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In recent years, great attention has been paid to many Podarcis species for which the observed intra-specific variability often revealed species complexes still characterized by an unresolved relationship. When compared to other species, P. siculus underwent fewer revisions and the number of species hidden within this taxon may have been, therefore, underestimated. However, recent studies based on genetic and morphological data highlighted a marked differentiation of the populations inhabiting the western Pontine Archipelago. In the present work we used published genetic data (three mitochondrial and three nuclear gene fragments) from 25 Podarcis species to provide a multilocus phylogeny of the genus in order to understand the degree of differentiation of the western Pontine populations. In addition, we analyzed new morphometric traits (scale counts) of 151 specimens from the main islands of the Pontine Archipelago. The phylogenetic analysis revealed five principal Podarcis groups with biogeographic consistency. The genetic distinctiveness of the Podarcis populations of the western Pontine Islands is similar or even more ancient than those observed in numerous other pairs of Podarcis sister species. In the light of these evidences we raise the western Pontine lizards to specific rank; thus they should be referred to as Podarcis latastei.

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The timing of organisms’ senescence is developmentally programmed but also shaped by the interaction between environmental inputs and life-history traits. In ectotherms, ageing dynamics are still poorly understood despite their particularities concerning thermoregulation, regeneration capacity, or growth trajectory. Here, we investigate the role of life-history traits such as age, sex, body size, body condition, and tail autotomy (i.e self-amputation) in shaping telomere length of six populations of the Algerian sand lizard (Psammodromus algirus) distributed across an elevational gradient from 300 to 2500 meters above the sea level. Additionally, we show in a review table the available information on reptiles’ telomere length. We found that telomeres elongated with lizards’ age. We also observed that body size and age class showed a positive relationship, suggesting that cell replication did not shorten lizards’ telomeres by itself. Elevation affected telomere length in a non-linear way, a pattern that mirrored the variation in age structure across elevation. Telomere length was unaffected by tail autotomy, and was sex-independent, but positively correlated with body condition. Our results show that telomeres elongate throughout the first four years of lizards’ lifetime, a process that stress the role of telomerase in maintaining ectothermic telomeres, and, likely, in extending lifespan in organisms with indeterminate growth. Regarding the non-linear impact that elevation had on telomere length of lizards, our results suggest that habitat (mainly temperature) and organisms’ condition might play a key role in regulation ageing rate. Our findings emphasize the relevance of understanding species’ life histories (e.g. age and body condition) and habitat characteristics for fully disentangling the causes and consequences of lifespan trajector

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This work summarizes information on the distribution and status of the populations of amphibians and reptiles of the city of Sevastopol. Data obtained over a quarter of a century were refined by a targeted herpetological examination of the entire territory of Sevastopol (over 1000 km2) in 2018 and early 2019. Most species of am- phibians and reptiles known in Crimea are recorded from the Sevastopol Region, with the exception of some taxa that inhabit only or mainly plains environments (Pelobates vespertinus, Eremias arguta, and Lacerta agilis exigua). Most taxa included in the Red Book of Sevastopol, to date, retain stable populations. Apparently, Vi- pera renardi has disappeared from the region. Analysis of the taxon chorotypes indicates a dominance of spe- cies of Mediterranean (sensu lato) origin. The mild climate of the southwestern part of the Crimean Peninsula determines the unique spatial distribution of the most thermophilic reptile species (Mediodactylus danilewskii, Pseudopus apodus, and Zamenis situla) and, in particular, their wide distribution on the northern macroslope of the Crimean Mountains and (or) the highest elevations in Crimea. The zoning of the territory of Sevastopol, according to herpetological data, made it possible to identify eight districts that differ clearly in species compo- sition and population density of background and rare species. On a national scale, the territory of Sevastopol is important for the conservation of the genetic diversity of species such as Triturus karelinii, M. danilewskii, Ps. apodus, Z. situla, Dolichophis caspius, and Elaphe sauromates. Currently, the state of the populations of T. karelinii, Emys orbicularis, and El. sauromates is most alarming. Scientifically important natural and some synanthropic (in the Khersonesos of Taurida) populations of M. danilewskii, as well as relic populations of the Crimean endemic Lacerta agilis tauridica, require close attention. The “Baydarskyi”, “Cape Aya” and “Laspi” state regional wildlife sanctuaries play the most significant role in preserving the herpetofauna of the region, covering the upper part of the Chernaya River basin (Main Range) and the extreme southwestern part of the Southern Coast of Crimea, as well as the Mekenzievskoe Forestry in the foothills.

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A new endemic Sandveld Lizard, genus Nucras, is described from south-western Angola. Morphologically it resembles members of the Nucras tessellata group, but it is genetically separated and is sister to the larger tessellata + lalandii group. Although the genus is generally very conservative morphologically, the new species differs from other congeners in a combination of scalation, overall dorsal color pattern, and geographic separation. The new species is known from fewer than 12 specimens collected over a period spanning 120 years from arid south-western Angola. This brings the total number of species in the genus to 12 and adds another species to the growing list of endemic species of the Namib region of Angola. This new finding further reinforces the idea that this Kaokoveld Desert region is a key biodiversity area worthy of conservation and long-term protection.

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The Canary Islands are an Atlantic archipelago known for its high number of endemic species. Among the most known endemic vertebrate species are the giant lizards of the genus Gallotia. We describe the cranial osteology of the first almost complete and articulated fossil skull of the taxon Gallotia auaritae, recovered from the lower-middle Pleistocene of the La Palma island. In this work, X-ray computed microtomography images were used to perform an exhaustive phylogenetic analysis where most of the extant and fossil species of the genus Gallotia were included for first time. This analysis recovered a monophyletic Gallotia clade with similar topology to that of molecular analyses. The newly described specimen shares some characters with the group formed by G. bravoana, G. intermedia and G. simonyi, G. auaritae, and its position is compatible with a referral to the latter. Our study adds new important data to the poorly known cranial morphology of G. auaritae, and the phylogenetic analysis reveals an unexpected power of resolution to obtain a morphology-based phylogeny for the genus Gallotia, for inferring the phylogenetic position of extinct species and for helping in the identification of fossil specimens.

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To determine whether the Lyme disease spirochete Borrelia lusitaniae is associated with lizards, we compared the prevalence and genospecies of spirochetes present in rodent- and lizard-associated ticks at a site where this spirochete frequently infects questing ticks. Whereas questing nymphal Ixodes ricinus ticks were infected mainly by Borrelia afzelii, one-half of the infected adult ticks harbored B. lusitaniae at our study site. Lyme disease spirochetes were more prevalent in sand lizards (Lacerta agilis) and common wall lizards (Podarcis muralis) than in small rodents. Although subadult ticks feeding on rodents acquired mainly B. afzelii, subadult ticks feeding on lizards became infected by B. lusitaniae. Genetic analysis confirmed that the spirochetes isolated from ticks feeding on lizards are members of the B. lusitaniae genospecies and resemble type strain PotiB2. At our central European study site, lizards, which were previously considered zooprophylactic for the agent of Lyme disease, appear to perpetuate B. lusitaniae.

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A population of common lizard, Lacerta (Zootoca) vivipara, at the species area edge in Northern Mongolia was surveyed in the summer of 2008. A set of harmless methods was employed. Materials on the ecology and external characters are given.

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Chemical communication plays an essential role in several social and reproductive behaviors of many animals. In lizards, the main sources of semiochemicals are femoral or pre‐anal gland secretions and feces. In male lizards Psammodromus algirus, there are age‐related differences in the chemical composition of femoral gland secretions and in the reproductive strategies, with older males defending territories and females, while younger males adopting sneak‐mating strategies. Females flee more often from mating advances of young males than from those of old males, which are more successful in obtaining matings. This suggests that age discrimination of males may be important for females. We tested here whether females showed differential chemosensory responses to chemical cues (femoral gland secretion and feces) of males of two age classes, and whether females use information from substrate scent marks of males of different ages to select where to stay. We found that females elicited more tongue‐flicks to the secretion and feces of old males than to control or secretion and feces of young males. Also, the time spent by females on a scented paper depended on the treatment, suggesting that females tended to spend more time on scent marks made with femoral secretions of old males. Adult females seemed capable to discriminate between young and old males based on chemical cues alone and showed more interest in scents of old males. However, substrate scent marks did not seem to entirely determine site selection by females, suggesting that females might need additional cues to perform the choice. These results can be explained by the different age‐dependent reproductive strategies of males, which can affect differentially to females.

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The paper presents data on the histology and ultrastructure of the liver of two lizard species, Lacerta agilis and Eremias arguta, inhabiting the territory of the former Semipalatinsk Test Site (Eastern Kazakhstan). An LM study has shown the presence of pathological changes expressed in irregular vascular filling of the liver and venous, local discomplexation of hepatocyte, vacuole and adipose dystrophies and an increase of the local micronecroses where the lymphocyte, resident macrophage and Kupffer cell infiltrations have been registered. An EM investigation has revealed the features of glycogenolysis and decreasing of the lipid embeddings, the phenomenon of hydropical dystrophy and intracellular swelling in the certain part of the hepatocytes, significant hemosiderin accumulations in the liver cells appeared because of intensified catabolism of the phagocyted erythrocytes. The high level of metabolism processes was provided by utilization of the lipid embeddings, the high level of nucleoprotein synthesis and intensification of phosphorylating function of the mitochondria. The functional activity of Kupfer’s hyperplastic cells was directed to the synthesis of pigment granules, the mostimportant role among which belongs to melanin as a strong antioxidant protecting the body against free radicals.

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Reptiles are good objects for studying the evolution of sex determination, since they have different sex determination systems in different lineages. Lacertid lizards have been long-known for possessing ZZ/ ZW type sex chromosomes. However, due to morphological uniformity of lacertid chromosomes, the Z chromosome has been only putatively cytologically identified. We used lampbrush chromosome (LBC) analysis and FISH with a W-specific probe in Eremias velox (Pallas, 1771) to unequivocally identify the ZW bivalent and investigate its meiotic behavior. The heterochromatic W chromosome is decondensed at the lampbrush stage, indicating active transcription, contrast with the highly condensed condition of the lampbrush W chromosomes in birds. We identified the Z chromosome by its chiasmatic association with the W chromosome as chromosome XIII of the 19 chromosomes in the LBC karyotype. Our findings agree with previous genetic and genomic studies, which suggested that the lacertid Z chromosome should be one of the smaller macrochromosomes.

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We studied 60 samples of Lacerta agilis from four localities of Romania (20 samples from Borca – Bacau County, 19 samples from Ocloş – Bacau County, 5 samples from Greci – Tulcea County and 16 samples from Bordei Verde – Galati County). We analyzed characteristics of the pholydosys and biometric characteristics. After that, we calculated the ratio of each investigated character and the variation quotient. Besides the existences of a special inter-population variability, we noticed the existence of large intra-population variability. Almost all the investigated characters in the analyzed populations of Lacerta agilis are heterogeneous or little heterogeneous.

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We examined lines of arrested growth (LAG) in femurs from 20 individuals of the sand lizard Psammodromus algirus sampled from the north of Tunisia (North Africa). The number of the LAGs reached a maximum of three. The instant speed of linear growth in the first year was 6.6×10–2 mm/day and 3.76×10–2 mm/day the second year. The diameter of the marrow cavity was significantly larger in female (334.52 μm±115.68 μm) than in male (324.42 μm±114.2 μm). The growth rate observed in P. algirus followed the known growth pattern in lacertid lizards and the difference in the diameter of the marrow cavity between males and females may be related to a sexual dimorphism.

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Isolation owing to anthropogenic habitat fragmentation is expected to increase the homozygosity of individuals, which might reduce their fitness as a result of inbreeding depression. Using samples from a fragmented population of the lizard Psammodromus algirus, for which we had data about two correlates of fitness, we genotyped individuals for six microsatellite loci that correctly capture genome-wide individual homozygosity of these lizards (as validated with an independent sample of lizards genotyped for both these microsatellites and > 70 000 single nucleotide polymorphisms). Our data revealed genetic structure at a very small geographical scale, which was compatible with restricted gene flow among populations disconnected in a matrix of inhospitable habitat. Lizards from the same fragment were genetically more related to one another than expected by chance, and individual homozygosity was greater in small than in large fragments. Within fragments, individual homozygosity was negatively associated with adult body size and clutch mass, revealing a link among reduced gene flow, increased homozygosity and lowered fitness that might reduce population viability deterministically. Our results contribute to mounting evidence of the impact of the loss of genetic diversity on fragmented wild populations.

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It has been proposed that Lacerta viridis magnifica Sobolevssky, 1930 represents an extinct species or subspecies of green lizard endemic to the southern Crimea. Using NGS protocols optimized for heavily degraded DNA, we sequenced the complete mi- togenome of one of the originally formalin-preserved specimens collected in the late 19th century. A comparison with sequence data of other green lizards revealed that L. v. magnifica is a junior synonym of the northern subspecies of the western green lizard (L. b. bilineata Daudin, 1802), which occurs at least 1,500 km away, beyond the distribution ranges of other green lizards. In medieval times, a Genoese colony existed in the Crimean region where the extinct green lizards occurred. Until the early 20th century, close ties to Italy persisted, and locals of Genoese descent sent their children for education to Italy, where L. b. bilineata occurs. This suggests that the extinct Crimean green lizards have been introduced accidentally or intentionally from Italy. Our study exemplifies the value of historical formalin-preserved museum specimens for clarifying the status of questionable rare or extinct taxa.

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Description of Lacerta viridis magnifica.

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Sexual signals serve as an honest indicator of individual quality, reflecting either developmental and/or maintenance costs. A possible underlying physiological mechanism is oxidative stress, which could mediate energy trade-offs between sexual signals and other quality traits. In ectotherms, thermal performance acts as a key indicator of individual quality and influence signal intensity. We investigated how oxidative state is reflected in visual signals of lizards from different thermal habitats. According to our hypothesis, efficient thermoregulation requires different strategies in different thermal environments. In a habitat with predictable temperature changes, animals are less exposed to suboptimal temperature ranges and selection will, therefore, be stronger on the maximum oxidative damage at optimal body temperature. Contrarily, in a habitat with rather stochastic thermal shifts, individuals are often constricted by suboptimal thermal conditions, and oxidative damage can be limiting on a wide temperature range. We used Iberolacerta cyreni and Psammodromus algirus inhabiting stochastic and predictable thermal environments respectively. We examined two aspects of oxidative stress: the level of reactive oxygen metabolites at the preferred temperature (maximal ROM) and the temperature range in which animals produce at least 80% of the maximum level of reactive oxygen metabolites (effective ROM range). In I. cyreni, we found that duller coloration was related to a wider effective ROM range, while expression of coloration in P. algirus was negatively correlated with the maximal ROM. Our results suggest that different thermal constraints affect different aspects of oxidative damage which can indicate individual quality and are, therefore, represented in sexual ornaments.

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In spite of the importance of chemoreception in social organization of lizards, only a few studies have examined chemical composition of secretions of lizards. The secretion of the femoral glands of male lizards Psammodromus algirus contains 59 lipophilic compounds, mainly carboxylic acids between n-C9 and n-C20, and steroids (mainly campesterol, ergosterol and cholesterol), and minor components such as five alcohols, six aldehydes, squalene, α-tocopherol, ketones, and a furanone. These compounds were identified on the basis of mass spectra, obtained by GC–MS. Secretions of adult males of different age were different. Older lizards had secretions with relatively lower proportions of octadecadienoic, oleic and eicosatetraenoic acids, and higher proportions of campesterol, ergosterol, ergostenol, 4,4-dimethy-cholest-7-en-3-ol, and ergosta-5,22-dien-3-ol. These differences might allow conspecifics to get information on the age of the sender based on chemicals alone, which may have an important role in social behavior of this lizard.

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Recent genetic works have suggested that the Iberian wall lizard Podarcis hispanicus (STEINDACHNER, 1870) sensu lato is a species complex. Several forms have already been elevated to species rank and linked to available nomina, but at least three still have to be formally named, including the western Iberian forms currently designated as Podarcis hispanicus“type 1A”, “type 1B” and “type 2”. The aim of the present work is to assign a valid nomen to these taxa. Using multivariate analyses, we first checked that the morphological differences reported in Portugal between type 1 and type 2 are main-tained over their distribution range. We then investigated phenotypic differentiation between type 1A and type 1B, which were found to be so similar that identification based on phenotype is currently not advisable. We propose to treat type 1 and type 2 as distinct species because of their level of genetic and phenotypic divergence, large area of distribution and ample evidence for reduced or absent introgression in contact zones. We maintain type 1A and 1B as subspecies for the time being, pending further analyses of their contact zone. The valid nomen for “Podarcis hispanica type 1 (sensu lato)” is Lacerta muralis guadarramae BOSCÁ, 1916 which becomes Podarcis guadarramae (BOSCÁ, 1916). Lineage type 1A is here described as a new taxon: P. guadarramae lusitanicus ssp. nov., inhabiting northern Portugal and northwestern Spain. The type 1B lineage corresponds to the nominotypical subspecies that inhabits Spain, mostly the Central Iberian Mountains. We were unable to locate an available nomen for “Podarcis hispanica type 2”, which is here described as Podarcis virescens sp. nov. This species is widely distributed in the plains and plateaus of central and parts of south-western Spain as well as central and southern Portugal.

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Distribution and status of the Ocellated lizard Timon lepidus (Daudin, 1802) (Squamata, Sauria, Lacertidae) in western “Occitanie” (ancient “Midi-Pyrénées” region in the Southwest of France). The current knowledge of the Ocellated lizard Timon lepidus’s distribution and status in the former “Midi-Pyrénées” region is exposed. This lizard is at present known of six French departments (“Tarn-et-Garonne”, “Lot”, “Aveyron”, “Tarn”, “Ariège” and “Haute-Garonne”) where it is very unevenly distributed, the “Lot” and the “Aveyron” being the most widely occupied. The low detectability of the species is discussed too.

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Both environmental temperatures and spatial heterogeneity can profoundly affect the biology of ectotherms. In lizards, thermoregulation may show high plasticity and may respond to environmental shifts. In the context of global climate change, lizards showing plastic thermoregulatory responses may be favored. In this study, we designed an experiment to evaluate the extent to which lizard thermoregulation responds to introduction to a new environment in a snapshot of time. In 2014, we captured individuals of the Aegean Wall lizard (Podarcis erhardii) from Naxos Island (429.8 km2) and released them onto two small, lizard-free islets, Galiatsos (0.0073 km2) and Kampana (0.004 km2) (Aegean Sea, Greece). In 2017, we returned to the islets and estimated the effectiveness (E), accuracy and precision of thermoregulation measuring operative, preferred (Tpref) and body temperatures. We hypothesized that the three habitats would differ in thermal quality and investigated the extent to which lizards from Naxos demonstrate plasticity when introduced to the novel, islet habitats. Thermal parameters did not differ between Galiatsos and Naxos and this was reflected in the similar E and Tpref. However, lizards from Kampana deviated in all focal traits from Naxos, resulting in higher E and a preference for higher Tpref. In sum, Naxos lizards shifted their thermoregulatory profile due to the idiosyncratic features of their new islet habitat. Our results advocate a high plasticity in lizard thermoregulation and suggest that there is room for effective responses to environmental changes, at least for Podarcis lizards in insular habitats.

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Lizards, commonly found in the Umuttepe Campus of Kocaeli University, were caught and tissue samples were taken from their tail region for species identification through molecular analysis. After that, DNA isolation, Polymerase Chain Reaction (PCR) by using universal primers for the mitochondrial COI and 16S rRNA, and DNA sequence analysis were performed. Electropherograms were evaluated and the results obtained were compared with the species recorded in the NCBI databases. In this study using molecular phylogenetic analysis for species identification, the lizards distributed in the Umuttepe Campus of Kocaeli University were determined to belong to Podarcis siculus (Istanbul lizard).

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Many animals use their excrements to communicate with others. In order to increase signal efficacy, animals often behaviourally select for specific defecation sites that maximize the detectability of their faecal deposits, such as the tip of rocks by some lizard species. However, the field conditions in which these observations are made make it difficult to reject alternative explanations of defecation site preference; rock tips may also provide better opportunities for thermoregulation, foraging, or escaping predators, and not solely for increasing the detectability of excrements. In addition, we still know little on whether lizard defecation behaviour varies within-species. In this laboratory study, we take an experimental approach to test defecation site preference of Podarcis melisellensis lizards in a standardized setting, and assess whether preferences differ between sexes, and among populations. Our findings show that in an environment where all stones provide equal thermoregulatory advantage, prey availability, and predator pressure, lizards still select for the largest stone in their territory as preferred defecation site. Moreover, we demonstrate that lizards’ defecation preference is a strong conservative behaviour, showing no significant intraspecific variation. Together, these findings corroborate the idea that lizards may defecate on prominent rocky substrates in order to increase (visual) detectability of the deposited faecal pellets.

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Skrjabinelazia Sypliaxov, 1930 comprises 10 species distinguished by several characters typical of the genus including, among the most important, the presence/absence of spicules, cuticle ornamentation and vesicles, head-shape, the presence/absence of a leaflet crown in the buccal cavity, female tail-shape and male cone-shape. The three samples studied are new species: S. boomkeri n. sp., a parasite of Pachydactylus turneri, Gekkonidae, from South Africa (Klaserie Reserve); S. vozae n. sp., a parasite of Lacerta vivipara, Lacertidae, from France (Cévennes), which is close to two lacertid parasites, S. taurica Sypliaxov, 1930 and L. hoffmanni Li, 1934, respectively from the Crimea and North China (Peking); and S. mawsangelae n. sp. (male unknown), a parasite of Christinus marmoratus, Gekkonidae, from Australia (Pearson Island), which is, surprisingly, distinct from Skrjabinelazia sp. of Angel & Mawson (1968) from the same host in another region (North of Adelaide) of South Australia. Two main groups are distinguished in Skrjabinelazia: the species with spicules which are parasitic in the Lacertidae, and the species with a gubernaculum only which are parasitic in the Gekkonidae. The unique species described from the Iguanidae, S. intermedia (Freitas, 1940) from Brazil (Para), also without spicules, seems to be derived from gekkonid parasites, as it also has an evolved oesophagus with a glandular region, unlike the simple oesophagus seen in the larval stages of Skrjabinelazia.

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Animals modulate intraspecific signal shape and intensity, notably during reproductive periods. Signal variability typically follows a seasonal scheme, traceable through the expression of visual, acoustic, chemical and behavioral patterns. The chemical channel is particularly important in lizards, as demonstrated by well-developed epidermal glands in the cloacal region that secrete lipids and proteins recognized by conspecifics. In males, the seasonal pattern of gland activity is underpinned by variation of circulating androgens. Changes in the composition of lipid secretions convey information about the signaler’s quality (e.g., size, immunity). Presumably, individual identity is associated with a protein signature present in the femoral secretions, but this has been poorly investigated. For the first time, we assessed the seasonal variability of the protein signal in relation to plasma testosterone level (T), glandular activity and the concentration of provitamin D3 in the lipid fraction. We sampled 174 male common wall lizards (Podarcis muralis) over the entire activity season. An elevation of T was observed one to two months before the secretion peak of lipids during the mating season; such expected delay between hormonal fluctuation and maximal physiological response fits well with the assumption that provitamin D3 indicates individual quality. One-dimensional electrophoretic analysis of proteins showed that gel bands were preserved over the season with an invariant region; a result in agreement with the hypothesis that proteins are stable identity signals. However, the relative intensity of bands varied markedly, synchronously with that of lipid secretion pattern. These variations of protein secretion suggest additional roles of proteins, an issue that requires further studies.

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The study of animal communities is mainly concerned with how the groupings of species are distributed in nature and the ways in which the members of these communities assemble and interact with each other. Pianka suggested that animals partition environmental resources in three basic ways: temporally, spatially, and trophically. Such differences in activities separate the niches, reduce competition, and presumably allow the coexistence of a variety of species in the communities. The present work compares the spatial, trophic and temporal niches of four reptile species, two geckos (Tarentola mauritanica and Hemidactylus turcicus) and two lizards (Podarcis muralis and Podarcis siculus) living in a same roman-age archeological park situated area inside Rome metropolitan area (central Italy), and sharing the same two-dimensional habitat (the roman aqueduct walls). The results showed an overall overlap among species higher than expected by chance for all considered ecological dimensions except for the spatial resource related to the vertical position on the wall. Surprisingly, despite living in a two-dimension habitat would expect an increase of interspecific interaction rate, no partition was observed between species with the most convergent ecological requirements. Although our hypotheses about lizard communities structuring and interactions in the urban habitat require further investigation, we think that our lizard community is based more on the ecological needs of each species rather than on species’ interactions. The observed spatial segregation between diurnal geckos and lizards would not support alone the interaction hypothesis. We speculated that the coexistence of ecologically overlapping species at the study area is allowed by a non-limiting availability of resources (above all food) that would result in the reduction of heterospecific competitive interactions and an overall wide overlap of resource use.

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To investigate the reservoir role of the lizard Psammodromus algirus for the Lyme disease spirochete, 199 lizards were trapped from April to October 2003 in El Jouza, northwestern Tunisia. In this site, the infection rate of free-living Ixodes ricinus (L.) by Borrelia was evaluated by immunofluorescence as 34.6% for adult ticks and 12.5% for nymphs. Eighty percent of P. algirus (117/146) captured during this study were infested by I. ricinus, the predominant tick species collected from lizards. The intensity of tick infestation of this host by larvae and nymphs ranged from 0.14 to 7.07 and from 1.5 to 6.58, respectively. These immature stages of I. ricinus were found on lizards in spring and the beginning of summer, with a peak of intensity during June (10.16 immature ticks by lizard). Tissue cultures from lizards and xenodiagnosis with larval I. ricinus were used to assess the infection and the ability, respectively, of infected lizards to transmit Borrelia to naive ticks. Seventeen percent of xenodiagnostic ticks (40/229) acquired B. lusitaniae while feeding on P. algirus. Therefore, we demonstrated the ability of the lizards to sustain Borrelia infection and to infect attached ticks, and we proved that P. algirus is a reservoir host competent to transmit B. lusitaniae.

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Remarks on some reptiles from Apulia (SE Italy), especially on Coluber viridi­flavus, and description of two new microinsular subspecies: Coluber viridiflavus antoniimanueli from S. Andrea Island, near Gallipoli, and Podarcis sicula aemiliani from the Apani Rocks, near Brindisi.

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Preliminary description of a new microinsular Italian wall lizard from Dino Island (Thyrrhenian Sea; Calabria): Podarcis sicula amparoae n. subsp.

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Auctor scrutatur- 1273 lacertas e paeninsula et insulis Italiciis (praetermissis insulis Etruscis, de quarum lacertis iam antea disseruerat), in quibus undecim subspecies ante ignotas invenit; de nonnullarum distributione disputat; et singulas species et subspecies accurate describit, rationem quamdam dicotomicam etiam tradens, qua facilius recognosci possint.

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Sexual size dimorphism (SSD) among species from the Lacertidae family is expressed mainly in body and head size, with males being larger than females, having larger heads but shorter trunks in relation to body size. Most lacertid species display male-biased SSD, but in few species, such as Lacerta agilis, females display larger size. The sand lizard Lacerta agilis is one of the most widespread lizard species in Eurasia and inhabits an area from central Greece and south Armenia to south Sweden in the North, and from Great Britain to the lake Baikal in the East. At least nine subspecies are currently recognized and two of them occur in Bulgaria. In the present study we analysed SSD in the poorly known subspecies Lacerta agilis bosnica, which inhabits the mountain areas on the Balkan Peninsula. We examined 9 somatometric traits, which were transformed into 10 indices, describing body proportions. All of the measurements were taken in live animals captured in mountains in Western Bulgaria (the mountains of Vitosha, Osogovo, Stara Planina, and Plana). We established statistically significant differences between the sexes in 9 of the indices. The differences could be described as follows: males have longer tails, longer legs (fore and hind legs), and larger heads (both in length and width). The similarities and differences in regards to SSD in other taxa from the genus Lacerta (for which similar research was done in Bulgaria) are further discussed.

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Lacerta pamphylica and Lacerta trilineata are two currently recognized green lizard species with a historically problematic taxonomy. In cases of tangled phylogenies, next‐generation sequencing and double‐digest restriction‐site‐associated DNA protocols can provide a wealth of genomic data and resolve difficult taxonomic issues. Here, we generated genome‐wide SNPs and mitochondrial sequences, and applied molecular species delimitation approaches to provide a stable taxonomy for the Aegean green lizards. Mitochondrial gene trees, genetic cluster delimitation and population structure analyses converged into recognizing the populations of (a) L. pamphylica, (b) east Aegean islands, Anatolia and Thrace (diplochondrodes lineage), (c) central Aegean islands (citrovittata), and (d) remaining Balkan populations and islands (trilineata), as separate clusters. Phylogenomic analyses revealed a split into two major clades, east and west of the Aegean Barrier, unambiguously showing a sister–clade relationship between pamphylica and diplochondrodes, rendering L. trilineata paraphyletic. Species delimitation models were tested in a Bayesian framework using the genomic SNPs: lumping all populations into a single ‘species’ had the lowest likelihood but the current taxonomy was also outperformed by all other models. All lines of evidence support the Pamphylian green lizard as a valid species; thus, east Aegean L. trilineata should also be considered a distinct species under the name Lacerta diplochondrodes. Finally, evidence from the mitochondrial and nuclear genomes is overwhelmingly in favour of recognizing the morphologically distinct Cycladian green lizards as a distinct species. We propose their elevation to full species under the name Lacerta citrovittata. All remaining insular and continental populations of the Balkan Peninsula represent the species L. trilineata.

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Numerous studies of urban environment impact on wildlife imply urbanization can have both negative and positive effects. Phenotypic variation of pileus in the common wall lizard (Podarcis muralis) was analysed to determine whether urbanization levels can be associated with developmental instability induced by environmental stress. Pileus developmental pathways and instability in natural, suburban and urban populations were quantified by patterns of size and shape, fluctuating asymmetry (FA), modular organization and integration, allometric trajectories and frequency of phenodeviants. Our results show high asymmetry and modular structure of pileus with the high frequency of phenodeviants for natural, suburban and urban populations indicating elevated developmental instability in all three habitat types. However, some peculiarities were observed comparing habitats – the lowest level of FA and integration in urban populations and unexpectedly high level of FA and frequency of phenodeviants in the natural population. In addition, significant correlations between symmetric and asymmetric shape patterns, and presence of modular organization for all three habitat types suggest that genetic/environmental and developmental parcellation are somewhat aligned. Our results indicate that pileus morphology varies in a complex manner and future studies that link physiological, behavioural and morphological parameters to demographic parameters and fitness are necessary to fully understand how environmental stress affects developmental instability.

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We calculated growth rate for the spiny-footed lizard (Acanthodactylus erythrurus) inhabiting coastal eastern Spain from long-term mark-recapture data. Growth curves differ between sexes, with males growing faster than females and achieving larger size maximums. In this population each sex reaches maturity at about 300 days of age, approximately 34% faster than males, and 28% faster than females studied in a population further south and west in Iberia. Our logarithmic growth model has an accuracy of 96.8% and high statistical significance (r = 0.96 for males and r = 0.97 for females). Although both the exponential curve of “best fit” for growth estimated for males (r = 0.81), and the linear curve of “best fit” estimated for females (r = 0.77) in a population from Cádiz (Busack and Jaksic, 1982) are also significant. The overlap between growth curves and the general data cloud of the population showed that at the end of the year the proportion of individuals younger than one year was 80% and the proportion of individuals older than one year was 20%. Our data, in agreement with calculated maximum life spans for males (1.9 years) and females (2.1 years) in Cádiz, suggest a life span of approximately two years for both sexes. Females seem to reproduce only in a unique season in their lives, at this locality, as in Cádiz (Busack and Klosterman, 1987) they likely lay only one clutch, whereas females in Morocco (Bons, 1962) may produce two.

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Mammals and birds are capable of navigating to a goal using learned map-like representations of space (i.e. place learning), but research assessing this navigational strategy in reptiles has produced inconclusive results, in part due to the use of procedures that do not take account of the peculiarities of reptilian behavior and physiology. Here I present a procedure suitable for testing spatial cognition that exploits a naturally evolved, ethologically relevant ability common to many lizards (i.e. refuge seeking behavior). The procedure requires lizards to learn the location of an open refuge inside a rectangular arena containing artificial refuges in every corner, using distal extramaze visual cues and with no local cues marking the location of the open refuge. The procedure probes the lizards’ place learning ability and effectively rules out the use of egocentric and response-based strategies. The described procedure was successfully used to demonstrate place learning in a lacertid lizard (Podarcis liolepis). Over the course of two weeks of training both the latency to entering the open refuge and the number of corners visited in each trial decreased gradually, indicating that learning had taken place in over 60% of the lizards tested. These results confirm that, under certain circumstances, lizards are capable of navigating to a goal using a place learning strategy.

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Food habits of Psamodrommus algirus Linnaeus, 1758 (Reptilia: Lacertidae) in Djurdjura, northern Algeria. -- In this study, we present the first data on the diet of Psammodromus algirus of Tala Guilef sector (Djurdjura National Park). The analysis of 43 feces allowed us to identify 245 food items, spread over 15 Operational Taxonomic Units (OTUs). Insects are the most consumed and, among them, the five most ingested categories of preys are: Coleoptera, Hymenoptera, Heteroptera, Homoptera, and Orthoptera. During the study period, the food spectrum is slightly diversified (BA = 0,41). Statistics analysis applied to prey categories proportions shows a significant influence of seasonal variation on the diet: x² = 42,94 p < 0,0001; ddl = 14. It presents a specialized diet in spring (BA = 0,25) concentrated essentially on Coleoptera and Hymenoptera. In summer, it became more opportunistic (BA = 0,46), but Coleoptera remain the most consumed category of preys.

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This thesis deals with the nature conservation of reptiles and amphibians in the Netherlands, the present practices and what should be done to improve them. Most of the species of the herpetofauna, as these groups together are known, are in a state of continuing decline. Obviously something is wrong; apart from the role played in this decline by loss of habitat, measures in the field are not effective for the sustainable survival of these species. This thesis has been written to rectify this; based on current knowledge of the ecology of these protected animals and on own experiences with nature management, it is meant to provide a guide and practical tool when carrying out the appropriate measures in the field. The introduction describes work that has been done internationally, especially at European level, to protect the herpetofauna. Further, how this has influenced policy plans and legislation in the Netherlands. It also points out the shortcomings, both in the approach of the policymakers, as well as in the current training of nature managers, and how these are reflected by the measures taken in the field. This information provides a background for chapter 7, the last chapter of this thesis, where the practice of management is discussed. The remaining chapters include five articles on ecological research; they also show how much time is needed to improve our knowledge on the ecology of these animals. Also, not understanding it can unwittingly create marginal conditions for a species, as was the case for the Slow-worm and Sand Lizard with the forest management on the Utrechtse Heuvelrug in the 1980s; this is described in the first two articles. That long-term surveys of population dynamics are more than necessary, is shown by the great fluctuations in the presence and activity of the European tree frog over the six years it was studied in the southwest of the Netherlands. Methodology is also discussed in this third article, and a practical formula given for estimating population size. Pond characteristics form the subject of the next article, wherein statistical analysis illustrates how they can indicate the possible presence and therefore the suitability of a pond for amphibians. Practical indications are given, useful when constructing new ponds as part of the Pond Action Plans. The last article has implications for the reintroduction of species into new or former habitats. That there is phenotypic variation within species of amphibians occurring within 200 kilometres of each other, shows that, to avoid failure, this should be taken into account in the selection both of the source population and the location of the habitat into which the animals are to be introduced. All these aspects are brought together in the final chapter where the practice of the conservation of both groups is discussed in turn. The habitats are the point of departure, and it is shown how conservation measures with plants or landscapes in mind can bring about deterioration or loss of habitat for a particular species of reptile or amphibian. The integration of management goals should be the approach for as far as is possible, but legal obligations may force us to take species specific measures into account for herpetofauna. Heathlands are of utmost importance for reptiles and the most relevant features of the management for this type of habitat are highlighted. For their part, amphibians find their major aquatic habitat in ponds. Details are given of the management for various amphibian species, both in ponds, and as far as we know it, in their habitat on land. The extensive literature on these subjects, found at the end of Chapters 1 and 7, as well as that of the articles, provides opportunity for going further into depth. The recommendations from Chapter 7, dealing with the structure of the vegetation to a considerable extent, should improve the situation of the herpetofauna in the Netherlands.

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Maastricht herbergt ’s lands enige natuurlijke populatie muurhagedissen. Kernpopulaties van de soort zijn aanwezig in de Hoge en Lage Fronten (vestingwerken) en op een spoorlijn en emplacement. Tevens zijn de hazelworm en levendbarende hagedis in het Belvédèregebied (Maastricht Noord) aanwezig. In het gebied staan diverse stedelijke en infrastructurele ontwikkelingen op stapel, welke in veel gevallen zullen leiden tot vernietiging, versnippering en/of verstoring van reptielenleefgebied. De aanwezige reptielsoorten en hun leefgebieden zijn streng beschermd en aantasting van de populaties is zonder ontheffing op de Flora en faunawet niet toegestaan. In overleg met het ministerie van EL&I, de initiatiefnemers van de plannen en RAVON is besloten te zoeken naar een integrale oplossing voor de diverse projecten. Het doel dat hierbij is gesteld, is de instandhouding van duurzame en robuuste metapopulaties van de aanwezige reptielen. Door het creëren van een „robuust raamwerk” wordt de bescherming van de reptielen in Maastricht Noord geborgd, waarbij ook de genoemde ruimtelijke ontwikkelingen doorgang kunnen vinden. In het voorliggende rapport wordt de actuele verspreiding van reptielen in het gebied, de huidige kwaliteit van de leefgebieden en de mogelijke maatregelen voor realisering van duurzame metapopulaties reptielen beschreven. Uit het veldonderzoek naar reptielen blijkt dat de muurhagedis voorkomt in de Hoge Fronten, Lage Fronten, emplacement Boschpoort, spoorlijn Maastricht – Lanaken, Maasoever en het bedrijventerrein Bosscherveld. Aanvullende waarnemingen op de bekende verspreiding zijn gedaan op diverse bedrijventerreinen in het Bosscherveld. Door de beperkte populatieomvang (<500 adulte dieren) en de versnippering van leefgebieden wordt de staat van instandhouding van de populatie muurhagedissen niet duurzaam geacht. De hazelworm komt in grote delen van het Belvédèregebied in hoge dichtheid voor en de populatie wordt in de huidige staat duurzaam geacht. De levendbarende hagedis is uitsluitend aanwezig op een klein stuk van de spoorlijn aan de Belgische grens. De populatie is klein, kwetsbaar en niet in een duurzame staat. Voor de drie reptielsoorten wordt het raamwerk beschreven voor robuuste metapopulaties. Een duurzame metapopulatie bestaat uit minimaal 500 adulte dieren, verspreid over meerdere kernpopulaties in primaire leefgebieden die met elkaar in contact staan door (satellietpopulaties in) verbindingszones. Voor de realisering van een robuuste metapopulatie van de muurhagedis is de ontwikkeling van nieuw leefgebied noodzakelijk (Fort Willem, uitbreiding Frontenpark en Belvédèreberg). Diverse verbindingszones dienen nog gerealiseerd te worden door aanpassing van inrichting en beheer en de aanleg van passages. Per leefgebied en verbindingszone worden in het voorliggende rapport de noodzakelijke maatregelen beschreven en wordt een prioritering aangebracht hierin. Door realisering van de voorgesteld maatregelen kan de populatie muurhagedis groeien tot 500 – 900 adulte exemplaren. Nieuw leefgebied voor met name de muurhagedis kan gerealiseerd worden door het aanbrengen van stenige en houtige structuren (stapelmuren, steenkorven, steenhopen, steenbedden en houtstapels). Hergebruik van materialen uit het gebied (zoals sloopafval) voor de bouw van deze voorzieningen is goed mogelijk Reptielvriendelijk vegetatiebeheer is van cruciaal belang om leefgebieden geschikt te houden. De wijze waarop wegen passeerbaar gemaakt kunnen worden voor reptielen, middels robuuste voorzieningen, wordt beschreven. De wijze waarop de deelprojecten in het gebied uitgevoerd worden dient vastgelegd te worden in een uitvoeringsplan, met aandacht voor werkwijze, materiaalkeuze, tijdstip van uitvoering en een goed afstemming in tijd van deelprojecten. Ook is ecologische begeleiding van de werkzaamheden van groot belang. De bestaande plannen in het gebied, zoals de vestingvisie, bestemmingsplan Noorderbrug en de voorbereidingsbesluiten Bosscherveld Noord en RMP Noord, bieden naast bedreigingen zeker ook kansen voor de aanwezige reptielen. Met name de vestingvisie heeft een hoge ecologische ambitie. Binnen de stedelijke ontwikkelingsplannen zijn er voldoende mogelijkheden om verlies en verstoring van leefgebied te compenseren. De realisering van robuuste metapopulaties biedt voor met name de muurhagedis goed uitzicht op duurzaam voortbestaan. Een netwerk van met elkaar verbonden deelpopulaties functioneert echter alleen wanneer alle onderdelen gerealiseerd worden.

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The use of information from chemical cues about the presence of conspecifics and their social interactions may be advantageous because it allows individuals to assess the social environment in the absence of the signallers. We tested experimentally whether the selection of nocturnal shelters by juveniles of the common lizard was influenced by the scent marks from three isolated or three socially housed adult males or females, keeping constant the number of donors for all treatments. We gave each juvenile a choice between a shelter containing odours from adults and a shelter with no odour and we compared the response to odours from three adults housed singly with that to odours from three adults that had the opportunity to interact. The shelter site selection of juveniles was influenced by the odour of socially housed adult males, but not by that of isolated males, and partly depended on the mother’s site of origin and the juvenile’s body condition. This study shows that juveniles use social information from conspecific chemical cues and that various phenotypes may use this information in different ways.

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Apicomplexan haemoparasites of the genera Schellackia Reichenow, 1919, and Karyolysus Labbé, 1894, seem to be common in lizards and widespread across the world. For decades, their identification has been based on morphological descriptions and life cycle patterns, with molecular characterizations, applied only recently. We used molecular characterization to confirm the identification of haemoparasites detected by microscopy in blood smears of Lacerta schreiberi Bedriaga, 1878, a lizard of the Iberian Peninsula. Since blood samples other than blood smears were not available from the studied lizards, 264 engorged ticks Ixodes ricinus (Linneaus, 1758) collected from them were used as an alternative non-invasive source of haemoparasite DNA for molecular genetic analyses. Of the 48 blood smears microscopically examined, 31 were positive for blood parasites (64.6% prevalence). We identified trophozoites and gamonts similar to Karyolysus lacazei (Labbé, 1894) (24/48; 50%) and Schellackia-like sporozoites (20/48; 41.7%). Mixed infections with both species occurred in 13 blood smears (27.1%). Sequence data were obtained for both parasites from engorged ticks. Phylogenetic analyses placed our unique haemogregarine sequence within the Karyolysus clade, nevertheless, within substantial polytomy. Thus, according to its morphology and effect on the host cell, we refer to this haemogregarine as Karyolysus cf. lacazei. Besides the Schellackia sequences being identical to a previously identified haplotype, we also obtained sequences of three new closely related haplotypes.

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Lizards and small rodents were live captured in Tuscany, central Italy, from May through August 2005. Prevalence of infestation by larval Ixodes ricinus L. (Acari: Ixodidae) and mean numbers of larvae per host were not significantly different for common wall lizards, Podarcis muralis Laurenti, and Apodemus spp. mice, whereas infestation levels by nymphs were significantly greater on lizards. Borrelia lusitaniae, which was previously shown to be dominant in host-seeking I. ricinus in the same study area, was detected by polymerase chain reaction (PCR) in 19.8% (95% confidence interval: 14.4, 26.0) of larval ticks and in 52.9% (27.8, 77.0) of nymphs that were collected from lizards. Moreover, 18.8% (7.2, 36.4) and 25.0 (3.2, 65.1) of lizards` tail biopsies and blood samples, respectively, were positive for B. lusitaniae. Conversely, attached ticks and ear biopsies from Apodemus spp. mice were PCR negative. Passerine birds belonging to 10 species were live captured in March 2005, and Borrelia valaisiana was detected in 57.1% (18.4, 90.1) of I. ricinus nymphs feeding on Eurasian blackbirds, Turdus merula L. Results of this study suggest that lizards play an important role as reservoirs for B. lusitanae and may affect the dominance of this genospecies in the Mediterranean area.

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Studies of geographical distribution of parthenogenetic Darevskia armeniaca and its parental species D. mixta and D. valentini can extend our knowledge in terms of their biology and prediction of expansion of their ranges owing to increasing anthropogenic impact and global climate change. We studied the rock lizards of the genus Darevskia because their ecology, biology and potential ranges have not been well studied. Our objectives were: (1) to create maps of the potential geographical distribution of the lizard species; (2) to identify bioclimatic, topographic and landscape variables that determine their potential ranges; (3) to establish similarities and differences in ecological conditions of lizard localities between the parthenogenetic lizard and its parental species. We extended the available published data set with our own field survey records to assess effects of environmental factors on ecological niches of the lizards and their distribution in Transcaucasia and Asia Minor using methods of ordination and species distribution models (SDMs). Our results show that the main drivers regulating the distribution of Darevskia spp. are climatic, topographic and land cover/use. High SDM performance estimated as a Boyce index ~0.917 proved that we had incorporated the most important predictor variables for describing ecological niches of the lizard species. We used an ordination method to compare niches in terms of their overlap, similarity, and niche shifts of the parthenogenetic species relative to its parental species. Habitat preference of D. mixta was determined by altitude, vegetation type, high precipitation during the warmest season, low humidity variation, and low insolation. Habitats of D. valentini were predicted to be located at the highest altitude in the zone of subalpine meadows, low temperature during the dry months, low precipitation during the warm months, an average coefficient of seasonal variation in humidity, high insolation, and a short distance to roads. We suggest that the centroid of the niche of the “daughter” species, D. armeniaca, occupies an intermediate position along environmental gradients relative to that of its parental species with only one exclusion. The coefficient of humidity variation in D. armeniaca differed from that of its parental species. In general, we predicted that ecological niches of parthenogenetic and parental species overlapped by 36%, however, the ecological niche of D. armeniaca was similar to that of its “paternal” species D. valentini. We demonstrate that the parthenogenetic D. armeniaca prefers mountain forest, meadow, steppe and human-disturbed habitats, while the “maternal” species D. mixta inhabits mainly forest habitats and the “paternal” species D. valentini commonly occurs in mountain meadow and mountain steppe habitats in the subalpine zone. These results can be used by environment conservation organizations to preserve the most important habitats of these lizards.

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In different months during 2015-2017, the abundance and sex-age structure of the Sand lizard (Lacerta agilis) were studied on two transects. Parallel transects were established in the southeastern part of the cluster area «Burtinskaya steppe» of the Orenburg State Nature Reserve (Russia). The length of each transect was 3 km. The width of the mineralised plowed strip between the transects was 9-11 m. Transect 2 was located in the area burnt in August 2014, while transect 1 was situated in the area burnt in August 2016. In terms of size and external morphological traits, the captured Sand lizards were divided into three groups: juvenile individuals, adult males, and adult females. After measurements, the marked animals were put back to the places of capture. The number and sex-age structure were restored on transects in May June, after the first winter following the fire impact. We found that on transect 1, the species abundance at late April early May 2015 was almost three times higher (18.67 individuals / km) than on transect 2 (6.67 individuals / km). However, at late May 2015, the species abundance on both transects became almost the same (12.67 individuals / km in transect 1 against 11.33 individuals / km in transect 2). The juvenile individuals suffered from the fire influence more than adults. After the 2016 fire (i.e., in mid-May 2017), the proportion of one-year-old individuals was 21.2% of the total number of Sand lizards recorded in transect 1, while it counted 67.3% of the total number of Sand lizards recorded in transect 2, burnt in 2014. We believe that the rapid recovery of the abundance and sex-age structure in the Burtinskaya steppe was associated with the migration of Sand lizards through the mineralised strip separating the burnt and non-burnt transects.