Meyer Building, Königsbrücker Landstraße 159, Within the European Herpetological Society 01109 Dresden, Germany (Societas Europaea Herpetologica; SEH) and by 5 - Department of Zoology, Comenius University in Bratislava, Ilkovicovaˇ 6, Mlynská dolina, 842 15 invitation of the SEH Council, a newly com- Bratislava, Slovakia posed Taxonomic Committee (SEH TC, or fur- 6 - Natural History Museum of Crete, University of Crete, ther TC) was formed in early 2019, and its Knossou Ave. 71409, Crete, Irakleio, Greece 7 - Museo Nacional de Ciencias Naturales (MNCN- chair was approved by SEH membership during CSIC), c/ José Gutiérrez Abascal, 2, 28006 Madrid, the Ordinary General Meeting held in Milan, Spain 8 - Kosmos – Museo di Storia Naturale, Università di Pavia, Piazza Botta 9, 27100 Pavia, Italy 11 - CEFE, Université Montpellier, CNRS, EPHE, IRD, 9 - Division of Evolutionary Biology, Zoological In- stitute, Braunschweig University of Technology, Université Paul Valéry Montpellier 3, Montpellier, Mendelssohnstr. 4, 38106 Braunschweig, Germany France ∗ 10 - Department of Zoology, Hungarian Natural History Corresponding author; Museum, 1088 Budapest, Baross u. 13, Hungary e-mail: [email protected] Downloaded from Brill.com05/07/2020 01:09:46PM © Speybroeck et al., 2020. DOI:10.1163/15685381-bja10010via free access This is an open access article distributed under the terms of the CC-BY 4.0 License. 2 J. Speybroeck et al. September 5th 2019 (SEH News, Amphibia- Venchi and Grieco (2013). Together, these four Reptilia 40: 551-559). sources led to a starting point species list. In the We did not define our own limits for the geo- following, we only discuss taxonomic changes graphical area considered here, but adopted the which deviate from this species list. We decided limits defined by previous projects. Our goal against using online databases as starting points, was to provide a taxonomic reference for the fu- as they are changing constantly, with historical ture mapping projects of the SEH. Therefore, versions not remaining reliably and easily avail- we included all areas that were part of pre- able. vious European atlas projects (cf. Gasc et al., The taxonomic decisions adopted here are 1997; Sillero et al., 2014). We also aimed at in- not necessarily supported by all authors of this forming the taxonomic backbone of the Fauna work. According to TC guidelines, a change to Europaea initiative (https://fauna-eu.org), and the starting list will only be adopted if widely therefore our geographical area also includes all supported among its members, specifically by territories that are covered by Fauna Europaea. a >75% majority. When a change is recom- As a result, we enlarged the geographical area mended by a large majority of the TC mem- considered by SBC2010 to encompass all areas bers, but different members favour different covered by both Gasc et al. (1997) and Fauna outcomes, the adopted solution may be sup- Europaea. Areas included by Gasc et al. (1997), ported by only a simple majority (>50%). Note but not by Speybroeck, Crochet and Beukema that this process favours taxonomic stability, (2010), include the northern versant of the Cau- with changes requiring large support among TC casus (including north-eastern Azerbaijan), all members to become accepted. areas west of the Ural River (including western- TC members do not necessarily adhere to most Kazakhstan) and west of the Ural Moun- the same species concept. While many agree tains, and the Yekaterinburg Region. Areas in- with the General Lineage Concept (GLC) of De cluded in Fauna Europaea, but not by Gasc et Queiroz (2007), some prefer the general frame- al. (1997) or SBC2010, are Macaronesia (with- work of the Biological Species Concept. How- out Cape Verde), the Greek Islands off the west- ever, all agree on using reproductive isolation as ern Anatolian shore, and Cyprus. As such, our the primary operational criterion for the delimi- area exceeds that of the most recent European tation of species. The majority of TC members atlas (Sillero et al., 2014) by including Mac- is of the opinion that, while every species is a aronesia, all Greek islands, and parts of Azer- lineage, not every lineage is a species. The com- baijan and Kazakhstan (fig. 1). A Google Earth mon approach can be defined as either following .kml file with the limits of the area is provided the Biological Species Concept framework, or in the supplementary material. For the rationale as applying a Biological Species Criterion under of these limits, we refer to Gasc et al. (1997) and the GLC. More specifically, TC members ad- https://fauna-eu.org/data-handling). here to a “soft” version of the reproductive iso- Upon enlarging the scope area and prior to lation criterion. As such, we allow extensive in- discussing any taxonomic changes, a broader trogression between recognised species, as long baseline list had to be set for species occur- as there are intrinsic barriers to gene flow that ring outside the area considered by SBC2010. prevent wide-reaching introgression beyond the As such, in addition to SBC2010, we followed contact zones. Even in the absence of geograph- the taxonomy of Gasc et al. (1997, 2004, includ- ical barriers, a sufficient level of reproductive ing the changes adopted by Dubois and Cro- isolation has to exist in order to ensure long- chet in the 2004 reprint), and for species outside term persistence of the diverged lineages. Taxa Europe (including Macaronesia and Cyprus), connected by bimodal or trimodal hybrid zones Sindaco and Jeremcenkoˇ (2008) and Sindaco, (Gay et al., 2008) were unanimously treated as Downloaded from Brill.com05/07/2020 01:09:46PM via free access Species list of European herpetofauna 3 lero et al. (2014). Extent of geographic area (Mollweide projection). Herpetofauna species within this area are dealt with. Shading indicates areas not included by Sil Figure 1. Downloaded from Brill.com05/07/2020 01:09:46PM via free access 4 J. Speybroeck et al. valid species, but opinions often differed re- reptiles. For each case, we provide the rationale garding how much introgression was “allowed” underlying the respective decision of the TC, across unimodal hybrid zones, reflecting differ- and conclude by providing an updated species ent opinions relative to where to cut the grey list of the European herpetofauna. zone of speciation, how much reproductive iso- lation is necessary and when to treat incipient species as valid species. For allopatric taxa, or Amphibia when contact zones were not studied, lineages Caudata/Urodela that had divergence levels similar to closely re- lated, unambiguously distinct species were ac- A series of phylogenetic studies on mitochon- cepted as species. As an auxiliary criterion, we drial DNA, allozymes, and nuclear DNA se- sometimes use monophyly, even though we do quences of members of the family Salamandri- not consider it as a necessary requirement for dae (Litvinchuk et al., 2005; Weisrock et al., species status. 2006; Zhang et al., 2008; Kieren et al., 2018; For supraspecific classification, the TC Veith et al., 2018) confirmed that the newt genus agreed to accept only monophyletic units. Triturus sensu lato, as traditionally recognised, This causes issues regarding the class Rep- is not monophyletic. Litvinchuk et al. (2005) tilia, which in its traditional definition is pa- proposed the separation of Triturus into four raphyletic through the exclusion of birds. All genera, among which the new genus Omma- current hypotheses on the evolution of verte- totriton contains (the former) Triturus vitta- brates agree that a group including squamates, tus. SBC2010 accepted this new arrangement, turtles, Sphenodon and crocodiles, but not birds but did not explicitly acknowledge the need to is paraphyletic (see e.g. Chiari et al., 2012a; recognise Ommatotriton, as the new genus does Hasegawa, 2017). As a consequence, most cur- not occur in the area they considered. As we rent classifications of Vertebrata include Aves in herein consider a wider area, we formally ac- the class Reptilia (see e.g.
Load more

Recommended publications
  • A Review of Southern Iraq Herpetofauna
    Vol. 3 (1): 61-71, 2019 A Review of Southern Iraq Herpetofauna Nadir A. Salman Mazaya University College, Dhi Qar, Iraq *Corresponding author: [email protected] Abstract: The present review discussed the species diversity of herpetofauna in southern Iraq due to their scientific and national interests. The review includes a historical record for the herpetofaunal studies in Iraq since the earlier investigations of the 1920s and 1950s along with the more recent taxonomic trials in the following years. It appeared that, little is known about Iraqi herpetofauna, and no comprehensive checklist has been done for these species. So far, 96 species of reptiles and amphibians have been recorded from Iraq, but only a relatively small proportion of them occur in the southern marshes. The marshes act as key habitat for globally endangered species and as a potential for as yet unexplored amphibian and reptile diversity. Despite the lack of precise localities, the tree frog Hyla savignyi, the marsh frog Pelophylax ridibunda and the green toad Bufo viridis are found in the marshes. Common reptiles in the marshes include the Caspian terrapin (Clemmys caspia), the soft-shell turtle (Trionyx euphraticus), the Euphrates softshell turtle (Rafetus euphraticus), geckos of the genus Hemidactylus, two species of skinks (Trachylepis aurata and Mabuya vittata) and a variety of snakes of the genus Coluber, the spotted sand boa (Eryx jaculus), tessellated water snake (Natrix tessellata) and Gray's desert racer (Coluber ventromaculatus). More recently, a new record for the keeled gecko, Cyrtopodion scabrum and the saw-scaled viper (Echis carinatus sochureki) was reported. The IUCN Red List includes six terrestrial and six aquatic amphibian species.
    [Show full text]
  • Diversification and Cryptic Diversity of Ophisops Elegans (Sauria, Lacertidae)
    Received: 22 July 2019 | Revised: 10 December 2019 | Accepted: 20 December 2019 DOI: 10.1111/jzs.12369 ORIGINAL ARTICLE Diversification and cryptic diversity of Ophisops elegans (Sauria, Lacertidae) Claudine Montgelard1,2 | Roozbeh Behrooz1 | Véronique Arnal1 | Atefeh Asadi1 | Philippe Geniez1 | Mohammad Kaboli3 1CEFE, PSL-EPHE (Biogéographie et Ecologie des Vertébrés), CNRS, Université de Abstract Montpellier, Univ Paul Valéry Montpellier 3, Revealing cryptic diversity constitutes the backbone of the future identification and IRD, Montpellier, France description of a new lineage. For the genus Ophisops (Lacertidae), previous studies 2Department of Zoology, Centre for Ecological Genomics and Wildlife indicated that this genus is characterized by cryptic diversity as three clades were Conservation, University of Johannesburg, obtained for O. elegans and O. occidentalis that do not fit the classical systematics. Johannesburg, South Africa 3Department of Environmental Science, Notably, we were interested to delineate the distribution range of the two clades Faculty of Natural Resources, University of of O. elegans described in Iran. We sequenced 65 individuals of Ophisops mainly Tehran, Karaj, Iran from northwestern Iran for one mitochondrial (cytochrome c oxidase subunit 1 [COI]; Correspondence 686 base pairs [bp]) and three nuclear genes (R35, MC1R, and PKM2; 1,857 bp). Claudine Montgelard, Biogéographie et Ecologie des Vertébrés (EPHE), Centre Phylogeographic analysis from mitochondrial and nuclear genes confirmed that d'Ecologie Fonctionnelle et Evolutive (UMR Iranian samples belong to two major haplogroups (divergence of 13% for COI) that 5175 CNRS), 1919 route de Mende, 34293 Montpellier cedex 5, France. are also split into several subclades (divergence of 6%–10% for COI), revealing an Email: [email protected] unsuspected diversity within Iranian Ophisops.
    [Show full text]
  • Two Cases of Melanism in the Ring-Headed Dwarf Snake Eirenis Modestus (Martin, 1838) from Kastellorizo, Greece (Serpentes: Colubridae)
    Herpetology Notes, volume 11: 175-178 (2018) (published online on 20 February 2018) Two cases of melanism in the Ring-headed Dwarf Snake Eirenis modestus (Martin, 1838) from Kastellorizo, Greece (Serpentes: Colubridae) Konstantinos Kalaentzis1,*, Christos Kazilas1 and Ilias Strachinis1 Pigmentation serves a protective role in many 2016). A possible adaptive hypothesis for melanism in animals, including snakes, whether it functions in snakes is protection against sun damage (Lorioux et al., camouflage, warning, mimicry, or thermoregulation 2008; Jablonski and Kautman, 2017). (Bechtel, 1978; Krecsák, 2008). The observable The Ring-headed Dwarf Snake, Eirenis modestus colouration and pattern of a snake is the result of the (Martin, 1838), is a medium-sized colubrid snake presence of variously coloured pigments in specific reaching a maximum total length of 70 cm (Çiçek and places in the skin (Bechtel, 1978). Four different types Mermer, 2007). The Dwarf Snake inhabits rocky areas of pigment-bearing cells called chromatophores can with sparse vegetation and often hides under stones, be found in the skin of reptiles, namely melanophores, where it feeds mainly on terrestrial arthropods (Çiçek iridophores, erythrophores, and xanthophores (Bechtel, and Mermer, 2007). It is widely distributed (Fig. 1), 1978). Abnormalities in the pigment formation or the occurring mainly in the Caucasus (Armenia, southern interaction between the different types of pigment may Azerbaijan, eastern Georgia, southern Russia), Greece result in various chromatic disorders, which cause (on the islands of Alatonissi, Chios, Fournoi, Kalymnos, abnormal colouration of the skin and its derivatives Kastellorizo, Leros, Lesvos, Samiopoula, Samos, (Rook et al., 1998). There are many literature reports and Symi), northwestern Iran, and Turkey (Çiçek and describing chromatic anomalies in snakes, of which Mermer, 2007; Mahlow et al., 2013).
    [Show full text]
  • Results of the Herpetological Trips to Northern Cyprus
    North-Western Journal of Zoology Vol. 4, No. 1, 2008, pp.139-149 [Online: Vol.4, 2008: 16] Results of the Herpetological Trips to Northern Cyprus Bayram GÖÇMEN1,*, Nazım KAŞOT1, Mehmet Zülfü YILDIZ1,2, Istvan SAS3, Bahadır AKMAN1, Deniz YALÇINKAYA1, Salih GÜCEL4 1. Ege University, Faculty of Science, Department of Biology, Zoology Section, Tr 35100 Bornova, Izmir-Turkey 2. Harran University, Faculty of Art-Science, Department of Biology, Zoology Section, Osmanbey Campus, Sanliurfa-Turkey 3. University of Oradea, Faculty of Sciences, Department of Biology, Universităţii St. 1, Oradea 410087, Romania 4. Near East University, Environmental Sciences Institute, Nicosia, Northern Cyprus * Corresponding author: Bayram GÖÇMEN, E-mail: [email protected], Tel: 0 (232) 388 40 00/1795, Fax: 0 (232) 388 18 91 Abstract. During the three trips conducted to Northern Cyprus in 2007, we found that three frog and toad species (Anura), 11 lizards (Lacertilia), 3 turtles (Testudinata) and 9 snakes (Ophidia) inhabit the northern part of the Cyprus Island. The distributions of a total of 26 reptile and amphibian species were observed and some ecological information on their biotopes was summarized, and the taxonomic states of some of the species determined discussed. Key Words: Northern Cyprus, herpetofauna, snakes, lizards Cyprus, with 9251 km2 area, is the part of the island has a mountain chain third largest island after Sicily and which is called Pentadactylos, made of Sardinia in the Mediterranean Sea. It is mesozoic calcareous rocks, runs in east- located in 34o33’-35o42’ northern latitudes west direction and has the highest point and 32o16’-34o36’ eastern longitudes.
    [Show full text]
  • EUROPEAN RED LIST of AMPHIBIANS Appenine Yellow-Bellied Toad (Bombina Pachypus)
    EUROPEAN RED LIST OF AMPHIBIANS Appenine Yellow-bellied Toad (Bombina pachypus) November 2011 Photo©Roberto Sindaco The Appenine Yellow-bellied Toad (Bombina Threats to this species are presumed to largely pachypus) is endemic to Italy, where it occurs south include loss and fragmentation of wetland habitat to of the Po Valley, through the Appenine region, drainage for intensive agricultural purposes. south to the southern tip of the Italian mainland. This species is protected under international laws. It It was formerly common, however, the species is listed on Appendix II of the Bern Convention and has declined in almost all of its range (with the Annex II and IV of the EU Habitats Directive. exception of Calabria, where populations remain stable) over the last ten years. It is listed as Endangered according to the IUCN Red List Categories and Criteria on the basis This species occurs in both terrestrial and of rapid recent population declines, suspected freshwater habitats and is commonly found to have been caused by the fungal disease in unshaded pools in forests and open areas, chytridiomycosis. including pools formed in ditches, irrigation areas, farmland, or pasture land. The IUCN Red List of Threatened Species™ - Regional Assessment EUROPEAN RED LIST OF AMPHIBIANS Common Toad (Bufo bufo) November 2011 Photograph © John Wilkinson The Common Toad (Bufo bufo) is a widespread It is listed on Appendix III of the Bern Convention species in Europe. It is generally common and, and is protected by national and sub-national adaptable and has been recorded from coniferous, legislation in many countries. It is recorded on many mixed and deciduous forests, groves, bushlands, national and sub-national Red Data books and lists.
    [Show full text]
  • Standaardlijst Van Nederlandse Namen Van De Europese Amfibieën
    71 tijdschrift RAVON 63 | DECEMBER 2016 | JAARGANG 18 | NUMMER 4 Standaardlijst van Nederlandse namen van de Europese amfibieën en reptielen COMMENTAAR Een update naar de situatie in 2016 Jeroen Speybroeck, Anton Stumpel, Wouter Beukema, Bobby Bok, Raymond Creemers, Jeroen van Delft, Henk Strijbosch & Jan Van Der Voort Ruim tien jaar geleden verscheen een standaardlijst van Nederlandse namen van Europese amfibieën en reptielen (Strijbosch et al., 2005) die ook werd toegepast in de West-Europese KNNV-veldgids van Stumpel & Strijbosch (2006) en de Nederlandse herpetologische atlas (Creemers & van Delft, 2009). Als uitgangspunt werd de lijst van wetenschappelijke soortnamen uit Arnold (2002) gebruikt. Aangezien de inzichten over afbakening van soorten voortdurend evolueren en nieuwe soorten worden beschreven, is een periodieke herziening van de lijst wenselijk. In 2016 verscheen een nieuwe Europese veldgids (Speybroeck et al., resultaat van toevoeging van 40 nieuwe soorten in combinatie met het 2016). Omdat de soortenlijst van deze gids samengesteld werd op basis schrappen van 7 soorten waarvan de geldigheid niet langer stand van een recent taxonomisch overzicht van Europese reptielen en hield. Vanwege hun politieke verbondenheid met Europa en amfibieën (Speybroeck et al., 2010) en met inachtname van de populariteit als vakantiebestemming onder natuurliefhebbers uit ons relevante recente literatuur, biedt de gids momenteel de meest up-to- taalgebied, voegen we in onze nieuwe namenlijst de soorten van date lijst van de Europese soorten. Uitgaande van deze nieuwe Madeira, de Canarische eilanden en Cyprus toe. soortenlijst verdienen de nieuwe soorten een Nederlandse naam en de bestaande namen uit de vorige standaardlijst en de West-Europese Enkele wijzigingen ten opzichte van Speybroeck et al.
    [Show full text]
  • Snakes of Şanlıurfa Province Fatma ÜÇEŞ*, Mehmet Zülfü YILDIZ
    Üçeş & Yıldız (2020) Comm. J. Biol. 4(1): 36-61. e-ISSN 2602-456X DOI: 10.31594/commagene.725036 Research Article / Araştırma Makalesi Snakes of Şanlıurfa Province Fatma ÜÇEŞ*, Mehmet Zülfü YILDIZ Zoology Section, Department of Biology, Faculty of Arts and Science, Adıyaman University, Adıyaman, Turkey ORCID ID: Fatma ÜÇEŞ: https://orcid.org/0000-0001-5760-572X; Mehmet Zülfü YILDIZ: https://orcid.org/0000-0002-0091-6567 Received: 22.04.2020 Accepted: 29.05.2020 Published online: 06.06.2020 Issue published: 29.06.2020 Abstract: In this study, a total of 170 specimens belonging to 21 snake species that have been collected from Şanlıurfa province between 2016 and 2017 as well as during the previous years (2004-2015) and preserved in ZMADYU (Zoology Museum of Adıyaman University) were examined. Nine of the specimens examined were belong to Typhlopidae, 17 to Leptotyphlopidae, 9 to Boidae, 112 to Colubridae, 14 Natricidae, 4 Psammophiidae, 1 to Elapidae, and 5 to Viperidae families. As a result of the field studies, Satunin's Black-Headed Dwarf Snake, Rhynchocalamus satunini (Nikolsky, 1899) was reported for the first time from Şanlıurfa province. The specimen belonging to Zamenis hohenackeri (Strauch, 1873) given in the literature could not be observed during this study. The color-pattern and some metric and meristic measurements of the specimens were taken. In addition, ecological and biological information has been given on the species observed. Keywords: Distribution, Systematic, Endemic, Ecology. Şanlıurfa İlinin Yılanları Öz: Bu çalışmada, 2016 ve 2017 yıllarında, Şanlıurfa ilinde yapılan arazi çalışmaları sonucunda toplanan ve daha önceki yıllarda (2004-2015) ZMADYU (Zoology Museum of Adıyaman University) müzesinde kayıtlı bulunan 21 yılan türüne ait toplam 170 örnek incelenmiştir.
    [Show full text]
  • A Review of the Taxonomy of the European Colubrid Snake Genera Natrix and Coronella, with the Creation of Three New Monotypic Genera (Serpentes:Colubridae)
    58 Australasian Journal of Herpetology Australasian Journal of Herpetology 12:58-62. ISSN 1836-5698 (Print) ISSN 1836-5779 (Online) Published 30 April 2012. A review of the taxonomy of the European Colubrid snake genera Natrix and Coronella, with the creation of three new monotypic genera (Serpentes:Colubridae). RAYMOND T. HOSER 488 Park Road, Park Orchards, Victoria, 3134, Australia. Phone: +61 3 9812 3322 Fax: 9812 3355 E-mail: [email protected] Received 2 March 2012, Accepted 8 April 2012, Published 30 April 2012. ABSTRACT There have been several phylogenetic studies involving the Keeled Snakes of genus Natrix and Smooth Snakes of genus Coronella as recognized at start 2012. The exact status of each genus in terms of species composition has been the subject of argument among taxonomists, including whether or not well-recognized species such as N. tessellata, N. natrix and C. girondica are actually composites of several similar species. Within the last decade, several studies have shown the divergence between the three members of the genus Natrix to be from 12 to 27 million years ago (Guicking et. al. 2006), and probably further back for the three extant members of the genus Coronella (see comparative results in Pyron et. al. 2011). As a result each genus is subdivided three ways. Natrix natrix remains as the sole taxon in that genus. N. maura is placed within a new genus Jackyhosernatrix gen. nov. and N. tessellata is placed in the new genus Guystebbinsus gen. nov. Coronella austriaca remains as the sole taxon in that genus, while C. brachyura is placed in the genus Wallophis Werner, 1929, and C.
    [Show full text]
  • An Unusual Juvenile Coloration of the Whip Snake Dolichophis Jugularis (Linnaeus, 1758) Observed in Southwestern Anatolia, Turkey
    Herpetology Notes, volume 8: 531-533 (2015) (published online on 19 October 2015) An unusual juvenile coloration of the whip snake Dolichophis jugularis (Linnaeus, 1758) observed in Southwestern Anatolia, Turkey Bayram Göçmen1, Zoltán T. Nagy2, Kerim Çiçek1,* and Bahadır Akman1 The Large whip snake, Dolicophis jugularis m). The coloration of this juvenile specimen resembles (Linnaeus, 1758) is widely distributed in Greece, that of adults (Fig. 1B–D). This was the only juvenile including some Aegean islands, as well as throughout specimen with such unusual coloration, although the the Levant (Başoğlu and Baran, 1977; Leviton et al., study area was thoroughly searched. We observed 1992; Budak and Göçmen, 2008; Amr and Disi, 2011). three other juveniles with the aforementioned typical The distribution of the species in Turkey extends from pattern. One of them [ZMHRU 2012/51] was caught at Izmir in the West to the Mediterranean region in the Kızılseki Village (37°16’ N, 30°45’ E, elevation 400 m) southern, southeastern and eastern Anatolia (Başoğlu and presents the known juvenile pattern (Fig. 1A). and Baran, 1977; Budak and Göçmen, 2005; Göçmen In the juvenile specimen with adult coloration caught et al., 2013). at Kocaaliler Village, the dorsal and upper dorsolateral Dolicophis jugularis is a large colubrid snake that can areas of the head are black, whereas the color below reach 2.5 m in total length (Budak and Göçmen, 2008; the eye and along the jawline is white (Fig. 1B). On Amr and Disi, 2011). Its adult coloration is usually both sides of the head, there are white spots on rostral, uniform, the dorsum is bright black, and the top of supralabials, preoculars, postoculars, and temporals, the head is almost black with scattered red coloration.
    [Show full text]
  • Download From
    Information Sheet on Ramsar Wetlands (RIS) – 2006-2008 version Available for download from http://www.ramsar.org/ris/key_ris_index.htm. Categories approved by Recommendation 4.7 (1990), as amended by Resolution VIII.13 of the 8th Conference of the Contracting Parties (2002) and Resolutions IX.1 Annex B, IX.6, IX.21 and IX. 22 of the 9 th Conference of the Contracting Parties (2005). Notes for compilers: 1. The RIS should be completed in accordance with the attached Explanatory Notes and Guidelines for completing the Information Sheet on Ramsar Wetlands. Compilers are strongly advised to read this guidance before filling in the RIS. 2. Furtherinformation and guidance in support of Ramsarsite designations are provided in the Strategic Framework and guidelines for the future development of the List of Wetlands of International Importance (RamsarWise Use Handbook 7, 2 nd edition, as amended by COP9 Resolution IX.1 Annex B). A 3 rd edition of the Handbook, incorporating these amendments, is in preparation and will be available in 2006. 3. Once completed, the RIS (and accompanying map(s)) should be submitted to the Ramsar Secretariat. Compilers should provide an electronic (MS Word) copy of the RIS and, where possible, digital copies of all maps. 1. Name and address of the compiler of this form: FOR OFFICE USE ONLY . Hakan ERDEN DD MM YY Ministry of Environment and Forestry General Directorate of Nature Conservation and National Parks Söğütözü Caddesi 14/E Söğütözü Designation date Site Reference Number ANKARA/TURKEY e-mail: [email protected] Tel: 0090 312 2075905 2. Date this sheet was completed/updated: 30.11.2007 3.
    [Show full text]
  • The Amphibians and Reptiles of Cyprus Cyprus.Qxd 11/14/09 1:12 PM Page 2
    Baier et al Cover_03.11.2009.qxd 17.11.2009 15:04 Seite 1 Felix Sebastian Baier. Felix Baier Born 1987 in Heidelberg, Germany. Travelling to Cyprus since his early childhood and deeply fascinated by living David J. Sparrow things, he has long been interested in the island’s nature, Hans-Jörg Wiedl especially in reptiles and amphibians. On the basis of intensive zoological reading, he conducted his first field studies while still at school. Civil service at the Forschungsinstitut Senckenberg (Frankfurt/M.) gave him the chance to bring further ideas to fruition. Since 2008, he has been studying biology and philosophy at The Amphibians the Ludwig-Maximilians-University Munich. David J. Sparrow. and Reptiles of Cyprus Born in 1946 in the UK. Dr. David Sparrow is a Singapore-based photographer. He gained BSc (Hons) (1964) and PhD (1970) degrees in chemistry from the University of Birmingham, England. He worked in the chemical industry for 34 years during which time he co- authored, edited, reviewed and refereed numerous sci- entific articles, papers and books. He has had a lifetime fascination with snakes, and this project gave him the opportunity to combine this interest with his passion The Amphibians of Cyprus and Reptiles for photography. Hans-Jörg Wiedl (“Snake George”). Born 1943 in Innsbruck (Austria), he grew up in the wilderness of Häselgehr in the Lechtal (Tirol), now a National Park. As an UN peacekeeper in Cyprus in 1973/1974, he developed his deep concern for the conservation of the herpetofauna of Cyprus. In 1986, he moved permanently to Cyprus, and established the “Snake George Reptile Park” in 1995.
    [Show full text]
  • Psonis Et Al. 2017
    Molecular Phylogenetics and Evolution 106 (2017) 6–17 Contents lists available at ScienceDirect Molecular Phylogenetics and Evolution journal homepage: www.elsevier.com/locate/ympev Hidden diversity in the Podarcis tauricus (Sauria, Lacertidae) species subgroup in the light of multilocus phylogeny and species delimitation ⇑ Nikolaos Psonis a,b, , Aglaia Antoniou c, Oleg Kukushkin d, Daniel Jablonski e, Boyan Petrov f, Jelka Crnobrnja-Isailovic´ g,h, Konstantinos Sotiropoulos i, Iulian Gherghel j,k, Petros Lymberakis a, Nikos Poulakakis a,b a Natural History Museum of Crete, School of Sciences and Engineering, University of Crete, Knosos Avenue, Irakleio 71409, Greece b Department of Biology, School of Sciences and Engineering, University of Crete, Vassilika Vouton, Irakleio 70013, Greece c Institute of Marine Biology, Biotechnology and Aquaculture, Hellenic Center for Marine Research, Gournes Pediados, Irakleio 71003, Greece d Department of Biodiversity Studies and Ecological Monitoring, T.I. Vyazemski Karadagh Scientific Station – Nature Reserve of RAS, Nauki Srt., 24, stm. Kurortnoe, Theodosia 298188, Republic of the Crimea, Russian Federation e Department of Zoology, Comenius University in Bratislava, Mlynská dolina, Ilkovicˇova 6, 842 15 Bratislava, Slovakia f National Museum of Natural History, Sofia 1000, Bulgaria g Department of Biology and Ecology, Faculty of Sciences and Mathematics, University of Niš, Višegradska 33, Niš 18000, Serbia h Department of Evolutionary Biology, Institute for Biological Research ‘‘Siniša Stankovic´”,
    [Show full text]