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Literature- and poster projects
of the real lizards, family Lacertidae
Eremias strauchi
Ahmadzadeh, F. & Kami, H.G. & Hojjati, V. & Rezazadeh, E. (2009) -
In this study a total of 29 Eremias strauchi strauchi specimens (10 males, 16 females and three juveniles), collected from different localities in northwest of Iran were examined. The study was based on morphological features including color pattern, morphometric measurements, pholidotic characters, as well as ecological and biological observations especially habitat, reproductive biology and distribution. Habitat features and new distribution localities were documented. Egg characters of Eremias strauchi strauchi such as shape, size, number and color are reported for the first time. Also, some other new information on this species has been given.
Ahmadzadeh, F. & Kheyrandish, A. (2006) -
The Northwest of Iran, covering the three provinces of Ardabil, East Azerbaijan and West Azerbaijan, is a special area that, due to its particular geographical and climatic conditions has a rich biodiversity. The present study was conducted with the aim of studying the habitat, substrate type, feeding, conservation and distribution of lizards in this area from 2003 to now. Our results have revealed that there are 20 lizard species belonging to 13 genera and 5 families in this area. Lacertid lizards have the highest species diversity with 12 species. We also found that high ranges of habitats with a different substrate types are inhabited by lizard species. The number of species in pine regions compared with other types of area is considerably greater. The conservation status of lizards is unknown and requires further study.
Alekperov A.M. (1978) -
Алекперов, А.M. (1978) -
Altunisic, A. & Gül, C. & Özdemir, N. & Tosunoglu, M. & Ergül, T. (2013) -
We studied, for the first time, the age structure of Eremias strauchi strauchi (Kessler, 1878) from a sample (18 adults) of a population living in the vicinity of Iğdır (eastern Turkey) using the skeletochronological method. The maximum observed longevity was 7 years for males and 5 years for females. The age of males ranged from 4 to 7 years (mean 4.91, n = 12), while that of females ranged from 4 to 5 years (mean 4.66, n = 6). The average snout–vent length (SVL) was 61.10 mm in males and 60.82 mm in females. The differences in mean age and SVL between sexes were not statistically significant. Intersexual differences in body size were male-biased, but this state was not statistically significant. Age and SVL were positively correlated in both sexes.
Bahmani, Z. & Rastegar-Pouyani, N. & Rastegar-Pouyani, E. & Gharrzi, A. (2014) -
During field work in western regions of the Iranian Plateau in the Zagros Mountains in September 2010, a single specimen belonging to the genus and subgenus Eremias Fitzinger, 1834 was collected from the protected area of Bijar (at about 1619 m elevation) in north of the city of Bijar, Kurdistan Province, western Iran (47°, 34’ E; 36°, 00’ N).
Bischoff, W. & Böhme, W. (1980) -
Franzen, M. (1990) -
Guo, X.-G. & Chen, D.-L. & Wan, H.-F. & Wang, Y.-Z. (2010) -
The lacertid genus Eremias Fitzinger in Wiegmann,1834,consists of approximately 36 species of racerunners,distributed throughout the desert and semi-desert regions from northern China,Mongolia,Korea,central and southwest Asia to southeastern Europe.This short review represents the history of taxonomic studies in the genus Eremias,including affirmation of the genus and its species,distribution characteristics,phylogenetic relationships and historical biogeography.Traditional taxonomic methods,as well as new approaches(mtDNA analysis) are discussed.Future potential research projects on Eremias are outlined,such as phylogeny,phylogeography and speciation process.
郭宪光 陈达丽 万宏富 王跃招 (2010) -
由于各种原因,麻蜥属的分类仍较混乱。本文对麻蜥属的系统学研究历史做了系统回顾,从属、亚属、种 等各级分类水平叙述了其研究历史,包括属的建立与订正、物种组成、地理分布特征,总结了通过外部形态和分子 等研究手段,在分类、系统发育、生物地理等研究层次上所取得的成果,在此基础上提出需要深入研究麻蜥属的系 统发育、谱系地理和物种形成机制等,包括该属分布格局与青藏高原隆升、天山隆升及中亚荒漠化和第四纪冰期的 关系。
Leviton, A.E. & Anderson, S.C. (2010) -
Mikaili, P. & Shayegh, J. (2011) -
The etymology of the reptiles, especially the lizards of Iran has not been completely presented in other published works. Iran is a very active geographic area for any animals, and more especially for lizards, due to its wide range deserts and ecology. We have attempted to ascertain, as much as possible, the construction of the Latin binomials of all Iranian lizard species. We believe that a review of these names is instructive, not only in codifying many aspects of the biology of the lizards, but in presenting a historical overview of collectors and taxonomic work in Iran and Middle East region. We have listed all recorded lizards of Iran according to the order of the scientific names in the book of Anderson, The Lizards of Iran. All lizard species and types have been grouped under their proper Families, and then they have been alphabetically ordered based on their scientific binominal nomenclature. We also examined numerous published works in addition to those included in the original papers presenting each binomial.
Mulder, J. (1995) -
Rastegar-Pouyani, E. & Hosseinian Yousefkhani, S.S. & Wink, M. (2015) -
Strauch`s Racerunner, Eremias strauchi, is represented by two subspecies, Eremias strauchi strauchi Kessler, 1878 and Eremias strauchi kopetdaghica Szczerbak, 1972, occurring in opposite margins on the northern Iranian Plateau. We sequenced 3926 base pairs of nuclear and mitochondrial DNA from 16 samples of Eremias strauchi, Eremias lalezharica and Eremias velox collected from northeastern, northwestern and southern Iran. Phylogenetic analyses revealed that Eremias lalezharica is sister to Eremias strauchi kopetdaghica and caused the currently recognised species Eremias strauchi to be paraphyletic. According to the estimated genetic distances in the mitochondrial fragments among the lineages, E. s. strauchi diverged from E. s. kopetdaghica and E. lalezharica with a mean genetic distance of 14.0% and 13.9% respectively. Our data indicate enough molecular divergence between the two currently recognised subspecies of E. strauchi and justify upgrading them to full species level as Eremias strauchi (for the north-western clade) and Eremias kopetdaghica (for the north-eastern clade).
Rastegar-Pouyani, N. & Kami, H.G. & Rajabizadeh, M. & Shafiei, S. & Anderson, S.C. (2008) -
An updated checklist of the herpetofauna of Iran is presented based on records of amphibian and reptile species whose presence has been confirmed in Iran as a result of extensive field expeditions, examination of herpetological collections, literature review, and personal communications from researchers. The herpetofauna of Iran consists of 13 species and five subspecies of frogs and toads belonging to five genera and four families, eight species of salamanders belonging to four genera and two families, nine species and six subspecies of turtles, terrapins and tortoises belonging to nine genera and six families, one species of crocodile, one species of amphisbaenian, more than 125 species of lizards belonging to 36 genera and eight families as well as 79 species of snakes belonging to 37 genera and six families
Safaei-Mahroo, B. & Ghaffari, H. & Fahimi, H. & Broomand, S. & Yazdanian, M. & Najafi Majd, E. & Hosseinian Yousefkhani, S.S. & Rezadeh, E. & Hosseinzadeh, M.S. & Nasrabadi, R. & Rajabizadeh, M. & Mas (2015) -
We present an annotated checklist for a total 241 reptiles and 22 amphibians including 5 frogs, 9 toads, 7 newts and salamanders, 1 crocodile, 1 worm lizard, 148 lizards, 79 snakes and 12 turtles and tortoises, includes the most scientific literature up to August 2014 and also based on several field surveys conducted in different Provinces of Iran from 2009 to 2014. We present an up-to-dated checklist of reptiles and amphibians in Iran. We provide a comprehensive listing of taxonomy, names, distribution and conservation status of all amphibians and reptiles of Iran. This checklist includes all recognized named taxa, English names for classes, orders, families, species, subspecies along with Persian names for species, including indication of native and introduced species. For the first time we report two non-native introduced reptiles from natural habitats of Iran. Of the total 22 species of amphibians in Iran, 6 (27.2%) are endemic and of the total 241 species of reptiles, 55 (22.8%) are endemic. Of the 22 amphibians species in Iran, 3 (13%) are Critically Endangered, 2 (9%) are Vulnerable and of the 241 reptile species 3 (1.2%) are Critically Endangered, 4 (1.6%) are Endangered and 10 (4.1%) are Vulnerable. Accordingly, this paper combines significant aspects of taxonomy, common names, conservation status and distribution of the Iranian herpetofauna.
Šmíd, J. & Moravec, J. & Kodym, P. & Kratochvil, L. & Hosseinian Yousefkhani, S.S. & Frynta, D. (2014) -
We present a comprehensive summary of the distribution of the lizards of Iran accompanied by an annotated checklist. The updated maps of distribution of all 146 species of 41 genera of 11 families are based on all available bibliographic records, catalogues of museum collections and our own field observations. The final dataset used for the distribution maps contains 8525 georeferenced records and cover 41% of the country when plotted on a grid of 0.25° × 0.25° resolution. The dataset is publicly accessible through GBIF portal (http://www.gbif.org/dataset/7db4f705-61ae-4c6e-9de2-06674e7d46b2). Following the latest biogeographic division of the country, ~53% of the species (76 species) inhabit the Iranian Province, ~41% (60 species) the Western Asian mountain transition zone, ~9% (13 species) the Turanian Province, and ~18% (27 species) the Arabian Province. In addition, ~2% (3 species) reach Iran from the Indo-Malay biogeographic region and ~2% (3 species) are believed to have been introduced to Iran by humans. Endemic species (46) represent ~32% of the known species diversity. The most species-rich family of lizards in Iran is Lacertidae with 47 species, followed by Gekkonidae (41), Agamidae (18), Scincidae (15), Phyllodactylidae (10), Sphaerodactylidae (4), Eublepharidae and Uromastycidae (3), Anguidae and Varanidae (2), and Trogonophidae with one representative.