Your search keyword '"Lizard"' showing total 4,596 results

1. Gut microbiota parallelism and divergence associated with colonisation of novel habitats

Author

Härer, Andreas, Mauro, Alexander A, Laurentino, Telma G, Rosenblum, Erica B, and Rennison, Diana J

Subjects

Microbiology, Zoology, Ecology, Biological Sciences, Nutrition, Microbiome, Animals, Gastrointestinal Microbiome, Ecosystem, Diet, Lizards, RNA, Ribosomal, 16S, 16S rRNA sequencing, bacteria, ecology, gut microbiome, lizard, reptiles, Evolutionary Biology, Biological sciences

Abstract

An organism's gut microbiota can change in response to novel environmental conditions, in particular when colonisation of new habitats is accompanied by shifts in the host species' ecology. Here, we investigated the gut microbiota of three lizard species (A. inornata, H. maculata and S. cowlesi) from their ancestral-like habitat in the Chihuahuan desert and two colonised habitats with contrasting geological and ecological compositions: the White Sands and Carrizozo lava flow. The host species and the lizards' environment both shape gut microbiota composition, but host effects were overall stronger. Further, we found evidence that colonisation of the same environment by independent host species led to parallel changes of the gut microbiota, whereas the colonisation of two distinct environments by the same host species led to gut microbiota divergence. Some of the gut microbiota changes that accompanied the colonisation of the White Sands were associated with shifts in diet (based on diet information from previous studies), which is congruent with the general observation that trophic ecology has a strong effect on gut microbiota composition. Our study provides insights into how shifts in host ecology accompanying colonisation of novel environments can affect gut microbiota composition and diversity.

Published

2023

2. NEW DATA ON ECOLOGICAL NICHE MODELLING AND FUTURE CLIMATE PROJECTIONS OF ANATOLOLACERTA ANATOLICA (ANATOLIAN ROCK LIZARD).

Author

OĞUZ, Mehmet Anıl, ONMUŞ, Ortaç, and GÖÇMEN, Bayram

Subjects

*CURRENT distribution, *SPECIES distribution, *CENTER of mass, *WILDLIFE conservation, *SEASONAL temperature variations

Abstract

This study aims to determine the current distribution of Anatololacerta anatolica by using known locations and then to model possible changes in the species distribution against the climate change scenarios, compare the current and the expected future distributions of the species, and provide information for conservation activities. The current distribution of Anatolian Rock Lizard was determined by field trips made during 2019 and 2020. The coordinates of 79 GPS data were obtained from the field trips, and 78 GPS data were collected from the literature survey. Totally, 157 GPS data of Anatololacerta anatolica species were eliminated. IPCC representative Carbon Concentration Pathways (RCP) scenarios (RCP-2.6, 4.5, 6, 8.5) for 2020, 2050 and 2070. Nineteen different bioclimatic variables were obtained from the WorldClim database, and the current and future distributions of the species were modeled using ecological niche modeling. The results of the models were converted into polygon data, and then their surface areas, centroids (the center of mass or center of gravity), displacement of centroids, and their movement directions were calculated and compared. Out of 19 bioclimatic variables, Isothermality, Temperature Seasonality, Minimum Temperature of Coldest Month, Mean Temperature of Wettest Quarter, and Precipitation of Driest Month were found to be the contributing factors explaining the distribution of the species. The current distribution model's Area Under Curve (AUC) value has an explanatory value of 0,901. Significant shifts up to 100 km change in centroids and 550 km change in peripheral regions are expected to happen mainly in northern and northeastern areas. At the same time, it loses some regions located in the south and western parts of Turkey. Nevertheless, such shifts also depend on many other ecological factors besides climate. Therefore, monitoring and conservation of the species are recommended to be put into practice. [ABSTRACT FROM AUTHOR]

Published

2024

3. Territorial status is explained by covariation between boldness, exploration, and thermal preference in a colour polymorphic lizard

Author

Tyler M. Goerge and Donald B. Miles

Subjects

boldness behaviour, colour polymorphism, exploration, lizard, thermal preference, Ecology, QH540-549.5

Abstract

Abstract Colour polymorphic species often exhibit variation in morphology, physiology, and behaviour among morphs. In particular, dominance status may be signalled by the interaction between behaviour and colour morph. Behavioural traits associated with dominance include boldness, exploration, and aggression, which influence access to preferred habitat, territorial defence, and mate acquisition. In ectotherms, the social structure associated with morphs may result in the exploitation of structural niches differing in thermal quality. Hence, social interactions among morphs may generate concordant variation in thermal preference and environmental temperature. However, few studies have assessed thermal preference variation in colour polymorphic species and its covariation with behaviour. Doing so can provide insight into niche specialization and the maintenance of colour polymorphism in populations. Here, we investigated the patterns of covariation in boldness behaviour, exploratory behaviour, and thermal preference in the tree lizard, Urosaurus ornatus. We assessed trait variation between territorial and non‐territorial male morphs and between orange and yellow female morphs. Boldness and exploratory behaviour were repeatable in male U. ornatus and bolder individuals were significantly more likely to incur tail loss, a potential consequence of bold behaviour. Territorial male morphs were significantly bolder and more exploratory and preferred higher body temperatures with a narrower T set than non‐territorial morphs. Female morphs did not vary in behavioural or thermal traits. This study highlights behavioural mechanisms that underly ecological niche segregation and variable habitat use between morphs in a colour polymorphic species.

Published

2024

4. The impact of elevation and prediction of climate change on an ultra high‐elevation ectotherm

Author

Jie Gao, Zian Wei, and Yuanting Jin

Subjects

climate change, distribution, elevation, lizard, maximum active time, Ecology, QH540-549.5

Abstract

Abstract Climate change may affect the survival and reproduction of ectotherms. The toad‐headed lizard Phrynocephalus theobaldi, which holds the distinction of occupying the highest elevation among all reptile species on Earth, with an elevational range from 3600 to 5000 m, represents an ideal model for studying the adaptations to climatic changes across elevational gradients. Here, we used mechanistic and hybrid species distribution models (HSDM) together with characteristic measurements of thermal biology (CTmax, CTmin, and Tsel) to simulate and compare the distribution and activity periods of the lizard across elevations in response to climate change. NicheMapR simulations using only climate factors predicted that all populations will be negatively impacted by climate change (+3°C) by suffering a reduced distribution. However, the impact was clearly reduced in simulations that accounted for thermal physiological traits. Longer activity periods were predicted for all populations during climate change. The suitable distribution is predicted to change slightly, with an increase anticipated for both high and low elevation populations. However, the forecast indicates a more pronounced increase in suitable habitats for populations at higher elevations (>4200 m) compared to those at lower elevations (

Published

2024

5. Built for success: Distribution, morphology, ecology and life history of the world's skinks.

Author

Chapple, David G., Slavenko, Alex, Tingley, Reid, Farquhar, Jules E., Camaiti, Marco, Roll, Uri, and Meiri, Shai

Subjects

*SKINKS, *LIFE history theory, *WORLD history, *HYPOTHERMIA, *ECOLOGICAL niche, *NUMBERS of species

Abstract

In animals, the success of particular lineages can be measured in terms of their number of species, the extent of their geographic range, the breadth of their habitats and ecological niches, and the diversity of their morphological and life‐history traits. Here, we review the distribution, ecology, morphology and life history of skinks, a diverse lineage of terrestrial vertebrates. We compared key traits between the three subfamilies of skinks, and between skinks and non‐scincid lizards. There are currently 1743 described species of skink, which represent 24% of global lizard diversity. Since 2010, 16% of lizard descriptions have been of skinks. The centres of skink diversity are in Australia, New Guinea, southeast Asia, Oceania, Madagascar and central Africa. Compared with non‐scincid lizards, skinks have larger distributional ranges, but smaller body sizes. Sexual size dimorphism is rare in skinks. Almost a quarter (23%) of skinks exhibit limb reduction or loss, compared with just 3% of non‐scincid lizards. Skinks are more likely to be viviparous (34% of species) compared with non‐scincids (13%), and have higher clutch/litter sizes than non‐scincids. Although skinks mature later than non‐scincids, their longevity is similar to that exhibited by other lizard groups. Most skinks (88%) are active foragers, and they are more likely to be carnivorous than non‐scincids. Skinks are more likely to be diurnal or cathemeral than other lizard groups, but they generally have lower field body temperatures compared with non‐scincids. The success of skinks appears to be both a result of them hitting upon a winning body plan and ecology, and their capacity to regularly deviate from this body plan and adapt their ecology and life history (e.g. repeated limb reduction and loss, transitions to viviparity) to prevailing conditions. [ABSTRACT FROM AUTHOR]

Published

2023

6. Built for success: Distribution, morphology, ecology and life history of the world's skinks

Author

David G. Chapple, Alex Slavenko, Reid Tingley, Jules E. Farquhar, Marco Camaiti, Uri Roll, and Shai Meiri

Subjects

ecology, geographic range, life history, lizard, reproduction, Scincidae, Ecology, QH540-549.5

Abstract

Abstract In animals, the success of particular lineages can be measured in terms of their number of species, the extent of their geographic range, the breadth of their habitats and ecological niches, and the diversity of their morphological and life‐history traits. Here, we review the distribution, ecology, morphology and life history of skinks, a diverse lineage of terrestrial vertebrates. We compared key traits between the three subfamilies of skinks, and between skinks and non‐scincid lizards. There are currently 1743 described species of skink, which represent 24% of global lizard diversity. Since 2010, 16% of lizard descriptions have been of skinks. The centres of skink diversity are in Australia, New Guinea, southeast Asia, Oceania, Madagascar and central Africa. Compared with non‐scincid lizards, skinks have larger distributional ranges, but smaller body sizes. Sexual size dimorphism is rare in skinks. Almost a quarter (23%) of skinks exhibit limb reduction or loss, compared with just 3% of non‐scincid lizards. Skinks are more likely to be viviparous (34% of species) compared with non‐scincids (13%), and have higher clutch/litter sizes than non‐scincids. Although skinks mature later than non‐scincids, their longevity is similar to that exhibited by other lizard groups. Most skinks (88%) are active foragers, and they are more likely to be carnivorous than non‐scincids. Skinks are more likely to be diurnal or cathemeral than other lizard groups, but they generally have lower field body temperatures compared with non‐scincids. The success of skinks appears to be both a result of them hitting upon a winning body plan and ecology, and their capacity to regularly deviate from this body plan and adapt their ecology and life history (e.g. repeated limb reduction and loss, transitions to viviparity) to prevailing conditions.

Published

2023

7. Crossing Lydekker's Line: Northern Water Dragons (Tropicagama temporalis) Colonized the Mollucan Islands of Indonesia from New Guinea

Author

Karin, Benjamin R, Stubbs, Alexander L, Arifin, Umilaela, Iskandar, Djoko T, Arida, Evy, Austin, Christopher C, and McGuire, Jimmy A

Subjects

Biological Sciences, Ecology, Evolutionary Biology, Genetics, Agamidae, Biogeography, Lizard, Maluku, Phylogeography, Wallacea, Ecological Applications, Zoology

Abstract

Wallace's and Lydekker's Lines both describe important biogeographic barriers in the Indo-Australian Archipelago, with Wallace's Line demarcating the boundary of the Greater Sunda Shelf and Lydekker's Line indicating the edge of the Sahul continental shelf. Despite their similarities, Wallace's Line has been much more heavily studied than has Lydekker's Line, yet provides an interesting system for testing the source of fauna into eastern Wallacea. New collections of Northern Water Dragons, Tropicagama temporalis, from several islands in Maluku, eastern Indonesia now allow for an assessment of the phylogeography of the species and the ability to test if New Guinean or Australian populations served as the source for over-water dispersal across Lydekker's Line into Maluku. We collected specimens from remote islands in eastern Indonesia, sequenced the mitochondrial ND2 gene, and aligned the data to previously sequenced specimens on GenBank. We conducted several phylogenetic and divergence time analyses to investigate the source population and timing of dispersal. We found low genetic diversity among the islands in Maluku, and these samples showed little genetic divergence from New Guinea samples. The New Guinea and Maluku populations diverged less than 1 million years ago (Ma) and together diverged from the Australian population between 2.3 and 4.7 Ma. These results, along with patterns in other taxa, illustrated that, despite Australia's close geographic proximity to many of the islands in southeastern Indonesia, New Guinea has been the more frequent source of Wallacean fauna from Sahul.

Published

2020

8. Trait differences among discrete morphs of a color polymorphic lizard, Podarcis erhardii

Author

Brock, Kinsey M, Baeckens, Simon, Donihue, Colin M, Martín, José, Pafilis, Panayiotis, and Edwards, Danielle L

Subjects

Zoology, Ecology, Biological Sciences, Human Genome, Genetics, Color polymorphism, Bite force, Chemical signals, Lizard, Traits, Podarcis erhardii, Medical and Health Sciences

Abstract

Color polymorphism defies evolutionary expectations as striking phenotypic variation is maintained within a single species. Color and other traits mediate social interactions, and stable polymorphism within a population is hypothesized to be related to correlational selection of other phenotypic traits among color morphs. Here, we report on a previously unknown throat color polymorphism in the Aegean Wall Lizard (Podarcis erhardii) and examine morph-correlated differences in traits important to social behavior and communication: maximum bite force capacity and chemical signal profile. We find that both sexes of P. erhardii have three color morphs: orange, yellow, and white. Moreover, orange males are significantly larger and tend to bite harder than yellow and white males. Although the established color polymorphism only partially matches the observed intraspecific variation in chemical signal signatures, the chemical profile of the secretions of orange males is significantly divergent from that of white males. Our findings suggest that morph colors are related to differences in traits that are crucial for social interactions and competitive ability, illustrating the need to look beyond color when studying polymorphism evolution.

Published

2020

9. The Genetic Basis of Adaptation following Plastic Changes in Coloration in a Novel Environment

Author

Corl, Ammon, Bi, Ke, Luke, Claudia, Challa, Akshara Sree, Stern, Aaron James, Sinervo, Barry, and Nielsen, Rasmus

Subjects

Biological Sciences, Ecology, Genetics, Aetiology, 2.1 Biological and endogenous factors, Adaptation, Physiological, Animals, California, Color, Environment, Lizards, Melanins, Phenotype, Pigmentation, Reptilian Proteins, Baldwin effect, PREP gene, PRKAR1A gene, Uta stansburiana, adaptation, crypsis, exon-capture, lizard, melanin, plasticity, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Psychology

Abstract

Phenotypic plasticity has been hypothesized to precede and facilitate adaptation to novel environments [1-8], but examples of plasticity preceding adaptation in wild populations are rare (but see [9, 10]). We studied a population of side-blotched lizards, Uta stansburiana, living on a lava flow that formed 22,500 years ago [11] to understand the origin of their novel melanic phenotype that makes them cryptic on the black lava. We found that lizards living on and off of the lava flow exhibited phenotypic plasticity in coloration but also appeared to have heritable differences in pigmentation. We sequenced the exomes of 104 individuals and identified two known regulators of melanin production, PREP and PRKAR1A, which had markedly increased levels of divergence between lizards living on and off the lava flow. The derived variants in PREP and PRKAR1A were only found in the lava population and were associated with increased pigmentation levels in an experimental cohort of hatchling lizards. Simulations suggest that the derived variants in the PREP and PRKAR1A genes arose recently and were under strong positive selection in the lava population. Overall, our results suggest that ancestral plasticity for coloration facilitated initial survival in the lava environment and was followed by genetic changes that modified the phenotype in the direction of the induced plastic response, possibly through de novo mutations. These observations provide a detailed example supporting the hypothesis that plasticity aids in the initial colonization of a novel habitat, with natural selection subsequently refining the phenotype with genetic adaptations to the new environment. VIDEO ABSTRACT.

Published

2018

10. Dispersal patterns of Squamata in the Mediterranean: An evolutionary perspective

Author

Daniel Escoriza

Subjects

colonization, island, lizard, phylogeny, snake, Ecology, QH540-549.5

Abstract

Abstract Mediterranean islands have a high diversity of squamates, although they are unevenly distributed. This variability in the composition of the reptile assemblages across islands may have been influenced by differences in the colonization abilities of these species. To evaluate the dispersal capacities of squamate species, we modeled their sea routes using cost surface models. We estimated the effects of some life‐history traits and the phylogenetic signal in the characteristics of the modeled dispersal paths. We hypothesized that a significant phylogenetic signal should be present if the dispersal ability is enhanced by traits shared among evolutionarily related species. The results showed that no phylogenetic signal was present in the characteristics of the dispersal paths (i.e., in the distance traveled/bypassed sea depth). Thus, no superior island‐colonizer lineages were detected in Mediterranean Squamata. However, our analyses also revealed that small‐sized lizards were superior to other groups of squamates at dispersing over long distances on the sea.

Published

2021

11. The relationship between bite force, morphology, and diet in southern African agamids

Author

W. C. Tan, J. Measey, B. Vanhooydonck, and A. Herrel

Subjects

Agama, Diet, Habitat, Lizard, Morphometrics, Performance, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background Many animals display morphological and behavioural adaptations to the habitats in which they live and the resources they exploit. Bite force is an important whole-organism performance trait that allows an increase in dietary breadth, the inclusion of novel prey in the diet, territory and predatory defence, and is important during mating in many lizards. Methods Here, we study six species of southern African agamid lizards from three habitat types (ground-dwelling, rock-dwelling, and arboreal) to investigate whether habitat use constrains head morphology and bite performance. We further tested whether bite force and head morphology evolve as adaptations to diet by analysing a subset of these species for which diet data were available. Results Overall, both jaw length and its out-lever are excellent predictors of bite performance across all six species. Rock-dwelling species have a flatter head relative to their size than other species, possibly as an adaptation for crevice use. However, even when correcting for jaw length and jaw out-lever length, rock-dwelling species bite harder than ground-dwelling species. Diet analyses demonstrate that body and head size are not directly related to diet, although greater in-levers for jaw closing (positively related to bite force) are associated to an increase of hard prey in the diet. Ground-dwelling species consume more ants than other species. Conclusions Our results illustrate the role of head morphology in driving bite force and demonstrate how habitat use impacts head morphology but not bite force in these agamids. Although diet is associated with variation in head morphology it is only partially responsible for the observed differences in morphology and performance.

Published

2021

12. Sexual selection predicts brain structure in dragon lizards

Author

Hoops, D, Ullmann, JFP, Janke, AL, Vidal-Garcia, M, Stait-Gardner, T, Dwihapsari, Y, Merkling, T, Price, WS, Endler, JA, Whiting, MJ, and Keogh, JS

Subjects

Zoology, Ecology, Biological Sciences, Neurosciences, Underpinning research, 1.1 Normal biological development and functioning, Animals, Brain, Female, Lizards, Male, Mating Preference, Animal, Sex Characteristics, Sexual Behavior, Sexual Behavior, Animal, agamid, lizard, magnetic resonance imaging, medial preoptic nucleus, neuroscience, reptile, sexual dichromatism, sexual dimorphism, ventromedial hypothalamic nucleus, visual modelling, Evolutionary Biology, Evolutionary biology

Abstract

Phenotypic traits such as ornaments and armaments are generally shaped by sexual selection, which often favours larger and more elaborate males compared to females. But can sexual selection also influence the brain? Previous studies in vertebrates report contradictory results with no consistent pattern between variation in brain structure and the strength of sexual selection. We hypothesize that sexual selection will act in a consistent way on two vertebrate brain regions that directly regulate sexual behaviour: the medial preoptic nucleus (MPON) and the ventromedial hypothalamic nucleus (VMN). The MPON regulates male reproductive behaviour whereas the VMN regulates female reproductive behaviour and is also involved in male aggression. To test our hypothesis, we used high-resolution magnetic resonance imaging combined with traditional histology of brains in 14 dragon lizard species of the genus Ctenophorus that vary in the strength of precopulatory sexual selection. Males belonging to species that experience greater sexual selection had a larger MPON and a smaller VMN. Conversely, females did not show any patterns of variation in these brain regions. As the volumes of both these regions also correlated with brain volume (BV) in our models, we tested whether they show the same pattern of evolution in response to changes in BV and found that the do. Therefore, we show that the primary brain nuclei underlying reproductive behaviour in vertebrates can evolve in a mosaic fashion, differently between males and females, likely in response to sexual selection, and that these same regions are simultaneously evolving in concert in relation to overall brain size.

Published

2017

13. Phylogeography of a Typical Forest Heliothermic Lizard Reveals the Combined Influence of Rivers and Climate Dynamics on Diversification in Eastern Amazonia

Author

Áurea A. Cronemberger, Fernanda P. Werneck, and Teresa C. S. Ávila-Pires

Subjects

Amazon basin, biogeography, drainage evolution, Kentropyx calcarata, landscape changes, lizard, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The formation of the Amazon drainage basin has been considered an important driver of speciation of several taxa, promoting vicariant events or reinforcement of barriers that restrict gene flow between opposite river margins. Several recent studies reported a set of miscellaneous events involving climatic fluctuations, geomorphological changes, and dispersal mechanisms as propellers of diversification of Amazonian rainforest taxa. Here, we show the results of dated phylogenetic, biogeographic, and populational analyses to investigate which events could better explain the current distribution of a heliothermic, active foraging lizard in the central and eastern portions of the Amazonian rainforest (besides a disjunct distribution in part of the Atlantic Forest). We sampled Kentropyx calcarata from most of its area of occurrence in Amazonia and used mitochondrial and nuclear markers to evaluate if the genetic structure agrees with evolutionary scenarios previously proposed for Amazonia. We performed phylogenetic and populational analyses to better understand the dynamics of this species in the Amazonia rainforest over time. Phylogenetic inference recovered ten K. calcarata structured lineages in eastern Amazonia, some of them limited by the Amazon River and its southern tributaries (Tapajós, Xingu, and Tocantins), although we detected occasional haplotype sharing across some of the river banks. According to molecular dating, K. calcarata diversified since Miocene–Pliocene, and some of the lineages presented signs of demographic expansion during the Pleistocene, supposedly triggered by climatic dynamics. The putative ancestral lineage of K. calcarata was distributed on the Guiana Shield, later spreading south and southeastward by dispersion. Our results indicate that Amazonian rivers acted as barriers to the dispersal of Kentropyx calcarata, but they were not the sole drivers of diversification.

Published

2022

14. Beneficial Effects of Warming Temperatures on Embryonic and Hatchling Development in a Low-Latitude Margin Population of the High-Latitude Lizard Lacerta agilis

Author

Luoxin Cui, Cheng Yang, Decheng Zhang, Shu Lin, Wenge Zhao, and Peng Liu

Subjects

climate warming, embryonic development, hatchling development, temperature, high latitude, lizard, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The effects of warming temperatures on embryonic and hatchling development are critical for determining the vulnerability of species to climate warming. However, these effects have rarely been investigated in high-latitude oviparous species, particularly in their low-latitude margin populations. This study investigated the embryonic and hatchling development and fitness-related traits of a low-latitude margin population of a high-latitude lizard (Lacerta agilis). These traits were examined under present (24°C), moderate warming (27 and 30°C), and severe warming scenarios (33°C). Based on embryonic and hatchling responses to thermal variation, this study aimed to predict the vulnerability of the early life stages of low-latitude margin population of Lacerta agilis to climate warming. The incubation period of the low-latitude margin population of Lacerta agilis decreased as the temperature increased from 24 to 33°C. Hatching success was similar at 24, 27, and 30°C but decreased significantly at 33°C. No differences with temperature were observed for hatchling snout-vent length and hatchling body mass. The sprint speed was higher for hatchlings from temperatures of 24 and 33°C. The growth rate of hatchlings was highest at 30°C; however, the survival rate of hatchlings was not affected by the thermal environment. This study demonstrated that even for a low-latitude margin population of the high-latitude lizard, Lacerta agilis, moderate warming (i.e., 27 and 30°C) would benefit embryonic and hatchling development. This was indicated by the results showing higher hatching success, growth rate, and survival rate. However, if temperatures increase above 33°C, development and survival would be depressed significantly. Thus, low-latitude margin population of high-latitude species Lacerta agilis would benefit from climate warming in the near future but would be under stress if the nest temperature exceeded 30°C.

Published

2022

15. Organization of Squamata (Reptilia) assemblages in Mediterranean archipelagos

Author

Daniel Escoriza

Subjects

co‐occurrences, islet, lizard, phylogenetic dispersion, snake, Ecology, QH540-549.5

Abstract

Abstract Mediterranean islands have complex reptile assemblages, but little is known about the factors that determine their organization. In this study, the structure of assemblages of Squamata was evaluated based on their species richness and two measures of phylogenetic diversity (variability and clustering). I evaluated the composition of the assemblages comparing distinct biogeographic subregions within the Mediterranean: Adriatic, Aegean, Balearic, Corsica–Sardinia, Crete, Gulf of Gabés, Ionian Sea, Ligurian Sea, Malta, Sicily, and Tyrrhenian Sea. The effect of island environments and geographical isolation on the diversity metrics was assessed using generalized linear models. The analyses indicated that species richness was mostly influenced by island area and geographical isolation. Assemblages on smaller islands were poorer in species and phylogenetically dispersed, possibly as an effect of interspecific competition. The species composition of the assemblages was determined by similar environmental drivers within the biogeographic subregions, including island area, island elevation, geographical isolation, and aridity. In several subregions, significant patterns of phylogenetic attraction were found in species co‐occurrences, caused by the limits imposed by the island size on large predatory species.

Published

2020

16. Socioecology of the Australian Tree Skink (Egernia striolata)

Author

Julia L. Riley, Daniel W. A. Noble, Adam J. Stow, Peri E. Bolton, Geoffrey M. While, Siobhan Dennison, Richard W. Byrne, and Martin J. Whiting

Subjects

lizard, mating system, monogamy, nuclear family, sociobiology, social organization, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

There is great diversity in social behavior across the animal kingdom. Understanding the factors responsible for this diversity can help inform theory about how sociality evolves and is maintained. The Australian Tree Skink (Egernia striolata) exhibits inter- and intra-population variability in sociality and is therefore a good system for informing models of social evolution. Here, we conducted a multi-year study of a Tree Skink population to describe intra-population variation in the social organization and mating system of this species. Skinks aggregated in small groups of 2–5 individuals, and these aggregations were typically associated with shared shelter sites (crevices and hollows within rocks and trees). Aggregations were typically made up of one or more adult females and, often, one male and/or juvenile(s). Social network and spatial overlap analyses showed that social associations were strongly biased toward kin. Tree skinks also exhibited high site fidelity regardless of age or sex. There were high levels of genetic monogamy observed with most females (87%) and males (68%) only breeding with a single partner. Our results indicate that Tree Skinks reside in small family groups and are monogamous, which corresponds with existing research across populations. Similar to previous work, our study area consisted of discrete habitat patches (i.e., rock outcrops, trees, or both), which likely limits offspring dispersal and promotes social tolerance between parents and their offspring. Our study clearly demonstrates that there is intra-population variability in Tree Skink social behavior, but it also provides evidence that there is a high degree of inter-population consistency in sociality across their geographic range. We also highlight promising possible avenues for future research, specifically discussing the importance of studying the nature and extent of Tree Skink parental care and quantifying the fitness outcomes of kin-based sociality in this species, which are topics that will further our understanding of the mechanisms underlying variation in vertebrate social behavior.

Published

2021

17. New records of predators of Ameivula ocellifera (Squamata: Teiidae), with an emphasis on predation by birds

Author

Juliana Delfino de Sousa, Erich de Freitas Mariano, Cassio José Sousa Barbosa, José Vinícius Alexandre de Medeiros, and Marcelo Nogueira de Carvalho Kokubum

Subjects

Diet, ecology, lizard, natural history, predator-prey interaction, Biology (General), QH301-705.5

Published

2021

18. Individual and synergistic effects of habitat loss and roads on reptile occupancy

Author

James E. Paterson, Tanya Pulfer, Emma Horrigan, Smera Sukumar, Brittney I. Vezina, Ryan Zimmerling, and Christina M. Davy

Subjects

Citizen science, Lizard, Snake, Turtle, Road mortality, Synergistic effects, Ecology, QH540-549.5

Abstract

Habitat loss and road mortality pose severe threats to wildlife by reducing available resources, increasing mortality rates, and fragmenting remaining habitat into smaller patches. The combined threats of habitat loss and road mortality may amplify each other to increase extinction risks. Understanding how several threats can act alone or synergistically to affect species is key to implementing recovery actions. We tested how habitat loss and road density affect occupancy probability of reptiles, and how these factors interact, while accounting for the effects of climate on habitat suitability. We built occupancy models using observations of squamates (29,833 observations of 15 species) and turtles (39,925 observations of 7 species) from community science data in the Ontario Reptile and Amphibian Atlas. We predicted that habitat loss and road density would amplify each other and negatively affect occupancy probability. At the scale of our analyses (10 × 10 km squares used in this community science database), habitat loss negatively affected occupancy probability for 19 of 22 species, but the magnitude varied considerably between species. Surprisingly, road density did not affect occupancy of most species. Three species had synergistic effects of habitat loss and road density on occupancy, but the interaction terms had weak predictive power. Overall, habitat loss was a strong predictor of reptile occupancy, but there was not strong evidence that road density or the synergistic effects of habitat loss and road density negatively affected reptile occupancy in our study area. Future research should explore how the relative effects of habitat loss, road density and synergistic effects may differ at other spatial scales. Our results highlight the importance of conserving and restoring habitat to meet conservation goals for reptiles within our study area.

Published

2021

19. Living in a cold tropical mountain: do the microhabitat use and activity pattern change with elevation in the high-Andean lizard Stenocercus trachycephalus (Squamata: Tropiduridae)?

Author

Carol Tatiana Chamorro-Vargas, Sebastian Perez-Rojas, Uber Schalke Rozo Garcia, Juan Diego Rodríguez Rodríguez, Jherandyne Castillo-Rivera, and Miguel Ángel Méndez-Galeano

Subjects

Altitudinal gradient, Lizard, Ecology, Natural history, Neotropical mountain, Zoology, QL1-991

Abstract

Abstract The high mountain environment is a tough habitat that imposes many challenges to reptiles. As temperature decreases with altitude and has a dramatic variation throughout the day in the tropical mountains, ectotherms must cope with these harsh conditions. We studied the use of microhabitat and activity patterns of Stenocercus trachycephalus in the eastern Andes mountain range of Colombia. Three localities were sampled across the wide altitudinal distribution of this lizard species, in a range from 2,670 to 3,950 m a.s.l. The initial hypothesis was that these natural history traits would change with altitude but instead, we found that they remained roughly consistent, showing the great plasticity of this species. The results support that this lizard is a microhabitat-generalist using principally herb across the gradient, rarely shifting to specific plants or microhabitats such as rocks depending on availability. Regarding the activity pattern, this species was active throughout the day from 8:00 to 16:00 with a similar pattern along the gradient. Nevertheless, some differences were detected across localities. The activity pattern shifted from bimodal in the lower locality to unimodal in the higher ones. As expected, a correlation between temperature and activity patterns was found in one of the study sites. However, this was not the case for the lower and mid-elevation localities, where there was no correlation between these variables. The mid-elevation study site was the most interesting locality as the use of microhabitat relied virtually just on the herb stratum and the activity was constrained to the morning hours. These findings may be the result of the synergic effects of other ecological variables (weather variability, human impact, predation, population structure, or reproductive season). Our study gives the basis for a better understanding of how behavior (microhabitat choice and hours of activity) of ectotherms can help to counter thermal constraints in the neotropics when facing an altitudinal gradient. Further studies should focus on the thermal biology of this species, considering the influence of anthropic impact on these lizards’ populations.

Published

2021

20. Metabolically similar cohorts of bacteria exhibit strong cooccurrence patterns with diet items and eukaryotic microbes in lizard guts

Author

Iris A. Holmes, Ivan V. Monagan Jr., Daniel L. Rabosky, and Alison R. Davis Rabosky

Subjects

diet, fungi, gut microbiome, lizard, metabolism, Ecology, QH540-549.5

Abstract

Abstract Gut microbiomes perform essential services for their hosts, including helping them to digest food and manage pathogens and parasites. Performing these services requires a diverse and constantly changing set of metabolic functions from the bacteria in the microbiome. The metabolic repertoire of the microbiome is ultimately dependent on the outcomes of the ecological interactions of its member microbes, as these interactions in part determine the taxonomic composition of the microbiome. The ecological processes that underpin the microbiome's ability to handle a variety of metabolic challenges might involve rapid turnover of the gut microbiome in response to new metabolic challenges, or it might entail maintaining sufficient diversity in the microbiome that any new metabolic demands can be met from an existing set of bacteria. To differentiate between these scenarios, we examine the gut bacteria and resident eukaryotes of two generalist‐insectivore lizards, while simultaneously identifying the arthropod prey each lizard was digesting at the time of sampling. We find that the cohorts of bacteria that occur significantly more or less often than expected with arthropod diet items or eukaryotes include bacterial species that are highly similar to each other metabolically. This pattern in the bacterial microbiome could represent an early step in the taxonomic shifts in bacterial microbiome that occur when host lineages change their diet niche over evolutionary timescales.

Published

2019

21. Diet variability among insular populations of Podarcis lizards reveals diverse strategies to face resource‐limited environments

Author

Maxime Taverne, Anne‐Claire Fabre, Nina King‐Gillies, Maria Krajnović, Duje Lisičić, Louise Martin, Leslie Michal, Donat Petricioli, Anamaria Štambuk, Zoran Tadić, Chloé Vigliotti, Beck A. Wehrle, and Anthony Herrel

Subjects

Croatia, diet, insularity, lizard, Podarcis, sexual dimorphism, Ecology, QH540-549.5

Abstract

Abstract Access to resources is a dynamic and multicausal process that determines the success and survival of a population. It is therefore often challenging to disentangle the factors affecting ecological traits like diet. Insular habitats provide a good opportunity to study how variation in diet originates, in particular in populations of mesopredators such as lizards. Indeed, high levels of population density associated with low food abundance and low predation are selection pressures typically observed on islands. In the present study, the diet of eighteen insular populations of two closely related species of lacertid lizards (Podarcis sicula and Podarcis melisellensis) was assessed. Our results reveal that despite dietary variability among populations, diet taxonomic diversity is not impacted by island area. In contrast, however, diet disparity metrics, based on the variability in the physical (hardness) and behavioral (evasiveness) properties of ingested food items, are correlated with island size. These findings suggest that an increase in intraspecific competition for access to resources may induce shifts in functional components of the diet. Additionally, the two species differed in the relation between diet disparity and island area suggesting that different strategies exist to deal with low food abundance in these two species. Finally, sexual dimorphism in diet and head dimensions is not greater on smaller islands, in contrast to our predictions.

Published

2019

22. Four Species Linked by Three Hybrid Zones: Two Instances of Repeated Hybridization in One Species Group (Genus Liolaemus)

Author

Jared A. Grummer, Luciano J. Avila, Mariana M. Morando, and Adam D. Leaché

Subjects

SNP, admixture, lizard, population, cline, Patagonia (Argentina), Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Hybridization is an evolutionary process that can generate diverse outcomes, such as reinforcing species boundaries, generating new species, or facilitating the introgression of locally-adapted alleles into new genomic backgrounds. Liolaemus is a highly diverse clade of South American lizards with ~260 species and as many as ten new species are described each year. Previous Liolaemus studies have detected gene flow and introgression among species using phylogenetic network methods and/or through comparisons of nuclear and mitochondrial DNA patterns, yet no study has systematically studied hybrid zones between Liolaemus species. Here, we compared three hybrid zones between four species in the Liolaemus fitzingerii group of lizards in Central Argentina where two species, L. melanops and L. xanthoviridis, each hybridize with two other species (L. shehuen and L. fitzingerii). We sampled three transects that were each ~120 km in length and sequenced both mitochondrial and genome-wide SNP data for 267 individuals. In our analyses of nuclear DNA, we also compared bi-allelic SNPs to phased alleles (50 bp RAD loci). Population structure analyses confirmed that boundaries separating species are sharp, and all clines are

Published

2021

23. Increasing knowledge of the denizens of saline environments through integrative taxonomy: new Argentinian endemic taxa of Liolaemus (Iguania: Liolaemidae) and their evolutionary relationships.

Author

Abdala, Cristian S., Paz, Marcos M., Semhan, Romina V., García, Noelia, Aguilar-Kirigin, Alvaro J., Farías, María E., Valladares, Pablo, Poblete, Roberto Gutiérrez, Quipildor, Matías A., Valdes, Julián, and Langstroth, Robert

Subjects

*BIOLOGICAL classification, *LIOLAEMUS, *ENDEMIC animals, *LIZARD populations

Abstract

The known diversity of the genus Liolaemus continues to increase, principally due to its great degree of endemism, the increasing number of researchers working on it, and advances in the taxonomic and phylogenetic knowledge of the genus. This diversity positions Liolaemus as the second most species-rich tetrapod genus. The present work adds to evidence for the great diversity of Liolaemus through the description of two new species, endemic to saline environments in the Argentinian Puna. Both species are members of the Liolaemus montanus group within the subgenus Eulaemus. To determine the taxonomic status of these lizards, we used integrative taxonomy as a tool, incorporating phylogenetic, morphological, and molecular genetic evidence, as well as the anatomy of hemipenes, statistical morphological analysis, and ecological characteristics. Our analyses supported the conclusion that both sampled populations of lizards are species new to science. One of these is found along the margins of the Antofalla salt flats in the Catamarca Province and the Hombre Muerto salt flats in the Salta Province. The other new species inhabits saline habitats vegetated by Lycium humile, principally between the salt crusts of the Antofalla salt flats. Both species are small to medium sized and can be distinguished from all other species of the L. montanus group by unique combinations of morphological characters, primarily pholidosis and dorsal and ventral colour patterns. [ABSTRACT FROM AUTHOR]

Published

2021

24. Changes in capture rates and body size among vertebrate species occupying an insular urban habitat reserve

Author

Thomas R. Stanley, Rulon W. Clark, Robert N. Fisher, Carlton J. Rochester, Stephanie A. Root, Keith J. Lombardo, and Stacey D. Ostermann‐Kelm

Subjects

capture rates, habitat fragmentation, herpetofauna conservation, lizard, long‐term monitoring, management, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Long‐term ecological monitoring provides valuable and objective scientific information to inform management and decision‐making. In this article, we analyze 22 years of herpetofauna monitoring data from the Point Loma Ecological Conservation Area (PLECA), an insular urban reserve near San Diego, CA. Our analysis showed that counts of individuals for one of the four most common terrestrial vertebrates declined, whereas counts for other common species increased or remained stable. Two species exhibited declines in adult body length, whereas biomass pooled over the five most common species increased over time and was associated with higher wet season precipitation. Although the habitat and vegetation at PLECA have remained protected and intact, we suspect that changes in arthropod communities may be driving changes in the abundance, growth, and development of insectivorous lizards. This study underscores the value of long‐term monitoring for establishing quantitative baselines to assess biological changes that would otherwise go undetected.

Published

2020

25. Landscape dominance of introduced herpetofauna on an oceanic island

Author

Eric T. Hileman, Bradley A. Eichelberger, Jill Liske-Clark, Patrick D. Barnhart, Robert N. Reed, Amy A. Yackel Adams, and Melia G. Nafus

Subjects

Herpetofauna, Invasive, Island, Lizard, Occupancy, Species distribution model, Ecology, QH540-549.5

Abstract

Habitat loss and fragmentation can negatively impact native wildlife and facilitate establishment of introduced species. On islands, introduced species are a primary cause of extinction and can alter community membership through predation or competition for resources. Consequently, elucidating the distribution of introduced and native species can improve understanding of the potential synergistic effects of land use and introduced species on native island species. The island of Saipan in the Commonwealth of the Northern Mariana Islands has a long history of herpetofaunal introductions. However, the distribution of native and introduced herpetofauna on Saipan is poorly understood, and the effects of land use and introduced species on the native herpetofauna are largely unknown. In 2018, we randomly selected sites on Saipan from established island-wide transects and used multiple detection methods, repeated surveys, and single-season occupancy models to account for imperfect detection and construct species distribution models. We investigated the role of biotic and abiotic factors in explaining occupancy and detection of Saipan’s native and introduced herpetofauna. We recorded 2568 observations representing 1 amphibian and 11 reptile species. Introduced species were encountered 3.8 times more frequently and were 33% more broadly distributed than native species. Occupancy for the native forest dwelling species Emoia caeruleocauda and Perochirus ateles was positively associated with elevation and enhanced vegetation index, suggesting that human habitat modification at lower elevations may be reducing their suitable habitat. We found evidence of a range contraction for the imperiled P. ateles and suggest potential avenues for implementing targeted conservation of native herpetofauna.

Published

2020

26. The utility of reptile blood transcriptomes in molecular ecology.

Author

Waits, Damien S., Simpson, Dasia Y., Sparkman, Amanda M., Bronikowski, Anne M., and Schwartz, Tonia S.

Subjects

*TRANSCRIPTOMES, *ERYTHROCYTES, *ECOLOGY, *GLUCOCORTICOID receptors, *BLOOD, *HERPETOLOGY, *GLUCOCORTICOIDS, *SOMATOMEDIN C

Abstract

Reptiles and other nonmammalian vertebrates have transcriptionally active nucleated red blood cells. If blood transcriptomes can provide quantitative data to address questions relevant to molecular ecology, this could circumvent the need to euthanize animals to assay tissues. This would allow longitudinal sampling of animals' responses to treatments, as well as sampling of protected taxa. We developed and annotated blood transcriptomes from six reptile species and found on average 25,000 proteins are being transcribed in the blood, and there is a CORE group of 9,282 orthogroups that are found in at least four of six species. In comparison to liver transcriptomes from the same taxa, approximately two‐thirds of the orthogroups were found in both blood and liver; and a similar percentage of ecologically relevant gene groups (insulin and insulin‐like signalling, electron transport chain, oxidative stress, glucocorticoid receptors) were found transcribed in both blood and liver. As a resource, we provide a user‐friendly database of gene ids identified in each blood transcriptome. Although on average 37% of reads mapped to haemoglobin, importantly, the majority of nonhaemoglobin transcripts had sufficient depth (e.g., 97% at ≥10 reads) to be included in differential gene expression analysis. Thus, we demonstrate that RNAseq blood transcriptomes from a very small blood sample (<10 μl) is a minimally invasive option in nonmammalian vertebrates for quantifying expression of a large number of ecologically relevant genes that would allow longitudinal sampling and sampling of protected populations. [ABSTRACT FROM AUTHOR]

Published

2020

27. On the poorly-known White-spotted Skink Lygosoma albopunctatum (Gray, 1846) (Reptilia: Scincidae) with further topotypical records and notes on the type locality

Author

S. R. Ganesh

Subjects

distribution, lizard, morphology, scalation, southern india, type locality., Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The White-spotted Skink Lygosoma albopunctatum, a rarely recorded lizard, has been re-sighted from its type locality: Madras in the Coromandel Coastal Plains. Morphological details and field notes on the findings are elaborated. Since many past surveys in and around Madras, and in southern India generally, did not record this species, lack of consensus about its existence in southern India had developed, leading to published misconceptions about its distribution. These are highlighted and corrected herein. The species is also illustrated in life based on topotypical examples.

Published

2017

28. Frugivory and Seed Dispersal by Lizards: A Global Review

Author

Alfredo Valido and Jens M. Olesen

Subjects

frugivory, lizard, mutualism, plant-animal interaction, saurochory, seed dispersal, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Birds and mammals are the only vertebrates which receive comprehensive attention in studies of dispersal of fleshy-fruited plant species. However, recently the importance of fleshy fruit in the diet of lizards (order Squamata: suborder Sauria), and their role as seed dispersers have been recognized in a number of studies, especially in studies from arthropod-poor habitats, such as oceanic islands. Here, we revisit the evidence of fruit-eating lizards on a global scale in order to test if fruit consumption is more common on islands than expected by chance. We constructed a database of 470 lizard species (from a global count of 6,515 species), that have been reported to consume fleshy fruits. This set of lizards belong to 27 families with Scincidae (N = 78 species), Gekkonidae (69), and Dactyloidae (55) having more frugivorous species than other lizard families. We found that 62.4% of these lizards inhabit islands, whereas only one third (35.3%) of all lizard species inhabit islands. These values support the presence of an “insular phenomenon,” however; we also tested if this biogeographical pattern might be driven by body size and evolutionary history of lizards. Thus, we looked for any phylogenetic signals in the distributions of lizard body size, island-presence, and frugivory and calculated phylogenetically corrected correlations among the three variables on a global subset of 2,417 lizard species for which we had detailed phylogenetic information. Both lizard body size and island-presence were weakly influenced by phylogeny; whereas, frugivory was not. In addition, we found that (1) body size and frugivory were weakly positively correlated; (2) body size and island-presence were uncorrelated; and (3) island-presence and frugivory were strongly positively correlated. Thus, we conclude that the main driver of frugivory on islands is the specific island environment and not lizard body size per se. Islands are said to be poor in arthropods and predators, and this may force/allow island lizards to forage for additional food sources, such as fleshy fruits. We also suggest that modern lizards as well as their ancestors may potentially play an important role to many plants as seed dispersers. However, we do not known how tight the correlation is between frugivory and seed dispersal. Thus, lizards repeatedly inspire us to ask new ecological and evolutionary questions.

Published

2019

29. Ecology of orange-spotted geckos (Mokopirirakau "Roys Peak") in Central Otago and Queenstown-Lakes districts.

Author

Knox, Carey D., Jewell, Tony R., and Monks, Joanne M.

Subjects

*GECKOS, *HABITAT modification, *ECOLOGY, *SEXUAL cycle, *FRAGMENTED landscapes, *MOUNTAINS

Abstract

New Zealand's mountainous environments support unique flora and fauna specially adapted to the extreme cold and harsh conditions of the alpine zone. The orange-spotted gecko (Mokopirirakau "Roys Peak") is a rare undescribed gecko that is currently known only from the alpine zone of Otago. The species was discovered in 1998 and is only known from the Central Otago and Queenstown-Lakes districts, with populations spanning a ~ 3000 km² area. We aimed to improve knowledge of orange-spotted geckos by collating existing survey data, assessing abundance and distribution at known sites, collecting biological data, comparing detection methods, and searching for new populations. Search techniques involved rock-lifting and spotlighting at night. A large population was identified at one site (Queenstown-Lakes A) where 95 orange-spotted geckos were recorded. All other populations (n = 5) appeared small with 20 or fewer geckos found, but require further surveying to better understand numbers and distribution. Females examined contemporaneously exhibited a range of reproductive conditions, suggesting production of successive progeny may take 2 or more years. Orange-spotted geckos use scree slopes, rock jumbles, and boulder fields at known sites. Threats to remaining populations may include predation by introduced mammals, habitat modification, illegal collection, and climate change. Future priorities for New Zealand's alpine geckos include undertaking more research on how to monitor populations, evaluating reproductive cycles at different altitudes, and assessing whether predators and other factors threaten population viability. Genetic analyses could test whether populations have been recently isolated, or whether there is a long history of fragmentation. [ABSTRACT FROM AUTHOR]

Published

2019

30. Digging in: a review of the ecology and management of a threatened reptile with a small disjunct distribution – the heath skink, Liopholis multiscutata, in Victoria, south-eastern Australia.

Author

Brown, Geoff W., Robertson, Peter, and Fanson, Ben G.

Subjects

*POPULATION ecology, *LIZARD populations, *ECOLOGY, *REPTILES, *ENDANGERED species

Abstract

The central issue for species that are highly localised habitat specialists and occur in relatively small numbers is vulnerability to extinction processes. The heath skink, Liopholis multiscutata , is considered Critically Endangered in Victoria, in part because it is restricted to essentially four small and highly disjunct populations in semiarid mallee dunefields. It provides an example of a rare and cryptic species that is especially vulnerable to decline and consequently provides management challenges. Here, we crystallise available information on the ecology and life history of this threatened lizard, and review monitoring data to evaluate population status, primary threats and management imperatives. There has been a substantial decrease across the known range of the lizard in Victoria, most likely due to predation and fire. Recent monitoring of the four potentially viable populations revealed a general trend of decline. Recommendations for research and management priorities for the lizard in Victoria are provided; generally, these include further exploration of the lizard's phylogeny and ecology, and ongoing monitoring of the trajectory of the lizard's population status, threats to the lizard's persistence and the effectiveness of management actions employed to ameliorate extinction threats. The secretive heath skink Liopholis multiscutata is a habitat specialist that in Victoria is restricted to four small disjunct populations in mallee dunefields. This obligate burrower is declining in Victoria and vulnerable to extinction, primarily due to fire and predation. We summarise the ecology and population status of this lizard and provide recommendations for its management. [ABSTRACT FROM AUTHOR]

Published

2019

31. Behavioral syndromes vary among geographically distinct populations in a reptile.

Author

Michelangeli, Marcus, Chapple, David G, Goulet, Celine T, Bertram, Michael G, and Wong, Bob B M

Subjects

*LAMPROPHOLIS, *REPTILE behavior, *ECOLOGY, *POPULATION dynamics, *REPTILE physiology

Abstract

A key goal in the study of animal personalities is to determine their adaptive potential and importance for behavioral evolution. Behavioral syndromes are evolutionarily intriguing because they suggest that an adaptive change in one behavior requires a concomitant shift in another. Within species, behavioral syndromes might be evolutionarily constrained by intrinsic mechanisms that restrict behaviors from evolving independently. Alternatively, behavioral correlations might easily be decoupled over short evolutionary time scales due to variation in selective pressures between environments. In this regard, comparative studies that explore differences in diverse aspects of personality between geographically distinct populations can provide valuable insights into the evolutionary processes acting on different behavioral tendencies. Accordingly, we investigated how behavioral types and behavioral syndromes differed across four geographically distinct populations of the delicate skink, Lampropholis delicata. We found strong evidence of mean trait-level variation in activity, exploration, and boldness across populations, suggesting adaptation to local environmental conditions. Similarly, we found that within-population correlations involving boldness varied substantially between populations. However, we did find a consistent within- and among-population correlation between activity and exploration, suggesting that this behavioral syndrome is relatively stable and could explain behavioral divergence in activity and exploration between populations. We suggest that there may be thermal physiological mechanisms that could be limiting the adaptive potential of an activity-exploration correlation in the delicate skink. Broadly, we argue that some behavioral correlations may be more adaptive than others, and that this should be more regularly considered within the animal personality framework. [ABSTRACT FROM AUTHOR]

Published

2019

32. Life history and ecology of the elegant snake-eyed skink (Cryptoblepharus pulcher) in south-eastern Australia.

Author

Pike, David A., Roznik, Elizabeth A., Webb, Jonathan K., and Shine, Richard

Subjects

*LIFE history theory, *ECOLOGY, *BODY size, *SKINKS, *NATURAL history, *REPTILES, *COLUBRIDAE

Abstract

Detailed information on life history and ecology is essential for successful conservation and management. However, we have relatively little detailed data on the life history and ecology of most small lizard species, relative to other vertebrates, especially those that have undergone recent taxonomic changes. We studied the ecology of the elegant snake-eyed skink (Cryptoblepharus pulcher), a lizard that occurs on trees, fences, walls, and rock outcroppings in eastern Australia that spans temperate to tropical environments. In our temperate-zone study population living in natural habitat, individuals are active year-round, and gravid females were found during the months of September through December. Sexual maturity is reached in 12 months, lifespan is at least three years, and clutch size is typically two eggs. In laboratory incubation experiments, larger eggs were more likely to hatch. Low incubation temperatures (averaging 23 ± 7.5°C versus high temperatures averaging 26 ± 7.5°C) increased incubation duration significantly (range 56–72 days versus 40–51 days) and reduced the body size of hatchlings significantly (17.8 mm versus 18.7 mm snout–vent length). Skinks sheltered beneath small rocks that were not shared simultaneously with predatory snakes, and that reached average temperatures that were up to 3°C warmer during the day than unused rocks. Preferred microhabitats include substrates of rock or soil, and the largest rocks were occasionally shared by up to four individuals of all body size/sex combinations (5.8% of observations were shared, 30.2% of individual rocks were shared). Our study expands upon knowledge of the widespread genus Cryptoblepharus by providing detailed life history and ecological information on C. pulcher that can serve as a baseline for future studies. Understanding the natural history of species is essential for successful conservation and management. Our study investigates the life history and ecology of elegant snake-eyed skinks (Cryptoblepharus pulcher) in south-eastern Australia. This species reaches maturity within one year, has a lifespan of at least three years, has an average clutch size of two eggs, and shelters under rocks that are warmer than unused rocks, and occasionally shared with conspecifics, but not predatory snakes. Photo by David A. Pike. [ABSTRACT FROM AUTHOR]

Published

2019

33. Injuries reflecting intra- and interspecific interactions in the Snake-eyed Skink Ablepharus kitaibelii (Bibron & Bory de Saint-Vincent, 1833) (Squamata, Scincidae) from Bulgaria.

Author

Vergilov, Vladislav and Kornilev, Yurii V.

Subjects

LIZARDS, ECOLOGY, BIOLOGY, EXTREMITIES (Anatomy), SEXUAL intercourse

Abstract

The Snake-eyed Skink's intra- and inter-specific interactions and their impacts on the individual (e.g. injuries) have received little attention so far. As part of copulation, male lizards bite the females; observations confirm an old report that bites occur in the fore side of the body, along with more recently published information about the back side. Additionally, out of 435 individuals observed in situ, 10 had missing extremities (toes, ankles, etc.); however, further studies should identify the causes of such injury, e.g. male-male combat, predators. For the first time, an adult male was observed biting a juvenile ex situ; the specific reasons, however, remain unknown. This report should generate further interest in ecological and behavioral studies, assessing the costs and benefits to potential territorial defense, intra-specific combat, and predator pressure and escape mechanisms. [ABSTRACT FROM AUTHOR]

Published

2019

34. ReptIslands: Mediterranean islands and the distribution of their reptile fauna

Author

Anna Bonardi, Gentile Francesco Ficetola, Edoardo Razzetti, Claudia Canedoli, Mattia Falaschi, Elia Lo Parrino, Noemi Rota, Emilio Padoa‐Schioppa, Roberto Sindaco, Bonardi, A, Ficetola, G, Razzetti, E, Canedoli, C, Falaschi, M, Lo Parrino, E, Rota, N, Padoa‐schioppa, E, and Sindaco, R

Subjects

snake, Global and Planetary Change, island biogeography, Ecology, island feature, Mediterranean basin, gecko, turtle, reptile, endemism, species distribution, BIO/07 - ECOLOGIA, lizard, Ecology, Evolution, Behavior and Systematics, BIO/05 - ZOOLOGIA

Abstract

Aim: Analyses of biogeographical patterns and macroecology of islands require large datasets reporting the occurrence of species. The Mediterranean region is a biodiversity hotspot, which hosts a large number of reptile species and has been the focus of many studies. Nevertheless, comprehensive inventories describing the features and biodiversity of these environments are lacking. We gathered a dataset summarizing data on reptile distribution on islands of the Mediterranean basin and Macaronesia, also including detailed information on the geographical features. Location: Islands from the Mediterranean Basin, the Atlantic Ocean within the Mediterranean biogeographical region, and Macaronesia (Canary and Savage Islands, Azores, Madeira and Cape Verde). Time period: Present. Taxon: Reptiles (squamates and turtles). Methods: Initially, we developed a geographical database describing islands of the study region, then gathered information on reptile occurrences from 757 bibliographical sources, including atlases, published papers and the grey literature. Through a critical review of these sources, we also obtained information on the status of populations (native, island endemic or non-native) and on the reliability of occurrence data. Results: We obtained basic geographical information from 1875 islands covering the whole study region and with a very broad range of geographical features. We gathered >4150 records of reptile occurrence on islands, referring to 198 taxonomic units (species or species complexes); information on population status was available for 84.9% of records. Data are provided as comma-delimited text files. Main conclusions: The database provides a key resource for biogeographical analyses and can also serve as a backbone for conservation studies. The availability of a large database on island features can also be useful for biogeographers working on other taxonomic groups. Nevertheless, more data are required for some geographical areas, in order to ascertain the status (e.g., native vs. non-native) of many populations and to understand the interplay between natural and human-driven processes.

Published

2022

35. Behavioral Responses to Thermal Variation in a Color Polymorphic Lizard

Author

Goerge, Tyler

Subjects

Ecology, Biology, Behavior, temperature, climate change, lizard

Abstract

Climate change is creating novel thermal environments worldwide. The alteration of thermal niches is especially challenging for ectotherms due to their reliance on body temperature for nearly all aspects of organismal performance. Characterizing the relationships between performance and temperature is therefore critical in predicting how ectotherm species and populations will persist in rapidly changing and challenging environments. To do so, scientists often characterize thermal traits with respect to aspects of physiological performance. In challenging environments, organisms will use behavioral adjustments to either enhance heating or avoid overheating. Behavior also influences many critical aspects of ecology and ultimately fitness. However, despite its ecological relevance and underlying physiological basis, behavior has largely been ignored in analyses pertaining to altered thermal niches. This dissertation explores multiple relationships between temperature and behavior in the ornate tree lizard, Urosaurus ornatus. As different species cope with novel thermal environments, elucidating the nature of these relationships will provide insight into how species may navigate altered thermal niches from both behavioral and physiological perspectives. First, I investigate the thermal sensitivity of push-up display rate, a social communication behavior utilized by U. ornatus. Display rate is influenced by an interaction between body temperature and microhabitat use, where body temperature influences display rate in different directions and magnitudes depending on the microhabitat from which the lizard displays from. Second, I quantify how thermoregulatory behavior is influenced by the presence of conspecifics. Social interactions with individuals of multiple sexes and color morphs result in individual lizards adjusting their selected body temperatures to varying degrees. Third, I assess covariation of behavioral and thermal preference traits between color morphs. Dominant male morphs are bolder, more exploratory, and prefer higher body temperatures than subordinate morphs, which helps explain habitat use variation observed between the two groups. Last, I quantify the influence of heat stress on boldness behavior. When lizards undergo a heat hardening response, a cellular mechanism that temporarily increases thermal tolerance in response to unfavorable environmental conditions, they also increase boldness expression, which could influence the adaptive potential of heat hardening as a response to heat stress. Together, this dissertation documents a suite of behavioral traits that mediate how a model species interacts with its environment. Assessing relationships between these phenotypes and temperature provides novel insight into how rising temperatures and altered thermal niches attributed to climate change may influence behavioral expression, social structure, and survival.

Published

2023

36. Genetic and Ecogeographic Controls on Species Cohesion in Australia’s Most Diverse Lizard Radiation

Author

Craig Moritz, Daniel L. Rabosky, Sonal Singhal, M. Raquel Marchán-Rivadeneira, Ivan Prates, Maggie R. Grundler, and Steve Donnellan

Subjects

Gene Flow, biology, Ecology, Lizard, Australia, Lizards, Geography, biology.animal, Cohesion (geology), Animals, Humans, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

Species vary extensively in geographic range size and climatic niche breadth. If range limits are primarily determined by climatic factors, species with broad climatic tolerances and those that track geographically widespread climates should have large ranges. However, large ranges might increase the probability of population fragmentation and adaptive divergence, potentially decoupling climatic niche breadth and range size. Conversely, ecological generalism in large-ranged species might lead to higher gene flow across climatic transitions, increasing species' cohesion and thus decreasing genetic isolation by distance (IBD). Focusing on Australia's iconic

Published

2022

37. First record of Calotes vindumbarbatus Wagner, Ihlow, Hartmann, Flecks, Schmitz & Böhme, 2021 (Squamata: Agamidae) from China, with revised diagnosis of this species

Author

Shuo Liu, Changsheng Zuo, Fawang Yin, Hong Hui, and Dingqi Rao

Subjects

Ecology, mtDNA, QH301-705.5, Biology (General), Agamidae, lizard, Ecology, Evolution, Behavior and Systematics, Tongbiguan Nature Reserve

Abstract

Three new species were recently described from the Calotes mystaceus Duméril & Bibron, 1837 complex. Of the three new species, C. vindumbarbatus Wagner, Ihlow, Hartmann, Flecks, Schmitz & Böhme, 2021 was known only from northern Myanmar. Seven specimens of lizard were collected from Tongbiguan Nature Reserve, western Yunnan, China. Phylogenetically, these specimens clustered with the type specimens of Calotes vindumbarbatus from Myanmar with strong support and showed inappreciable genetic divergence from the type specimens of C. vindumbarbatus. We report the first country record of C. vindumbarbatus from China. In addition, a supplementary description, based on the newly-collected specimens and revised diagnosis of this species, was provided.

Published

2022

38. Rapid gain and loss of predator recognition by an evolutionarily naïve lizard

Author

Hannah B. Cliff, Menna E. Jones, Chris N. Johnson, Roger P. Pech, Bart T. Biemans, Leon A. Barmuta, and Grant L. Norbury

Subjects

antipredator, conservation fencing, Ecology, invasive predator, lizard, Ecology, Evolution, Behavior and Systematics, New Zealand

Abstract

The introduction of mammalian predators often results in loss of native biodiversity due to naiveté of native prey to novel predators. In New Zealand, an island system with virtually no native mammalian predators, introduced mammalian predators threaten a large proportion of the native fauna. A critical step in adapting to introduced predators is the ability to recognize and respond to a novel predation threat. Whether New Zealand's lizards can do this has received little attention. We compared the basking behaviour of native McCann's skinks (Oligosoma maccanni) when exposed to a live cat (Felis catus), cat body odour, a model raptor (representing a coevolved predator) or procedural controls. We inferred predator recognition from reductions in individual basking and higher selection for basking sites with greater refuge availability. We tested these behavioural responses for two skink populations: one from an area with high abundance of mammalian predators including feral cats and the other from a fenced conservation reserve where predators have been excluded for over 10 years (3–4 skink generations). Skinks from the high-predator population reduced basking when exposed to cat and raptor cues, whereas skinks from the predator-free population did not. These results suggest that within approximately 150 years of exposure to novel predators, McCann's skinks might be able to recognize the threat posed by invasive mammals. However, they also demonstrate that predator recognition and antipredator behaviours may not necessarily be retained once gained. The rapid loss of basking-related antipredator behaviours might reflect the high fitness costs of reduced basking for this species. Our results indicate that the behavioural response of skinks is flexible and that skinks may maximize individual fitness by balancing the risk of predation with the costs of antipredator behaviours

Published

2022

39. Social context affects tail displays by Phrynocephalus vlangalii lizards from China

Author

Yin Qi, Jose A. Ramos, Juan Hernandez, Yayong Wu, and Richard A. Peters

Subjects

Male, Tail, 0106 biological sciences, 0301 basic medicine, China, Agama, Territoriality, 010603 evolutionary biology, 01 natural sciences, Article, Predation, Sand dune stabilization, 03 medical and health sciences, biology.animal, Animals, Dominance (ecology), Uncategorized, Multidisciplinary, Behavior, Animal, biology, Lizard, Ecology, Social environment, Lizards, biology.organism_classification, Burrow, 030104 developmental biology, Female, Seasons

Abstract

Competition between animals for limited resources often involves signaling to establish ownership or dominance. In some species, the defended resource relates to suitable thermal conditions and refuge from predators. This is particularly true of burrow-dwelling lizards such as the Qinghai toad-headed agama (Phrynocephalus vlangalii), which are found on the Tibetan plateau of western China. Male and female lizards occupy separate burrows, which are vital for anti-predator behaviour during warmer months when lizards are active and, crucially, provide shelter from harsh winter conditions. These lizards are readily observed signaling by means of tail displays on the sand dunes they inhabit. Given the selective pressure to hold such a resource, both males and females should exhibit territorial behaviour and we considered this study system to examine in detail how social context influences motion based territorial signaling. We confirmed that territorial signaling was used by both sexes and by adopting a novel strategy that permitted 3D reconstruction of tail displays, we identified significant variation due to social context. However, signal structure was not related to lizard morphology. Clearly, the burrow is a highly valued resource and we suggest that additional variation in signaling behaviour might be mediated by resource quality.

Published

2023

40. Intraspecific diversity alters the relationship between climate change and parasitism in a polymorphic ectotherm

Author

Qiang Wu, Murielle Richard, Donald B. Miles, Jean Clobert, and Alexis Rutschmann

Subjects

Global and Planetary Change, Ecology, biology, Resistance (ecology), Host (biology), Lizard, Range (biology), Climate Change, Zoology, Parasitism, Lizards, medicine.disease_cause, Intraspecific competition, biology.animal, Ectotherm, Infestation, medicine, Animals, Environmental Chemistry, Female, Parasites, General Environmental Science

Abstract

Climate-modulated parasitism is driven by a range of factors, yet the spatial and temporal variability of this relationship has received scant attention in wild vertebrate hosts. Moreover, most prior studies overlooked the intraspecific differences across host morphotypes, which impedes a full understanding of the climate-parasitism relationship. In the common lizard (Zootoca vivipara), females exhibit three colour morphs: yellow (Y-females), orange (O-females), and mixed (mixture of yellow and orange, M-females). Zootoca vivipara is also infested with an ectoparasite (Ophionyssus mites). We therefore used this model system to examine the intraspecific response of hosts to parasitism under climate change. We found infestation probability to differ across colour morphs at both spatial (10 sites) and temporal (20 years) scales: M-females had lower parasite infestations than Y- and O-females at lower temperatures, but became more susceptible to parasites as temperature increased. The advantage of M-females at low temperatures was counterbalanced by their higher mortality rates thereafter, which suggests a morph-dependent trade-off between resistance to parasites and host survival. Furthermore, significant interactions between colour morphs and temperature indicate that the relationship between parasite infestations and climate warming was contingent on host morphotypes. Parasite infestations increased with temperature for most morphs, but displayed morph-specific rates. Finally, infested M-females had higher reductions in survival rates than infested Y- or O-females, which implies a potential loss of intraspecific diversity within populations as parasitism and temperatures rise. Overall, we found parasitism increases with warming temperatures, but this relationship is modulated by host morphotypes and an interaction with temperature. We suggest that epidemiological models incorporate intraspecific diversity within species for better understanding the dynamics of wildlife diseases under climate warming.

Published

2021

41. Camouflage versus running performance as strategies against predation in a lizard inhabiting different habitats

Author

Jiasheng Li, Minglu Yang, Tao Wang, Wei Zhao, Zhenxia Liu, Chenkai Niu, Yuanting Jin, Hui Sun, and Lixia Wan

Subjects

anti‐predation, biology, Ecology, Lizard, color variation, running speed, Predation, reptile, Habitat, Camouflage, biology.animal, camouflage, Research Articles, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Research Article, Nature and Landscape Conservation

Abstract

Running speed and camouflage are associated with the foraging and anti‐predator abilities of animals. The toad‐headed lizard, Phrynocephalus versicolor, has evolved a darker dorsal color in melanistic habitats and maintained a lighter color in adjacent, non‐melanistic habitats. We test the hypothesis that lizards have weaker running speed on well‐matching backgrounds than on less matching backgrounds. We used lizard models to compare the predation pressure, while the running speed of dark and light lizards were compared in field tunnels using a video recording method. Our results indicated that both the dark lizards in melanistic Heishankou (HSK) and the light lizards in non‐melanistic Guazhou (GZ) face lower predation pressure than potential color‐background unmatched lizards. The light lizards have a potentially higher running speed than darker lizards in melanistic habitats, which implies that substrate color matching populations with benefits of camouflage might have lower anti‐predation pressure, and the costs of investment in melanin production may reduce running capacity., The lizards with substrate matching dorsal color have lower predation pressure than substrate unmatched lizards. The dark lizards with benefits of camouflage lowed the running speed in melanistic habitat.

Published

2021

42. Evidence for Social Learning in a Family Living Lizard

Author

Martin J. Whiting, Feng Xu, Fonti Kar, Julia L. Riley, Richard W. Byrne, and Daniel W. A. Noble

Subjects

social learning, lizard, sociality, Egernia, cognition, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Social learning is widespread among family living species, particularly mammals and birds with relatively high levels of social complexity and overt social interaction. However, the occurrence of social learning has never been documented in lizards with kin-based sociality, which have less obvious social interactions. We tested for social learning in Australian tree skinks (Egernia striolata), a species that commonly lives in family groups in the wild, using a two-step foraging task. Lizards were randomly allocated to either a social learning treatment or a control group and presented first with an instrumental task requiring the displacement of a lid, followed by an association task, consisting of two dishes with different colored lids. Prior to each task, lizards in the social learning treatment observed a trained demonstrator extract a food reward while the control also viewed a conspecific, but in the absence of the foraging task. The social learning treatment and control group solved the instrumental task at similar rates, but in the association task lizards in the social learning treatment made fewer errors and reached our learning criterion sooner. To the best of our knowledge, we present the first evidence for social learning in a lizard with kin-based sociality.

Published

2018

43. OBSERVACIONES DE DEPREDACIÓN, DIETA Y REPRODUCCIÓN DE Holcosus gaigeae (SQUAMATA: TEIIDAE)

Author

Pedro Enrique Nahuat Cervera and Luis Roberto Pérez-Martínez

Subjects

Yucatan peninsula, biology, Lizard, Ecology, media_common.quotation_subject, Ecology (disciplines), Restricted distribution, Predation, Geography, biology.animal, Animal Science and Zoology, Reproduction, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Holcosus gaigeae es una lagartija de tamaño pequeño y cuerpo moderadamente robusto que tiene una distribución restringida a la porción Mexicana de la Península de Yucatán. La información existente acerca de su ecología e historia natural es limitada. En este escrito se presentan observaciones de depredación, dieta y reproducción de H. gaigeae en diferentes porciones de los estados de Yucatán y Campeche, en México, las cuales aportan nueva información acerca de los aspectos ecológicos de esta especie.

Published

2021

44. How do the physiological traits of a lizard change during its invasion of an oceanic island?

Author

Rodolfo O. Anderson, Lesley A. Alton, Alyse Young, Annalise C. Naimo, David G. Chapple, and Celine T. Goulet

Subjects

Skink, education.field_of_study, Lampropholis delicata, biology, Lizard, Ecology, Population, Australia, Lizards, biology.organism_classification, Invasive species, Phenotype, Habitat, biology.animal, Genetic variation, Animals, Genetic variability, Introduced Species, education, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Physiology is crucial for the survival of invasive species in new environments. Yet, new climatic conditions and the limited genetic variation found within many invasive populations may influence physiological responses to new environmental conditions. Here, we studied the case of the delicate skinks (Lampropholis delicata) invading Lord Howe Island (LHI), Australia. On LHI, the climate is different from the mainland source of the skinks, and independent introduction events generated invasive populations with distinct genetic backgrounds. To understand how climate and genetic background may shape physiological responses along biological invasions, we compared the physiological traits of a source and two invasive (single-haplotype and multi-haplotype) populations of the delicate skink. For each population, we quantified physiological traits related to metabolism, sprint speed, and thermal physiology. We found that, for most physiological traits analysed, population history did not influence the ecophysiology of delicate skinks. However, invasive populations showed higher maximum speed than the source population, which indicates that locomotor performance might be a trait under selection during biological invasions. As well, the invasive population with a single haplotype was less cold-tolerant than the multi-haplotype and source populations. Our results suggest that limited genetic variability and climate may influence physiological responses of invasive organisms in novel environments. Incorporating the interplay between genetic and physiological responses into models predicting species invasions can result in more accurate understanding of the potential habitats those species can occupy.

Published

2021

45. Effect of climate change on the potential distribution of Heloderma alvarezi (Squamata, Helodermatidae)

Author

Christian Ruiz-Castillejos, Daniel Ariano-Sánchez, José Alberto Cruz, Aarón Gómez-Cruz, José A. De Fuentes-Vicente, Eduardo E. Espinoza-Medinilla, and Nancy G. Santos-Hernández

Subjects

Helodermatidae, Reptilia, Range (biology), Climate change, Distribution (economics), biology.animal, Squamata, Animalia, Heloderma, Chordata, Ecology, Evolution, Behavior and Systematics, Extinction, biology, Ecology, Lizard, business.industry, México, Global warming, conservation, Biota, Platynota, Climatic change, Geography, Habitat, QL1-991, beaded lizard, Threatened species, Animal Science and Zoology, Heloderma alvarezi, business, Chiapas, Zoology

Abstract

Climate change represents a real threat to biodiversity conservation worldwide. Although the effects on several species of conservation priority are known, comprehensive information about the impact of climate change on reptile populations is lacking. In the present study, we analyze outcomes on the potential distribution of the black beaded lizard (Heloderma alvarezi Bogert & Martin del Campo, 1956) under global warming scenarios. Its potential distribution, at present and in projections for the years 2050 and 2070, under both optimistic and pessimistic climate change forecasts, were computed using current data records and seven bioclimatic variables. General results predict a shift in the future potential distribution of H. alvarezi due to temperature increase. The optimistic scenario (4.5 W/m2) for 2070 suggests an enlargement in the species’ distribution as a response to the availability of new areas of suitable habitat. On the contrary, the worst-case scenario (7 W/m2) shows a distribution decrease by 65%. Moreover, the range distribution of H. alvarezi is directly related to the human footprint, which consequently could magnify negative outcomes for this species. Our research elucidates the importance of conservation strategies to prevent the extinction of the black beaded lizard, especially considering that this species is highly threatened by aversive hunting.

Published

2021

46. Genetic and phenotypic characteristics in assessments of population differentiation of the eastern sand lizard (Lacerta agilis exigua)

Subjects

education.field_of_study, Ecology, biology, Lizard, Geography, Planning and Development, Population, biology.organism_classification, genomic DNA, Evolutionary biology, Genetic marker, biology.animal, Genetic structure, Sand lizard, Microsatellite, education, Genotyping, Ecology, Evolution, Behavior and Systematics

Abstract

Aim . Comparison of two methods (genetic and morphological) for assessing the polymorphism of populations of the eastern sand lizard ( Lacerta agilis exigua ) in two ecologically different localities. Material and Methods . For this, we used the method of polylocus genotyping of genomic DNA regions flanked by inverted repeats of microsatellites and fragments of long terminal repeats of endogenous retroviruses, as well as the assessment of a number of phenotypic characteristics. The material was lizards (a total of 55 adults) caught in two localities: in the Novonikolaevsky District of the Volgograd Region and in the vicinity of the Strizhament mountain, Stavropol Territory. Results . Of the two methods for assessing the state of the population genetic structure of the eager lizard, the most informative for identifying interpopulation and sex differences was a comparative analysis of the spectra obtained using microsatellite sequences and sites of endogenous retroviruses. This method made it possible to identify the most polymorphic DNA markers, which make it possible to obtain the most informative spectra in terms of the number of loci and polymorphism necessary for describing the genetic structures and their dynamics in the eastern darting lizard with high resolution. Conclusion . The studies carried out allowed us to identify the most informative indicators for describing population structures and their dynamics in the eastern darting lizard. For the first time, data were obtained indicating that the greatest contribution to interpopulation differentiation in different localities of capture is made by the variability of males compared to females.

Published

2021

47. Habitat heterogeneity affects the thermal ecology of an endangered lizard

Author

Emily N. Taylor, Nicole Gaudenti, Paul H. Maier, Emmeleia Nix, and Michael Westphal

Subjects

Population, Endangered species, biology.animal, education, QH540-549.5, Research Articles, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, thermoregulation, education.field_of_study, Ecology, biology, Lizard, Leopard, biology.organism_classification, activity restriction, Gambelia, Spatial heterogeneity, shrubs, climate change, Geography, Habitat, Ectotherm, shade, burrows, Research Article

Abstract

Global climate change is already contributing to the extirpation of numerous species worldwide, and sensitive species will continue to face challenges associated with rising temperatures throughout this century and beyond. It is especially important to evaluate the thermal ecology of endangered ectotherm species now so that mitigation measures can be taken as early as possible. A recent study of the thermal ecology of the federally endangered Blunt‐nosed Leopard Lizard (Gambelia sila) suggested that they face major activity restrictions due to thermal constraints in their desert habitat, but that large shade‐providing shrubs act as thermal buffers to allow them to maintain surface activity without overheating. We replicated this study and also included a population of G. sila with no access to large shrubs to facilitate comparison of the thermal ecology of G. sila populations in shrubless and shrubbed sites. We found that G. sila without access to shrubs spent more time sheltering inside rodent burrows than lizards with access to shrubs, especially during the hot summer months. Lizards from a shrubbed site had higher midday body temperatures and therefore poorer thermoregulatory accuracy than G. sila from a shrubless site, suggesting that greater surface activity may represent a thermoregulatory trade‐off for G. sila. Lizards at both sites are currently constrained from using open, sunny microhabitats for much of the day during their short active seasons, and our projections suggest that climate change will exacerbate these restrictions and force G. sila to use rodent burrows for shelter even more than they do now, especially at sites without access to shrubs. The continued management of shrubs and of burrowing rodents at G. sila sites is therefore essential to the survival of this endangered species., The Blunt‐Nosed Leopard Lizard is a federally endangered ectotherm adapted to California's San Joaquin Desert ecosystem. We compared a population of lizards who had access to shrubs to a population of lizards who had no access to shrubs in the Carrizo Plain National Monument, and found that lizards who do not have access to shrubs thermoregulated more accurately (unexpected), with a trade‐off of being forced underground into cooler burrows for more of the day compared with lizards who had access to shrubs.

Published

2021

48. Clinging performance on natural substrates predicts habitat use in anoles and geckos

Author

Carla Piantoni, Robyn M. Screen, Timothy E. Higham, Emily R. Naylor, Amber N. Wright, and Stevie R. Kennedy-Gold

Subjects

Habitat, biology, Community, Ecology, Lizard, biology.animal, Functional morphology, Ecology, Evolution, Behavior and Systematics, Natural (archaeology)

Published

2021

49. Testing hypotheses of habitat use and temporal activity in relation to body plan in a Mediterranean lizard community

Author

Russell L. Burke, Luca Luiselli, Fabio Petrozzi, Daniele Dendi, Massimo Capula, Julia E. Fa, Stephan M. Funk, and Lorenzo Rugiero

Subjects

Mediterranean climate, biology, Ecology, Lizard, Habitat conservation, biology.organism_classification, Podarcis muralis, Body plan, Habitat, biology.animal, Animal Science and Zoology, Sauria, Ecology, Evolution, Behavior and Systematics, Italian wall lizard

Abstract

A body plan (bauplan) is a suite of morphological characters shared by phylogenetically related animals at some point during their development. Despite its value, the bauplan concept is still rarely employed to characterize functional groups in community ecology. Here, we examine habitat use and spatio-temporal activity correlates of an entire seven-species community of lizards with different bauplans. The study was carried out in three locations in central Italy, encompassing a complex landscape with a patchy mosaic of a wide variety of habitats and microclimates. We tested four hypotheses regarding niche breadth, habitat use, and activity patterns. The first hypothesis, niche complementarity, in which species with similar body shapes should non-randomly partition available habitats, was not supported. By contrast, the hypotheses that larger bodied species should have a wider niche breadth, that slower species should inhabit habitat types of higher cover, and species inhabiting open sunny habitats should exhibit more seasonally variable activity patterns, were all supported by the data. Sympatric lizard communities in our study area were clearly organized by autecological constraints and eco-physiological attributes.

Published

2021

50. Significant distribution extension and first verified record of Chiapan Beaded Lizard, Heloderma alvarezi (Bogert & Martin del Campo, 1956) (Squamata, Helodermatidae), in southeastern Guerrero, Mexico

Author

Alejandro Ventura Carmona, César Ulises Muñoz, César Casiano González, Jesús García-Grajales, and Alejandra Buenrostro Silva

Subjects

Helodermatidae, Heloderma, Squamata, Ecology, biology, Lizard, QH301-705.5, Zoology, biology.organism_classification, Geography, Extent distribution, biology.animal, sou, melanism, Biology (General), Ecology, Evolution, Behavior and Systematics

Abstract

We document the first verifiable records of Heloderma alvarezi (Bogert & del Campo, 1956) in southeastern Guerrero, Mexico. We recorded seven individuals of H. alvarezi near the village of Cihuapoloya, municipality of Cuautepec. These are the westernmost records of the species, extending its distribution by approximately 149 km from the nearest previously known occurrences in Oaxaca. With these records, the number of reptile species in Guerrero increases to 182.

Published

2021