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A complete catalogue is provided for the type specimens of amphibians and reptiles collected by Nikolay A. Zarudny and stored mostly in the herpetological collection of the Zoological Institute, Russian Academy of Sciences, St. Petersburg, Russia (ZISP), as of August 2018. The collection contains 270 type specimens, representing 51 taxa (species and/or subspecies) of one family of turtles, one amphisbaenia family, five lizard families and four snake families from 74 type localities. As a result of studying Zarudny’s collections, mainly from Iran, was the description by A. M. Nikolsky of two new genera, Microgecko and Diplometopon, and 42 species and subspecies (varieties). Twenty-two of these taxa are regarded currently as valid.

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TERRA TYPICA. Town Shirabad, Surkhandar’inskaya region, Uzbekistan. DISTRIBUTION. It occurs in the extreme south-east of Turkmenistan, south of Uzbekistan and in the south-western Tajikistan. Outside of Middle Asia the Tajik Racerunner is known from northern Afghanistan. CONSERVATION STATUS. The species is included into the Red Data Book of Turkmenistan (1999) as a rare species – category 3.

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A new species of Eremias has been described from the Cholistan Desert of Pakistan. It constitutes the first record of the genus Eremias from the Oriental (Indian) region. The species has been named Eremias cholistanica, after the Cholistan Desert of Pakistan. This striped desert lacerta is not only different from all its congeners in several morphological characteristics but has been collected from an area distant from the previous known range of Eremias.

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Aim Body size is instrumental in influencing animal physiology, morphology, ecology and evolution, as well as extinction risk. I examine several hypotheses regarding the influence of body size on lizard evolution and extinction risk, assessing whether body size influences, or is influenced by, species richness, herbivory, island dwelling and extinction risk. Location World-wide. Methods I used literature data and measurements of museum and live specimens to estimate lizard body size distributions. Results I obtained body size data for 99% of the world`s lizard species. The body size–frequency distribution is highly modal and right skewed and similar distributions characterize most lizard families and lizard assemblages across biogeographical realms. There is a strong negative correlation between mean body size within families and species richness. Herbivorous lizards are larger than omnivorous and carnivorous ones, and aquatic lizards are larger than non-aquatic species. Diurnal activity is associated with small body size. Insular lizards tend towards both extremes of the size spectrum. Extinction risk increases with body size of species for which risk has been assessed. Main conclusions Small size seems to promote fast diversification of disparate body plans. The absence of mammalian predators allows insular lizards to attain larger body sizes by means of release from predation and allows them to evolve into the top predator niche. Island living also promotes a high frequency of herbivory, which is also associated with large size. Aquatic and nocturnal lizards probably evolve large size because of thermal constraints. The association between large size and high extinction risk, however, probably reflects a bias in the species in which risk has been studied.

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A new species of the lacertid genus and subgenus Eremias is described based on material collected by the senior author from 150 km northeast of Shiraz, Fars province, south-central Iran at about 1800 m elevation. It differs from all other Iranian species of the typical subgenus (E. persica, E strauchi, E velox and E. lalezharica) in that it has a very distinctive and unique color pattern, unmistakable in this character the wide dorsolateral stripe is uniformly black without light spots and there is no ocelli on the upper surface of limbs; the third pair of submaxillary shields are separated by 4 granular scales; and the tympanic shield is rudimentary and almost absent. The new species is sympatric with Eremias persica and apparently restricted in distribution to the steppes and open plains in the northern regions of Fars province south-central Iran.

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Fifty-three species of reptiles occur in Turkmenistan, of which 25 inhabit lowlands and 28 occur in plains and mountains. The species composition of reptiles in seven natural regions of Turkmenistan is discussed; the fauna of the sandy and clay desert is the richest. Seven species of reptiles`-occur in high density (from 10 to 71 per hectare), 30 species are frequent (1 to 10 per ha.) and 16 species are rare (0.2 to 1 per ha.). The fauna i3 subjected to a zoogeographical analysis.

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The herpetological map presented in this paper shows the distribution and abundance of the reptiles in Turkmenistan. The country is divided into 17 complexes and the 84 species and subspecies found in Turmkmeistan are listed as occurring in mountains, plains, or both.

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The latest changes in the taxonomy of amphibians and reptiles are analyzed in the work, among them, in particular, toads, frogs, tortoises, geckoes, agamas, lacertids, boas and colubrids. A new list is published, which provides information for 100 species and subspecies: 6 species of amphibians and 94 species of reptiles (6 turtles, 58 lizards, 30 snakes). The conservation status of reptiles in Turkmenistan was revised according to the IUCN assessments.

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Taxonomy dependent, four amphibian (three toads and a frog) and 57 reptile species (a tortoise, 36 lizards and 20 snakes) appear confirmed as occurring within the Republic of Uzbekistan. One of these species, Szczerbak’s even-fingered gecko Alsophylax szczerbaki, has perhaps been extirpated. The presence of a further two taxa, i.e., long-legged bent-toed gecko Tenuidactylus longipes and multi-ocellated racerunner Eremias multiocellata is unclear (but both probably absent), whilst the standing of Turkestan salamander Hynobius turkestanicus remains an enigma. Species distributions in Uzbekistan are summarised based on a literature review supplemented by recent field observations.

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This book shows a comprehensive picture of the reptiles, excluding snakes, living in Europe, North Africa, Middle and Near East and Central Asia. The bulk of the book is an annotated checklist and a distributional atlas of approx 500 species of lizards, crocodiles, turtles and terrapins, and amphisbaenians, living in the Western Palearctic. Information on distribution, subspecies, chorotype and main references are provided for each species, as well as 226 colour maps showing the global distribution of the species on a grid of one degree. For each species map the bibliographic and original sources (more than 850 sources are listed) are indicated. A further 83 maps show the distribution of all genera and main species groups of Palearctic reptiles. Beside the checklist and the atlas, in some additional chapters the following arguments are treated: Materials and methods; status of knowledge on the Palearctic fauna; composition of the Western Palearctic reptile fauna (including a statement on biodiversity and species richness); descriptive biogeography (including a discussion on the Palearctic region boundaries based on reptile distribution and the herpeto-geographic sectors of the Western Palearctic); conservation status. A list of more than 730 references quoted in the text and high quality colour plates including photos of the most of the supraspecific taxa living in the study area completes the book.

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The composition and distribution of the vertebrate fauna of Afghanistan remain poorly documented and in recent decades little new data have become available due to a series of wars and the resulting unstable security conditions. As Afghanistan returns to some semblance of normalcy, baseline faunistic data will be particularly important for establishing national conservation priorities as well as for placing Afghan taxa into their broader phylogenetic and zoogeographic contexts. We here provide an updated checklist of the herpetofauna of Afghanistan based in part upon biodiversity archives of specimen records from several museum and private collec- tions as well as literature references and field research. The herpetofauna of Afghanistan consists of 118 species and subspecies belonging to 58 genera and 21 families. Seven species are endemic to the country, whereas 18 taxa have to be delet- ed from previous lists of the Afghan herpetofauna. Afghanistan’s primary zoogeo- graphic relationship to the Palearctic Region is reaffirmed but with secondary influ- ence from the Oriental Region. Immediately following the checklist, two sections provide information about species probably occurring in Afghanistan and previous- ly mentioned species that are now recognized as absent.

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The karyotype of Eremias przewalskii from Minqin county,Gansu province was examined using medulla cells and the colchicines-hypotonic air dry technique.Result showed that the karyotype formula of E.przewalskii is 2n=38=36I+2m with NF=38,belonging to type of Eremias argus,consistent with the karyotypes of genus Eremias and family Lacertidae. On the basis of reviewing the reported karyological data of Eremias, the evolution of karyotypes in this genus is discussed.