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Un dentaire de lézard incomplet, provenant d’une carrière de falun d’Anjou, à Noyant-sous-Lude, Miocène, Orléanien, (MN3) ou MN5 est décrit. Un ensemble de caractères montre qu’il appartient aux Lacertidae ; on citera : la forme arquée de l’ensemble du dentaire, le sulcus Meckeli ouvert jusqu’à la symphyse mandibulaire, la présence de dents faiblement hétérodontes et bicuspides. Cette forme à la dentition banale chez les Lacertidae se distingue facilement des lacertidae à dentition élargie trouvés dans les mêmes niveaux miocènes des faluns. La signification paléoécologique de ces fossiles sera discutée.

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A central theme in ecology and evolution is to understand whether and how species respond to environmental changes. The amount of studies focusing on how species might cope with climate change has been steeply growing, given the importance of the actual climate change. At present, it is widely accepted that changes in mean environmental conditions can affect individual performance, life history strategies and population dynamics. While most climate change scenarios forecast a change in average climatic conditions, they as well predict a decrease in environmental predictability. However, evidence for the effects of environmental predictability is scarce and the few existing studies were mainly theoretical or generated extreme events, which are by themselves negative. Therefore, robust evidence for the predicted negative effects is needed and experiments should test the impact of environmental predictability on life-history traits and population dynamics. For this reason, this doctoral thesis aims at providing robust evidence for the effects of environmental predictability on life-history traits, population dynamics, and species responses. We experimentally tested whether and how changes in the predictability of precipitation affected life history traits and population dynamics of the common lizard Zootoca vivipara, a highly hygrophile species. We simulated more and less predictable precipitation in 12 semi-natural populations. Populations were maintained during one year and the experiment was repeated in two subsequent years. This experimental design allows to understand the generality of the responses and it allows testing whether differences in average climatic conditions may affect differences induced by precipitation predictability. Several parameters were measured to unravel effects of environmental predictability on individual performance and to allow for complex population dynamic models. Decreased environmental predictability, let to reduced growth of yearlings and reduced body condition of female juveniles, but no effects on body condition, growth and survival of adults. This suggests that different age classes and sexes might exhibit different sensitivities to environmental predictability. Less predictable environments negatively affected ornamental coloration of adult males, which shows that less predictable environments are costly. This also suggests that ornamental coloration may act as an early signal of changes in environmental conditions. The results also show that individuals exhibit compensatory strategies to prevent detrimental effects on fitness. The observed differential investment in adult growth, body condition and male ornamental coloration may have allowed to compensate negative effects of decreased precipitation predictability, since no significant differences in reproductive parameters between environmental predictability treatments were found at the end of the experiment. Environmental predictability did not significantly affect the individual key life history traits (i.e. survival and reproduction) and suggesting that compensatory strategies may have prevented major loses in fitness and effects on population dynamics. Nevertheless, the here applied stage-structured matrix model showed that less predictable environments led to a significant decrease of the population growth rate. This suggests that in order to assess the potential effect of climate change on species persistence, complex population dynamics modelling is required. This doctoral thesis is one of the first experimental studies demonstrating whether and how species might respond to changes in environmental predictability. The obtained results underpin predictions from theoretic models, that decreased environmental predictability might negatively affect species responses. Results also suggest that decreased environmental predictability may seriously reduce population persistence and increase species extinction risk. Since species, which are highly susceptible to changes in abiotic conditions, might respond similarly to changes in environmental predictability, the forecasted decrease in environmental predictability might aggravate the actual trends of species decline and extinction. This shows that environmental predictability is a very important non-neglectable determinant of population dynamics, which highlights the necessity to consider its effects in studies forecasting the consequences of climate change.

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The thyroid has been shown to be a target organ of environmental chemicals, specifically endocrine disrupting contaminants. Reptiles are particularly suitable as contaminant biomonitors, due to their persistence in a variety of habitats, wide geographic distribution, longevity, and, in many cases, site fidelity. Nonylphenol, an estrogenic-like compound, can induce vitellogenin synthesis in males and immature reptilian species, but little is known about its effects on thyroid hormones balance. The present study evaluated the potential effects of an acute exposure to nonylphenol (i.p. injected) on the thyroid of the lizard Podarcis sicula. Nonylphenol induced a significant decrease of T4 and T3 plasma levels, in agreement with the decrease of the epithelial cell height; the nuclei of the thyroid cells were small and elongated, with dense chromatin and a greatly reduced cytoplasm. The colloid was retracted with few reabsorption vacuoles. Moreover, nonylphenol administration significantly inhibited plasma thyroid-stimulating hormone levels, thereby altering the thyroid function. This study highlights how the structural and functional disruption of the thyroid gland in non-target organisms as the lizard might also have an environmental aetiology. In conclusion, nonylphenol was suspected to inhibit the thyroid hormones balance, suggesting the thyroid should be included among the other endocrine glands, susceptible to endocrine disruption.

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Background:Hosts and their parasites are under reciprocal selection, leading to coevolution. However, parasites depend not only on a host, but also on the host’s environment. In addition, a single host species is rarely infested by a single species of parasite and often supports multiple species (i.e., multi-infestation). Although the arms race between a parasite and its host has been well studied, few data are available on how environmental conditions may influence the process leading to multiple infestations. In this study, we examine whether: (1) environmental factors including altitude, temperature, vegetation cover, human disturbance, and grazing by livestock affect the prevalence of two types of ectoparasites, mites and ticks, on their host (the common lizard, Zootoca vivipara) and (2) competition is evident between mites and ticks.Results:We found the probability of mite infestation increased with altitude and vegetation cover, but decreased with human disturbance and presence of livestock. In contrast, the probability of tick infestation was inversely associated with the same factors. Individuals with low body condition and males had higher mite loads. However, this pattern was not evident for tick loads. The results from a structural equation model revealed that mites and ticks indirectly and negatively affected each other’s infestation probability through an interaction involving the environ-mental context. We detected a direct negative association between mites and ticks only when considering estimates of parasite load. This suggests that both mites and ticks could attach to the same host, but once they start to accumu-late, only one of them takes advantage.Conclusion:The environment of hosts has a strong effect on infestation probabilities and parasite loads of mites and ticks. Autecological differences between mites and ticks, as indicated by their opposing patterns along environ-mental gradients, may explain the pattern of weak contemporary interspecific competition. Our findings emphasize the importance of including environmental factors and the natural history of each parasite species in studies of host–parasite coevolution.

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A female grass lizard Takydromus stejnegeri van Denburgh was captured after mating in the field on 24 April 2003. It was immediately brought back to the laboratory and kept under observation. It produced four clutches of eggs from10 May to 22 June. The average time interval of the successive clutches was 14.75 days, and the average clutch size was 2.75 eggs. The production of the successive clutches without mating in captivity may be due to the sperm storage in the female reproductive tract. The fertilization ratio and hatching ratio were 100% for the first three clutches, but only 33.3% and none, respectively, for the fourth clutch. The clutch order was significantly positively correlated with egg width and also with egg weight. T. stejnegeri was an intermediate egg retainer, whose gestation (egg retention) period was at an average of 25% of the total embryonic development period.

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The epididymis of the viviparous lizard secretes large amounts of proteins among which L-proteins are prominent components. It undergoes great morphological and physiological modifications during its testosterone-controlled annual cycle. The effects of testosterone on L-proteins synthesis and L-mRNA concentrations were studied in cultures of organs regressed after castration. Of three tested serum supplements (2% Ultroser, 10% fetal calf serum, 10% calf serum) calf serum was shown to be essential for androgen-specific control of L-proteins synthesis. The duration of castration governed the in-vitro response to testosterone principally at the level of L-proteins synthesis. The onset of synthesis was delayed in 2-month post-castration explants, compared with l-month post-castration explants, and was dissociated from appearance of the mRNA. This suggests that there is translational control of secretory proteins in the regressed epididymis. Conversely, the response to testosterone at the mRNA level was delayed in explants from animals castrated during a non-secretory state, compared with explants from animals castrated at the onset of secretion. These results, together with other data, suggest that expression of the L-proteins is under multifactorial control and that the influence of multiple controlling elements varies with the stage of differentiation.

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Complex traits include, among many others, the evolution of eyes, wings, body forms, reproductive modes, human intelligence, social behavior, diseases, and chromosome morphology. Dollo`s law states that the evolution of complex traits is irreversible. However, potential exceptions have been proposed. Here, we investigated whether reticulation, a simple and elegant means by which complex characters may be reacquired, could account for suggested reversals in the evolution of complex characters using two datasets with sufficient genetic coverage and a total of five potential reversals. Our analyses uncovered a potential reversal in the evolution of parity mode and a potential reversal in the evolution of placentotrophy of fish (Cyprinodontiformes) as reticulation events. Moreover, in a reptile that exhibits a potential reversal from viviparity to oviparity (Zootoca vivipara), reticulation provided the most parsimonious explanation for sex chromosome evolution. Therefore, three of the five studied potential reversals were unraveled as reticulation events. This constitutes the first evidence that accounting for reticulation can fundamentally influence the interpretation of the evolution of complex traits, that testing for reticulation is crucial for obtaining robust phylogenies, and that complex ancestral characters may be reacquired through hybridization with a lineage that still exhibits the trait. Hybridization, rather than reappearance of ancestral traits by means of small evolutionary steps, may thus account for suggested exceptions to Dollo`s law. Consequently, ruling out reticulation is required to claim the evolutionary reversal of complex characters and potential exceptions to Dollo`s rule.

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Pastrina Protected Area, a medium-sized Natura 2000 protected area in NW Bulgaria, was chosen as a model site for studying the species diversity of amphibians and reptiles in relation to habitat diversity. The analyses encompass field data for a five-year period. The territory of the survey was divided into a 1 x 1 km grid. The number of species and the number of habitats were recorded for each grid cell. For open and agricultural habitats data were taken from a map with physical blocks. For forested territories, the national forest database was used. The grid cells with missing data were filled in using CORINE Land Cover. A list of threats was prepared in order to estimate their impact. A strong correlation between habitat and species diversity was found: the latter was clearly determined by the presence of certain habitats known to maintain high species diversity. Habitats such as the thermophilous deciduous forests and their surrounding territories were the most important habitats, with higher species diversity and a higher percentage of species of conservation priority, e.g. Triturus cristatus, Bombina bombina, B. variegata and Testudo hermanni. These species were found from only 11.7% of the territory of the protected area, that makes those species vulnerable, with an uncertain future status.

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telomeres, the protective, terminal parts of the chromosomes erode during cell division and as a result of oxidative damage by reactive oxygen species (RoS). ectotherms rely on the ambient temperature for maintaining temperature-dependent metabolic rate, regulated through behavioural thermoregulation. their temperature-dependant metabolism, hence also the RoS production, is indirectly regulated through thermoregulation. Consequently, a potential causal chain affecting telomere length and attrition is: temperature (in particular, its deviation from a species-specific optimum) – metabolism - ROS production – anti-oxidation - telomere erosion. We measured telomere length in sand lizards (Lacerta agilis) using qPCR on blood samples from 1998–2006. Effects of climatological parameters (mean temperature and average sunshine hours) in the summer and winter preceding telomere sampling were used as predictors of telomere length in mixed model analysis. During the lizards’ active period (summer), there was a largely negative effect of mean temperature and sun on telomere length, whereas a combined measure of age and size (head length) was positively related to telomere length. During the inactive period of lizards (winter), the results were largely the opposite with a positive relationship between temperature and sunshine hours and telomere length. in all four cases, thermal and age effects on telomere length appeared to be non-linear in the two sexes and seasons, with complex response surface effects on telomere length from combined age and thermal effects.

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Global climate change is leading to decreased climatic predictability. Theoretical work indicates that changes in the climate’s intrinsic predictability will affect population dynamics and extinction, but experimental evidence is scarce. Here, we experimentally tested whether differences in intrinsic precipitation predictability affect population dynamics of the European common lizard (Zootoca vivipara) by simulating more predictable (MP) and less predictable (LP) precipitation in 12 seminatural populations over 3 years and measuring different vital rates. A seasonal age-structured matrix model was parametrized to assess treatment effects on vital rates and asymptotic population growth (λ). There was a nonsignificant trend for survival being higher in MP than in LP precipitation, and no differences existed in reproductive rates. Small nonsignificant survival differences in adults explained changes in λ, and survival differences among age classes were in line with predictions from cohort resonance. As a result, λ was significantly higher in MP than in LP precipitation. This experimentally shows that small effects have major consequences on λ, that forecasted decreases in precipitation predictability are likely to exacerbate the current rate of population decline and extinction, and that stage-structured matrix models are required to unravel the aftermath of climate change.

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Newly introduced predators constitute a major threat to prey populations worldwide. Insular prey animals in particular often do not succeed in overcoming their naivety towards alien predators, making them specifically vulnerable. Why this is the case remains incompletely understood. Here, we investigate how the ability to detect and respond to predator chemical cues varies among populations of the Dalmatian wall lizard, Podarcis melisellensis. Lizards were sampled from five locations in south-eastern Croatia (one mainland location and four islands) that varied in the composition of their predator community. We observed the lizards’ behaviour in response to chemical cues of native saurophagous snakes (the Balkan whip snake, Hierophis gemonensis, and eastern Montpellier snake, Malpolon insignitus) and an introduced mammalian predator (the small Indian mongoose, Herpestes auropunctatus – a species held responsible for the loss of numerous insular reptile populations worldwide). Mainland lizards showed elevated tongue-flick rates (indicative of scent detection) as well as behaviours associated with distress in response to scents of both native and introduced predators. In sharp contrast, island lizards did not alter their behaviour when confronted with any of the predator cues. Alarmingly, even lizards from islands with native predators (both snakes and mammals) and from an island on which mongooses were introduced during the 1920s were non-responsive. This suggests that insular populations are chemosensorily deprived. As failure at the predator-detection level is often seen as the most damaging form of naivety, these results provide further insight into the mechanisms that render insular-living animals vulnerable to invasive species.

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Animal diversity of Aktaş Lake and surrounding was determined within the scope of the Aktaş Lake Management Plan Project completed by the Ministry of Agriculture and Forestry, General Directorate of Nature Conservation and National Parks in 2017. Aktaş Lake studies and literature data were evaluated together. As a result, 14 insecta species belonging to aquatic invertebrates, 1 exotic and invasive species belonging to Crustacea class and 24 Insecta species from terrestrial invertebrates were identified. In addition, 20 species of plant and animal plankton were identified. 6 fish (Pisces), 2 Amphibia, 5 reptiles (Reptilia), 107 birds (Aves) and 15 species of mammals (Mammalia) were identified in the natural fauna of Aktaş Lake.

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

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We acclimated adults of Takydromus septentrionalis (northern grass lizard) from four localities (populations) under identical thermal conditions to examine whether local thermal conditions have a fixed influence on thermal preference and thermal tolerance in the species. Selected body temperature (Tsel), critical thermal minimum (CTMin), and critical thermal maximum (CTMax) did not differ between sexes and among localities in lizards kept under identical laboratory conditions for approximately 5 months, and the interaction effects between sex and locality on these measures were not significant. Lizards acclimated to the three constant temperatures (20, 25, and 35 degrees C) differed in Tsel, CTMin, and CTMax. Tsel, CTMin, and CTMax all shifted upward as acclimation temperature increased, with Tsel shifting from 32.0 to 34.1 degrees C, CTMin from 4.9 to 8.0 degrees C, and CTMax from 42.0 to 44.5 degrees C at the change-over of acclimation temperature from 20 to 35 degrees C. Lizards acclimated to the three constant temperatures also differed in the range of viable body temperatures; the range was widest in the 25 degrees C treatment (38.1 degrees C) and narrowest in the 35 degrees C treatment (36.5 degrees C), with the 20 degrees C treatment in between (37.2 degrees C). The results of this study show that local thermal conditions do not have a fixed influence on thermal preference and thermal tolerance in T. septentrionalis.

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1. Reproduction involves considerable reorganization in an organism`s physiology that incurs potential toxicity for cells (e.g., oxidative stress) and decrease in fitness. This framework has been the cornerstone of the so-called ‘oxidative cost of reproduction’, a theory that remains controversial and relatively overlooked in non-model ectotherms. 2. Here, we used two complementary approaches in natural and controlled conditions to test whether altered access to climate conditions (water and temperature resources) alters oxidative status and mediates reproductive trade-offs in viviparous populations of the common lizard (Zootoca vivipara). 3. First, we examined whether access to free-standing water and differences in ambient temperature across 12 natural populations could be related to variation in oxidative status, reproductive effort and reproductive success. Second, we determined whether an experimental restriction to water triggers higher oxidative cost of reproduction and correlates with fitness measures (reproductive success, future survival rate and probability of future reproduction). 4. Pregnant females exhibited higher sensitivity than males to natural or experimental limitations in temperature and water access. That is, in restricted environments, pregnant females with higher reproductive effort exhibited stronger oxidative damage despite enhanced non-enzymatic antioxidant capacity. 5. Enhanced antioxidant defensive capacity in pregnant females was positively correlated with higher reproductive success, whereas elevated oxidative damage negatively correlated with offspring annual survival. 6. Altogether, our results revealed a context-dependent oxidative cost of reproduction that was concomitant with a conflict in water demand from offspring. These new insights should be critical for understanding ectotherm responses to heat waves and summer droughts that are increasing in frequency and duration.

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The use of fluctuating asymmetry (FA) as a measure of developmental instability, and its relationship to stress and fitness, is highly controversial. Here, we present results from a preliminary study comparing levels of asymmetry in various characteristics between two island populations of the Italian Wall Lizard (Podarcis sicula), one of which was recently founded. We relate individual asymmetry to several measures of physiological performance. Levels of FA varied clearly among the traits studied. Repeatability of FA estimates was high for meristic traits but low for metric traits. Levels of FA were on average higher in the newly founded population. We found a significant decrease in exertion (time until exhaustion by continuously chasing) with increasing levels of fluctuating asymmetry (i.e., more symmetric individuals had a higher exertion). Speed of locomotion showed a positive trend with increasing FA. No relationship was found between individual levels of FA and bite force. These results suggest that FA estimates, based on the accurate measurement of several traits, may be useful in explaining differences in developmental stability and physiological performance at the individual and population level.

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Identifying population changes is a prerequisite for any conservation efforts, but to evaluate trends requires long-term data sets. In this paper, changes in population numbers in two species of European lizards, Lacerta bilineata and Podarcis muralis, are described. The results are based on counts of mortalities and live lizard presence on roads collected over a 14 year period, which indicated wide annual fluctuations in numbers in both species, with inter-specific annual trends strongly correlated. Snout to vent lengths (SVL) in L. bilineata were generally longer when annual numbers were higher but not in P. muralis. Regression analysis of the logarithmic transforms of annual lizard numbers as dependent variables and year as the independent variable indicated that despite population fluctuations, numbers of both species were stable or increased during the period of observation. Jackknife analysis identified unusually high numbers of L. bilineata in 2012 and P. muralis in 2010, but data from these years had minimal influence on the general trends with the peudo-regression coefficients generated from the Jackknife analysis in agreement with the true regressions. The results were therefore congruent, indicating annual fluctuations in both species were underpinned by long-term population stability.

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Whether and how differences in environmental predictability affect life-history traits is controversial and may depend on mean environmental conditions. Solid evidence for effects of environmental predictability are lacking and thus, the consequences of the currently observed and forecasted climatechange induced reduction of precipitation predictability are largely unknown. Here we experimentally tested whether and how changes in the predictability of precipitation affect growth, reproduction, and survival of common lizard Zootoca vivipara. Precipitation predictability affected all three age classes. While adults were able to compensate the treatment effects, yearlings and juvenile females were not able to compensate negative effects of less predictable precipitation on growth and body condition, respectively. Differences among the age-classes’ response reflect differences (among age-classes) in the sensitivity to environmental predictability. Moreover, effects of environmental predictability depended on mean environmental conditions. This indicates that integrating differences in environmental sensitivity, and changes in averages and the predictability of climatic variables will be key to understand whether species are able to cope with the current climatic change.

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In drei Ersatzhabitaten für Zauneidechsen (Lacerta agilis), die im Rahmen von Umsiedlungsmaßnahmen in Berlin angelegt wurden, wurden Strukturelemente eingebracht, die hinsichtlich der verwendeten Materialien, ihrer Größe und ihres Aufbaus große Unterschiede aufwiesen. Im Zuge von Monitoring-Untersuchungen konnte beobachtet werden, dass nicht alle Strukturelemente von den Eidechsen besiedelt wurden. Je nach Ausstattung wurden einige völlig gemieden, während andere deutlich bevorzugt wurden. Nach den bisherigen Beobachtungen wurden strukturreiche Altholzhaufen von den Zauneidechsen am häufigsten besiedelt, während an den steindominierten Strukturen gar nicht oder nur vereinzelt Eidechsen beobachtet werden konnten. Von entscheidender Bedeutung scheint zu sein, ob die angelegten Sonderstrukturen den Eidechsen genügend Deckung bieten. Somit zeigen sich Qualitätsunterschiede bei den Anlagen, die in der Praxis unbedingt mehr Beachtung finden sollten.

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The ecological theory of island biogeography suggests that mainland populations should be more genetically divergent from those on large and distant islands rather than from those on small and close islets. Some island populations do not evolve in a linear way, but the process of divergence occurs more rapidly because they undergo a series of phenotypic changes, jointly known as the Island Syndrome. A special case is Reversed Island Syndrome (RIS), in which populations show drastic phenotypic changes both in body shape, skin colouration, age of sexual maturity, aggressiveness, and food intake rates. The populations showing the RIS were observed on islets nearby mainland and recently raised, and for this they are useful models to study the occurrence of rapid evolutionary change. We investigated the timing and mode of evolution of lizard populations adapted through selection on small islets. For our analyses, we used an ad hoc model system of three populations: wildtype lizards from the mainland and insular lizards from a big island (Capri, Italy), both Podarcis siculus siculus not affected by the syndrome, and a lizard population from islet (Scopolo) undergoing the RIS (called P. s. coerulea because of their melanism). The split time of the big (Capri) and small (Scopolo) islands was determined using geological events, like sealevel rises. To infer molecular evolution, we compared five complete mitochondrial genomes for each population to reconstruct the phylogeography and estimate the divergence time between island and mainland lizards. We found a lower mitochondrial mutation rate in Scopolo lizards despite the phenotypic changes achieved in approximately 8,000 years. Furthermore, transcriptome analyses showed significant differential gene expression between islet and mainland lizard populations, suggesting the key role of plasticity in these unpredictable environments.

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Lifespan is one of the main components of life history. Shorter lifespans can be expected in marginal habitats. However, in the case of ectotherms, lifespan typically increases with altitude, even though temperature –one of the main factors to determine ectotherms’ life history– declines with elevation. This pattern can be explained by the fact that a shorter activity time favours survival. In the present study, we analysed how lifespan and other life-history traits of the lizard Psammodromus algirus vary along a 2,200 m elevational gradient in Sierra Nevada (SE Spain). Populations at intermediate altitudes (1,200–1,700 m), corresponding to the optimal habitat for this species, had the shortest lifespans, while populations inhabiting marginal habitats (at both low and at high altitudes) lived longest. Therefore, this lizard did not follow the typical pattern of ectotherms, as it also lived longer at the lower limit of its distribution, nor did it show a longer lifespan in areas with optimal habitats. These results might be explained by a complex combination of different gradients along the mountain, namely that activity time decreases with altitude whereas food availability increases. This could explain why lifespan was maximum at both high (limited activity time) and low (limited food availability) altitudes, resulting in similar lifespans in areas with contrasting environmental conditions. Our findings also indicated that reproductive investment and body condition increase with elevation, suggesting that alpine populations are locally adapted.

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During a visit to Osor on the island Cres, Croatia, in mid August 2016 I photographed one adult Dalmatolacerta oxycephala eating a stink bug of the (family Pentatomidae). Judging from the pertinent literature it is concluded that D. oxycephala eats a wide variety of invertebrates, including scorpions, beetles and possibly even centipedes. Ripe fruit is also eaten. D. oxycephala is comfortable with humans at Osor and in other habitats visited frequently by people, whereas it proves very shy in other habitats. At Osor one Hierophis gemonensis was apparently hunting D. oxycephala in a wall.

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The present work constitutes an historical atlas of all known bibliographic records of amphib- ians and reptiles of Angola. It is the first attempt to compile in a single document all the records scattered through hundreds of publications, published from the first half of the nineteenth century to the present day, and provide a critical taxonomic revision of the herpetofauna of the country. An introductory text discusses the Angolan socio-political and physiographic landscape, the history of herpetological research in the country, and the diversity, distribution and endemism of Angolan her- petofauna. It also provides a summary of the conservation concerns surrounding the herpetological fauna. For each taxon noted in the literature we provide a detailed taxonomic account, including data on the original description, its IUCN assessment status, global distribution, georeferenced records for each known occurrence in Angola (accompanied by a point locality map), and taxo- nomic and distributional notes. A synoptic list of all documented Angolan amphibian and reptile species is provided as are lists of taxa previously erroneously assigned to the Angolan fauna. We recognize 117 species of frogs and 278 species of reptiles as occurring in Angola, although many of these represent species complexes or are currently recognized under names of convenience pending taxonomic evaluation. In one instance we provide a replacement name, Trachylepis monardi nom. nov., to deal with an instance of secondary homonymy. The Atlas is intended to be a working reference for both current research and conservation planning, as well as a catalyst for future work.The interest shown by specialists in the study of Angolan specimens dates back more than one hundred years. Since the nineteenth century, books and papers have been published on the topic as the result of these investigations. The first major bibliographic reference about the Angolan herpetofauna, Herpétologie d’Angola et du Congo by José Vicente Barbosa du Bocage, dates from 1895. Many researchers and publications followed, greatly enriching the scientific bibliography on the topic. However, the scattered nature of the published works, as well as the dearth of available specimens from earlier times, has made it difficult for researchers, scholars or curious amateurs to access to this information. Because of these difficulties, and to facilitate the access to available data on the Angolan herpetofauna, the Ministry of Environment, through its National Institute of Biodiversity and Conservation Areas, decided to present, in a single volume, all the available scientific records published so far on the diversity of amphibians and reptiles. Such a task, which has its basis in the National Strategy and Action Plan for Biodiversity and Conservation Areas of Angola, was dependent upon the helpful collaboration of important international partners. The present Atlas will be of inestimable assistance to the study of the Natural History of Ango- la, not only because of its standardized taxonomic and geographical accounts with distribution maps for all of the amphibians and reptiles known in Angola, but also because of its competent approach to the physiography, climate, biomes, historical herpetological research in Angola, conservation, and other topics. The thoughtful way the book is arranged, with straightforward text, clear tables and interesting figures, makes it easy for even laymen to read and understand. At 501 pages long, profusely documented and richly illustrated, this Atlas provides a grand guided tour through the diversity of the Angolan herpetofauna, from the most remote and spectac- ular places of the country. Through mountains and escarpments, plains and valleys, savannas and dense forests, rivers and streams, lakes and lagoons, this work encompasses the entire country, aking us on an enlightening tour of knowledge. The methodical labor and persistence of the specialists who produced the present work, ensure that it not only contributes to scientific history, through its compilation of research already completed, but also suggests future directions for researchers and scholars devoted to the topic. Further, this substantial volume will also inform the national authorities with respect to environ- ment protection and conservation policies. Given all this, one can see that the present work, reflecting the contributions of the men and women who created it, is destined to become a standard reference to the scientific literature of the country, especially in regard to this part of its fauna. The quality of the scientific information poured into the following pages certainly qualifies the authors of this accurate work as leading herpetologists and places them among the important researchers to have served Angola in the course of its scientific history.

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A list of 60 species of amphibians and reptiles found during a six-week survey in western Zambia is presented. Two species of amphibians are newly reported for Zambia: Amietia chapini and an undescribed species of Tomopterna, previously known to occur in the Democratic Republic of Congo and in Namibia, respectively. Some of the material collected could not be confidently identified to species level because of the taxonomic complexity and uncertainty of some groups (e.g., Phrynobatrachus, Ptychadena), even with the use of DNA barcoding. This list is a small contribution to the growing knowledge of Zambian and African herpetology.

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Presented is a compilation of new locality records with natural history data for 49 reptile species in Haut-Ogooué Province, southeastern Gabon, Equatorial Africa. One new snake species record is added to Gabon (Colubridae: Philothamnus hughesi), 14 new reptile species records to Haut-Ogooué Province, three new reptile records for Léconi Park, and 28 new reptile records for Lékédi Park. A predation case is reported of Naja melanoleuca preying on Dasypeltis fasciata and of Boaedon perisilvestris on a micromammal.

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Across the globe, reptile species are threatened by anthropogenic activities, including habitat destruction, habitat degradation, expanding human settlements and climate change. Those with restricted ranges are often the most vulnerable due to their limited dispersal capabilities, narrow thermal tolerances and specific habitat requirements. Many of these restricted species are also poorly understood, with a lack of knowledge concerning their ecological and physiological requirements. In order to design effective conservation strategies for these restricted species, these knowledge gaps need to be filled. The aim of this thesis was to gain a deeper understanding on the biology of some of the endemic and restricted reptiles in the Soutpansberg Mountains. This mountain range is located in the Limpopo Province of South Africa and is a unique study area due to its sub-tropical location, habitat heterogeneity and the fact that it is located in the replacement transition zones of three biogeographic subregions. This has led to the mountains supporting extremely high faunal and floral biodiversity and endemism, reptiles being no exception. However, to date there have been few ecological studies into the reptile fauna of the area and the ecological requirements of many of these species are unknown. There are several threats that species from the mountains currently face including habitat destruction, agriculture, silviculture, mining and climate change. This thesis is made up of four main parts: firstly, I investigated the broad scale distribution patterns, climatic requirements and potential interspecific interactions of five of the rupicolous, endemics using ecological niche modelling (Afroedura pienaari; Lygodactylus incognitus: L. soutpansbergensis; Platysaurus relictus and Vhembelacerta rupicola). Results indicated that most species were limited by climatic factors, with the average temperature of the coolest three months having the most influence on the majority of the species, suggesting that they may be negatively affected by climate change in the future. Interspecific interactions between these species are not likely to affect broad-scale distribution patterns. Secondly, I examined the microhabitat requirements and potential niche separation of two, endemic Lygodactylus geckos: L. incognitus and L. soutpansbergensis by recording fine- and broad-scale habitat variables. Results indicated that the two species showed differences in their microhabitat selection, but that interspecific aggression was unlikely to be the factor causing these differences. Instead, their morphology and physiology were likely driving microhabitat selection. This study revealed microhabitat requirements of the two species, knowledge of which is important for future conservation efforts in the area. Next, I investigated the daily activity patterns of the two Lygodactylus geckos by conducting scan surveys along transects in the mountains. Results showed that L. incognitus was more active in cooler temperatures whilst L. soutpansbergensis was more active in warmer conditions. These results suggest that L. incognitus may be more vulnerable than L. soutpansbergensis to the effects of climate change and that physiological studies are required to investigate adaptive capability. Finally, I explored the potential effects climate change will have on the distribution of eleven rupicolous reptiles using ecological niche modelling. These species are likely to have limited dispersal abilities and thus are unlikely to be able to track suitable conditions in the face of climate change; therefore, I also identified potential climatic refugia. Results indicated that four species in particular are likely to be extremely vulnerable to the effects of climate change with large reductions in suitable habitat between current and future projections. The western Soutpansberg may act as a climatic refugia in the future. I recommended that detailed investigations into the physiological requirements of these vulnerable species be performed in order to develop models that are more accurate. Long-term monitoring projects in the mountain should also be executed in order to track these potential range reductions. Ultimately, this thesis resulted in the gain of valuable ecological information on several restricted reptiles of South Africa for which there was previously few data. This information is vital for ongoing conservation assessments and planning in the region. One of the main findings of this thesis is that ongoing anthropogenic pressures will likely have negative effects for the majority of the species studied here.

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Vasoactive intestinal polypeptide (VIP) and pituitary adenylate cyclase-activating polypeptide (PACAP) are regulatory neuropeptides of the hypothalamus-hypophyseal-adrenal axis, acting via the common receptors VPAC(1) and VPAC(2) and the selective PACAP receptor PAC(1). In the adrenal glands of the Italian wall lizard, Podarcis sicula, the presence of VIP in chromaffin cells, and the VIP-stimulated release of catecholamine and aldosterone in vivo, was previously shown. To examine the localization of both peptides and receptors and their mRNAs in the adrenal gland of P. sicula, immunohistochemistry and in situ hybridization were performed: PACAP and its mRNA were detected in chromaffin cells, VPAC(1) was found associated with steroidogenic tissue, VPAC(2) and PAC(1) with chromaffin tissue. Using `far western blot` technique, we showed the presence of specific binding sites for VIP/PACAP in the adrenal glands of the lizard. The effects of both VIP and PACAP on the adrenal cells of the lizard were examined in vitro in adrenal cell co-cultures: both VIP and PACAP enhanced catecholamine, corticosterone and aldosterone release from adrenal cell co-culture in a time- and dose-dependent manner. The catecholamine release was inhibited by PAC(1) antagonist and in VPAC(2) immunoneutralized adrenal cells. The effects of VIP and PACAP on aldosterone secretion were counteracted by VPAC(1) antagonist administration in vitro. Corticosterone secretion elicited by VIP was not blocked by VPAC(1) antagonist, while the PACAP-induced release of corticosterone was blocked by the antagonist. Overall, our investigations indicate that these neuropeptides of the secretin superfamily can act not only as neurotransmitters but also as autocrine and paracrine regulators on chromaffin and cortical cells, being important mediators of the non-cholinergic system in the lizard adrenal gland.

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Die Pityuseneidecvhse Podarcis pityusensis ist das einzige endemische Landwirbeltier der Pityusen und bewohnt neben den beiden Hauptinseln Ibiza und Formentera die allermeisten der vorgelagerten kleinen Felseninseln. Als der Mensch die Inseln besiedelte, brachte er auch fremde Beutegreifer in seinem Gefolge mit, wie zum Beispiel Ginsterkatzen, Steinmarder, Igel, Ratten und Wildkatzen. Podarcis pityusensis ist durch nationale und internationale Gesetze geschützt und im Anhang II des Washingtoner Artenschutzübereinkommens (CITES: Convention in International Trade in Endangered Species of Wild Fauna und Flora) gelistet. Auf der Roten Liste der IUCN wird die Art derzeit als potentiell gefährdet („Near Threatened“) eingestuft. Einige der Populationen sind jedoch stark rückgängig, gefährdet oder vom Aussterben bedroht. Ursächlich hierfür sind unter anderem Störungen und Nachstellungen durch den Menschen, Einschleppung von Katzen und Ratten sowie auch versehentliche Vergiftung durch Köder zur Bekämpfung von Möwen. Anfang dieses Jahrtausends wurden drei Schlangenarten mit importierten Olivenbäumen auf die Inseln verschleppt: die Hufeisennatter (Hemorrhois hippocrepis), die Treppennatter (Rhinechis scalaris) und die Westliche Eidechsennatter (Malpolon monspessulanus). Während letzgenannte Art seit 2010 nicht mehr nachgewiesen wurde, verbreiten sich die beiden anderen Schlangenarten besorniserregend. Podarcis pityusensis macht in der Nahrung von Hemorrhois hippocrepis auf Ibiza 55,4 % der beobachteten Beute aus, und die Nahrung von Rhinachis scalaris auf Formentera besteht ersten Untersuchungen nach zu mehr als der Hälfte aus Eidechsen (HINCKLEY et al. 2017). Dies stellt für die Eidechsen auf den beiden Hauptinseln eine ernsthafte Bedrohung dar. Sollten die Schlangen auch die umliegenden Inseln erreichen, würde dies katastrophale und unwiederbringliche Folgen für die dort lebenden Eidechsenpopulationen haben, da sie die einzige verfügbare Beute wären.

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Eine kurze Notiz über eine allochthone Population von Podarcis siculus campestris, die auf dem Gelände des Bahnhofs Rapperswil im Schweizer Kanton St. Gallen lebt.

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The feeding of a sand lizard (Lacerta agilis) captured by a buzzard (Buteo buteo) to its chicks is described and documented by a photo.

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Zwei Bilder mit allochthonen jungen Mauereidechsen Podarcis muralis maculiventris der Südalpenlinie werden kommentiert. Schlüpflinge separieren sich von den Mauern, die von Adulttieren besetzt werden, in ein Wiesengelände. Sie nutzen die spärlichen Sonnenplätze dort gemeinsam, gelegentlich sogar mit Körperkontakt. Tiere aller Altersklassen teilen sich Hibernacula in Hohlräumen hinter Stützmauern. Diese Überwinterungsgemeinschaften bleiben nach der Winterruhe noch eine Zeitlang zusammen. Ein adultes Paar mit acht Jungtieren unterschiedlichen Alters vor einem Hibernaculum wird sentimental als “Familie” interpretiert.

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We provide new and supplementary data on the distribution and natural history of reptiles on the island of Cres: Dalmatolacerta oxycephala (range extension of an alien introduced population); Emys orbicularis hellenica (status of the population in the southwestern parts of Cres); Hemidactylus turcicus (first record after 38 years); Trachemys scripta elegans (first record on Cres).

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Attention is given to the reptiles and amphibians of the island Lesbos in Greece. The observations were made during a holiday in July 1987.

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Composition and density of vegetation are important habitat quality indicators for reptiles. The goal of this note was to determine dominant plant species, optimal size and density in habitats of syntopic lizards in the Goravan Sands Sanctuary. The role of vegetation variables was considered in relation to differences in thermoregulation of syntopic Phrynocephalus persicus, Eremias pleskei, and Eremias strauchi.Microhabitats of P. persicus differed from that of E. pleskei and of E. strauchi by a relatively frequent encounter of the plant Achillea tenuifolia, which is considered as potential habitat quality indicator. Phrynocephalus persicus generally used microhabitats with sparser vegetation. It is supposed that the excessive growth of shading vegetation can have a more negative impact on P. persicus than on E. pleskei.

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The role of large-scale factors in influencing reptile abundances in temperate-zone lowland Europe is relatively obscure. Data on relative abundances of reptiles were collected in various regions of Latvia. Multiple regression analysis was used to determine the relationship between reptile abundance and climate and habitat predictors. For lizards, habitat was a more important regional-scale factor than climate, although warmth of summer was important in Lacerta agilis. For snakes, however, climate was a highly significant factor. Natrix natrix in Latvia is common only in areas with mild winter climate at elevations below 50 m a.s.l., while Vipera berus is frequent in upland areas with relatively harsh winters. Potentially, the latter species could be negatively affected by global warming.

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An inventory of the herpetofauna of the Gauja National Park, located in the north-cen- tral part of Latvia, was carried out in 1999-2000. Its objectives were to determine species composition, status, and habitat preferences. The main attention was focussed on reptiles. Data were collected along transects located throughout the territory of the Park. The total length of transects was 166.2 km, and numerous separate observations of various species were also recorded. Common and widespread species were Lacerta vivipara, Bufo bufo, Rana temporaria, and Rana synklepton esculenta. Anguis fragilis was found mostly in a dry pine, pine-spruce forest on the terrace of the ancient valley of Gauja River. A large population of Natrix natrix was found in the southern part of the Park in deciduous and coniferous forests. A few populations of Lacerta agilis were found in dry pine forests, and on the banks of the Gauja River. Rana arvalia was a rare species, more frequently found in high moors. There were also several records of Triturus crista- tus and T. vulgaris in the Gauja National Park. The required conservation activities are discussed.

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In 1998, Holman published the first Pleistocene herpetofauna list for The Netherlands.This article is an expan- sion of that list and contains both the Pleistocene and Holocene herpetofaunae that have been described from The Netherlands. Such a complete list of the herpetofauna has never been published before in The Nether- lands.This inventory is based on fossils that have been found in quarries, archaeological excavations and along the Dutch coast.The beach fossils originate from dredged sediments that have been used to supplement the beaches. Sand source areas are the North Sea, the Eurogeul area and off the shores of the province of Zeeland. By looking at all the different recovery sites, the age of the fossils differs from the Early Pleistocene to the Holo- cene era.

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

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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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Identification of extremely high levels of mitochondrial DNA (mtDNA) sequence divergence within reptiles from North Africa is commonplace. This high divergence often compares with interspecific levels among widely accepted species, leading to the hypothesis of the occurrence of species complexes. Indeed, in many examples, data from nuclear markers support such taxonomic recognition. Such is the case of two recently recognized ocellated lizard species of the genus Timon, T. nevadensis, from Spain, and T. kurdistanicus, from the Middle East, which both showed notable genetic differentiation from their sister taxa. In North Africa, highly divergent mtDNA lineages of Timon tangitanus were previously identified but not corroborated with nuclear markers. Here we expand geographic sampling across the range of Timon tangitanus and complement mtDNA sequences with data from nuclear markers (MC1R and ACM4). We identify four divergent mtDNA lineages, at a level similar to some reptile species. However, the nuclear markers show limited differentiation and lack of lineage sorting. This and some other recent assessments within reptiles discourage the use of mtDNA data alone as a proxy for taxonomic units, demonstrating once more the need for integrative taxonomic approaches.

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The sclerotic ring consists of several bones that form in the sclera of many reptiles. This element has not been well studied in squamates, a diverse order of reptiles with a rich fossil record but debated phylogeny. Squamates inhabit many environments, display a range of behaviours, and have evolved several different body plans. Most importantly, many species have secondarily lost their sclerotic rings. This research investigates the presence of sclerotic rings in squamates and traces the lineage of these bones across evolutionary time. We compiled a database on the presence/absence of the sclerotic ring in extinct and extant squamates and investigated the evolutionary history of the sclerotic ring and how its presence/absence and morphology is correlated with environment and behaviour within this clade. Of the 400 extant species examined (59 families, 214 genera), 69% have a sclerotic ring. Those species that do not are within Serpentes, Amphisbaenia, and Dibamidae. We find that three independent losses of the sclerotic ring in squamates are supported when considering both evolutionary and developmental evidence. We also show that squamate species that lack, or have a reduced, sclerotic ring, are fossorial and headfirst burrowers. Our dataset is the largest squamate dataset with measurements of sclerotic rings, and supports previous findings that size of the ring is related to both environment occupied and behaviour. Specifically, scotopic species tend to have both larger inner and outer sclerotic ring apertures, resulting in a narrower ring of bone than those found in photopic species. Non-fossorial species also have a larger sclerotic ring than fossorial species. This research expands our knowledge of these fascinating bones; with further phylogenetic analyses scleral ossicles could become an extremely useful character trait for inferring the behaviour of fossil squamates.