Your search keyword '"reptiles"' showing total 39,702 results

1. The Case of the Dinosaur Tooth: Clever dinosaur hunters, three sisters, and a young detective take the stage to help solve a reptilian mystery

Author

Wagner, Kate

Subjects

Reptiles, Paleontology, Arts, visual and performing, Literature/writing

Abstract

Characters ELLA, a young woman CHARMING, Prince of the Kingdom FARRAH, Ella's Fairy Godmother Ella's stepsisters LAURA } NORA } Ella's stepsisters HOMER HINKLEY } DORIS DINKLEY } attorneys RAVEN [...]

Published

2024

2. Osteology of the skull of the blind snake Helminthophis flavoterminatus (Peters, 1857) (Serpentes, Anomalepididae)

Author

Santos, Fidélis and Pensoft Publishers

Subjects

Helminthophis sp, HRXCT, Reptiles, Snakes, systematics, taxonomy

Published

2024

3. Hidden in the bark: the unexpected presence of the leaf-toed gecko, Euleptes europaea (Gené, 1839) (Squamata, Sphaerodactylidae), in Sicily

Author

Giacalone, Gabriele, Faraone, Francesco Paolo, Pecoraro, Marco, and Sarà, Maurizio

Subjects

elusive species, reforestation, Palermo city, reptiles, Gekkota

Abstract

We report the first observations regarding the presence of the leaf-toed gecko, Euleptes europaea, in Sicily. During field activities for environmental impact assessment several leaf-toed gecko individuals were found in a restricted coastal area in the north-west of the island, near the city of Palermo. Further surveys were then carried out to better assess the presence of the species. A total of 21 E. europaea individuals were observed in a small area of approximately 4.4 hectares, consisting of mixed eucalyptus and pine reforestation. Out of the 21 individuals, there were 14 males, 5 females, and 2 whose sex could not be determined. Additionally, at least two pregnant females were observed. Leaf-toed geckos were found exclusively under eucalyptus bark, syntopic with two other Gekkota species (Tarentola mauritanica and Hemidactylus turcicus). The presence of such a breeding population of E. europaea is probably limited to a small area. However, our results do not allow us to clearly assess either its origin or its actual distribution and demography, therefore new field investigations are necessary.

Published

2024

4. Macroecological correlates of richness, body size, and species range size in terrestrial vertebrates across the world

Author

Guo, Qinfeng, Qian, Hong, Liu, Pengcheng, and Zhang, Jian

Subjects

amphibians, Bergmann’s rule, birds, climate, mammals, Rapoport’s rule, reptiles, tetrapod

Abstract

Species richness, body size, and range size are among key subjects in animal macroecology and biogeography. To date, the species richness–body size–range size nexus remains largely understudied at a global scale and for large taxonomic groups. Here we examine the relative role of species richness and body size in determining species range size among terrestrial vertebrates across spatial and taxonomic scales. We then test related hypotheses in the context of Rapoport’s rule, latitude, and climate variation. To do this, we used simultaneous autoregressive analysis and structural equation modeling to test for statistical relationships among species richness, body size, and range size for all terrestrial vertebrates and for each continent. We then investigated the relative contributions of richness, body size, latitude, climate variation, and their combinations in the variations in species range sizes. We found that species richness consistently shows strong negative correlations with range size at global, regional, and within-region levels, and for all terrestrial vertebrates, and for each of the four classes (i.e., birds, mammals, amphibians, and reptiles). The strength of the relationships increased with richness and with spatial and taxonomic scales. Globally, species richness explained more variation in species range size than did latitude and climates. Body size contributed significantly to the range sizes of all four classes but especially reptiles and amphibians. However, the relative contributions of these factors varied substantially among the continents and terrestrial vertebrate classes. Comparison with the findings of a previous study shows that there were also significant differences in regional patterns between terrestrial vertebrates and plants and the relative contributions of diversity vs. latitude. Our findings show clear relationships among species richness, body size, and range size, but the strength of the relationships varies among regions and taxonomic groups. In general, species richness could predict species range size better than body size, latitude, and climate. These results have important theoretical and applied implications.

Published

2024

5. The Impact of Life‐History Traits on Vulnerability to Extinction of the Oviparous Species in Reptiles.

Author

Tian, Yingjian, Jiang, Ying, Shao, Weijie, Wu, Yiming, and Liao, Wenbo

Abstract

ABSTRACT A species' vulnerability to extinction is influenced by both extrinsic threats (e.g., habitat loss and invasive species) and intrinsic biological traits (such as life‐history traits, reproductive mode, and reproductive output). In this study, we investigated the roles of intrinsic biological traits in determining the risk of extinction across 960 oviparous species of non‐avian reptiles. Our findings revealed that vulnerability to extinction is negatively correlated with clutch size, but positively correlated with egg size when controlling for body size. Surprisingly, we found that body size alone is not a predictor of extinction risk. Additionally, we observed a nonsignificant relationship between the activity phase and vulnerability to extinction across oviparous species. These results suggest that the increased risk of endangerment in oviparous reptiles may stem from declining population density due to decreasing clutch size and increasing egg mass. [ABSTRACT FROM AUTHOR]

Published

2024

6. Deep-time origin of tympanic hearing in crown reptiles.

Author

Bronzati, Mario, Vieceli, Felipe M., Botezelli, Vitoria S., Godoy, Pedro L., Montefeltro, Felipe C., Nassif, Jann P.M., Luzete, Juliana, Ribeiro, Douglas, Yan, C.Y. Irene, Werneburg, Ingmar, and Kohlsdorf, Tiana

Abstract

The invasion of terrestrial ecosystems by tetrapods (c. 375 million years [Ma]) represents one of the major evolutionary transitions in the history of life on Earth. The success of tetrapods on land is linked to evolutionary novelties. Among these, the evolution of a tympanic ear contributed to mitigating the problem of an impedance mismatch between the air and the fluid embedding sound-detecting hair cells in the inner ear. 1,2,3 Pioneering studies advocated that similarities in the tympanic ear of tetrapods could only result from a single origin of this structure in the group, 4,5 an idea later challenged by paleontological and developmental data. 4,6,7,8 Current evidence suggests that this sensory structure evolved independently in amphibians, mammals, and reptiles, 1,6 but it remains uncertain how many times tympanic hearing originated in crown reptiles. 9,10 We combine developmental information with paleontological data to evaluate the evolution of the tympanic ear in reptiles from two complementary perspectives. Phylogenetically informed ancestral reconstruction analyses of a taxonomically broad sample of early reptiles point to the presence of a tympanic membrane as the ancestral condition of the crown group. Consistently, comparative analyses using embryos of lizards and crocodylians reveal similarities, including the formation of the tympanic membrane within the second pharyngeal arch, which has been previously reported for birds. Therefore, both our developmental and paleontological data suggest a single origin for the tympanic middle ear in the group, challenging the current paradigm of multiple acquisitions of tympanic hearing in living reptiles. [Display omitted] • Fossils reveal that the presence of tympanic membrane is ancestral to crown reptiles • The eardrum of lizards and crocodylians develops within the second pharyngeal arch • Fossils and embryos suggest a single origin of the tympanic ear in crown reptiles The tympanic ear is a key trait related to the evolutionary success of tetrapods on land, as it enhances the hearing capabilities of animals in this environment. Bronzati et al. use data from embryonic development and from the fossil record and provide evidence for a single origin of tympanic hearing in the group of living reptiles. [ABSTRACT FROM AUTHOR]

Published

2024

7. Node Localization Based on Unsupervised Approach and Secure Routing for Healthcare Management in Delay‐Tolerant Network.

Author

Ragesh, G. K. and Kumar, Ajay

Subjects

*SEARCH algorithms, *ENERGY consumption, *MEDICAL care, *REPTILES, *ALGORITHMS, *DATA transmission systems

Abstract

ABSTRACT The ability of the current global healthcare system to continue providing high‐quality medical care has been questioned. By using delay‐tolerant networks (DTNs) in healthcare management, people that spend a lot of time treating illnesses are exposed to more people while also putting their lives in danger. Unsupervised approach‐based node localization and secure routing in DTNs are developed in the proposed method. The proposed adaptive density‐based localization algorithm is constructed in two modules. The entire network is clustered depending on density utilizing density‐based spatial clustering of applications with noise (DBSCAN). An RSA‐based location estimation algorithm is employed to identify the unlocalized node within each cluster. After finding the location of each node, routing mechanism is carried out. An adaptive spray and wait routing strategy is utilized in the proposed method. When a node only has one copy of a message, the spray and wait, routing mechanism moves the relay node while it waits for the destination to be countered. Then modified DNA encryption algorithm is applied for secure data transmission. It is used for encrypting the information before storing it in the network. The trusted center will generate the private key needed for encrypting the data based on the sensitivity level of the information. This proposed algorithm is tested with several metrics which attain better performance, like 94% localization accuracy, 6% localization error, average residual energy of 93%, 5.7 Mbps throughput, 18% encryption time, and 14% decryption time. Thus, the techniques used in the proposed approach are the best choice for node localization, energy efficiency, and secure data transmission in DTN. [ABSTRACT FROM AUTHOR]

Published

2024

8. Japanese monkeys rapidly noticed snake-scale cladded salamanders, similar to detecting snakes.

Author

Kawai, Nobuyuki

Subjects

*DIGITAL image processing, *VISUAL perception, *REPTILES, *IMAGE processing, *SALAMANDERS

Abstract

The ability to detect threats quickly is crucial for survival. Primates, including humans, have been shown to identify snakes quickly and accurately due to their evolutionary history. However, it is unclear which visual features humans and primates detect as threat targets. Several studies have suggested that snake scales possess potent visual features. My previous study demonstrated that removing snake scales through digital image processing reduces attention directed toward snakes. Here, I conducted a visual search task using luminance- and contrast-adjusted photographs of snakes and salamanders in monkeys that had never seen these real reptiles and amphibians. This study demonstrates that the presence or absence of snake scales is responsible for the rapid detection of target animals. The monkeys quickly detected one snake photograph from the eight salamander photographs than vice versa. However, when the same salamanders were clothed with snake scales using image processing, the difference in detection speed between snakes and salamanders disappeared. These results are consistent with the snake-detection theory that snakes were a strong selective pressure favoring modifications in the primate visual system that allow them to detect snakes more quickly or reliably. This strongly suggests that primates' snake detection depends on the snake-scale shapes, which are both snake-specific and common to all snakes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Review of osteoderm function and future research directions.

Author

Ebel, R., Herrel, A., Scheyer, T. M., and Keogh, J. S.

Subjects

*FOSSILS, *TETRAPODS, *PHYSIOLOGY, *REPTILES, *PHYLOGENY

Abstract

Osteoderms, bone plates in the skin, are widely but discontinuously distributed across the phylogeny of tetrapods. This and their pronounced morphological disparity has inspired many hypotheses on possible osteoderm functions. Most of these have not been systematically studied or summarised based on the published disparate literature. We provide here a comprehensive overview of the current state of knowledge in this field with a focus on extant non‐avian reptiles. We also discuss functions in other extant osteoderm‐bearing taxa and those inferred from the fossil record. The hypotheses are categorised into protection, lifestyle and locomotion, physiology, and visual functions. A comprehensive overview of future directions in this field is provided. With this review, we hope to encourage future research to investigate the functional aspect of osteoderms. This might inspire biomimetics and shed light on the role that osteoderm expression may have played in shaping present‐day biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

10. Cooling down is as important as warming up for a large-bodied tropical reptile.

Author

Barham, Kaitlin E., Dwyer, Ross G., Frere, Celine H., Bentley, Lily K., Baker, Cameron J., Campbell, Hamish A., Irwin, Terri R., and Franklin, Craig E.

Subjects

*GLOBAL warming, *BODY temperature, *WATER temperature, *BODY size, *REPTILES, *COLD-blooded animals, *CROCODILES

Abstract

An ectotherm's performance and physiological function are strongly tied to environmental temperature, and many ectotherms thermoregulate behaviourally to reach optimum body temperatures. Tropical ectotherms are already living in environments matching their thermal tolerance range and may be expected to conform to environmental temperatures. We tracked the body temperatures (Tb) of 163 estuarine crocodiles across 13 years and compared Tb of 39 crocodiles to water temperature gathered using fish-borne sensors (Tw) across 3 years (2015–2018). While Tb largely conformed closely to Tw, we found inter- and intra-individual differences in relative body temperature (Tb–Tw) that depended on sex and body size as well as the time of day and year. Deviations from Tw, especially during the warm parts of the year, suggest that thermoregulatory behaviour was taking place: we found patterns of warming and cooling events that seemed to mediate this variation in Tb. Thermoregulatory behaviour was observed most frequently in larger individuals, with warming events common during winter and cooling events common during summer. By observing free-ranging animals across multiple years, we found that estuarine crocodiles show yearly patterns of active cooling and warming behaviours that modify their body temperature, highlighting their resilience in the face of recent climate warming. Our work also provides the first evidence for thermal type in large-bodied reptiles. [ABSTRACT FROM AUTHOR]

Published

2024

11. Auditory pathway for detection of vibration in the tokay gecko.

Author

Han, Dawei and Carr, Catherine E.

Subjects

*INNER ear, *AUDITORY pathways, *AMPHIBIANS, *REPTILES, *AMNIOTES, *COCHLEAR nucleus

Abstract

Otolithic endorgans such as the saccule were thought to be strictly vestibular in amniotes (reptiles, birds, and mammals), with little evidence supporting the auditory function found in fish and amphibians (frogs and salamanders). Here, we demonstrate an auditory role for the saccule in the tokay gecko (Gekko gecko). The nucleus vestibularis ovalis (VeO) in the hindbrain exclusively receives input from the saccule and projects to the auditory midbrain, the torus semicircularis, via an ascending pathway parallel to cochlear pathways. Single-unit recordings show that VeO is exquisitely sensitive to low-frequency vibrations. Moreover, VeO is present in other lepidosaurs, including snakes and Sphenodon. These findings indicate that the ancestral auditory function of the saccule is likely preserved at least in the lepidosaurian lineage of amniotes and mediates sensitive encoding of vibration. [Display omitted] [Display omitted] • The saccule in the tokay gecko inner ear projects to brainstem nucleus VeO • VeO neurons respond to low-frequency vibration • VeO projects to the higher-order auditory nuclei, including the auditory midbrain • Found in all lepidosaurs examined so far Han and Carr demonstrate a connection between the saccule and the auditory midbrain of the tokay gecko, relayed by nucleus vestibularis ovalis (VeO) in the hindbrain. In vivo recordings show VeO is sensitive to low-frequency vibrations, which are likely perceived concomitantly with sound. VeO is found in all lepidosaurs examined so far. [ABSTRACT FROM AUTHOR]

Published

2024

12. THE VERTEBRATE FAUNA OF THE LOWER PLIOCENE CONTINENTAL DEPOSITS IN THE EBRO DELTA (BAIX EBRE BASIN, NE SPAIN).

Author

PIÑERO, PEDRO, AGUSTÍ, JORDI, BLAIN, HUGUES-ALEXANDRE, ALBA, DAVID M., FURIÓ, MARC, ANGELONE, CHIARA, LINARES-MARTÍN, ADRIANA, MARQUINA-BLASCO, RAFAEL, LABORDA-LÓPEZ, CASTO, ARASA-TULIESA, ALVARO, and CASANOVAS-VILAR, ISAAC

Abstract

The Pliocene faunas of the northeastern Iberian Peninsula are poorly known due to the scarcity of deposits from this interval. In this context, the site of Sant Nofre-Campredó (Baix Ebre, Catalonia, Spain), comprising two contemporaneous outcrops belonging to geologically correlated sections (Sant Nofre and Campredó-Via Fèrria), makes a significant contribution to the study of Pliocene faunas in this region. The first vertebrate remains were recovered in the late 1970s in clay deposits close to the Sant Nofre Hill. Later, intensive sampling in the 1980s at the Campredó-Via Fèrria outcrop led to the recovery of more than a hundred fossil specimens, including small vertebrates and large mammals. Here, we revise these collections to expand and update the vertebrate list, better constrain the age of the continental deposits, and characterize the environment and climate around the mouth of the Ebro River during the formation of the site. Up to 24 vertebrate species have been identified at Sant Nofre-Campredó, including amphibians, reptiles, and mammals. The presence of the rodents Paraethomys baeticus Piñero & Verzi, 2020, Apocricetus barrierei (Mein & Michaux, 1970), and Occitanomys brailloni Michaux, 1969 implies an early Ruscinian age (MN14 unit) for the two outcrops. Biostratigraphic correlations with other well-dated sites in the Iberian Peninsula refine the estimated age of Sant Nofre-Campredó to approximately 4.6 Ma. The ecological affinities of the identified fauna reveal a landscape dominated by woodland habitats in the surroundings of the site during the Early Pliocene, with presence of open humid meadows and water bodies under warm and moist climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

13. Morphological evolution and niche conservatism across a continental radiation of Australian blindsnakes.

Author

เตียตระกูล), Sarin Tiatragul (สาริน, Skeels, Alexander, and Keogh, J Scott

Abstract

Understanding how continental radiations are assembled across space and time is a major question in macroevolutionary biology. Here, we use a phylogenomic-scale phylogeny, a comprehensive morphological dataset, and environmental niche models to evaluate the relationship between trait and environment and assess the role of geography and niche conservatism in the continental radiation of Australian blindsnakes. The Australo-Papuan blindsnake genus, Anilios , comprises 47 described species of which 46 are endemic to and distributed across various biomes on continental Australia. Although we expected blindsnakes to be morphologically conserved, we found considerable interspecific variation in all morphological traits we measured. Absolute body length is negatively correlated with mean annual temperature, and body shape ratios are negatively correlated with soil compactness. We found that morphologically similar species are likely not a result of ecological convergence. Age-overlap correlation tests revealed niche similarity decreased with the relative age of speciation events. We also found low geographical overlap across the phylogeny, suggesting that speciation is largely allopatric with low rates of secondary range overlap. Our study offers insights into the eco-morphological evolution of blindsnakes and the potential for phylogenetic niche conservatism to influence continental scale radiations. [ABSTRACT FROM AUTHOR]

Published

2024

14. A systematic approach for scoping potential key biodiversity areas.

Author

Nania, Dario, Ficetola, Gentile Francesco, Falaschi, Mattia, Pacifici, Michela, Lumbierres, Maria, and Rondinini, Carlo

Subjects

*NUMBERS of species, *CELL size, *PROTECTED areas, *AMPHIBIANS, *REPTILES

Abstract

The new key biodiversity areas (KBA) standard is an important method for identifying regions of the planet‐hosting unique biodiversity. KBAs are identified through the implementation of threshold‐based criteria that can be applied to any target species and region. Current methods to rapidly assess the existence of potential KBAs in different areas of the planet still present important challenges, although they are needed to accelerate the KBA identification process for large numbers of species globally. We developed a methodology to scan geographical regions and detect potential KBAs under multiple criteria. We tested the methodology on 59 species of reptiles and amphibians in Italy through the application of selected KBA criteria. Potential KBAs were identified for multiple species under most criteria, covering 1.4%–12% of the study area, depending on analytical settings. Cell size used to identify KBAs played an important role in shaping the distribution of potential KBAs, also affecting the overlap between areas triggered by different criteria. New potential KBAs identified in this study are only partially coincident with current KBAs in Italy (previously identified for birds) and within the national protected areas. [ABSTRACT FROM AUTHOR]

Published

2024

15. Seasonal remodeling of visceral organs in the invasive desert gecko Tarentola annularis.

Author

DUBINER, Shahar, MEIRI, Shai, and LEVIN, Eran

Subjects

*PHYSIOLOGICAL adaptation, *TETRAPODS, *REPTILES, *COLD (Temperature), *GECKOS

Abstract

In winter, many reptiles have a period of inactivity ("brumation"). During brumation there is no energetic intake, therefore there would be an advantage to reducing energetic expenditure. The size of energetically costly organs, a major determinant of metabolic rate, is known to be flexible in many tetrapods. Seasonal plasticity of organ size could serve as both an energy‐saving mechanism and a source of nutrients for brumating reptiles. We studied a population of an invasive gecko, Tarentola annularis, to test for seasonal changes in activity, metabolic rate, and mass of various organs. The observed period of inactivity was December–February. Standard metabolic rates during the activity season were 1.85 times higher than in brumating individuals. This may be attributed to decreased organ mass during winter: heart mass decreased by 37%, stomach mass by 25%, and liver mass by 69%. Interestingly, testes mass increased by 100% during winter, likely in preparation for the breeding season, suggesting that males prioritize breeding over other functions upon return to activity. The size of the kidneys and lungs remained constant. Organ atrophy occurred only after geckos reduced their activity, so we hypothesize that organ mass changes in response to (rather than in anticipation of) cold winter temperatures and the associated fasting. Degradation of visceral organs can maintain energy demands in times of low supply, and catabolism of the protein from these organs can serve as a source of both energy and water during brumation. These findings bring us closer to a mechanistic understanding of reptiles' physiological adaptations to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Concrete refuges and the influence of temperature on artificial refuge occupation by terrestrial lizards.

Author

Turner, Matthew K., Kelly, Dave, and Lettink, Marieke

Subjects

*OUTCROPS (Geology), *GECKOS, *SKINKS, *REPTILES, *COLD-blooded animals

Abstract

Zoobank LSIDArtificial refuges are commonly used to sample small reptiles and to provide supplementary shelter. For refuges to be effective, they should be safe and acceptable to reptiles. Current designs used for New Zealand lizards are vulnerable to trampling and degradation, restricting where they can be used without risk to lizards. We tested the usage of a new trampling-resistant concrete refuge, containing an internal crevice and basking ledge, by terrestrial lizards on the Port Hills in Canterbury, South Island. Twice a month we inspected 40 refuges on 20 occasions over one year which resulted in 420 gecko and 39 skink encounters. Geckos consistently used refuges throughout the year while skinks were infrequently found. Internal refuge surface and ambient air temperature data suggests that both overnight and day-time temperatures in the refuges were favourable for year-round occupation by geckos at the study site. Due to the low number of skinks, their occupancy was not analysed. Our refuge design appears to be a robust and effective design, particularly for crevice-dwelling geckos in trampling-prone and rocky habitats. Additional research is needed to investigate gecko movements in refuges at more extreme temperatures, test our design on other reptile species and assess potential restoration benefits.urn:lsid:zoobank.org:pub:71482E37-D73D-4362-AAE8-4AA15BE33A7F. [ABSTRACT FROM AUTHOR]

Published

2024

17. Unconventional Animal Species Participation in Animal-Assisted Interventions and Methods for Measuring Their Experienced Stress.

Author

Suba-Bokodi, Éva, Nagy, István, and Molnár, Marcell

Subjects

*ANIMAL welfare, *DOMESTIC animals, *REPTILES, *ANIMAL species, *ANIMAL-assisted therapy, *DONKEYS, *DOLPHINS

Abstract

Simple Summary: The demand for animal-assisted services (AAS) has increased in the past decades. The participation of supporting animals in complementary therapy for humans is a developing area. While dogs and horses are the most widely utilized species in AAS, several unconventional species have already been involved, although there is a lack of information about the effects of the stress they may experience. During the interventions, animals may experience stress that can potentially violate aspects of animal welfare. This review seeks to identify criteria for selecting unconventional animal species, such as guinea pigs, rabbits, farm animals, alpacas, donkeys, reptiles, aquarium fishes, and dolphins, for AAS, considering factors such as temperament, trainability, human–animal bond potential, stress measurement, and stress mitigation strategies. Despite the growing interest in AAS, our literature review underscores the scarcity of research exploring their effects on unconventional animal species, especially in stress measurement; therefore, more extensive studies should be conducted, for instance, measuring biochemical parameters, such as cortisol. The participation of animals during complementary therapy for humans is a developing area. Dogs and horses are the most frequent partner species in animal-assisted services, but several unconventional species have also been involved, although there is a lack of information about the stress they experience caused by AAS. We conducted a comprehensive literature search, analyzing 135 articles with the purpose of investigating the effects of AAS on unconventional species such as guinea pigs, rabbits, farm animals, alpacas, donkeys, reptiles, aquarium fishes, and dolphins. We found that the relevant articles emphasize investigating the impact of animal-assisted interventions on humans, and they generally report positive outcomes. Limited data is available concerning the potential consequences the interventions may have on the animals. Therefore, it is our conclusion that more extensive studies should be conducted to get adequate information on stress experienced by animals during AAS, such as the measurement of biochemical parameters such as cortisol. Hence, meeting animal welfare considerations in addition to human interests could serve as a basis for the recommended methodology for therapies. [ABSTRACT FROM AUTHOR]

Published

2024

18. Big cities, big bodies: urbanisation correlates with large body sizes and enhanced body condition in African dwarf chameleons (Genus: <italic>Bradypodion</italic>)

Author

Barends, Jody M and Tolley, Krystal A

Subjects

*BODY size, *CITIES & towns, *CITY dwellers, *FOOD supply, *CHAMELEONS, *PREDATION

Abstract

Urbanisation is a major driver of habitat transformation that alters the environmental conditions and selective regimes of the habitats where it occurs. For species inhabiting urban habitats, such alterations can facilitate adaptive responses in their phenotypes, including their morphology. Quantifying potential responses could provide important information for assessing adaptation to urbanisation and may also be relevant to their conservation. Previous studies on African dwarf chameleons (Bradypodion) have shown these lizards to have remarkable adaptive capacity in response to different habitats (e.g. closed canopy habitats vs. open canopy habitats). Several of these species exploit urban habitats, but the extent to which populations are adapting to urban environments has only recently started to receive attention. In this study, we quantify differences in body size and body condition between urban and natural populations of five species of dwarf chameleons. For most comparisons, either females, males or both sexes from urban populations were longer, heavier and/or had better body condition than those from natural populations. In the remaining cases, there were no differences in these traits between populations. Our findings conform with the emerging paradigm that urbanisation positively correlates with enhanced lizard body sizes and condition, although the reasons for this may be complex. Nevertheless, our data provide an avenue for future research into investigating the potential factors (e.g. food supply, predation risk, etc.) that facilitate the trends we observed. [ABSTRACT FROM AUTHOR]

Published

2024

19. A review of the Late Miocene herpetofauna of the Keinar locality of Moldova.

Author

Syromyatnikova, Elena and Redkozubov, Oleg

Subjects

*NATRIX natrix, *FOSSIL reptiles, *HERPETOFAUNA, *PLIOCENE Epoch, *NEOGENE Period

Abstract

Small fossil amphibians and reptiles from the Late Miocene of the Keinar locality of Moldova are reviewed for the first time. The following taxa are described: Mioproteus caucasicus , Chelotriton sp., Latonia sp., Pelobates sp., Pelophylax sp., "Colubrinae" indet., Natrix sp., two Vipera spp. (" Vipera aspis complex" and "Oriental vipers complex"), and Squamata indet. Among them, Pelobates sp. exhibits the characters which occur in the Early–Late Miocene (presence of both pit-and-ridge and pustular sculptures of the frontoparietal bone) and in the Pliocene (short frontoparietal–squamosal contact) members of the genus; this combination is not observed in any other Pelobates species. The viperid snake of the " Vipera aspis complex" is recorded from Moldova for the first time. [ABSTRACT FROM AUTHOR]

Published

2024

20. Adaptive tails? Parallel evolution of expanded tails in monsoonal tropics lineages of an Australian gecko radiation (Oedura).

Author

Green, Amy L, Oliver, Paul M, Gray, Jaimi A, and Sherratt, Emma

Subjects

*RESOURCE availability (Ecology), *PLANT adaptation, *ARID regions, *INDEPENDENT variables, *ANIMAL locomotion

Abstract

Ecological drivers of variation in the morphology of the lizard tail are understudied despite its important and varied functions in defence, locomotion, balance, climbing, and resource storage. We quantified variation in original tail shape and surface area-to-volume ratio (SA : V) in an Australian gecko clade (Oedura) and tested whether environmental variables are predictors of this variation. To use museum specimens, we developed an approach to straighten deformed preserved tails for accurate shape analysis. Tail shape varied from a relatively 'typical lizard' tail—long, tapered, and circular in cross-section—to a distinctive expanded, wide, and flat shape. Extreme versions of the latter shape seem to have evolved in parallel in two distantly related lineages. Wide tails and low SA : V ratio values occur in the Australian Monsoonal Tropics, while arid zone species all had a narrow, tapered tail with high SA : V. These data suggest expanded or bulbous tails may be analogous to succulence in plants and an adaptation for resource storage in environments with predictable peaks (wet season) and dearths (dry season) of resource availability. However, limited replicated evolution of bulbous tails precludes statistical significance in this case, and more analyses of tail anatomy in Oedura and other lizard clades are required to test this hypothesis further. [ABSTRACT FROM AUTHOR]

Published

2024

21. Bergmann's rule in global terrestrial vertebrates.

Author

Guo, Qinfeng, Qian, Hong, Liu, Pengcheng, and Zhang, Jian

Subjects

*BODY size, *SPECIES diversity, *MACROECOLOGY, *CLIMATE change, *REPTILES

Abstract

To date, whether Bergmann's rule, initially developed for individual species or closely related taxa, can be applied to broader taxa remains elusive. Using global distribution data for birds, mammals, reptiles, and amphibians, both species- and assemblage-based, we examined the role of species richness and related climate variables in shaping body size patterns across the globe and the Northern Hemisphere only and whether the temperature–body size relationship had a phylogenetic signal. The results show that when species in all four classes were combined, body size increased with latitude but declined with temperature, consistent with Bergmann's rule. Each group showed somewhat unique patterns but was mostly consistent with Bergmann's rule. The body size–temperature relationships were not constrained by phylogenetic relatedness. Warmer places had both large and many small-bodied species, whereas cold places had proportionally more large species. The temperature-dependent variations in body size have important implications for macroecology under climate change. [ABSTRACT FROM AUTHOR]

Published

2024

22. Subspecies inflation hampers conservation efforts: a case study on wall lizards.

Author

Berrilli, Emanuele, Gambioli, Benedetta, Bombi, Pierluigi, Garzia, Matteo, Muraro, Martina, Pardo, Claudio, Reale, Marco, Sherpa, Stéphanie, Ficetola, Gentile Francesco, Vignoli, Leonardo, and Salvi, Daniele

Subjects

*LACERTIDAE, *POPULATION genetics, *POPULATION differentiation, *PHENOTYPIC plasticity, *SUBSPECIES

Abstract

The common practice of using subspecies as conservation targets raises the question of whether efforts are focused on preserving conspicuous components of the species' phenotypic variability rather than evolutionarily significant units. To address this question, in this study we performed a comprehensive morphological and genetic assessment on all the subspecies of wall lizard described for the Aeolian Archipelago (Italy) to determine whether they represent distinct evolutionary lineages and/or discrete phenotypic partitions. Further, we applied a monophyly test to 70 subspecies belonging to seven wall lizard species occurring in Italy, based on our results and on previous phylogeographic studies. We found that none of the Aeolian subspecies represents a distinct evolutionary lineage, despite some morphological differentiation of island populations across the archipelago, suggesting a very recent origin of island populations and of the observed phenotype variation. Across seven wall lizard species, tests revealed that lizard subspecies rarely (< 9% of cases) match evolutionary units. This study demonstrates that intraspecific taxonomy of wall lizards is a poor predictor of phylogeographic partitions and evolutionary units, and therefore of limited use (if not dangerous) for defining conservation and management units. A better approach would be relying on the integration of genomic and phenotypic data to assess the evolutionary significance and conservation value of phenotypic and genetic units within species. [ABSTRACT FROM AUTHOR]

Published

2024

23. Palaeognaths Reveal Evolutionary Ancestry of the Avian Major Histocompatibility Complex Class II.

Author

Minias, Piotr and Babik, Wiesław

Subjects

*MAJOR histocompatibility complex, *PHYLOGENY, *IMMUNE system, *REPTILES, *GENOMES

Abstract

The multigene family of the major histocompatibility complex (MHC) codes for the key antigen-presenting molecules of the vertebrate immune system. In birds, duplicated MHC class II (MHC-II) genes are highly homogenized by concerted evolution, and thus, identification of their orthologous relationships across long evolutionary timescales remains challenging. Relatively low evolutionary rate of avian MHC class IIA genes has been expected to provide a promising avenue to allow such inferences, but availability of MHC-IIA sequences in nonmodel bird species has been limited until recently. Here, taking advantage from accumulating genomic resources, we identified and analyzed MHC-IIA sequences from the most basal lineage of extant birds (Palaeognathae). Conserved region of the MHC-IIA membrane-proximal domain was used to search for orthologous relationships between palaeognath birds and nonavian reptiles. First, analyses of palaeognath sequences revealed the presence of a separate MHC-IIA gene lineage (DAA3) in kiwis, which did not cluster with previously described avian MHC-IIA lineages (DAA1 and DAA2). Next, phylogenetic reconstruction showed that kiwi DAA3 sequences form a single well-supported cluster with turtle MHC-IIA. High similarity of these sequences most likely reflects their remarkable evolutionary conservation and retention of ancient orthologous relationships, which can be traced back to basal archosauromorphs ca. 250 million years ago. Our analyses offer novel insights into macroevolutionary history of the MHC and reinforce the view that rapid accumulation of high-quality genome assemblies across divergent nonmodel species can substantially advance our understanding of gene evolution. [ABSTRACT FROM AUTHOR]

Published

2024

24. Body Mass Shapes Most Life History Traits and a Fast‐Slow Continuum in Amphibians.

Author

Cejp, Benjamin and Griebeler, Eva Maria

Subjects

*LIFE history theory, *PRINCIPAL components analysis, *SALAMANDERS, *ECOLOGICAL niche, *REPTILES, *AMPHIBIANS

Abstract

Amphibians have the least studied life histories among vertebrates, although they have unique and the most diverse life histories within this group. We compiled a new dataset on adult body mass and 16 other life history traits of 2069 amphibian species across three orders (1796 frogs, 236 salamanders, 37 caecilians). These traits characterise fecundity, offspring development from egg deposition to metamorphosis and adult life. We established allometric models on traits for all amphibians and each of the three orders to assess a potential scaling of traits to body mass and then checked whether allometric slopes were consistent with two different metabolic scaling exponents. Further, we examined a possible fast‐slow continuum in all amphibians, as well as in each of the two orders frogs and salamanders by applying principal component analysis (PCA) to five traits. Our allometric models indicated a positive scaling to body mass for 11 traits across all amphibians, 12 in frogs, and 10 in salamanders, and for five out of eight traits analysed in caecilians. Allometric slopes on most traits characterising offspring development were not significant. All slopes did not support a three‐quarter metabolic scaling exponent, whereas slopes on age at maturity and maximum longevity were consistent with an amphibian metabolic scaling exponent of 0.88. As in fishes, reptiles, birds, and mammals, the first axes of our PCAs indicated a body mass‐dependent fast‐slow continuum in amphibians. Amphibian species of slow life histories have larger body masses, later sexual maturities and longer lifespans and lay more and larger eggs than species of fast life histories, a pattern also known from reptiles. The second axes indicated a trade‐off between egg size and number. As this trade‐off was nearly independent of body mass, we hypothesise that amphibians have occupied a broad range of ecological niches without evolutionary changes in body mass. [ABSTRACT FROM AUTHOR]

Published

2024

25. After the Megafires: Effects of Fire Severity on Reptile Species Richness and Occupancy in South-Eastern Australia.

Author

Archer, Maddison L., Letnic, Mike, Murray, Brad R., and Webb, Jonathan K.

Subjects

*FOREST litter, *SPECIES diversity, *NUMBERS of species, *REPTILES, *NATIONAL parks & reserves

Abstract

The Australian megafires of 2019–2020 were considered catastrophic for flora and fauna, yet little is known about their impacts on reptiles. We investigated the impacts of the 2019–2020 megafires on reptiles in Morton National Park, New South Wales, in eastern Australia. To understand how fire severity affects reptile species richness and occupancy, we surveyed 28 replicate plots across unburnt areas and areas affected by high and low fire severity. We estimated reptile species richness and occupancy by performing systematic searches for reptiles during five sampling occasions in 2023, three years after the megafires. We measured vegetation structure and quantified the thermal environment in shelter sites used by reptiles. Vegetation structure varied significantly between burn severity groups. High-severity plots had the least canopy cover and the thinnest leaf litter depth but had a taller understorey with more stems. The thermal quality within reptile retreat sites did not differ between fire severity classes. Despite strong differences in post-fire vegetation structure, there was no evidence that fire severity affected reptile species richness or occupancy of the delicate skink, Lampropholis delicata. These results highlight the complexity of reptile responses to fires and contribute to increasing our understanding of the impacts of megafires on reptile communities. [ABSTRACT FROM AUTHOR]

Published

2024

26. Cocaine‐ and Amphetamine‐Regulated Transcript Peptide in the Central Nervous System of the Gecko, Hemidactylus leschenaultii: Molecular Characterization, Neuroanatomical Organization, and Regulation by Neuropeptide Y.

Author

Singh, Omprakash, Basu, Sumela, Srivastava, Abhinav, Pradhan, Dipti R., Dandapat, Pallabi, Bathrachalam, Chandramohan, and Singru, Praful S.

Abstract

Neuropeptide cocaine‐ and amphetamine‐regulated transcript (CART) is widely expressed in the brains of teleosts, amphibians, birds, and mammals and has emerged as a conserved regulator of energy balance across these vertebrate phyla. However, as yet, there is no information on CART in the reptilian brain. We characterized the cDNA encoding CART and mapped CART‐containing elements in the brain of gecko, Hemidactylus leschenaultii (hl) using a specific anti‐CART antiserum. We report a 683‐bp hlcart transcript containing a 336‐bp open reading frame, which encodes a putative 111‐amino acid hl‐preproCART. The 89‐amino acid hl‐proCART generated from hl‐preproCART produced two putative bioactive hl‐CART‐peptides. These bioactive CART‐peptides were > 93% similar with those in rats/humans. Although reverse transcription‐polymerase chain reaction (RT‐PCR) detected hlcart‐transcript in the brain, CART‐containing neurons/fibers were widely distributed in the telencephalon, diencephalon, mesencephalon, rhombencephalon, spinal cord, and retina. The mitral cells in olfactory bulb, neurons in the paraventricular, periventricular, arcuate (Arc), Edinger–Westphal, and brainstem nuclei were intensely CART‐positive. In view of antagonistic roles of neuropeptide Y (NPY) and CART in energy balance in the framework of mammalian hypothalamus, we probed CART–NPY interaction in the hypothalamus of H. leschenaultii. Double immunofluorescence showed a dense NPY‐innervation of Arc CART neurons. Ex vivo hypothalamic slices treated with NPY/NPY‐Y1‐receptor agonist significantly reduced hlcart‐mRNA levels in the Arc‐containing tissues and CART‐ir in the dorsal‐Arc. However, CART‐ir in ventral‐Arc was unaffected. NPY via Y1‐receptors may regulate energy balance by inhibiting dArc CART neurons. This study on CART in a reptilian brain fills the current void in literature and underscores the conserved feature of the neuropeptide across the entire vertebrate phyla. [ABSTRACT FROM AUTHOR]

Published

2024

27. Diet of a Maghreb Owl Strix mauritanica individual at Kahf Lakhal cave on Jbel Moussa, northern Morocco.

Author

Rihane, Abdeslam, Nahli, Abdelmottalib, Laghzaoui, EL-Mustapha, Dbiba, Youssef, Radi, Mohamed, Dakki, Mohamed, El Mouden, El Hassan, and El Hamoumi, Rhimou

Subjects

*RATTUS rattus, *REPTILES, *BIOMASS, *SPECIES, *RHINOCEROSES

Abstract

The diet of a single Maghreb Owl Strix mauritanica (family Strigidae) was examined within its natural habitat at Kahf Lakhal cave on Jbel Moussa, a mountain in northern Morocco. The two distinct batches of pellets collected contained a total of 190 prey items. Pellet analysis revealed a diet comprised of four primary taxonomic classes of prey: mammals, insects, birds and reptiles. We identified 29 prey species, representing 21 families. Mammals were the most prominent component, accounting for 49.5% of the diet items and included at least nine distinct species. Insects constituted 28.9% of the diet, representing at least eight species; birds comprised 20%, representing at least 11 species; and reptiles were represented by a single species (3.4%). Numerically, the most frequently captured prey species were the common bent-wing bat Miniopterus schreibersii (22.1%), black rat Rattus rattus (8.4%) and European rhinoceros beetle Oryctes nasicornis (7.9%). In biomass, black rats were the biggest component of the owl's diet (31.8%), followed by Barbary Partridges Alectoris barbara and hares Lepus sp. (each 11.9%); together these three species comprised more than half the estimated biomass of the prey types consumed by the owl. This investigation significantly improves our knowledge of the diet of the Maghreb Owl in the North African region. [ABSTRACT FROM AUTHOR]

Published

2024

28. Unexpected effect of geographic origin on post‐translocation survival in a long‐lived reptile, the gopher tortoise.

Author

Loope, K. J., Cozad, R. A., Breakfield, D. B., Aresco, M. J., and Hunter, E. A.

Subjects

*AUTUMN, *CLIMATE change mitigation, *SPRING, *TESTUDINIDAE, *REPTILES

Abstract

Mitigation translocations move wildlife from specific areas due to conflict with humans over land use at the site. A critical decision when carrying out mitigation translocation is the acceptable distance across which animals can be moved. This decision trades off logistical expediency of unrestricted translocation with the risk of reducing translocation success due to environmental mismatch between origin and translocation site conditions. In this study, we used a large dataset of 502 individually identifiable carcasses to examine the role of geographic origin and translocation distance in the relative survival of 2822 translocated subadult and adult gopher tortoises (Gopherus polyphemus), a species experiencing large‐scale mitigation translocation, at a recipient site in the Florida panhandle, USA. We hypothesized that if climate or habitat differences between the origin and translocation site influenced survival, tortoises translocated from within the Florida panhandle would have the highest survival. To the contrary, we found that survival slightly increased with increasing climatic difference between origin and recipient site, driven by higher survival of tortoises coming from central Florida sites compared to those from the panhandle and north Florida. This suggests that environmental mismatch due to long‐distance translocation is not a main driver of mortality. These models also indicated an effect of season, with a survival advantage to tortoises translocated in the spring and late fall, relative to summer translocations, and a negative effect of initial density on survival. Finally, we also estimated the upper bound on annual survival in three well‐monitored groups to be quite low (92–95%) for several years following release, suggesting caution when considering large translocated populations to be viable without first assessing adult survival. Our unexpected results highlight the importance of investigating species‐specific sensitivities to translocation distances and indicate the limitations of assumed linear effects of translocation distance on outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

29. New Insights on Chromosome Diversification in Malagasy Chameleons.

Author

Mezzasalma, Marcello, Odierna, Gaetano, Macirella, Rachele, and Brunelli, Elvira

Subjects

*X chromosome, *HOMOLOGOUS chromosomes, *SEX chromosomes, *CHROMOSOME analysis, *BIOLOGICAL evolution, *KARYOTYPES

Abstract

Simple Summary: Chromosome diversification represents a fundamental driver of biological evolution. Here we present and discuss the results of a comparative chromosome analysis on different species of the Malagasy chameleons of the genera Brookesia and Furcifer. We show that the study species are characterized by different karyotypes in terms of chromosome number (2n = 36–22), ratio of micro- and macrochromosomes, and the variable presence of differentiated sex chromosomes. Considering our new data together with those from previous studies, we describe a chromosome evolutionary scenario in the studied taxa. Specifically, while genus Brookesia has a fixed chromosome number (2n = 36) and no differentiated sex chromosomes, which corresponds to the hypothesized ancestral chameleon karyotype, Furcifer shows a high diversity in chromosome number (2n = 20–34), morphology, and the independent raising of simple and multiple sex chromosomes with female heterogamety. The karyotypes in Furcifer with a relatively low chromosome count likely evolved from a chromosome complement similar to that of F. balteatus (2n = 34), mostly via a progressive number of chromosome fusions involving distinct micro- and macrochromosome pairs. Similarly, the diversification of simple and multiple sex chromosome systems occurred in Furcifer via independent (non-homologous) sex chromosome-autosome fusions and heterochromatinization. In this work, we performed a preliminary molecular analysis and a comparative cytogenetic study on 5 different species of Malagasy chameleons of the genus Brookesia (B. superciliaris) and Furcifer (F. balteautus, F. petteri, F. major and F. minor). A DNA barcoding analysis was first carried out on the study samples using a fragment of the mitochondrial gene coding for the cytochrome oxidase subunit 1 (COI) in order to assess the taxonomic identity of the available biological material. Subsequently, we performed on the studied individuals a chromosome analysis with standard karyotyping (5% Giemsa solution at pH 7) and sequential C-banding + Giemsa, + CMA3, and + DAPI. The results obtained indicate that the studied species are characterized by a different chromosome number and a variable heterochromatin content and distribution, with or without differentiated sex chromosomes. In particular, B. superciliaris (2n = 36) and F. balteatus (2n = 34) showed a similar karyotype with 6 macro- and 12–11 microchromosome pairs, without differentiated sex chromosomes. In turn, F. petteri, F. major, and F. minor showed a karyotype with a reduced chromosome number (2n = 22–24) and a differentiated sex chromosome system with female heterogamety (ZZ/ZW). Adding our newly generated data to those available from the literature, we highlight that the remarkable chromosomal diversification of the genus Furcifer was likely driven by non-homologous chromosome fusions, including autosome–autosome, Z–autosome, and W–autosome fusions. The results of this process resulted in a progressive reduction in the chromosome number and partially homologous sex chromosomes of different shapes and sizes. [ABSTRACT FROM AUTHOR]

Published

2024

30. Opportunity begets opportunity to drive macroevolutionary dynamics of a diverse lizard radiation.

Author

Alencar, Laura R V, Schwery, Orlando, Gade, Meaghan R, Domínguez-Guerrero, Saúl F, Tarimo, Eliza, Bodensteiner, Brooke L, Uyeda, Josef C, and Muñoz, Martha M

Subjects

*HAWTHORNS, *BODY size, *VIVIPARITY, *LIZARDS, *REPTILES

Abstract

Evolution proceeds unevenly across the tree of life, with some lineages accumulating diversity more rapidly than others. Explaining this disparity is challenging as similar evolutionary triggers often do not result in analogous shifts across the tree, and similar shifts may reflect different evolutionary triggers. We used a combination of approaches to directly consider such context-dependency and untangle the complex network of processes that shape macroevolutionary dynamics, focusing on Pleurodonta, a diverse radiation of lizards. Our approach shows that some lineage-wide signatures are lost when conditioned on sublineages: while viviparity appears to accelerate diversification, its effect size is overestimated by its association with the Andean mountains. Conversely, some signals that erode at broader phylogenetic scales emerge at shallower ones. Mountains, in general, do not affect speciation rates; rather, the occurrence in the Andean mountains specifically promotes diversification. Likewise, the evolution of larger sizes catalyzes diversification rates, but only within certain ecological and geographical settings. We caution that conventional methods of fitting models to entire trees may mistakenly assign diversification heterogeneity to specific factors despite evidence against their plausibility. Our study takes a significant stride toward disentangling confounding factors and identifying plausible sources of ecological opportunities in the diversification of large evolutionary radiations. [ABSTRACT FROM AUTHOR]

Published

2024

31. Turtle tracks from the middle Jurassic Yaopo formation in Beijing, China.

Author

Xing, Lida, Romilio, Anthony, Chunyong, Chou, and Lockley, Martin G.

Subjects

*FOSSIL reptiles, *JURASSIC Period, *TETRAPODS, *REPTILES, *TURTLES

Abstract

This study introduces new discoveries of fossil footprints from the Middle Jurassic Yaopo Formation in Beijing, China, marking the first reptile fossils that have been discovered in this formation. The two small footprints with parallel digits and drag marks suggest they were made by tetrapods moving through water. While there are similarities to crocodylian and pterosaur tracks, the evaluation suggests that turtles are the most likely trace-makers. If correct, the Yaopo Formation footprints are likely made by xinjiangchelyids, given their dominance in Asian freshwater ecosystems during the Late Jurassic and their widespread distribution in Late Jurassic China. Sichuanchelyids, Bashuchelyidae, and Hongkongochelys are less likely candidates due to their limited temporal and geographical distribution. This finding adds to the growing body of evidence on the evolution and ecology of turtles in Asia during the Late Jurassic period. These new findings offer important insights into the behaviour and spatiotemporal occurrence of these ancient reptiles and expand our understanding of their role in prehistoric aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

32. The predominance of teeth in the non-avian dinosaur record from Cretaceous Brazil: a review.

Author

Ribeiro, Theo Baptista, Brito, Paulo Marques Machado, and Gomes da Costa Pereira, Paulo Victor Luiz

Subjects

*FOSSILS, *PALEOBIOLOGY, *TEETH, *MESOZOIC Era, *REPTILES, *SAURISCHIA

Abstract

Dinosaur fossils are commonly found in Brazilian Mesozoic strata, with teeth being frequently found in Cretaceous outcrops. Many studies have been made with the aim of reviewing the known diversity of Brazilian dinosaurs, mostly focusing solely on their palaeobiogeography. However, few tried to typify these body fossils in order to see which kinds were most prevalent in the fossil record. This study aims to count and identify all occurrences of non-avian dinosaur teeth (isolated or in situ) unearthed from Brazilian Cretaceous strata in order to objectively measure their representativity in the national fossil record. Our literature search showed that almost half of the dinosaur fossil record from the Cretaceous of Brazil is composed by teeth, those being particularly abundant in the Alcântara, Adamantina and Marília formations. Theropod teeth are more abundant in comparison to sauropod teeth, with spinosaurids, deinonychosaurs, and abelisaurids being amply found. Despite representing a large share of the Brazilian fossil record, dinosaur teeth have only recently been studied in depth, with many specimens being reassessed through the current identification methods. Other aspects besides primary taxonomic identification can also be further explored using the latest technologies on dinosaur teeth, allowing a deeper understanding of the palaeobiology of these reptiles. [ABSTRACT FROM AUTHOR]

Published

2024

33. Activity, foraging mode, and abundance of the aquatic coral snake <italic>Micrurus surinamensis</italic> (Cuvier, 1816) (Serpentes: Elapidae) in the western Brazilian Amazonia.

Author

Almeida, Marllus Rafael Negreiros, da Fonseca, Wirven Lima, de França Nascimento, José Alessandro, Mesquita, Edinilson da Silva, de Lima Moraes, Luis Gustavo, Martins, Marcio, and Bernarde, Paulo Sérgio

Subjects

*BODIES of water, *FLOODPLAIN forests, *AQUATIC ecology, *HYDROLOGIC cycle, *REPTILES

Abstract

Elapids of the genus Micrurus actively search for their prey. Here we present new information on the foraging ecology of the aquatic coral snake Micrurus surinamensis based on observations in the western Amazon of Brazil. Eleven individuals of M. surinamensis were observed at night, four of them moving, four hunting in ambush posture, and three actively hunting. Here, we show that M. surinamensis is active mainly at night in aquatic environments and may also be active on the terrestrial environments. Land activity may be related with the search for fish which may eventually be found in this substrate, as well as with the search for water bodies, following the hydrological cycles of flooding and drought. When hunting, the snake uses both foraging modes, being able to actively search for its prey, or ambush it, by keeping the body partially in the water, with the head on the surface. Due to the greater availability of aquatic environments and available prey (fish), M. surinamensis should be more abundant in floodplain forest ecosystems. Additional field observations may help in elucidating the biology on this ecologically differentiated species within the genus Micrurus. [ABSTRACT FROM AUTHOR]

Published

2024

34. Winner and loser effects: a meta-analysis.

Author

Yan, Janice L., Smith, Noah M.T., Filice, David C.S., and Dukas, Reuven

Subjects

*BIOLOGICAL fitness, *REPRODUCTIVE history, *LIFE history theory, *ARACHNIDA, *REPTILES

Abstract

Aggressive interactions can strongly influence an animal's performance in subsequent contests. Winners of aggressive contests are more likely to win successive contests and losers are more likely to lose successive contests. Such winner and loser effects can significantly influence an animal's dominance status, ability to acquire resources and reproductive success. Thus, quantifying the magnitudes of winner and loser effects across taxa is important for our understanding of hierarchy formation, life history trade-offs and reproductive tactics in different species. Furthermore, it is unclear whether the magnitude of winner effects differ from that of loser effects. Finally, experimenters often employ one of two distinct methods for quantifying the strength of winner and loser effects: self-selection and random assignment. Due to selection bias, it is possible that self-selection protocols overestimate the magnitude of winner and loser effects. We therefore systematically searched the literature to conduct a comprehensive meta-analysis of winner and loser effects. We analysed a total of 168 effect sizes from arachnids, crustaceans, fishes, insects, mammals and reptiles. We found that prior winners tend to win approximately two-thirds of their subsequent fights, while prior losers tend to lose approximately two-thirds of their subsequent fights. While we did not find that studies using self-selection generated effect size estimates that significantly differed from random assignment protocols, future studies should still avoid self-selection protocols. Overall, our study highlights the ubiquity of winner and loser effects across the animal kingdom and suggests several avenues for future research to unravel the evolutionary origins and mechanistic underpinnings of such experience effects. • Across taxa, winning increases the odds of winning subsequent fights. • Across taxa, losing increases the odds of losing subsequent fights. • We found no evidence that winner effects differed in magnitude from loser effects. • Self-selection generates similar effect sizes as random assignment protocols. [ABSTRACT FROM AUTHOR]

Published

2024

35. Creating a more inclusive approach to wildlife trade management.

Author

Hinsley, Amy, Hughes, Alice, and Margulies, Jared

Subjects

*WILD animal trade, *WILDLIFE crimes, *PLANT-fungus relationships, *INTERNATIONAL trade, *REPTILES, *AMPHIBIANS

Abstract

Global wildlife trade involves a diverse array of species. Although sustainable trade underpins livelihoods for communities worldwide, unsustainable trade, whether legal or illegal, threatens thousands of species and can lead to extinctions. From plants and fungi to fish, amphibians, mammals, invertebrates, and reptiles, a diverse array of species across taxa are affected by trade. Attention to wildlife trade has increased in recent years, but its focus has largely remained on a narrow range of high‐profile species, with taxa deemed less charismatic frequently overlooked, despite some having significant trade volumes and levels of threat to wild populations. These biases can hamper effective policy interventions, reduce awareness of wider threats from trade, and prevent conservation efforts from focusing on the most pressing issues. It is important to broaden the scope of research and policy discussions and create a more inclusive approach to trade management. The diversity of approaches to wildlife trade can be improved by expanding monitoring of trade to a wider variety of taxa; collecting fundamental ecological data to underpin assessments of trade sustainability; improving and codesigning conservation interventions with key stakeholders and trade actors; and developing appropriate strategies for managing the supply, trade, and demand in diverse wildlife products to ensure species and livelihoods are protected. [ABSTRACT FROM AUTHOR]

Published

2024

36. Density, occupancy and detectability of tortoise species (Chelonoidis spp.) in the Atlantic Forest: implications for conservation and management.

Author

Pereira-Ribeiro, Juliane, Ferreguetti, Atilla Colombo, Bergallo, Helena, and Rocha, Carlos Frederico Duarte

Subjects

*BIODIVERSITY conservation, *WATER supply, *TESTUDINIDAE, *CLIMATE change, *REPTILES

Abstract

Understanding the distribution, abundance and detectability of species is pivotal for effective conservation and management strategies. This study investigated the populations of Chelonoidis denticulatus and Chelonoidis carbonarius within one of the largest remnants of the Atlantic Forest in Brazil (Vale Natural Reserve). The aim was to evaluate species abundance, factors influencing occupancy and detectability, and implications for conservation. Sampling occurred from 2015 to 2018 across 24 line transects. We measured climate and landscape variables potentially associated with species occurrence in each transect. We used the Royle–Nichols model to estimate abundance, while occupancy modelling assessed occupancy, detectability, and the effects of variables. The estimated population size of both species (C. denticulatus: 153 individuals, C. carbonarius: 105 individuals) was notably lower than in Amazonian areas. Detectability surged after rainfall, exceeding 70% with at least 55 mm of rain on the prior day. Occupancy of C. denticulatus correlated positively with forest cover, while both species were negatively affected by distance from water. The study's findings signal potential critical conditions for Chelonoidis species in the Atlantic Forest. The small estimated populations, coupled with their reliance on water availability and forest cover for occupancy and detectability, pose significant conservation challenges. As climate change threatens the planet, these factors assume heightened significance. Given the alarming scenario of potentially critical population status within the Atlantic Forest, urgent attention is needed for robust conservation strategies. Strengthening ecological knowledge specific to this biome is essential to developing effective measures that counter the impacts of habitat loss, climate change and other threats. This study underscores the importance of preserving water resources and forest cover within the Atlantic Forest to secure the future of Chelonoidis species and highlights the need for comprehensive, targeted conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

37. The fossil vertebrate primary type specimens in the collection of the University of Otago Department of Geology.

Author

Robinson, Jeffrey H., Lee, Daphne E., Richards, Marcus D., White, Sophie E. M., and Fordyce, R. Ewan

Subjects

*FOSSIL vertebrates, *REPTILES, *ACTINOPTERYGII, *MAMMALS

Abstract

The 47 vertebrate type specimens held in the University of Otago Geology Department are catalogued in detail. A short history of the collection is followed by lists of the type specimens under the Classes Actinopterygii, Reptilia, Aves and Mammalia. A fish trace-fossil is included at the end of the Actinopterygii. Where appropriate, the name changes of the genus or species are given in chronological order. The specimens are briefly described, locality and geological age information is provided. [ABSTRACT FROM AUTHOR]

Published

2024

38. Management of bushrocks in agricultural landscapes for reptile conservation.

Author

O'Sullivan, Jackie L, Michael, Damian R, Foster, Claire N, Florance, Daniel, and Lindenmayer, David B

Abstract

Bushrocks provide critical habitat for reptiles and are a common feature in agricultural landscapes. Recent advances in soil amelioration practices have triggered a resurgence in the large-scale removal of bushrock from commodity production regions. Rock removal practices have substantial impacts on biodiversity, particularly for range-restricted and rock-dependent reptile species. We discuss findings from several observational studies and natural experiments on the ecological role of bushrocks in agricultural landscapes to inform land management and restoration practices. We found that bushrocks were critical as overwintering retreats, and reptiles preferred higher elevation areas with minimal canopy cover. We found reptiles rapidly responded to bushrock restoration, with increases in abundance and richness of reptiles in rock addition plots compared to controls. Our research highlights the importance of bushrock habitat, and the removal of such habitat may have far-reaching consequences. Conservation of reptiles in agricultural landscapes requires appropriate management and retention of bushrock. We urge for greater protection of existing bushrock habitats and consideration of rock as a restoration tool to improve conservation outcomes for reptiles in agricultural landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

39. Ecological and taxonomic dissimilarity in species and higher taxa of reptiles in western Mexico.

Author

Calderón-Patrón, Jaime Manuel, Téllez-López, Jorge, Canales-Gómez, Eréndira, and Peña-Joya, Karen Elizabeth

Subjects

REPTILE diversity, REPTILES, LIZARDS, SNAKES, SPECIES

Abstract

Reptiles are one of the most diverse groups of vertebrates in the world that are distributed in almost all ecosystems. Many of these studies have focused on exploring their diversity patterns across different environments; and recent studies on reptile alpha and beta diversity have incorporated a multifaceted approach into their analysis to have more comprehensive evaluations. This study presents an assessment of the taxonomic diversity of reptile patterns using methods that incorporate the assessment of higher taxa. Likewise, the taxonomic dissimilarities between reptile communities in the physiographic regions of the state of Jalisco were analyzed. Evaluations for the groups of snakes and lizards independently are presented. We use the taxonomic distinctiveness index that assesses the complexity of the taxonomic structure of communities through hierarchical classification above the species level to measure the relationships between taxa. The dissimilarity of the taxonomic structure in each community was also analyzed. Beta diversity partitions were performed to identify the contribution of turnover and the differences in richness. We determined that alpha diversity of species and higher taxa maintain different patterns, indicating that Jalisco presents regions with overrepresentation of reptile families and genera, as well as regions with an opposite trend. The representation of higher taxa is higher in the lizard group, although in terms of species richness snakes are the most prominent group. The turnover is the most important component at species and higher taxa, with similar values for lizards and snakes. The findings presented show that incorporating phylogenetic information about species through taxonomic relationships provides complementary information that species diversity per se, especially at the level of alpha diversity. [ABSTRACT FROM AUTHOR]

Published

2024

40. A small venomous reptile from the Late Triassic (Norian) of the southwestern United States.

Author

Burch, Helen E., Eddins, Hannah-Marie S., Stocker, Michelle R., Kligman, Ben T., Marsh, Adam D., Parker, William G., and Nesbitt, Sterling J.

Subjects

TOOTH socket, MESOZOIC Era, TOOTH roots, REPTILES, BODY size, VENOM glands

Abstract

Reptile feeding strategies encompass a wide variety of diets and accompanying diversity in methods for subduing prey. One such strategy, the use of venom for prey capture, is found in living reptile clades like helodermatid (beaded) lizards and some groups of snakes, and venom secreting glands are also present in some monitor lizards and iguanians. The fossil record of some of these groups shows strong evidence for venom use, and this feeding strategy also has been hypothesized for a variety of extinct reptiles (e.g., archosauromorphs, anguimorphs, and a sphenodontian). However, evidence of systems for venom delivery in extinct groups and its evolutionary origins has been scarce, especially when based on more than isolated teeth. Here, we describe a potentially venomous new reptile, Microzemiotes sonselaensis gen. et sp. nov., from a partial left dentary recovered from the Sonsela Member of the Chinle Formation (middle Norian, Upper Triassic) of northeastern Arizona, U.S.A. The three dentary teeth have apices that are distally reclined relative to their bases and the tip of the posteriormost tooth curves mesially. The teeth show subthecodont implantation and are interspaced by empty sockets that terminate above the Meckelian canal, which is dorsoventrally expanded posteriorly. Replacement tooth sockets are positioned distolingually to the active teeth as in varanid-like replacement. We identify this new specimen as a diapsid reptile based on its monocuspid teeth that lack carinae and serrations. A more exclusive phylogenetic position within Diapsida is not well supported and remains uncertain. Several features of this new taxon, such as the presence of an intramandibular septum, are shared with some anguimorph squamates; however, these likely evolved independently. The teeth of the new taxon are distinctively marked by external grooves that occur on the entire length of the crown on the labial and lingual sides, as seen in the teeth of living beaded lizards. If these grooves are functionally similar to those of beaded lizards, which use the grooves to deliver venom, this new taxon represents the oldest known reptile where venom-conducting teeth are preserved within a jaw. The teeth of the new species are anatomically distinct from and ~10x smaller than those of the only other known Late Triassic hypothesized venomous reptile, Uatchitodon, supporting venom use across multiple groups of different body size classes. This new species represents the third Late Triassic reptile species to possibly have used envenomation as a feeding (and/or defensive) strategy, adding to the small number of venomous reptiles known from the Mesozoic Era. [ABSTRACT FROM AUTHOR]

Published

2024

41. Characterization and phylogenetic analysis of the complete mitochondrial genome of Aipysurus eydouxii Gray 1849 (Elapidae: Hydrophiinae).

Author

Wei, Shiying, Ma, Xiaowan, Liu, Hongtao, Xu, Yan, Zhao, Longyan, Huang, Guoqiang, Huang, Lianghua, Qiao, Ying, and Zhong, Shengping

Subjects

MITOCHONDRIAL DNA, BASE pairs, REPTILES, SNAKES, GENES

Abstract

Hydrophiine sea snakes represent ecologically significant and species-rich marine predatory reptiles, many of which inhabit marine environments throughout their entire lifecycles. However, due to morphological variability and limited molecular phylogenetic studies, the taxonomic relationships within this group remain unclear. In this study, we present the first complete mitochondrial genome of Aipysurus sea snakes, specifically Aipysurus eydouxii Gray 1849. The mitogenome comprises 17,228 base pairs and contains a total of 37 genes, plus a putative control region. This study provides valuable genetic data that will contribute to the future taxonomic classification and ecological protection of hydrophiine sea snakes. [ABSTRACT FROM AUTHOR]

Published

2024

42. PASOŻYTY Z RODZAJU TRICHINELLA U PTAKÓW I GADÓW HODOWLANYCH.

Author

Piecuch, Aleksandra

Subjects

ZOONOSES, TRICHINELLA, BIRDS of prey, PARASITES, TRICHINOSIS

Abstract

Trichinellosis, a zoonotic disease caused by nematodes of the genus Trichinella, is mostly considered a danger due to consumption of game and pork. The objective of this study was to investigate certain bird and reptile species as potential vectors of trichinellosis through their meat consumption. Trichinella pseudospiralis was detected in 13 bird species and turtles. Trichinella papuae affected saltwater crocodiles of Papua New Guinea, and Trichinella zimbabwensis infected farmed Nile crocodiles of Zimbabwe. Reported cases of trichinosis in humans occurring in areas where the meat of reptiles or predatory birds is traditionally consumed prove that the epizootic threat exists, and perhaps control and prevention programs should be considered. Testing for Trichinella in birds and reptiles necessitates the use of innovative diagnostic techniques, such as PCR. Expanding knowledge about these species can broaden our understanding of their evolution and their impact on the health of local residents. Preventive measures must be taken to avoid the transmission of parasites from animals to humans, considering the wide range of hosts vulnerable to the Trichinella genus. [ABSTRACT FROM AUTHOR]

Published

2024

43. Assessing the Diet of the Elusive North American River Otter (Lontra canadensis) in Florida Using Faecal DNA Metabarcoding.

Author

Bakker, Judith, van Zinnicq Bergmann, Maurits P. M., Stolen, Megan, and Kiszka, Jeremy J.

Subjects

FECES, ROADKILL, GENETIC barcoding, AMPHIBIANS, REPTILES

Abstract

North American river otters (Lontra canadensis) are semiaquatic mammals distributed throughout the North American continent. They are generalist carnivores with a high potential to affect community structure and dynamics. However, habitat degradation and ecosystem changes have the potential to impact their trophic interactions. Therefore, investigating their diet is critical to understand how anthropogenic disturbances can affect their ecological roles, particularly in the urbanised ecosystems in Florida, where such diet information is currently unavailable. Due to their elusive nature, direct observation of feeding events is a major challenge. Here, we have applied DNA metabarcoding of faecal matter (fDNA), opportunistically collected from river otters killed by road traffic in eastern Florida. Two mitochondrial markers were used to identify prey species' DNA—one for fish and one for vertebrates. A total of 23 unique exact sequence variants (ESVs) were identified, the majority belonging not only to teleosts but also to amphibians, reptiles, birds and mammals. The prey species identified are known dietary resources for river otters and the recovered dietary profiles provided independently by the fish and vertebrate assays were similar. Among the identified teleost prey, three fish species are considered invasive. Here, we show that when sufficient reference sequences are available, fDNA metabarcoding provides high prey species resolution. The collection and metabarcoding of faecal samples is particularly advantageous for scaling diet studies, both geographically and longitudinally, highlighting the potential of fDNA metabarcoding for the investigation of the diet of predators. This can provide foundational information on the organisation of ecological networks, which is vital for implementing successful ecosystem‐based conservation management. [ABSTRACT FROM AUTHOR]

Published

2024

44. Factors Influencing the Faunal Recolonization of Restored Thornscrub Forest Habitats †.

Author

Hicks, Audrey J., Garrett, Jerald T., and Gabler, Christopher A.

Subjects

ANIMAL communities, WILDLIFE reintroduction, INTRODUCED species, WILDLIFE management, INVASIVE plants

Abstract

Tamaulipan thornscrub forests (thornforests) have high ecological and economic values, yet over 90% of these forests have been lost, and they remain threatened, making them a conservation hotspot. For decades, federal, state, NGO, and corporate entities have been acquiring land and actively or passively restoring these forests, but results have been mixed and seldom monitored. This study characterized and quantified faunal communities of restored thornforest habitats in south Texas and examined the relationships between restored faunal communities and key site characteristics and environmental factors. We surveyed and analyzed mammal, bird, Lepidoptera, and herptile communities within 12 restored sites in the Lower Rio Grande Valley of southernmost Texas, USA. The site and environmental factors that influenced animal community composition, richness, diversity, and abundance varied widely among taxa. Time since restoration began and method of restoration influenced many community metrics, whereas patch size and extent of isolation influenced few. Several aspects of restored plant communities were influential, especially ground layer diversity, and high invasive plant cover negatively impacted many animal community metrics. If actively restoring a site, efforts to control invasive plants, foster native plant diversity, and provide a nearby water source are likely the most effective ways to promote faunal recolonization. [ABSTRACT FROM AUTHOR]

Published

2024

45. Are toe fringes important for lizard burying in highly mobile sand?

Author

Zheng, Peng, Liang, Tao, and Shi, Lei

Subjects

*PATH analysis (Statistics), *LIZARDS, *SAND, *REPTILES, *TOES, *SAND dunes

Abstract

Toe fringes are a key innovation for sand dwelling lizards, and the relationship between toe fringe function and substrate properties is helpful in understanding the adaptation of lizards to sand dune environments. We tested the sand burial performance of Phrynocephalus mystaceus on different sand substrates with toe fringe manipulation, with the aim of assessing whether the function of the toe fringes shifts under different substrate properties, especially in highly mobile substrates. The sand burial performance of P. mystaceus was influenced by substrate properties in relation to the toe fringe states of the lizard. After removal of the bilateral toe fringes, the sand burial ability score of P. mystaceus was significantly higher on sand substrates below 100 mesh than on native sand substrates. As the angle of stability of the substrate properties decreased, the sand burial performance of the lizard was even better after the bilateral toe fringes were removed. The results of the LASSO model and the path analysis model showed that the stability angle provided the opposite effect on sand burial performance in different toe fringe states. These results further suggest that the sand burial function of toe fringes may not be suitable for highly mobile sand substrates. It remains to be tested further whether the function of toe fringes is more important for running on sand. [ABSTRACT FROM AUTHOR]

Published

2024

46. Trifold origin of the reptilian ear ossicle and its relation to the evolutionary modification of the temporal skull region.

Author

Werneburg, Ingmar and Bronzati, Mario

Subjects

*INNER ear, *MIDDLE ear, *TYMPANIC membrane, *REPTILES, *FOSSILS, *EAR ossicles

Abstract

Whereas mammals are characterized by the presence of three middle ear ossicles, reptiles have only one, the columella (stapes). Nevertheless, there is a great diversity of columellar anatomy among sauropsids, especially in the unique and cartilaginous “extracolumella”‐portion. Molecular studies revealed the “columella” of chicken and quails to be formed within the second pharyngeal arch, although conflicting evidence exists for the columellar footplate and distal parts of the columella in these birds. We studied columellar development in four turtles, one lizard, and one caiman species and argue, using early blastematous stages, that, distally, the so‐called “extracolumella” in turtles is mainly of quadrate, that is, first pharyngeal arch origin. Differently, the dorsal aspect of the “extracolumella” of the lizard and a part of the “dorsal columella process” of the caiman are likely quadrate‐derived. This indicates only a partial homology of the distal columellar compartments among reptiles. Moreover, we observed in most species that, at early stages, the footplate differentiates from the otic capsule, which confirms widespread experimental findings of mesodermal cells contributing to the proximal part of the columella. We provide a hypothetical framework for the changes in the columella and quadrate morphology in reptilian evolution. Originally, as evidenced by the fossil record, the columella served as a stabilizing brace between the quadrate and braincase. Associated with changes in the feeding mode of late Permian taxa, the quadrate was integrated along the stress flows from biting, and in early development part of the quadrate differentiated to differently contribute to the distal part of the “columella‐complex,” which now contacts the tympanic membrane. In addition, part of the original otic capsule contributes to the footplate of the mobile columella, providing a connection with the inner ear. [ABSTRACT FROM AUTHOR]

Published

2024

47. Helminths of free-ranging dogs and cats in an urban natural reserve in Mexico City and their potential risk as zoonotic agents.

Author

Camacho-Giles, Valeria, Hortelano-Moncada, Yolanda, Torres-Carrera, Gerardo, Gil-Alarcón, Guillermo, Oceguera-Figueroa, Alejandro, García-Prieto, Luis, Osorio-Sarabia, David, Cervantes, Fernando A., and Arenas, Pablo

Subjects

*INTRODUCED animals, *PARASITIC diseases, *ALIMENTARY canal, *AMPHIBIANS, *REPTILES

Abstract

In the Reserva Ecológica del Pedregal of San Ángel, located in the south of Mexico City, Mexico, free-roaming dogs and cats coexist with 148 bird, 33 of mammal, 23 of reptile and seven amphibian species, that represent a remnant of the original fauna of the Mexican Plateau. The negative impact that dogs and cats have on local fauna is unobjectionable, however, the role that these introduced vertebrates play as potential transmitters of infectious diseases for native fauna and humans, is much less understood. Information about parasitic infections in native and introduced animals in this location is scarce. In order to ameliorate this lack of information, the objective of this study is to characterize the helminth fauna of the free-ranging dogs and cats of the ecological reserve. Between 2018 and 2023, 36 Felis silvestris catus and 7 Canis lupus familiaris were studied from the helminthological perspective. Endoparasites were obtained from the digestive tract and were identified to the species level using morphological and molecular evidence. Hosts were parasitized by eight species of helminths: in cats the cestodes Hydatigera taeniaeformis, Mesocestoides sp., Taenia rileyi and the nematode Toxocara cati were recorded, while in dogs, the cestode Taenia pisiformis and the nematodes Ancylostoma caninum, and Uncinaria stenocephala were found. The only species shared between cats and dogs was the cestode Dipylidium caninum. These free-ranging animals act as definitive hosts of 5 species known to have zoonotic potential; their presence in the area may generate a public and animal health problem if programs of dog and cat population control are not continued. [ABSTRACT FROM AUTHOR]

Published

2024

48. Understanding early reproductive failure in turtles and tortoises.

Author

Lavigne, A., Bullock, R., Shah, N. J., Tagg, C., Zora, A., and Hemmings, N.

Subjects

*TURTLE eggs, *SEA turtles, *TESTUDINIDAE, *TURTLES, *REPTILES, *TURTLE nests

Abstract

Turtles and tortoises (Order Testudines) are facing an extinction crisis, and ecosystems are at risk of collapsing with the loss of key roles they play. Hatching failure is a crucial barrier to population growth and persistence, but its causes are poorly understood, and it is unknown whether fertilization rates are declining as many populations become smaller and more female‐biased. Here, we show that very few studies of turtle and tortoise hatching success consider fertilization rates, and those that do use unreliable methods to determine egg fertility. We also show that studies of hatching success are biased towards marine turtles, as opposed to freshwater and terrestrial species, and wild rather than captive populations. To address the lack of reliable methods for assessing fertilization rates in turtles and tortoises, a microscopy‐based method (originally designed for bird eggs) for detecting perivitelline membrane (PVM) bound sperm and embryonic nuclei in the germinal disc of unhatched eggs has been developed and tested (in turtle and tortoise eggs). We demonstrate that this method provides unequivocal evidence of egg fertilization in five different turtle and tortoise species from both captive and wild populations, even after eggs have been left in wild nests for the full incubation period. This methodological approach represents a valuable tool for monitoring egg fertility and embryo survival rates in turtles and tortoises, with the potential to provide important insights into the underlying drivers of reproductive failure in threatened captive and wild populations. [ABSTRACT FROM AUTHOR]

Published

2024

49. A redescription of Brouffia orientalis Carroll & Baird, 1972 from the Upper Carboniferous of the Czech Republic and the status and affinities of protorothyridid amniotes.

Author

Klembara, Jozef, Ruta, Marcello, Anderson, Jason, Mayer, Taran, Hain, Miroslav, and Valaška, Daniel

Subjects

*CARBONIFEROUS paleontology, *FOSSIL amniotes, *VERTEBRATES, *ANAPSIDA (Amniotes), *REPTILES

Abstract

The Upper Carboniferous protorothyridid amniote Brouffia orientalis from Czech Republic is redescribed. Photogrammetric scanning of the holotype and only known specimen yields considerable new information on the skull and postcranium of this tetrapod and allows us to amend previous morphological descriptions to a substantial degree. A virtual 3D model built from photogrammetry scan data is used as the basis for a new reconstruction of the skull in dorsal, lateral, and ventral aspects and the lower jaw in lateral aspect. We expand and refine the diagnosis of Brouffia and compare it with other protorothyridids. We discuss the affinities of this taxon by coding it in a recently published data matrix of early amniotes, which we subject to maximum parsimony and Bayesian fossilized birth–death analyses. Brouffia emerges as the sister taxon to Coelostegus in all analyses, but the position of these two taxa within amniotes varies. In a parsimony analysis with unweighted characters, the (Brouffia + Coelostegus) clade forms the sister group to Synapsida. In various experiments of character reweighting, that clade is placed crownward of Captorhinidae on the stem-group of Reptilia, but anticrownward of remaining protorothyridids. The latter constitute either a paraphyletic array relative to Diapsida or their monophyletic sister group. The Bayesian analysis retrieves (Brouffia + Coelostegus) as the most basal plesion on the stem-group of Reptilia. [ABSTRACT FROM AUTHOR]

Published

2024

50. PMEL is involved in snake colour pattern transition from blotches to stripes.

Author

Tzika, Athanasia C., Ullate-Agote, Asier, Helleboid, Pierre-Yves, and Kummrow, Maya

Subjects

FETAL tissues, GENE mapping, PHENOTYPES, CELL aggregation, REPTILES

Abstract

Corn snakes are emerging models for animal colouration studies. Here, we focus on the Terrazzo morph, whose skin pattern is characterized by stripes rather than blotches. Using genome mapping, we discover a disruptive mutation in the coding region of the Premelanosome protein (PMEL) gene. Our transcriptomic analyses reveal that PMEL expression is significantly downregulated in Terrazzo embryonic tissues. We produce corn snake PMEL knockouts, which present a comparable colouration phenotype to Terrazzo and the subcellular structure of their melanosomes and xanthosomes is also similarly impacted. Our single-cell expression analyses of wild-type embryonic dorsal skin demonstrate that all chromatophore progenitors express PMEL at varying levels. Finally, we show that in wild-type embryos PMEL-expressing cells are initially uniformly spread before forming aggregates and eventually blotches, as seen in the adults. In Terrazzo embryos, the aggregates fail to form. Our results provide insights into the mechanisms governing colouration patterning in reptiles. Corn snakes are a useful model organism for studying skin pigmentation. Here they characterize the Terrazzo morph and identify the role of PMEL in the patterning of pigmented cells in the skin, explaining how the wild-type blotches change to stripes in Terrazzo. [ABSTRACT FROM AUTHOR]

Published

2024