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The patterns of seasonal and daily activities of two parthenogenetic species of lizards (Darevskia armeniaca, D. unisexualis) sharing the same territories in the zone of hybridization in central region of Armenia demonstrate ecologically similar potential niches.

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TERRA TYPICA. Settlement Akhta, ravine of the river Razdan, northern Armenia. DISTRIBUTION. The distribution range of the species is divided into several isolated populations within the northern and central high-mountain Armenia and the adjacent regions of eastern Turkey, from where along the valley of Kura River this lizard penetrates into southern Georgia. Outside of the Caucasus it occurs in the valley of the river Aras in eastern Turkey. CONSERVATION STATUS. The number is high and stable.

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Skeletochronological study of rock lizards hybrids Darevskia valentini × D. unisexualis, D. valentini × D. armeniaca, D. nairensis × D. unisexualis, and their parental species, collected from three mixed populations (near village of Kuchak, Lchashen, Lchap — mountainous regions of central Armenia) proved their similar pattern of growth. However, the hybrids are characterized by faster rate of growth and predominantly bigger size of body in each age group contrary to their parental species. The longevity of studied hybrids is same as in parental species and reaches 6 – 7 years.

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The skeletochronological method has been used to assess age distribution and age-related differences in body size among populations of the parthenogenetic lizards Darevskia sapphirina, D. uzzelli, D. armeniaca and D. unisexualis from Turkey and Armenia. The age distribution between D. armeniaca and D. unisexualis did not significantly differ and ranged from 1 to 8 years. Maximum age for both D. uzzelli and D. sapphirina was 6 years, and 8 years for both D. unisexualis and D. armeniaca. In all the studied species, individuals reached sexual maturity after third hibernation. According to patterns of growth marks resorption, D. sapphirina is distinguished from all other rock lizards of genus Darevskia by a narrowest periosteal bone as result of high rate of endosteal resorption resulting in complete destruction of hatchling line and line of the first hibernation.

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Morphological diversity at 20 pholidotic and 16 meristic characters were studied on three parthenogenetic species Darevskia unisexualis (Darevsky, 1966) D. uzzelli (Darevsky & Danielyan, 1977) and D. sapphirina (Schmidtler, Eiselt & Darevsky, 1994) from Turkey which originated from interspecific hybridization of same parental species D. raddei (Boettger, 1892) and D. valentini (Boettger, 1892) and compared with parthenogenetic species D. armeniaca (Mehely, 1909) which originated from hybridization of D. mixta (Mehely, 1909) and D. valentini (Boettger, 1892) (Murphy et al, 2000, Fu et al, 2000). D. armeniaca significantly differ (ANOVA, Tukey HSD test; p < 0.05) from D. unisexualis and D. sapphirina by 11 pholidotic characters, as well as from D. uzzelli by 9 variables. D. unisexualis has shown significant differences by 8 pholidotic variables from D. sapphrina. Only two pholidotic characters distinguish D. uzzelli from D. sapphirina and D. unisexualis. In addition to meristic characters D. sapphirinia has shown significant less length and height of head as well as length of legs than D. armeniaca, D. unisexualis and D. uzzelli. The average means of snout-vent length of D. sapphirina were less in each age group in comparing with other species. The measurements of bone thickness have revealed the significant high level (p<0.001) of endosteal resorption in femur bones of D. sapphirina removing the first growth layers which usually present in bones of the most Darevskia species. The oldest lizards in our specimens were aged 6 years in D. uzzelli and D. sapphirina and 7 years D. unisexualis and D. armeniaca.

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The cytometrical analyses of diploid bisexual species Darevskia valentini, and closely relative parthenogenetic species D. unisexualis and D. armeniaca, as well as their triploid hybrids (D. valentini × D. unisexualis and D. valentini × D. armeniaca) and tetraploid hybrid D.valentini × D. unisexualis arising from hybridization in mixed population in vicinity of Kuchak village (Aragatsotn region, Armenia) has shown significant differences (P<0.001) in surface and perimeter of erythrocytes between all of them according to ANOVAs post-hoc test. The size of red blood cells of triploid hybrids exceeds that of diploids by 25-30%, but tetraploid male exceeds diploid males by 22% and by 10 % smaller than those of triploid male hybrids. Among parental species the smallest parameters of erythrocytes have D. valentini, when D. unisexualis have the largest red blood cells. Accordingly, the erythrocytes of hybrids of D.valentini × D. unisexualis were larger than D. valentini × D. armeniaca.

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Age determination based on counting the annual layers in the femur was performed for three parthenogenetic species of Armenian rock lizards, Lacerta armeniaca (n = 147), L. unisexualis (n = 68), and L. dahli (n = 18), and for two bisexual species, L. nairensis (n = 29) and L. raddei (n = 32). Comparison of parthenogenetic and bisexual species shows that the growth rate, sexual maturity age, and life longevity in rock lizards are independent of the type of reproduction. The examined Lacerta species reach maturity by the second or third year of life. The maximum age of individuals in the samples studied is 7 and 5 years for L. armeniaca and L. nairensis, respectively, and 6 years for L. unisexualis, L. dahli, and L. raddei.

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The age of the parthenogenetic species, Lacerta armeniaca (N = 147), L. unisexualis (N = 68), and L. dahli (N = 18), and that in the bisexual species, L. nairensis (N = 29) and L. raddei (N = 32), were determined from femur bone layers. Parthenogenesis does not influence the growth rate, age of sexual maturation and longevity of rock lizards. The species of lizards under study reach sexual maturity during the second or third year of life. The maximum age of individuals in the samples studied was 7 years for L. armeniaca, 6 years for L. unisexualis, L. dahli, L. raddei, and 5 years for L. nairensis.

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Unisexual all-female lizards of the genus Darevskia that are well adapted to various habitats are known to reproduce normally by true parthenogenesis. Although they consist of unisexual lineages and lack effective genetic recombination, they are characterized by some level of genetic polymorphism. To reveal the mutational contribution to overall genetic variability, the most straightforward and conclusive way is the direct detection of mutation events in pedigree genotyping. Earlier we selected from genomic library of D. unisexualis two polymorphic microsatellite containg loci Du281 and Du215. In this study, these two loci were analyzed to detect possible de novo mutations in 168 parthenogenetic offspring of 49 D. unisexualis mothers and in 147 offspring of 50 D. armeniaca mothers . No mutant alleles were detected in D. armeniaca offspring at both loci, and in D. unisexualis offspring at the Du215 locus. There were a total of seven mutational events in the germ lines of four of the 49 D. unisexualis mothers at the Du281 locus, yielding the mutation rate of 0.1428 events per germ line tissue. Sequencing of the mutant alleles has shown that most mutations occur via deletion or insertion of single microsatellite repeat being identical in all offspring of the family. This indicates that such mutations emerge at the early stages of embryogenesis. In this study we characterized single highly unstable (GATA)n containing locus in parthenogenetic lizard species D. unisexualis. Besides, we characterized various types of mutant alleles of this locus found in the D. unisexualis offspring of the first generation. Our data has shown that microsatellite mutations at highly unstable loci can make a significant contribution to population variability of parthenogenetic lizards.

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Ilya S. Darevsky co-described 70 taxa (three genera, 46 species, 21 subspecies) in 44 publications belonging to five orders, eight families of amphibians and reptiles during his career in herpetology. Of this number, three taxa are fossil and 57 taxa are currently considered as valid. By the regions where new taxa were discovered Southeast Asia and Western Asia (includes Caucasus and Asia Minor) dominates. The largest number of descriptions was published in the Russian Journal of Herpetology.

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Fourty two lizard species are distrubuted in Turkey. In this study, ıt is aimed that seven host species of Lacertidae family are determined helminth fauna -D. armeniaca (Hemşin lizard), D. derjugini (Artvin lizard), D. parvula (Gürcü lizard), D. raddei (Radde lizard), D. rudis (Trabzon lizard), D. unisexualis (Ağrı lizard), D. valentini (Valentin lizard). It was applied firstly classical taxonomy to morphological characters and then DNA sequence analysis in determining fauna. Ten species identified are member of phylum: Nematoda. These species are: two of genus; Skrjabinodon medinae, S. alcaraziensis, Spauligodon sp., S. carbonelli, S. aloisei, Skrjabinelazia hoffmanni, Strongyloides darevsky, Oswaldocruzia filiformis, Thubunae sp., Acuaridae larva; 2 Sestod Oochoristica tuberculata and Mesocestoides spp. and 1 Akantosefal Sphaerirostris scanensis. Totally 13 helminth species are reported. It has been confirmed that present of parasite species identified according to morphological, anatomical and ecological characteristics with determining target genom of helminthes. The results of morphologic and molecular support each other. Four species- one of them is larva-of identified 13 helminth species are new record of Turkish helminth fauna.

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The final part of a series of papers on the lizards of the Caucasus, that have been published in previous years. The paper reports on the life habits, capture and keeping in terraria of several lizards of Soviet Transcaucasia. In these respects the agamid Phrynocephalus helioscopus persi- cus and three species of the lacertid genus Eremias occuring in that area (i. e. strauchi, velox, pleskei) are discussed. Finally a !ist of all lizard species and subspecies actually known to occur in this region is given.

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In Georgia, 16 species of rock lizards of the Genus Darevskia are occuring (D. alpina, D. „armeniaca`, D. brauneri, D. caucasica, D. clarkorum, D. daghestanica, D. „dahli`, D. derjugini, D. mixta, D. nairensis, D. parvula, D. portschinskii, D. praticola, D. rudis, D. „unisexualis` and D. Valentini). Besides short presentations of the single species and hints on their distribution and habitats, also some systematic remarks are given.

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Lacertca raddei and Lacerta nairensis have been recognized as two separate species based on morphology and behavior, and each has been implicated as a sexual parent of different parthenogenetic forms. However, recent mitochondrial DNA work failed to distinguish these two as separate species. We examined genetic diversity at 36 allozyme loci from six populations of L. nairensis and four populations of L. raddei. There were no fixed allelic differences between the two. Mean heterozygosity was slightly higher among populations of L. raddei than among populations of L. nairensis. A Distance Wagner phenogram showed that the northernmost population of L. raddei clustered with the L. nairensis populations; the other L. raddei populations clustered together. We suggest that L. raddei and L. nairensis may not be separate species, a finding which has important implications for determining the origins of some parthenogenetic Lacerta.

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L. unisexualis produces one clutch yearly, with 1 - 5 eggs (3.4 on average). Fertile egg measure 7.5 x 12.3 mm and weigh 0.43 g. The eggs grow to 11.1 x 18.9 am and 1.51 g and hatch after 51 days at 25°C und after 40 days at 29°C. The hatchlings measure 27 + 47 mm (snout-vent length + tail) and weigh 0.49 g. In captivity sexual maturity was reached in the second year. Some colour characteristics, especially blue axillary spots, are mentioned.

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Reproduetion of thc parthenogcnctic fonns Lacena armeniaca and Lacerta wzise.rtwlis undcr caplive conditions is documcnted. A short review of parthenogenesis is givcn and thc origin of known parthogcnctic forms with- in the genus Lacerta is discussed. Thc rcccnt- ly described fonns from castem Turkcy. Lacerta henclimalliensis and Lacerta sapphiri- tw. an: illustrated. Thc current common opinion is that partheno- gcnctic Lacerta fonns found in the eaucasus region are thc rcsult of crosses hetween diffe- rent species. Thc parental species of L. uni- .H`Xtwlis would he Locatanairensis (phenoty- pically vcry similar to L tmisexualis) and utn•rta mlemini. and for L. armeniaca prc- sumahly utcerta mixta and L mlemini. lt is rcmarkahlc that parthcnogenetic rcptilcs tcnd to he found in arcas wherc major cata- strophes occur regularly. or have occurred in the recent past. Thc ice agcs are mentioned in litcraturc as a possiblc factor driving par- thenogenesis in the eaucasus. The new Turkish uniscxual utcerta forms occur vcry close to a lakc which most prohably has histo- rically had major lluctuations in water leveL Unstahle water levels in rivers along which some L.uni.H`Xtwlis live. is mentioncd in litera- rature in thc samc context. In othcr words. an unstahlc cnvironment secms to fa`our parthe- nogcnetic forms. Data on capti`e animals rcfute some curious misconccptions conccrning parthcnogenctic lizards. lt is somelimes said that a minimum numhcr of animals is rcquired before repro- duetion occurs hut this has nol proven truc for L. armnziaca and L. tmise.rttalis. Partheno- gcnetic animals are said to die relativcly young. hut at six years of age my L unisexu- alis are still hcalthy and in lïne reproductive condition. Hushandry is reputed to be diftï- cult. hut this is nol so in L. lmisexualis: 68 young have heen reared from 80 eggs - I stop- ped incuhating thc cggs because of a major surplus in young. lt has heen proposed in literaturc that the suc- ccss of unisexual forms is partially related to time savcd hy nol copulating. Although some time may he saved in not needing to locale a mate. the time gain from nol performing courtship is small. as in closely rclated eaucasus spedes this takes only minutes. The assumption found in some literaturc that onc of the advantages parthenogcnetic forms have over their parental species is a shorter incuba- tion duration. is refutcd for L. unisexualis and partially for L. ttnneniaca (not having onc of the parental species. L mixta). Although hoth of these parthcnogenetic spe- cies are reputed to occur in high densities. it is often wrongly assumed that they are not aggressive. They are in fact quite aggressive towards other lizards as well as towards con- specitïcs during the reproductivc period. This is particularly ohvious immcdiatcly after ovi- position. when they chase off any intruder that comes too near them or the nest- some at- tackcd lizards have even lost legs in such encounters. Brecding of L amu•niaca proved dirticuit in that only four young resulted from ..J-3 eggs produced. Possihly a number of dcfects had accumulatcd in thc starting material: these fcmalcs all slmwed major pbolidosis anoma- lics. missing locs. and sornc had short. stuhby tails. Thc young showcd similar dcfects (with up to 15 tocs missing). The adults measured 51-62 rnm (hcadhody) + 57-152 mm (tail). Weigllls varicd from 4.9 g to 5.7 g outside the reproductivc scason (September). Each fenmie oviposited once a ycar (around Aprii-May). An average clutch contained 3.6 eggs (2-5 cggs): healthy cggs rneasured 7.6x 12.5 mm and wcighed 0.42 g at oviposition. The eggs rcached II.XxI6.X 111111 and 1.37 g during dcvclopmcnt. They hatched after 46 and 48 days whcn incuhatcd at 2Y`C. and after 37 days at 29°C. The ncwly hatched juveniles 111easured 25.5 111111 head-body + 25.7 mm tail (and thus had an ahnormal tail length in this sample). and wcighcd 0.43 g. The juveniles resembied thc adults hut for the blueish- greenish tails. and the Jack of bluespots on thc tlanks and on the outer vcntrals. They pro- oueed thcir lirst cggs in their secmld year. Husbandry of L. uni.,·e,rtwlis is remarkahly easy. None has shown the aberrations mentio- ned for L. an11e11iam. Of the eighty eggs incu- hated. 6X resultcd in healthy juveniles. Thc adult /.. tmisexualis measured 52-66 mm (head-hody) + 121-1-1-2 111111 (laiI). Wcights varied from 4.92 g to 7.72 g outside the repro- ductivc season (September). Each female ovi-posited once a year (a sec011d clutch of unfcr- tile eggs was twice found); around Aprii-May. An avcrage clutch contained 4-5 eggs. Healthy cggs measured 7.5x 12.3 mm and weighed 0.42 gat oviposition. These reached 10.9x 16.6 mm and 1.33 g during development. Eggs hatched after 48 days when incubated at 25°C, and after 38 days at 29°C. The newly hatched juveniles measured 27.0 mm (head-body) + 47.6 mm (tail), and weighed 0.46 g. The juve- niles resembied the adults but for the very vaguely blueish-greenish tails; they also lacked the yellowish ventral colour and the blue spots were still very pale. Young pro- duced their tirst fertile eggs in their second ycar. Both the eggs and the resulting juveniles in both species are slightly larger than in sexu- ally rcproducing lacertids of comparable size. This would confer a competitive advantage.

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Many regions of the former USSR still re- ceive little attention from Western visitors, herpetologists not excluded. For the Cau- casus Mountains this is all the more sur- prising since the area forms a zone where northern and Middle Eastern flora and fauna meet, and which is thus of considera- bly zoogeographical interest. Presently we find three larger states in the Caucasus: Georgia, Azerbaijan and Arme- nia. Turkey borders to the southwest, Iran to the southeast, and in the north it is the Russian federation. Various smaller parts claim independence. The Black Sea forms the natural western boundary, the Caspian Sea the eastern one. Herpetologically the Caucasus is historically well-known because of the work of Darev- sky and collaborators on the rock lizards (at the time still in the large genus Lacerta, now in Darevskia) and the discovery of the first case of parthenogenesis in vertebrates (DAREVSKY, 1967; DAREVSKII, 1978; DAREVSKY & KULIKOVA, 1961). Below we will concentrate on the results of our field trip to Georgia during the last two weeks of June 2003. Predictably, because of our common interest in the group, the lacertids will receive the most attention.

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Several Caucasian rock lizards of the genus Darevskia are well-known to reproduce parthenogenetically and have a hybrid origin. While one or more of these all-female parthenogens may monopolize local lizard communities, they may also occur in syntopy with bisexual members of the genus. In several localities, effective reproduction between bisexual and parthenogenetic Darevskia has been reported based on lizard intermediate morphology and karyology (3n, 4n) but frequency of such heterospecific matings is still unknown. In a mixed Darevskia community from Kuchak (Armenia) constituted by two parthenogens (D. armeniaca and D. unisexualis), one bisexual species (D. valentini) and their putative backcrosses, we indirectly quantified the reproductive interactions through the inspection of copulation marks in females. A total of 114 adult females were randomly collected, photographed and later inspected for inguinal marks. Females were measured (SVL) and their marks were ranked twice from 0 (no scars) to 3 (≥ 3 scars). The lizard determination and ploidy was ensured by microsatellites analysis. All female types displayed copulation marks with frequencies varying from 61% in the parthenogenetic D. armeniaca to 30% in the bisexual D. valentini; remarkably, 7 out of 11 (64%) backcross females also had marks. In the most abundant D. armeniaca, the prevalence and intensity of copulation marks increased with size, just as expected for normal female lacertids. These results indicate that copulation of parthenogenetic Darevskia in mixed communities with bisexual species is not an isolate event, thus reinforcing previous suggestions of massive reproductive interaction in syntopy. Evolutionary perspectives of this phenomenon are discussed.

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Several Caucasian rock lizards of the genus Darevskia of hybrid origin are known to reproduce parthenogenetically. Local communities can be composed exclusively of parthenogens, though syntopy with bisexual members of the genus may occur. In some localities, reproduction between bisexual and parthenogenetic Darevskia has been previously reported based on lizard intermediate morphology and karyology (3n, 4n). However, the frequency of such heterospecific matings remains unknown. We indirectly quantified the reproductive interactions through the inspection of copulation marks in females in a mixed Darevskia community from Kuchak (Armenia) composed of two hybrid parthenogens (D. armeniaca and D. unisexualis), one bisexual species (D. valentini) and their putative backcrosses. A total of 139 adults were randomly collected and photographed. Females were later measured (SVL), inspected for inguinal marks and ranked from 0 (no scars) to 3 (≥ 3 scars). The lizard species and ploidy determination was ensured by a parallel microsatellite analysis. Sex-ratio in the community was extremely biased due to the high abundance of parthenogenetic females. All female types displayed copulation marks with frequencies varying from 80% in D. valentini to 64% in D. armeniaca. Remarkably, 7 out of 11 (64%) backcross females also showed marks. In the most abundant D. armeniaca, the prevalence and intensity of copulation marks increased with body size, just as predicted for polygynous female lacertids. These results indicate that copulation between parthenogenetic and bisexual species in Darevskia mixed communities is common and driven by sexual selection, thus reinforcing previous suggestions of reproductive interaction in syntopy. Evolutionary implications of these findings are discussed.

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The study presents data on the food composition of the Unisexual Lizard, Darevskia unisexualis (Darevsky, 1966), from Hanak, Ardahan, Turkey. A total of 172 preys were determined in the digestive systems of 44 individuals examined in the study. Insecta, Aranea, Malacostraca, and Gastropoda constitute food composition of lizards. Major prey groups in the food composition are included in Hymenoptera (46.5%), Coleoptera (13.4%), Diptera (8.1%), Lepidoptera (7.6%), Orthoptera (7%) and Hemiptera (7%) in number, whereas Hymenoptera (70%), Lepidoptera (25%), Coleoptera (23%), and Diptera (20%) in frequency. Our result confirm that the Unisexual Lizard is an insectivorous and active predator and generally feed with poor flying or non-flying invertebrates.

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The structure and evolution of a satellite DNA family was examined in lizards from the genus Darevskia(family Lacertidae). Comparison of tandem units of repeated DNA (satDNA), CLsat, in all species from the genus Darevskiahas shown that their variability is largely explained by single-nucleotide substitutions, which form about 50 diagnostic positions underlying classification of the family into three subfamilies. Maximum differences between the subfamilies reached 25%. At this level of tandem unit divergence in the subfamilies, no cross-hybridization between them was observed (at 65°C). The individual variability within one subfamily within the species was on average 5% while the variability between species consensuses within a subfamily was 10%. The presence of highly conserved regions in all monomers and some features of their organization show that satellites of all Darevskia species belong to one satDNA family. The organization of unit sequences of satellites CLsat and Agi160 also detected by us in another lizard genus, Lacerta s. str. was compared. Similarity that was found between these satellites suggests their relatedness and common origin. A possible pathway of evolution of these two satDNA families is proposed. The distribution and content of CLsat repeat subfamilies in all species of the genus was examined by Southern hybridization. Seven species had mainly CLsatI (83 to 96%); three species, approximately equal amounts of CLsatI and CLsatIII (the admixture of CLsatII was 2–5%); and five species, a combination of all three subfamilies in highly varying proportions. Based on these results as well as on zoogeographic views on the taxonomy and phylogeny of the Darevskia species, hypotheses on the evolution of molecular-genetic relationships within this genus are advanced.

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The genetic relatedness of several bisexual and of four unisexual Lacerta saxicola complexlizards was studied, using monomer sequences of the complex-specific CLsat tandem repeats and anonymous RAPD markers. Genomes of parthenospecies were shown to include different satellite monomers. The structure of each such monomer is specific for a certain pair of bisexual species. This fact might be interpreted in favor of co-dominant inheritance of these markers in bisexual species hybridogenesis. This idea is supported by the results obtained with RAPD markers; i.e., unisexual species genomes include only the loci characteristic of certain bisexual species. At the same time, in neither case parthenospecies possess specific, autoapomorphic loci that were not present in this or that bisexual species.

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A unique hybridization zone of rock lizard species of genus Darevskia, with diploid (2n), triploid (3n) and tetraploid (4n) individuals, occurs in the mountain steppe of central Armenia. Our long-term monitoring has showed an increasing birth rate of triploid hybrids in this mixed population. Among these hybrids, the frequency of captured males with fully developed reproductive systems and presumably fertile females also increased significantly. Consequently, intensive microevolution has taken place in this sympatric population. The morphological, ecological, cytological, histological, and parasitological characteristics of the hybrid Darevskia are presented here and compared with parental species.

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Along with sterile triploid females, the male hybrids, intersexual individuals, female hybrids with developing follicles and eggs as well as tetraploid male hybrid are found in the mixed population of three species of rock lizards’ genus Darevskia in mountain steppe zone of central Armenia. Intensive microevolution takes place in this sympatric population. The evolutionary potential for hybridogenic speciation by Caucasian rock lizards is discussed. Հայաստանի կենտրոնական մասի լեռնատափաստանային գոտում, Darevskia ցեղին պատկանող երկսեռ և կուսածին ժայռային մողեսների երեք տեսակների խառը պոպուլյացիաներում, ստերիլ տրիպլոիդ էգերի հետ հայտնաբերվել են տրիպլոիդ հիբրիդային էգեր` զարգացող օօցիտներով և ձվերեվ, հիբրիդային արու և ինտերսեքսուալ առանձնյակներ, ինչպես նաև տետրապլոիդ արու առանձնյակ: Այդ պոպուլյացիայում ընթանում է միկրոէվոլյուցիոն գործընթաց: Քննարկվում է Կովկասյան ժայռային մողեսների հիբրիդոգեն տեսակառաջացման էվոլյուցիոն պոտենցիալը: В горно-степной зоне центральной Армении, в смешанной популяции трех видов двуполых и партеногенетических скальных ящериц рода Darevskia, наряду со стерильными триплоидными гибридными самками, обнаружены триплоидные гибридные самки с развивающимися фолликулами и яйцами, гибридные самцы, интерсексуальные особи, а также тетраплоидный гибридный самец. В данной смешанной популяции протекает интенсивный микроэволюционный процесс. Обсуждается эволюционный потенциал гибридогенного видообразования у Кавказских скальных ящериц.

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The polymorphic species Lacerta saxicola Eversmann forms 19 distinct forms in the Caucasus, four of which (armeniaca, dahli, rostombekovi, and unisexualis) are devoid of males and normally reproduce parthenogenetically. These parthenogenetic forms inhabit the mountains on the periphery of the range of the normal bisexual form, L. s. defilippii, thus suggesting a case of geographic parthenogenesis. Since the populations of parthenogenetic lizards are virtually devoid of males, the application of geographic and physiological species criteria to them is a matter of some difficulty. A discussion of this situation with regard to the problem of so-called `agamic species` enables us to regard the parthenogenetic relatives of L. saxicola as distinct species rather than subspecies, and these forms are raised to that rank. The parthenogenetic form of L. s. defilippii is described as a separate species (L. unisexualis). Cytological studies have shown that parthenogenetic species of Rock Lizards are diploid (2n = 38) and that oogenesis proceeds similarly in parthenogenetic and bisexual forms up to the second meiotic division. In regions of sympatry the parthenogenetic and bisexual forms occasionally produce natural hybrids, resulting in sterile triploid (3n = 57) females, the sterility of which is caused by anomalies in the development and structure of the gonads. In the eggs laid by parthenogenetic females, peculiar abnormal embryos, which commonly die in an early stage of incubation, are often developed. Most of them prove to be males, the development of which stops approximately in the middle of incubation. There is reason to suppose that the transition of Rock Lizards to parthenogenesis is associated with natural interspecific hybridization, which in turn favors unisexual reproduction. This tendency could be realized under the influence of selection and apparently took place in forest refuges during Quaternary glaciation of the Caucasus. The transition of Rock Lizards to unisexual reproduction is shown to be accompanied by the appearance of morphologically and biologically distinct species. Natural parthenogenesis may thus be regarded as one of the factors of speciation in the L. saxicola group.

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Four parthenogenetic subspecies of Lacerta . saxicola Eversmann (Transcaucasia) have closely overlapping sympatric ranges. The lizards show no intermediate forms in zones of their mutual habitat. On the border - line of their ranges parthenogenetic lizards can mate with males of neighbouring bisexual forms of Lacerta saxicola, producing hybrids that always are sterile triploid (3n=57) females. Therefore, application of geographical and physiological species criteria to parthenogenetic forms allows to regard them as independent species. However, geographical .and physiofogiical criteria are based on the effect of reproductive isolation mechanisms whose realization is possible upon the occurrence of both sexes in the population. Thus, both criteria should not be unconditionally applied to parthenogenetic and agamic species consisting of females alone. However, the absence of males also plays the role of a peculiar isolation mechanism which maintains the integrity of parthenogenetic species. Due to this, parthenogenetic forms of Lacerta saxicola Eversmann which can be easily distinguished in the morphological respect should be considered as independent agamic species: Lacertra armeniaca Meh., L. dahli Dar., L. rostombekovi Dar. and L. unisexualis Dar.

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1. Sexual dimorphism and geographical variability in signs of external morphology are revealed in the species of the studied complexes of rock lizards. The most important for their diagnosis are the features of folidosis of the head. Interspecific and intraspecific differences in morphometric features, color and pattern of the body were detected. 2. In the phylogenetic analysis, the Darevskia (caucasica) samples were divided into the group of the northern slope of the Central Caucasus (D. caucasica), the East Caucasus (D. daghestanica), the Western Caucasus (D. alpina), the northern slope of the Central and Western Caucasus (D. alpina ). Reliable identification and significant genetic differences of D. caucasica and D. daghestanica samples favor their attribution to different species. Within D. alpina two groups with high genetic differences (distances) were identified. Inside Darevskia (saxicola) two lines are described, one of which is connected with the Crimea and the Western Caucasus (D. lindholmi-D. Brauneri), and the second - with the North and West Caucasus (D. saxicola-D. Szczerbaki). 3. As a result of the nomenclatural revision, the lectotype Lacerta praticola pontica, L. saxicola brauneri, L. saxicola daghestanica, L. saxicola lindholmi, and the neotype L. saxicola; Specific locations, years and authors of the description of a number of taxa have been refined. 4. It has been established that the studied supernumerary complexes include the following valid taxa: Darevskia (praticola) - D. pontica pontica, D. pontica hungarica, D. praticola praticola, D. praticola hyrcanica, D. praticola loriensis; Darevskia (caucasica) - D. alpina, D. caucasica caucasica, D. caucasica vedenica, D. daghestanica; Darevskia (saxicola) - D. brauneri brauneri, D. brauneri myusserica, D. saxicola, D. szczerbaki, D. lindholmi. Lacerta saxicola darevskii is regarded as a minor synonym for Lacerta saxicola brauneri. 5. For the first time accurate inventories of findings (1,443 locations) and GIS maps of species arealways were compiled, reliably characterizing the features of their distribution; The structure of areals, the current trends of their changes and the factors influencing the distribution of rock lizards are revealed. It is recommended to carry out conservation measures of international and national level in order to preserve the populations of D. alpina, D. brauneri myusserica and D. szczerbaki, especially in typical territories. 6. The first and only reliable paleontological find of Darevskia sp. - Darevskia sf. brauneri from the Pleistocene site, the caves of Mezmaiskaya. A hypothesis is proposed for the formation of species of complexes, according to which the isolation of their common ancestor from a hypothetical form it is logical to associate with the Miocene and Pliocene boundaries, or with the Cimmerian century of the Pliocene, 153 and the radiation of modern species - with the Akchagylian age, corresponding to the Piacenza and Gelazian tiers. The parallel formation of several Darevskia (praticola) and Darevskia (caucasica) lines around the Greater Caucasus is assumed in the early Pliocene. At the end of the Pontian age, the primary area of ​​the ancestor of the modern forms of Darevskia (saxicola) and the subsequent formation in the Mediterranean landscapes of the Black Sea coast, along the surviving cliff, D. szczerbaki, and the cuestas of the North Caucasus - D. saxicola, could have occurred at the periphery of the Caucasian peninsula.

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Due to its geographic location, the Caucasus region connects species from three diferent continents in a heterogeneous landscape, creating an environment prune to the development of speciation events and multiple endemisms. Among them, the lacertid genus Darevskia is a group of rock lizards radiating and diversifying in the region. Among their highly polymorphic members a number of parthenogenetic forms are present result from the hybridisation between bisexual Darevskia species. However, the origin of these forms lacks an explicit spatiotemporal context. One of the most interesting bisexual species in the group is Darevskia raddei which is responsible for the motherhood of some unisexual forms, namely D. unisexualis, D. uzzeli and D. bendimahiensis and D. sapphirina). Fruthermore, this species is considered conspeciic to D. nairensis and D. (raddei) vanensis, two forms of unclear status which link to the parthenogenetic forms need to be clariied. This, this study aims to reach a global comprehension of the three putative bisexual taxa within of the D. raddei complex (D. raddei, D. nairensis and D. (raddei) vanensis), and their phylogenetic relationships with the parthenogenetic forms they theoretically parented. A phylogenetic analysis was conducted on samples of the D. raddei complex, ranging from Turkey, Armenia, Georgia and Iran. Maximum Likelihood and Bayesian methods were applied on a combination of mitochondrial and nuclearmarkers. Namely, three mtDNA (cytochrome b, ND4 and 12s) and two nDNA (MC1R and c-mos) markers were used. Our results conirm that Darevskia raddei (sensu lato) is the proposed maternal species for at least D. unisexualis, D. uzzeli, D. bendimahiensis, D. sapphirina and D. rostombekowi, as already supported by previous studies. However, it does not support a genetic diferentiation between the three forms described within the complex, which are to be considered conspeciic. Moreover, there is reinforced evidence that the three parthenogenetic forms considered arose more than once in the history of the genus, from diferent lineages of the bisexual parents.

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Darevskia rock lizards include both sexual and parthenogenetic species, mostly distributed in the heterogeneous and ecologically diverse Caucasus. The parthenogenetic species originated via directional hybridogenesis, with only some of the sexual species known to serve as parentals. However, it remains unclear when and where these events happened and how many parental lineages were involved. A multilocus phylogeographic analysis was performed on the parthenogens D. unisexualis, D. bendimahiensis and D. uzzeli, and their putative maternal species D. raddei. Results show the parthenogenetic species all have relatively recent origins, approximately 200–70 kyr ago, and at least three hybridization events were involved in their formation. Ecological niche models identify the region where hybridization events leading to the formation of D. unisexualis took place, namely in the northeast of the current distribution. Models also suggest that the sexual D. raddei might have undergone a habitat shift between the Last Interglacial and the Last Glacial Maximum.

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Hybridization is a common evolutionary process with multiple possible outcomes. In vertebrates, interspecific hybridization has repeatedly generated parthenogenetic hybrid species. However, it is unknown whether the generation of parthenogenetic hybrids is a rare outcome of frequent hybridization between sexual species within a genus or the typical outcome of rare hybridization events. Darevskia is a genus of rock lizards with both hybrid parthenogenetic and sexual species. Using capture sequencing, we estimate phylogenetic relationships and gene flow among the sexual species, to determine how introgressive hybridization relates to the origins of parthenogenetic hybrids. We find evidence for widespread hybridization with gene flow, both between recently diverged species and deep branches. Surprisingly, we find no signal of gene flow between parental species of the parthenogenetic hybrids, suggesting that the parental pairs were either reproductively or geographically isolated early in their divergence. The generation of parthenogenetic hybrids in Darevskia is, then, a rare outcome of the total occurrence of hybridization within the genus, but the typical outcome when specific species pairs hybridize. Our results question the conventional view that parthenogenetic lineages are generated by hybridization in a window of divergence. Instead,

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Considering all costs associated to sex, sexual reproduction could be expected to be rare. However, we find sexual reproduction to be pervasive in nature, and only a reduced number of taxa are completely asexual. In fact, the variety of sex reproductive systems, mating techniques and traits, reveals that the organisms’ reproduction has been an expressive target of selection and adaptation throughout evolution. Sex is selected because it facilitates adaptation in complex and changing environments (Weismann, 1889), and this has been already shown empirically in several models. However, studies and theories developed concerning the paradox of sex will not be able to clarify the current distribution and abundance of asexual lineages in nature. The understanding of rates of origin and extinction of asexual lineages, together with the putative differential evolution rates in organisms with sexual or asexual reproduction, should be considered in the main “origin of sex” question. The model used here, the genus Darevskia, is the first true parthenogenetic vertebrate described. It is a highly speciose genus, currently including 27 species, of which seven are parthenogenetic and of hybrid origin. Only a few of the sexual species contributed for the hybridization events which originated the parthenogens clonal lineages, and these were directional: the maternal species were always Darevskia raddei or D. mixta, and the paternal always D. valentini or D. portshinskii. Using a set of microsatellite and mtDNA markers, we first start to study the role of hybridization in the origin of vertebrate parthenogens, the extent of gene flow with sexual relatives and the relation between hybridization, asexuality and polyploidy, in the context of the main theories of asexual evolution proposed to date. We focus on the D. unisexualis, D. uzzelli and D. armeniaca parthenogens and polyploid backcrosses found in sympatric locations between the parthenogens and its sexual parentals. We find that only specific parental pairs are responsible for the origin of vertebrate parthenogenesis, regardless of their phylogenetic distance. Despite the recurrent hybridization presently reported in Darevskia, asexuality originated multiple times but only in a single temporal event the past. Parthenogenetic females are capable of backcrossing with sexual males, but can only produce polyploid individuals with reduced fertility that do not contribute for gene flow between parthenogens and sexuals. The sexual reproduction machinery can be lost with time in the parthenogenetic hybrids, which are most likely the result of a post-zygotic reproductive barrier to gene flow in the speciation continuum of Darevskia sexual species. In order to reconstruct the phylogenetic inference of this group, a set of capture sequence probes were designed from a transcriptome de novo assembly. Phylogenetic inference reconstruction has been extensively used to ask several evolutionary biology questions. However, despite the exponential use of high-throughput sequencing technologies and its promising applications in phylogenetics, next generation sequencing (NGS) techniques are still far from being as widely used in this field as in other areas of evolutionary genetics. The workflow developed in this thesis has proved to be not only cost-effective, but also to produce a very high number of cross genome phylogenetically informative markers in this non-model species. Finally, taking advantage of the hundreds of cross genome markers developed, a species tree was constructed and within genus relationships evaluated. Introgression tests showed a widespread pattern of gene flow across the genus, not only recent between recently diverged clades, but also both recent and ancient gene flow between early diverging Darevskia clades. Several evidences of hybridization with gene flow between diverging clades have been found in other systems. However, such widespread patterns where introgression has happened between all major clades, and in a very high number of species pairs, are not frequently found. It is also found that gene flow is completely absent between parthenogens sexual parental pairs. In groups with sexual-parthenogenetic reproducing species, pre- or post-zygotic reproductive barriers could be more difficult to attain and hybrid asexuality can, thus, effectively create reproductive barriers between diverging sexual taxa, that were likely faced with recurrent secondary contact. The work presented in this thesis shows that only a few sexual species pairs were responsible for the origin of the parthenogens, that some species acted always as the maternal species and others always as the paternal, that the phylogenetic distances between each pair are included in a wide range interval, and that introgression is found widespread across the genus but absent between the parental pairs. Regardless of the reproduction type, this study also shows the relevance and depth of hybridization during divergence. As has been shown intensively, gene flow is common during speciation and clades divergence. However, it would be interesting to analyse other groups together and test if deep branch gene flow is found only in some exclusive groups (such as sexual-asexual genera) or if it is something more widespread. This work presented here moves Darevskia towards providing a model that can be used to understand the origin of asexuality in vertebrates. Here the basis for future studies about sex and asexuality is provided, so that a focus on the differential evolution rates genomes of both reproduction mode can be analysed.

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Obligate parthenogenesis is found in only 0.1% of the vertebrate species, is thought to be relatively short lived and is typically of hybrid origin. However, neither the evolutionary persistence of asexuality in vertebrates, nor the conditions that allow the generation of new parthenogenetic lineages are currently well understood. It has been proposed that vertebrate parthenogenetic lineages arise from hybridisation between two divergent taxa within a specific range of phylogenetic distances (the ‘Balance Hypothesis’). Moreover, parthenogenetic species often maintain a certain level of hybridisation with their closest sexual relatives, potentially generating new polyploid hybrid lineages. Here we address the role of hybridisation in the origin and evolutionary lifespan of vertebrate parthenogens. We use a set of microsatellite markers to characterise the origins of parthenogens in the lizard genus Darevskia, to study the distinctiveness of sexual and asexual taxa currently in sympatry, and to analyse the evolutionary consequences of interspecific hybridisation between asexual females and sexual males. We find that parthenogens result from multiple past hybridisation events between species from specific lineages over a range of phylogenetic distances. This suggests that the Balance Hypothesis needs to allow for lineage-specific effects, as envisaged in the Phylogenetic Constraint Hypothesis. Our results show recurrent backcrossing between sexual and parthenogenic Darevskia but neither gene flow nor formation of new asexual lineages. We suggest that, along with their demographic advantage, parthenogens gain additional leverage to outcompete sexuals in nature when the retention of sexual reproductive machinery allows backcrossing with their sexual ancestors.

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Protein electrophoresis of Lacerta unisexualis from three populations found that 21 of 36 allozyme loci were homozygous, while 14 expressed fixed heterozygotes and one locus was variable. Three clones were detected at the locus Cat-A. Two individuals represent two rare clones while all others form a common clone. Our favored explanation is the mutation of a preexisting common clone rather than multiple origins.

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Allozyme electrophoresis of four sibling parthenogenetic Caucasian rock lizards Darevskia unisexualis, D.uzzelli, D.sapphirina, and D.bendimahiensis found seven clones and five variable loci. The data supported the hypothesis that D.raddei and D.valentini are the parental species of all four parthenogens. Variation patterns in Darevskia were summarized. Species that originated from a single F1 typically consisted of one widespread clone with a few rare clones. Species with multiple origins displayed variation only slightly higher than species with a single origin. This is contrary to other genera of parthenogenetic lizards, in which cases massive clonal variations were observed.

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Genus Darevskia - diverse multispecies group, which in addition includes gay bisexual species forms that reproduce by parthenogenesis. An accurate estimate is given of the number and distribution of parthenogenetic lizards in different habitats. In the case of sympatric habitat bisexual and parthenogenetic species of rock lizards population density of parthenogenetic species is much higher. Meanwhile, in different habitats population density of the same-sex species can vary significantly, as determined by the distribution of shelters, shelter and supportive for basking and hunting places.

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Cloning and sequencing of the partial reverse transcriptase gene (750 bp) of the Bov-B LINE retrotransposon have been held in parthenogenetic lizards Darevskia unisexualis and its assumed parental bisexual species D. nairensis and D. valentini. It was shown that the percentage of transcriptionally active copies of this gene, which does not contain a stop codon, is almost the same in the three species and is about 75%. The intragenomic divergence level of these sequences is low and was found to be 2.6% in D. unisexualis, 1.9% in D. nairensis, and 1.6% in D. valentini. The phylogenetic analysis shows the distribution of copies of D. unisexualis in each of the two clusters of RT sequences characteristic of D. nairensis and D. valentini. This result supports the view of the hybrid origin of D. unisexualis and does not exclude intraspecific hybridization between D. nairensis and D. valentini.

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The Caucasian parthenogenetic rock lizards of the L. saxicola complex probably originated by hybridisation of some bisexual species. We verified this hypothesis using a new approach based on comparison of repetitive DNA characters, which produce species-specific patterns (named `taxonprint`). The method relies on restriction endonuclease hydrolysis of genomic DNA, with the following 32P-end labeling and polyacrylamide gel electrophoretic separation of the fragments. The parthenogenetic species L. armeniaca and L. dahli possess specific features both of putative maternal L. mixta (in some taxonprints), and of paternal L. valentini (in other ones), whereas L. portschinskii and L. rudis also could be the paternal species. Parthenoclones L. unisexualis and L. uzzelli have the specific DNA features in several taxonprints of L. raddei or L. nairensis (which cannot be discriminated by taxonprints) which are supposed to be maternal species for L. unisexualis and paternal ones for L. uzzelli. The specific features of L. valentini (or L. portschinskii) are observed in L. unisexualis; L. uzzelli has not been investigated in this respect. Parthenogenetic L. rostombekovi also possesses properties of L. raddei or L. nairensis, but we have not be able to find any features of supposed paternal L. portschinskii in this parthenogenetic species.

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In this study, we aimed to determine the amphibian and reptile species distributed in Agri province (Turkey), as well the major factors threatening the species. For this purpose, we conducted 4 field excursions (20 days totally) at 223 different point, covering all the squares of 1:25.000 layout map. As a result of the literature and field survey, we recorded 4 anuran (Pseudepidalea variabilis, Pelophylax ridibundus, Rana camerani, R. macrocnemis), 2 chelonian (Mauremys caspica, Testudo graeca), 16 lizard (Paralaudakia caucasia, Phrynocephalus horvathi, Ablepharus bivittatus, Trachylepis aurata, Darevskia bendimahiensis, D. raddei, D. valentini, D. sapphirina, D. unisexualis, D. uzzelli, Eremias suphani, E. strauchi, E. pleskei, Lacerta media, Ophisops elegans, Parvilacerta parvd) and 14 snake (Typhlops vermicularis, Dolichophis jugularis, D. schmidti, Eirenis eiselti, E. modestus, E. collaris, Coronella austriaca, Hemorrhois ravergieri, Natrix natrix, N. tessellata, Platyceps najadum, Eryx jaculus, Montivipera wagneri, M raddei) species in Agri province, which is totally 4 amphibians and 32 reptiles. Three Anatolian endemic species (Darevskia sapphirina, Eirenis eiselti, Montivipera wagneri) and 7 species more was recorded in Agri as s first time in the literture. Taking into account the very limited herpetofaunal information available in the literature for Agri province, a significant contribution was made with this work. This study was conducted as a part of `The Ministry of Forestry and Water Affairs, General Directorate of Nature Conservation and National Parks National Biodiversity Inventory and Monitoring Project`.

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Two parthenogenic families of unisexual species of Caucasian rock lizards of genus Lacerta, L. armeniaca andL. unisexualis, were analyzed by DNA fingerprinting. Inheritance of M13 minisatellite and of (GACA) n , (GATA) n , and (TCC) n microsatellite loci in the first generation of the lizards was studied. M13, (GACA) n , and (TCC) n loci in the families ofL. armeniaca were strictly inherited, as well as M13 and (GACA) n loci in the families ofL. unisexualis: each DNA fragment in the fingerprint patterns of progeny could be detected in the maternal pattern. However, when a (TCC)50 microsatellite probe was applied in the study ofL. unisexualis families, specific DNA fragments with altered mobility were revealed in the progeny patterns, and the frequency of such events was rather high. It might be hypothesized that some of the (TCC) n loci inL. unisexualis genome are highly mutable. Hence, the family analysis allowed us to demonstrate experimentally the presence of genetically unstable loci in genomes of parthenogenic species of vertebrates. The nature and mechanism of the instability of these loci in parthenogenesis remain obscure.

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The first complete mitochondrial genome sequence of parthenogenetic Caucasian rock lizard Darevskia unisexualis (Lacertidae family) is determined by hybrid assembly with Illumina HiSeq and PacBio RS II platforms. The circular 21.4 kbp mitogenome contains 13 protein-coding genes, 12S and 16S rRNA genes, 20 tRNAs, two pseudogenized tRNAs, and one long tandem repeats with 4.1 kbp length formed by 59 bp monomer repeated x70.6 times located before control region. This finding represents a new example of mitogenome variation in lizards of hybrid origin, providing fundamental data for following study of a unique hybridization system formed by parthenogenetic and bisexual species in the mountain steppe of central Armenia.

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Populations of parthenogenetic lizards of the genus Darevskia consist of genetically identical animals, and represent a unique model for studying the molecular mechanisms underlying the variability and evolution of hypervariable DNA repeats. As unisexual lineages, parthenogenetic lizards are characterized by some level of genetic diversity at microsatellite loci. We cloned and sequenced a number of (GATA)n microsatellite loci of Darevskia unisexualis. PCR products from these loci were also sequenced and the degree of intraspecific polymorphism was assessed. Among the five (GATA)n loci analysed, two (Du215 and Du281) were polymorphic. Cross-species analysis of Du215 and Du281 indicate that the priming sites at the D. unisexualis loci are conserved in the bisexual parental species, D. raddei and D. valentini. Sequencing the PCR products amplified from Du215 and Du281 and from monomorphic Du323 showed that allelic differences at the polymorphic loci are caused by microsatellite mutations and by point mutations in the flanking regions. The haplotypes identified among the allelic variants of Du281 and among its orthologues in the parental species provide new evidence of the cross-species origin of D. unisexualis. To our knowledge, these data are the first to characterize the nucleotide sequences of allelic variants at microsatellite loci within parthenogenetic vertebrate animals.

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Hypervariable mini- and microsatellites represent the most widespread and universal system of molecular markers and are widely used in population and evolutional biology, genomic marking, paternity determination, and medico-biological studies [1, 2]. These repeats are classified with the most instable regions of eukaryotic genomes and are characterized by the highest mutation rates reported for genetic loci [3, 4]. The studies of individual mini- and microsatellite loci showed that changes in them significantly vary depending on the species, repeat type, alleles, age, and sex. However, the genesis of mini- and microsatellite loci, intensively studied in the human [5] and some other bisexual species [6], practically has not been studied in species with clonal type of reproduction. Obligate parthenogenetic reptiles, whose reproduction system implies clonal reproducing of maternal genotype in a series of generations, is a unique model system for monitoring of genetic variability in loci with increased mutation activity [7]. Earlier, multilocus DNA fingerprinting was used to study variability of several types of mini- and microsatellite DNA markers in four parthenogenetic species of the genus Darevskia ( D. dahli, D. armeniaca, D. unisexualis , and D. rostombekovi ) [8‐11]. It was shown that genetic heterogeneity of parthenogenetic species with respect to some microsatellite markers may be detected against the background of species-specific DNA fingerprints. The most variable were the loci that contained (TCC) n , (TCT) n , and (GATA) n microsatellites in D. unisexualis genome [8, 9, 12‐14]. DNA fingerprints of parthenogenetic D. unisexualis families demonstrated high frequency of mutations for these loci already in the firstgeneration progeny [9, 14]. Furthermore, mutant (GATA) n fingerprint phenotypes were also detected in the progeny of population D. unisexualis samples. This finding is indicative of the mutant nature of genotypic diversity of D. unisexualis populations with respect to (GATA) n loci. However, the molecular nature and mechanisms of occurrence of these mutations remain obscure. It is conceivable that certain progress in this field may be reached with the use of genetic engineering studies of variable loci. In this study, we for the first time cloned and sequenced one variable locus of D. unisexualis genome and revealed the nature of structural variations of its allele variants. Total cell DNA was isolated form blood of adult D. unisexualis by standard phenol‐chloroform method using protein kinase K. DNA was hydrolyzed with endonuclease Sau 3A (Amersham) until complete degradation and ligated with the pUC12 vector, treated with Bam H1 restriction endonuclease using standard procedure. The ligase mixture was used to transform XL-1 Blue E. coli cells (Stratagene). The clonotheque obtained was then used for searching for recombinant clones containing (GATA) n microsatellites. The screening of approximately 1000 recombinant clones using

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The genesis of mini- and microsatellite loci, which is under extensive study in humans and some other bisexual species, has been virtually overlooked in species with clonal mode of reproduction. Earlier, using multilocus DNA fingerprinting, we have examined variability of some mini- and microsatellite DNA markers in parthenogenetic lizards from the genus Darevskia. In particular, mutant (GATA)n-restriction DNA fragments were found in Darevskia unisexualis. In the present study, we examined intraspecific polymorphism of three cloned loci of D. unisexualis—Du323, Du215, and Du281—containing (GATA)7GAT(GATA)2, GAT(GATA)9, and (GATA)10TA(GATA) microsatellite clusters, respectively. Different levels of intrapopulation and interpopulation variability of these loci were found. Locus Du281 showed the highest polymorphism—(six allelic variants in the sample of 68 DNA specimens). Three alleles were found for locus Du215. The Du323 locus was electrophoretically invariant. The primers chosen for loci Du323, Du215, and Du281 were also used for PCR analysis of homologous loci in two presumptive parental bisexual species, D. valentini and D. nairensis. The PCR products of the corresponding loci of the parental species had approximately the same size (200 bp) as their counterparts in D. unisexualis, but the polymorphism levels of the paternal, maternal, and hybrid species were shown to be somewhat different. These data on the structure of the D. unisexualis loci provide a possibility to study genetic diversity in the parthenogenetic species D. unisexualis and other related unisexual and bisexual species of this genus, which can provide new information on the origin of parthenogenetic species and on the phylogenetic relationships in the genus Darevskia. These data can also be used for resolving problems of marking the lizard genome, which is still poorly studied.

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Microsatellite repeats are one of the most widespread elements of the eukaryotic genome, but are poorly studied in species with clonal reproduction. PCR analysis and DNA sequencing were used to study the molecular structure of the allelic variants of microsatellite locus Du47D in the parthenogenetic species Darevskia unisexualis and its evolutionary ancestors, bisexual species D. raddei and D. valentini, of the genus Darevskia (Lacerta saxicola complex). Sequencing showed that the allelic variants of the D. unisexualis Du47D locus and the alleles of its D. raddei and D. valentini orthologs have a perfect microsatellite cluster structure, differ in number of ATT monomeric units, and have certain species-specific combinations of nucleotide substitutions, deletions, and insertions in the microsatellite-flanking DNA sequences. The Du47D alleles that the parthenogenetic species inherited from D. valentini or from D. raddei were identified.

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Turkey is biogeographically diverse and consequently has a rich herpetofauna. As a result of active herpetological research, the number of species has steadily increased in recent years. I present here a new checklist of amphibian and reptile species distributed in Turkey, revising the nomenclature to reflect the latest taxonomic knowledge. In addition, information about the systematics of many species is also given. In total 35 (19.4%) amphibian and 145 (80.6%) reptile species comprise the Turkish herpetofauna. Among amphibians, 16 (45.7%) anurans and 19 urodelans (54.3%) are present. Among reptiles, 11 (7.6%) testudines, 71 (49%) saurians, 3 (2.1%) amphisbaenians and 60 (41.3%) ophidians are considered part of the herpetofauna. The endemism rate in Turkey is considered relatively high with a total of 34 species (12 amphibian species – 34.3% and 22 reptile species – 15.2%) endemic to Turkey, yielding a total herpetofaunal endemism of 18.9%. While 38 species have not been threat-assessed by the IUCN, 92 of the 180 Turkish herpetofaunal species are of Least Concern (LC), 13 are Near Threatened (NT), 10 are Vulnerable (VU), 14 are Endangered (EN), and 7 are Critically Endangered (CR). In addition, 6 species are in the DD (Data Deficient) category.

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Using monolocus PCR analysis with the pairs of primers designed for the Du215 locus of Darevskia unisexualis, allelic polymorphism at the orthologous locus in the populations of the related parthenospecies D. armeniaca was investigated. It was demonstrated that Du215 (arm) locus was polymorphic and in the populations of parthenospecies D. armeniaca (n = 127) represented by at least three allelic variants, differing from each other by the size and composition of microsatellite cluster, and by single nucleotide substitutions in flanking DNA. Unlike the Du215 locus, Du215 (arm) was shown contain not only GATA, but also (GACA) repeats, which were absent in D. unisexualis. Thus, in this study, the data on the molecular nature of allelic polymorphism at one of the microsatellite loci of the parthenospecies D. armeniaca were reported.

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Population and family samples of two morphological forms (mutant and normal with respect to dorsal color) of parthenogenetic lizard species Darevskia armeniaca were examined by means of DNA fingerprinting using M13 mini- and (GACA) n and (TCC) n microsatellite DNA markers. The morphological forms examined were characterized by clonally inherited, species-specific patterns of the DNA markers, which were different from the species-specific DNA fingerprints of the other parthenogenetic species of the genus Darevskia (D. dahli, D. unisexualis, and D. rostombekovi). The mean index of similarity (S) obtained for a sample of 36 individuals from three isolated populations using three types of DNA markers was 0.966. This was similar to those observed in D. dahli (0.962) (P > 0.05), but higher than that in D. unisexualis (0.950) (P < 0.05) and D. rostombekovi(0.875) (P < 0.01). Inheritance of M13 minisatellite and (TCC) n microsatellite DNA markers in the F1 offspring of parthenogenetic lizards was examined. It was shown that variability and clonal diversity of the fingerprint phenotypes observed in the populations and families of D. armeniaca could be at least partly explained by RFLP mutations in microsatellite repeats.

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The Bov-B LINE retrotransposon was first discovered in Ruminantia and was long considered to be specific for this order. Later, this mobile element was described in snakes and some lizard species. Analysis of phylogenetic relationships of Bov-B LINE elements from different ruminants, snakes, and lizard species led to the suggestion on horizontal transfer of this retrotransposon from Squamata to Ruminantia. In the Squamata group, Bov-B LINE element was found in all snakes and some lizard species examined. The element was not detected in the genomes of some species of the genera Lacerta and Podarcis. In the present study, using PCR amplification and sequencing of PCR products, Bov-B LINE element was identified in the genomes of parthenogenetic and bisexual species of the genus Darevskia (Lacertidae), as well as in such species as Lacerta agilis and Zootoca vivipara, where this retrotransposon had not been not detected before.

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Variation and clonal diversity in populations of the parthenogenetic rock lizard Darevskia rostombekovi was examined by means of multilocus DNA fingerprinting using mini- and microsatellite DNA markers M13, (GATA)4, and (TCC)50). The animals examined were shown to exhibit a clonally inherited, species-specific pattern of DNA markers (fingerprint profile) that is different from the species-specific patterns of parthenogenetic species D. dahli, D. armenica, and D. unisexualis. The mean intraspecific similarity indexS was 0.950 (0.003) for a sample of 19 animals from three isolated populations of North Armenia. This significantly differed from the estimate of this parameter for a sample of 21 animals including two individuals from mountainous, relict population from the vicinity of the Sevan Lake, which was equal to 0.875 (0.001). A comparison of DNA fingerprints showed differences between 21 individuals attaining 79 DNA fragments of 1801 mini- and microsatellite markers included in the analysis. The results obtained show that intraspecific variation in D. rostombekovi is higher than that in the previously studied parthenogenetic species D. dahli (S = 0.962) andD. unisexualis (S= 0.950) (P< 0.001). Taking into account that D. rostombekovi is considered monoclonal on the basis of allozyme data, the problem of clonal variability is discussed with regard to the evidence on nuclear DNA markers. It is suggested that the hybrid karyotype of D. rostombekovi, which is more unstable than that of D. dahli and D. unisexualis, generates a series of chromosomal rearrangements (mutations). This may lead to the appearance of a geographically isolated chromosomal race (clone) in the population inhabiting the southeastern coast of the Sevan Lake.

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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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Restriction enzymes were used to assay variation among mitochondrial DNAs from parthenogenetic and sexual species of Lacerta. This permitted identification of the sexual species that acted as the maternal parent of the various hybrid-parthenogenetic lineages. Lacerta mixta was the maternal parent for both L. dahli and L. armeniaca, L. valentini was the maternal parent for L. uzzelli, and L. raddei was the maternal parent of L. rostombekovi. The maternal ancestry of L. unisexualis is not as clear. The sample of L. nairensis was very similar to one from a population of L. raddei and either species could be the maternal parent of L. unisexualis. The parthenogenetic species all had very low nucleotide diversity in absolute terms and in comparison to their sexual relatives. The close similarity between mtDNAs from the parthenogenetic species and their respective sexual maternal ancestor species provides strong evidence for the recent origin of the parthenogens. The low diversity of the parthenogens indicates that few females were involved in their origins; the maternal parents of L. dahli and L. armeniaca could have come from a single population. The patterns of mtDNA variation in Lacerta are very similar to those in Cnemidophorus and Heteronotia, establishing recent and geographically restricted origins as a general feature of parthenogenetic lizards.

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A phylogeny of Caucasian rock lizards (genus Darevskia, formerly Lacerta) was reconstructed using mitochondrial DNA sequence and allozyme data. All 15 bisexual species grouped into three major clades: the caucasica, saxicola and rudis clades. Unisexual Darevskia originate from inter-clade hybridization, never from within clades. Only two clades, the caucasica clade and the rudis clade, were involved in forming unisexuals; the saxicola clade was never involved. Furthermore, the hybridization is directional in that the caucasica clade contributed only maternal parents and the rudis clade only paternal parents. The formation of unisexual species is best explained by sexually directional phylogenetic constraints. We hypothesize that the causative agents are likely to be genes linked with the sex chromosomes within the parental sexual species.

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Some aspects of thermal biology were considered in three species of the lizard genus Darevskia: the parthenogenetic Darevskia armeniaca and D. unisexualis, and their parental bisexual species Darevskia valentini. The main objective of the present research was to compare the thermal biology of these species in a mixed population. Material was captured at four localities in Armenia: Kuchak, Dilijan, Mets Sepasar, and Artavaz in summer 2007, 2013, 2016, and 2018, respectively. Their snout-vent length and cloacal body temperature, as well as air and substrate temperatures were measured. The following differences in the thermal biology of the study species were revealed: D. unisexualis had a relatively low activity temperature range (T = 22.0–32.8°C, vs. 25.6–35.6°C for D. armeniaca or 25.3–35.4°C for D. valentini). The body temperatures of different species were found to correlate differently with both the air temperature and the substrate temperature under the conditions of their coexistence at Kuchak.

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Allelic polymorphism of three microsatellite loci from the genome of parthenogenetic lizard Darevskia unisexualis was characterized using analysis of free energy (Gibbs energy) of the DNA/DNA duplex formation within the stepwise mutational model. It was demonstrated that the number of microsatellite cluster monomericic units would change to decrease the mean free energy of the locus. In addition, based on the analysis of nucleotide composition, the GC content of each locus was evaluated, and belonging of the loci examined to certain isochore families was suggested.

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In the present study, the first molecular genetic investigation of dinucleotide (GT) n microsatellite loci in parthenogenetic lizards Darevskia unisexualis was performed. New polymorphic locus, Du214, (GenBank Ac. No. EU252542) was identified and characterized in detail. It was demonstrated that allele of this locus differed in the size and structure of microsatellite locus, as well as in point mutations, the combinations of which enabled the isolation of stabile fixed double nucleotide substitutions A–A (alleles 2 and 4) and G–T (alleles 1, 3, 5, and 6). Double nucleotide substitutions described were also identified in the orthlogous loci of the parental species genomes, D. raddei (G–T) and D. valentine (A–A). Based on the analysis of allele distribution pattern at this locus in all populations of parthenospecies D. unisexualis, mathematic model was elaborated and realized. Using this model, frequencies of allelic variants for all populations of the species of interest were calculated and population genetic structure of D. unisexualis was characterized. Genetic contribution of each population to the species gene pool was determined. The data obtained demonstrated that microsatellite variation was one of the factors of clonal and genetic diversity of a parthenospecies.

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Genomic instability and variability of microsatellite loci is poorly studied in organisms with clonal inheritance. This was the first work to perform a moleculargenetic study of individual loci containing (GT) n microsatellites in clone-breeding (parthenogenetic) lizards Darevskia unisexualis. We revealed and characterized in detail the polymorphic loci and showed that alleles of this locus differ in size and structure of the microsatellite locus.

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The parthenogenetic species Darevskia rostombekowi is listed in the Red Book of Armenia and the IUCN Red List as ‘Endangered’. Among the noted threats to this species is competition with syntopic species. Therefore, our main goal was to compare the coexistence patterns among syntopic species. Census was conducted along five different transects (about 1 km long each) during May – September 2015, in two isolated populations. The numbers of counted parthenogenetic lizards of D. rostombekowi (40-46%, 23 individuals/ha) and D. unisexualis (60-54%, 35 individuals/ha) were not different between among (P= 0.87) in Sevan Lake population, but differed (P< 0.001) among the three parthenogenetic species [D. rostombekowi (30-34%, 6 individuals/ha), D. dahli (60-54%, 11 individuals/ha), and D. armeniaca (10-12%, 2 individuals/ha)] in the area of coexistence, in the vicinity of Dilijan city. Population density of D. rostombekowi from Sevan Lake was significantly higher (t-value = 6.50, P< 0.0001) than that in the Dilijan population. Herein, we analyze the temporal and spatial niches of lizards living synoptically to assess the degree of niche differentiation among them. No differences in vegetation density in the microhabitats used by syntopic species have been revealed for both populations. The comparison of daily activities have shown similar bimodal patterns for D. rostombekowi and D. dahli in Dilijan populations while in Sevan D. unisexualis shows a bimodal pattern of daily activity while D. rostombekowi a unimodal one. Moreover, it was noted that D. unisexualis appeared on the surface before D. rostombekowi in the morning and remained active longer. However, the number of D. rostombekowi individuals in May, just after hibernation, and in September, before hibernation, was higher than D. unisexualis. The lower density of D. rostombekowi in Dilijan population may have allowed synchronous activity cycles due to the lack of competition between species, in contrast to Sevan Lake populations.

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An integrated approach for constructing maps of suitable habitats and ecological niches of parthenogenetic and their parental species of the genus Darevskiain the Caucasus is presented. It is shown that this approach is a powerful tool for analyzing species-specific requirements of lizards for the habitat and differentiating their niches in the multidimensional space of predictor variables.

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Caucasian rock lizards of the genus Darevskia are unique taxa, including both bisexual and parthenogenetic species. The parthenogenetic species have originated as a result of natural hybridisation between females and males of different bisexual species. The species involved in interspecific hybridisation are called parental. However, sympatric zones (SZ) of unisexual and bisexual rock lizards of the Caucasus are still poorly studied, although they are very important for understanding the role of hybrid individuals of different origin in reticulate evolution. This paper presents the location of the SZs of parthenogenetic and their parental bisexual rock lizards of the genus Darevskia in Armenia and adjacent territories of Georgia and Nagorno-Karabakh. We summarised the locations of the SZs identified from 1957 to the present, based on our field survey data gathered in 2018-2019 and records from publications and museum collections. This dataset includes 39 SZs of three types: SZ of parental bisexual species, SZ of parental species with unisexual species and SZ of the parthenogenetic species. For each zone, species composition, geographical and altitudinal distribution are presented. New records expand our knowledge of the geographical and altitudinal distribution of SZs in these species and provide additional data for understanding the mechanisms of reticulate evolution and hybridogeneous speciation in the past, present and future.

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Methods of estimating within- and between-population gene diversity in parthenogenetic species using mini- and microsatellite DNA markers and modified Wright`s F ST statistic are presented with special reference to model populations of lizards of the genus Darevskia(D. dahli, D. armeniaca, D. unisexualis). We used DNA fingerprinting data for several populations of these species examined earlier. The effects of variation in M13 minisatellite, (GACA) n - and (TCC) n -microsatellite loci on the formation of within-population gene diversity in parthenogenetic species D. dahli and D. armeniaca were shown to be different. The equality of the realized gene diversity Hand its maximum possible value H max in two populations of D. dahli (H max = 0.032, H = 0.031, P 0.0431; H max = 0.024, H = 0.027, P = 0.09) and D. armeniaca (H max = 0.05, H = 0.053, P = 0.03; H max= 0.054, H = 0.055, P= 0.02) suggests that variation in (GACA) n loci substantially contributes to the maintenance of within-population genetic diversity. Analysis of between-population genetic diversity using loci M13, (GACA) n , and (TCC) n showed differentiation of D. dahli populations from northeastern and northwestern Armenia (F ST = 0.0272, P = 3 × 10–13) and genetic homogeneity of the Armenian and introduced to the Ukraine populations of D. armeniaca characteristic of one clone (F ST = 0, P = 1).

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Four bisexual and two unisexual species of the lizard genus Darevskia from northeastern Anatolia were searched for intestinal parasites in adult specimens. One cestode, Nematotaenia tarentolae, and two nematode species, Spauligodon saxicolae and Strongyloides darevskyi, were found, the latest identified as a Darevskia specialist. No major differences between host species were recorded. The very low infection rates and diversity result in depauperate helminth communities for all these lacertid lizards being the lowest among the Palaearctic saurians. Patterns of these helminth communities are compared with those observed in other lacertid lizards from Anatolia and Europe.

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Darevskia rock lizards include 29 sexual and seven parthenogenetic species of hybrid origin distributed in the Caucasus. All seven parthenogenetic species of the genus Darevskia were formed as a result of interspecific hybridization of only four sexual species. It remains unknown what are the main advantages of interspecific hybridization along with switching on parthenogenetic reproduction in evolution of reptiles. Data on whole transcriptome sequencing of parthenogens and their parental ancestors can provide value impact in solving this problem. Here we have sequenced ovary tissue transcriptomes from unisexual parthenogenetic lizard D. unisexualis and its parental bisexual ancestors to facilitate the subsequent annotation and to obtain the collinear characteristics for comparison with other lizard species. Here we report generated RNAseq data from total mRNA of ovary tissues of D. unisexualis, D. valentini and D. raddei with 58932755, 51634041 and 62788216 reads. Obtained RNA reads were assembled by Trinity assembler and 95141, 62123, 61836 contigs were identified with N50 values of 2409, 2801 and 2827 respectively. For further analysis top Gene Ontology terms were annotated for all species and transcript number was calculated. The raw data were deposited in the NCBI SRA database (BioProject PRJNA773939). The assemblies are available in Mendeley Data and can be accessed via doi:10.17632/rtd8cx7zc3.1.

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In four isolated populations of parthenogenetic Caucasian rock lizard Lacerta unisexualis, variability of(TCC)(n) loci was examined using multilocus DNA fingerprinting. Unexpectedly high variability of(TCC)(n) microsatellites was found in all four populations. The mean similarity index was 0.825, which is higher than similarity estimates obtained for other mini- and microsatellite loci in L. unisexualis and parthenogenetic species L, dahli and L, armeniaca studied earlier. The high variation level of(TCC)(n) loci was shown to be at least partially associated with the presence of a diverged (TCC)(n) sequence fraction in the L. unisexualis genome. Mutations at some other genetically unstable (TCC)(n) loci may cause their structural diversity in populations of L, unisexualis.

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Using multilocus DNA fingerprinting, we have examined variability of (TCT) n microsatellite and M13 minisatellite DNA repeats in populations, families, and tissues of parthenogenetic Caucasian rock lizards Darevskia unisexualis (Lacertidae). It has been shown for the first time that population and family DNA samples of D. unisexualis (75 samples in total) have individually specific DNA fingerprinting patterns of (TCT) n fragments. Analysis of inheritance of (TCT) n microsatellites in 46 first-generation progeny in 17 parthenogenetic D. unisexualis families revealed their extremely high instability. Mutant TCT fingerprint phenotypes were found in virtually each animal of the progeny. Moreover, varying fragments in the progeny and their original variants in the mothers were shown to simultaneously contain (TCT) n and (TCC) n polypyrimidine clusters. At the same time, no variability of (TCT) n fragments has been detected in the tissues and organs of mature parthenogenetic lizards and in the analogous tissues of the two-week-old progeny of this year. This suggests the absence of somatic mosaicism and methylation of the corresponding loci in the samples. Along with the hyperinstability of (TCT/TCC) n polypyrimidine clusters, we have shown that the population and family DNA fingerprinting patterns of M13 minisatellites were invariable and monomorphic in the same DNA samples of D. unisexualis.Our results indicate that mutations at loci containing polypyrimidine microsatellites significantly contribute to the total genomic variability of parthenogenetic lizards D. unisexualis.

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Parasitological studies of 6 species of parthenogenetic and bisexual rock lizards of Armenia were carried out. The Helminthic and blood-parasite infections of these lizards were compared.

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Endoparasites of 10 reptiles species were studied. Two classes of helminths (Nematoda and Cestoda) were found. Extensity and intensity of infection were investigated.

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Factors driving the spatial patterns of communities of sedentary organisms are still poorly understood. In this context parthenogenetic animals are useful to test the contribution of sexual and interspecific interactions on spatial patterns. As such, mixed communities of asexual and sexual species are expected to be spatially organized as a single sexual species, with sexes randomly distributed and mutually independent. During the reproductive period, we determined the instantaneous spatial structure in a community of Darevskia rock lizards from Armenia composed of one sexual species (D. valentini), two asexual species (D. armeniaca, D. unisexualis), and their hybrids. We also analysed the specific composition of clusters and the species segregation by habitat. We used the Ripley’s K distance function to measure clustering spatial patterns, and the Delaunay’s triangulation to identify the clusters and their specific composition. We estimated the spatial segregation among species by calculating the overlap between species pairs, by comparing pairwise distances from males to other males and from males to females, and by comparing the frequencies of both sexes and reproduction modes (asexual and sexual) in plant cover and height using log-linear models. Species displayed a clustered spatial structure, with parthenogens (mainly D. armeniaca) or their hybrids in all clusters. Females and males were concentrated in areas with medium plant cover. D. armeniaca and D. valentini were the species with the highest overlap. Males were closer to males than to females. This community displays an instantaneous spatial pattern resembling a population of a single sexual species. Spatial statistics offer new insights to analyse the spatial structure of species communities.

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We analysed the home ranges of a community of Darevskia rock lizards composed of a bisexual species (D. valentini), two parthenogens (D. armeniaca and D. unisexualis), and two backcross forms between bisexual and unisexual forms. We estimated home range areas of ink-marked, GPS-located lizards using Minimum Convex Polygon (MCP) and 95% of the locations for those individuals with five or more sightings. The bisexual D. valentini was the species with the largest home ranges, distances travelled, and the most intersections. No differences between unisexual species and backcrosses were recorded for any comparison. In males, home range size and perimeter were related to morphological characteristics. Contrary to what has been described in allopatry, unisexual species showed smaller home ranges and fewer overlaps than sympatric bisexual species. We tentatively suggest that the presence of potential bisexual partners might increase sexual competition among parthenogenetic females while differences in habitat use should also be considered.

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Darevskia rock lizards is a unique complex taxa, including more than thirty species, seven of which are parthenogenetic. in mixed populations of Darevskia lizards, tri- and tetraploid forms can be found. the most important issues in the theory of reticulate evolution of Darevskia lizards are the origin of parthenogenetic species and their taxonomic position. However, there is little data on how meiosis proceeds in these species. The present work reports the complex results of cytogenetics in a diploid parthenogenetic species – D. unisexualis. Here we detail the meiotic prophase I progression and the specific features оf mitotic chromosomes organization. The stages of meiosis prophase I were investigated by immunocytochemical analysis of preparations obtained from isolated primary oocytes of D. unisexualis in comparison with maternal species D. raddei nairensis. It has been shown that in D. unisexualis at the leptotene-zygotene stages the axial elements and the synaptonemal complex (SC) form typical “bouquets”. At the pachytene-diplotene stage, 18 autosomal SC-bivalents and thickened asynapted sex Z and w univalents were observed. The presence of SYCP1 protein between the lateral elements of autosomal chromosomes proved the formation of assembled Scs. comparative genomic hybridization (cGH) on the mitotic metaphase chromosomes of D. unisexualis was carried out using the genomic DnA isolated from the parental species D. raddei nairensis and D. valentini. in the pericentromeric regions of half of the mitotic chromosomes of D. unisexualis, specific regions inherited from maternal species have been found. Following our results, we suggest a model for diploid germ cells formation from diploid oocytes without premeiotic duplication of chromosomes in the oogenesis of diploid parthenogenetic lizards D. unisexualis. Taken as a whole, our findings confirm the hybrid nature of D. unisexualis and shed light on heterozygosity and automixis in diploid parthenogenetic forms.

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Parthenogenetic species of Caucasian rock lizards of the genus Darevksia are important evidence for reticulate evolution and speciation by hybridization in vertebrates. Female‐only lineages formed through interspecific hybridization have been discovered in many groups. Nevertheless, critical mechanisms of oogenesis and specifics of meiosis that provide long‐term stability of parthenogenetic species are still unknown. Here we report cytogenetic characteristics of somatic karyotypes and meiotic prophase I nuclei in the diploid parthenogenetic species Darevskia unisexualis from the new population “Keti” in Armenia which contains an odd number of chromosomes 2n = 37, instead of the usual 2n = 38. We revealed 36 acrocentric chromosomes and a single metacentric autosomal chromosome, resulting from Robertsonian translocation. Comparative genomic hybridization revealed that chromosome fusion occurred between two chromosomes inherited from the maternal species, similar to another parthenogenetic species D. rostombekowi. To trace the chromosome behaviour in meiosis, we performed an immunocytochemical study of primary oocytes` spread nuclei and studied chromosome synapsis during meiotic prophase I in D. unisexualis based on analysis of synaptonemal complexes (SCs). We found meiotic SC‐trivalent composed of one metacentric and two acrocentric chromosomes. We confirmed that the SC was assembled between homeologous chromosomes inherited from two parental species. Immunostaining of the pachytene and diplotene nuclei revealed a mismatch repair protein MLH1 loaded to all autosomal SC bivalents. Possible mechanisms of meiotic recombination between homeologous chromosomes are discussed.

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Knowing whether triploid hybrids resulting from natural hybridization of parthenogenetic and bisexual species are fertile is crucial for understanding the mechanisms of reticulate evolution in rock lizards. Here, using males of the bisexual diploid rock lizard species Darevskia raddei nairensis and Darevskia valentini and a triploid hybrid male Darevskia unisexualis × Darevskia valentini, we performed karyotyping and comparative immunocytochemistry of chromosome synapsis and investigated the distribution of RAD51 and MLH1 foci in spread spermatocyte nuclei in meiotic prophase I. Three chromosome sets were found to occur in cell nuclei in the D. unisexualis × D. valentini hybrid, two originating from a parthenogenetic D. unisexualis female and one from the D. valentini male. Despite this distorted chromosome synapsis and incomplete double-strand breaks repair in meiotic prophase I, the number of mismatch repair foci in the triploid hybrid was enough to pass through both meiotic divisions. The defects in synapsis and repair did not arrest meiosis or spermatogenesis. Numerous abnormal mature spermatids were observed in the testes of the studied hybrid.

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The first tetraploid hybrid in the group of Caucasian rock lizards of genus Darevskia was discovered in 2004 in a population near the village Kuchak (central part of Armenia). The majority of hybrid individuals, which are formed in a sympatric zone of parthenogenetic and bisexual species of Caucasian rock lizards, are triploid sterile females (3n = 57). However, karyological study among hybrids D. valentini x D. unisexualis revealed the tetraploid set of chromosomes for one specimen. This hybrid had two fully developed testes (2.4 x 3.2 mm), well organized hemipeneses and obvious visible femoral pores. The Giemsa-stained smears of testes have shown diakinetic stages of meiosis and middle, late spermatides (60%). The karyotype (4n=76, NF=76) was represented by 71 acrocentric chromosomes and 5 microchromosomes. So, this was a tetraploid male with sex chromosomes of wZZZ type.

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Elements of the herpetofauna are in the author`s opinion of great importance for the zoogeographical division of the Palaearctic region. It is suggested that this region be divided into the following four subregions: 1/ arctic, 2/ boreal Euro-Siberian, 3/ bo- real Himalayan-Manchurian and 4/ Mediterranean-Central-Asiatic.

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Background: The majority of parthenogenetic vertebrates derive from hybridization between sexually reproducing species, but the exact number of hybridization events ancestral to currently extant clonal lineages is difficult to determine. Usually, we do not know whether the parental species are able to contribute their genes to the parthenogenetic vertebrate lineages after the initial hybridization. In this paper, we address the hypothesis, whether some genotypes of seven phenotypically distinct parthenogenetic rock lizards (genus Darevskia) could have resulted from back-crosses of parthenogens with their presumed parental species. We also tried to identify, as precise as possible, the ancestral populations of all seven parthenogens. Results: We analysed partial mtDNA sequences and microsatellite genotypes of all seven parthenogens and their presumed ansectral species, sampled across the entire geographic range of parthenogenesis in this group. Our results confirm the previous designation of the parental species, but further specify the maternal populations that are likely ancestral to different parthenogenetic lineages. Contrary to the expectation of independent hybrid origins of the unisexual taxa, we found that genotypes at multiple loci were shared frequently between different parthenogenetic species. The highest proportions of shared genotypes were detected between (i) D. sapphirina and D. bendimahiensis and (ii) D. dahli and D. armeniaca, and less often between other parthenogens. In case (ii), genotypes at the remaining loci were notably distinct. Conclusions: We suggest that both observations (i-ii) can be explained by two parthenogenetic forms tracing their origin to a single initial hybridization event. In case (ii), however, occasional gene exchange between the unisexual and the parental bisexual species could have taken place after the onset of parthenogenetic reproduction. Indeed, backcrossed polyploid hybrids are relatively frequent in Darevskia, although no direct evidence of recent gene flow has been previously documented. Our results further suggest that parthenogens are losing heterozygosity as a result of allelic conversion, hence their fitness is expected to decline over time as genetic diversity declines. Backcrosses with the parental species could be a rescue mechanism which might prevent this decline, and therefore increase the persistance of unisexual forms.

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Multilocus DNA fingerprinting has been used to study the variability of some mini- and microsatellite sequences in parthenogenetic species of Caucasian rock lizards of the genus Lacerta (L. dahli, L. armeniaca and L. unisexualis). We demonstrate that these clonally reproducing lizards possess species-specific DNA fingerprints with a low degree of intra- and interpopulation variation. Mean indices of similarity obtained using M13 DNA, (GACA)4 and (TCC)50 as probes were 0.962 and 0.966 in L. dahli and L. armeniaca, respectively. The mean index of similarity obtained using M 13 and GATA probes in L. unisexualis was estimated to be 0.95. However, despite the high degree of band-sharing, variable DNA fragments were revealed in all populations with the microsatellite probes. An particularly high level of variability was observed for (TCC)n microsatellites in populations of L. unisexualis. In fact TCC-derived DNA fingerprints were close to being individual-specific, with a mean index of similarity of 0.824. Fingerprint analysis of parthenogenetic families of L. armeniaca showed that all maternal fragments were inherited together by the progeny, and no differences in fingerprint patterns were observed. On the other hand, while identical DNA fingerprints were obtained from L. unisexualis families with M13 and (GATA)4 probes, use of the (TCC)50 probe revealed remarkable intrafamily variation in this species. It is assumed that the genetic heterogeneity observed in parthenogenetic populations may be explained, at least in part, by the existence of genetically unstable microsatellite loci. Our data serve to illustrate processes of spontaneous mutagenesis and the initial stages of clonal differentiation in natural populations of the lizard species studied.

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Mini- and microsatellites, comprising tandemly repeated short nucleotide sequences, are abundant dispersed repetitive elements that are ubiquitous in eukaryotic genomes. In humans and other bisexual species hypervariable mini- and microsatellite loci provide highly informative systems for monitoring of germline and somatic instability. However, little is known about the mechanisms by which these loci mutate in species that lack effective genetic recombination. Here, multilocus DNA fingerprinting was used to study M13 minisatellite and (GATA) n microsatellite instability in the parthenogenetic Caucasian rock lizard Darevskia unisexualis (Lacertidae). DNA fingerprinting of 25 parthenogenetic families, from six isolated populations in Armenia (comprising a total of 84 siblings), using the oligonucleotide (GATA)4 as a hybridization probe, revealed mutant fingerprinting phenotypes in 13 siblings that differed from their mothers in several restriction DNA fragments. In three families (8 siblings), the mutations were present in the germline. Moreover, the mutant fingerprint phenotypes detected in siblings were also present in population DNA samples. No intrafamily variations in DNA fingerprint patterns were observed with the M13 minisatellite probe. Estimates of the mutation rate for (GATA) n microsatellite loci in D. unisexualis showed that it was as high as that seen in some bisexual species, reaching 15% per sibling or 0.95% per microsatellite band. Furthermore, in one case, a somatic (GATA) n microsatellite mutation was observed in an adult lizard. These findings directly demonstrate that mutations in (GATA) n microsatellite loci comprise an important source of genetic variation in parthenogenetic populations of D. unisexualis.

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The results of five expeditions (1995, 1996, 2007, 2011, and 2012) to the north-eastern and eastern Turkey are presented. These data were collected from the Pontic (Lazistan) Ridge, Choroch River basin, and the upper flow basins of the Aras River, Kura River, Euphrates River, Tiger River, Dogankent (Kharshit) River, and the Van Lake basin. In total, 2 Caudata, 6 Anura, 2 Testudines (3 subspecies), 25 Sauria (30 subspecies) and 21 Serpentes species were found.

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Five proteins (mannosephosphate isomerase, glucosephosphate isomerase, lactate dehydrogenase, creatine kinase, hemoglobin) were examined for six bisexual Transcaucasian taxa related to Lacerta saxicola (Lacerta valentini, L. portschinskii, L. raddei raddei, L. r. nairensis, L. mixta, L. parvula) and four unisexual taxa (Lacerta armeniaca, L. dahli, L. rostombekovi, L. unisexualis). Heterozygosity in the bisexual taxa was very limited for this sample of proteins. All individuals examined of each unisexual were heterozygous at loci specifying at least two of these proteins (L. armeniaca: mannosephosphate isomerase and creatine kinase; L. dahli, mannosephosphate isomerase and hemoglobin; L. rostombekovi, glucosephosphate isomerase, mannosephosphate isomerase and hemoglobin; L. unisexualis, glucosephosphate isomerase, mannosephosphate isomerase and creatine kinase). High levels of heterozygosity in unisexuals appears to result from the hybrid origin of the unisexuals. The exact combinations of alleles present in unisexuals would readily result from certain crosses among the bisexuals, and from no others. The first point supports the hypothesis that hybridization accounts for the observed heterozygosity, the second identifies, biochemically at least, the probable parents. On these biochemical grounds, L. armeniaca arose by hybridization of L. valentini and L. mixta; L. unisexualis from L. valentini and L. r. nairensis; L. rostombekovi from L. r. raddei and L. portschinskii; and L. dahli from L. portschinskii and L. mixta. With regard to altitudinal distribution, vegetational associations and geographic distribution, each unisexual species appears to be intermediate between its putative parental species. L. armeniaca, L. unisexualis and L. rostombekovi all live in drier situations than either parental species. L. dahli is an exception since it occupies slightly more moist habitats than L. portschinskii. Biogeographical considerations appear to place the age of L. unisexualis and L. rostombekovi at greater than 5000 years. It is possible that their occupancy of more extreme habitats than their parental species represents a relic ecology, reflecting the adaptations of the parental bisexual species when the unisexual species arose, rather than a weed habitat into which they moved to escape from competition with their parental species. The fixed heterozygosity of the unisexual species of Lacerta indicates that the restitution of somatic diploidy results either from a premeiotic endoduplication without cytokinesis, or from fusion of the female pronucleus with one of the second division meiotic products of the first polar nucleus. The first mechanism is inconsistent with the number of bivalents reported, the second is otherwise unknown in organisms in which the first polar nucleus becomes a polar body. The bisexual taxa are treated as several distinct species, four pairs of which are partly sympatric with little or no hybridization. Morphological and ecological differences between the other taxa are so great that there seems little question about specific distinctness. The degree of biochemical and morphological difference between these non-sympatric taxa is as great as that between those that do occur sympatrically without fusing. The formation of parthenogenetic species as a result of past hybridization between some pairs indicates a great selective disadvantage to these pairs of hybridizing, and is thus compelling evidence that the two members of each pair are not conspecific.

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Background: The hybridization of female D. raddei and male D. valentini gave rise to the parthenogenetic Caucasian rock lizard Darevskia unisexualis. A previously identified genetic polymorphism in the species consisted of one common and two allozyme clones. Analysis of microsatellites and single nucleotide polymorphisms (SNPs) from the three species yields estimates of clonal diversity and tests the hypothesis of a single origin for D. unisexualis. Results: Genotyping and sequencing of four microsatellite-containing loci for 109 specimens of D. unisexualis, 17 D. valentini, and 45 D. raddei nairensis identified 12 presumptive clones, including one widespread and 11 rare clones. Most individuals in some localities had a rare clone. Clone-specific alleles in D. unisexualis were compared with those of the parental species. The results inferred a single hybridization event. Post-formation mutations best explain the less common clones. Conclusions: Interspecific analyses identify alleles inherited by D. unisexualis from its bisexual ancestors. SNP analyses fail to reject the hypothesis of a single interspecific origin of D. unisexualis, followed by microsatellite mutations in this initial clone. Microsatellites detect higher clonal diversity in D. unisexualis compared to allozymes and identify the likely origins of clones. Our approach may be applicable to other unisexual species whose origins involve interspecific hybridization.

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We genotyped multiple populations of all seven parthenogenetic species of rock lizards, genus Darevskia, as well as their putative sexual parental populations, using double digest RAD sequencing genomic markers. Taking advantage of the conserved homology of the ZW/ZZ sex chromosomes among lacertid lizards, we aligned our short sequence reads to a reference Z chromosome assembly of the common wall lizard Podarcis muralis. This provided unique insight into the origin of all-female hybrid populations, which inherited their single Z chromosome exclusively from a paternal ancestor. The mapped Z-linked loci were used to construct a robust time-calibrated phylogeny. In each parent–offspring species pair, the geographically nearest population of the paternal species was identified as the most likely ancestor of the respective parthenogen, mirroring the trend observed previously on the maternal side in mitochondrial DNA. The estimated splits between the sampled paternal sexual ancestors and their daughter species occurred much earlier than suggested previously and during two narrow time periods: (1) the parthenogenetic Darevskia armeniaca, D. dahli, D. uzzelli and D. rostombekowi dated back to ~0.5 or ~0.9 Mya, depending on the calibration point used, while (2) D. bendimahiensis, D. sapphirina and D. unisexualis appear to have diverged ~1 or ~2 Mya.

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Knowledge on the spatial distribution of taxa is crucial for the decision-making processes in conservation and management of biodiversity that rely on precise distribution data. We present an annotated list for a total of 37 amphibian (20 caudatans and 17 anurans) and 141 reptile species (11 chelonians, 70 lizards, 3 amphisbaenians and 57 snakes) in Turkey, using both available scientific literature up to December 2020 and our own fieldwork data from 1987 to 2020. We provide a comprehensive listing of taxonomy, names, distribution and conservation status of Turkish amphibians and reptiles. The herpetofauna list will be particularly useful for establishing national conservation priorities as well as for placing Turkish fauna into phylogenetic and biogeographic contexts. We compiled information published in books, journals and various web sources and added our personal data. We projected the data in the WGS84 coordinate system and created an overlay grid with cells of 50x50 km2. The database comprises more than 500 grid cells and 11,913 records. As a result, the distribution of Turkish amphibians and reptiles has been extensively mapped with geographical information systems and a database has been created. The obtained data will be useful in planning future studies on taxonomy, ecology and conservation of Turkish amphibians and reptiles.

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Turkey türkei As a result of a literature survey and field studies covering all regions of the Turkish Province of Agri, the authors found the area inhabited by three anuran, two chelonian, 16 lizard and 14 snake species. The records and their locations are presented in a map, a table and an Appendix. In the field studies the present paper is based upon Mauremys caspica, Ablepharus bivittatus, Parvilacerta parva, Eremias pleskei, Xerotyphlops vermicularis, Natrix natrix, Coronella austriaca, Eirenis eiselti, Dolichophis jugularis, Dolichophis schmidti, Platyceps najadum and Montivipera wagneri were recorded for the first time in the Province of Agri.

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As a result of a literature survey and field studies covering all regions of the Turkish Province of Agri, the authors found the area inhabited by three anuran, two chelonian, 16 lizard and 14 snake species. The records and their locations are presented in a map, a table and an Appendix. In the field studies the present paper is based upon Mauremys caspica, Ablepharus bivittatus, Parvilacerta parva, Eremias pleskei, Xerotyphlops vermicularis, Natrix natrix, Coronella austriaca, Eirenis eiselti, Dolichophis jugularis, Dolichophis schmidti, Platyceps najadum and Montivipera wagneri were recorded for the first time in the Province of Agri.