Your search keyword '"Urodela"' showing total 4,839 results

1. Spatiotemporal variation in the ingestion of microplastics in aquatic and terrestrial salamanders endemic to Türkiye

Author

Altunışık, Abdullah, Tatlı, Hatice Hale, Yıldız, Mehmet Zülfü, and Aydoğdu, Mahmut

Published

2024

2. Protein Charge Neutralization Is the Proximate Driver Dynamically Tuning Reflectin Assembly.

Author

Levenson, Robert, Malady, Brandon, Lee, Tyler, Al Sabeh, Yahya, Gordon, Michael, and Morse, Daniel

Subjects

biomaterials, intrinsically disordered proteins, protein assembly, reflectins, Animals, Phosphorylation, Urodela, Hydrogen-Ion Concentration

Abstract

Reflectin is a cationic, block copolymeric protein that mediates the dynamic fine-tuning of color and brightness of light reflected from nanostructured Bragg reflectors in iridocyte skin cells of squids. In vivo, the neuronally activated phosphorylation of reflectin triggers its assembly, driving osmotic dehydration of the membrane-bounded Bragg lamellae containing the protein to simultaneously shrink the lamellar thickness and spacing while increasing their refractive index contrast, thus tuning the wavelength and increasing the brightness of reflectance. In vitro, we show that the reduction in repulsive net charge of the purified, recombinant reflectin-either (for the first time) by generalized anionic screening with salt or by pH titration-drives a finely tuned, precisely calibrated increase in the size of the resulting multimeric assemblies. The calculated effects of phosphorylation in vivo are consistent with these effects observed in vitro. The precise proportionality between the assembly size and charge neutralization is enabled by the demonstrated rapid dynamic arrest of multimer growth by a continual, equilibrium tuning of the balance between the proteins Coulombic repulsion and short-range interactive forces. The resulting stability of reflectin assemblies with time ensures a reciprocally precise control of the particle number concentration, encoding a precise calibration between the extent of neuronal signaling, osmotic pressure, and the resulting optical changes. The charge regulation of reflectin assembly precisely fine-tunes a colligative property-based nanostructured biological machine. A physical mechanism is proposed.

Published

2024

3. Trait variation in patchy landscapes: Morphology of spotted salamanders (Ambystoma maculatum) varies more within ponds than between ponds

Author

Green, Elizabeth T, Dell, Anthony I, Crawford, John A, Biro, Elizabeth G, and Daversa, David R

Subjects

Ecological Applications, Biological Sciences, Ecology, Zoology, Environmental Sciences, Animals, Ambystoma, Ponds, Urodela, Ecosystem, General Science & Technology

Abstract

The influence of intraspecific trait variation on species interactions makes trait-based approaches critical to understanding eco-evolutionary processes. Because species occupy habitats that are patchily distributed in space, species interactions are influenced not just by the degree of intraspecific trait variation but also the relative proportion of trait variation that occurs within- versus between-patches. Advancement in trait-based ecology hinges on understanding how trait variation is distributed within and between habitat patches across the landscape. We sampled larval spotted salamanders (Ambystoma maculatum) across six spatially discrete ponds to quantify within- and between-pond variation in mass, length, and various metrics associated with their relationship (scaling, body condition, shape). Across all traits, within-pond variation contributed more to total observed morphological variation than between-pond variation. Between-pond variation was not negligible, however, and explained 20-41% of total observed variation in measured traits. Between-pond variation was more pronounced in salamander tail morphology compared to head or body morphology, suggesting that pond-level factors more strongly influence tails than other body parts. We also observed differences in mass-length relationships across ponds, both in terms of scaling slopes and intercepts, though differences in the intercepts were much stronger. Preliminary evidence hinted that newly constructed ponds were a driver of the observed differences in mass-length relationships and morphometrics. General pond-level difference in salamander trait covariation suggest that allometric scaling of morphological traits is context dependent in patchy landscapes. Effects of pond age offer the hypothesis that habitat restoration through pond construction is a driver of variation in trait scaling, which managers may leverage to bolster trait diversity.

Published

2024

4. Trunk muscle differentiation—a lesson from the Chinese fire-bellied newt (Hypselotriton orientalis)

Author

Dubińska-Magiera, Magda, Brania, Marta Julianna, Kolenda, Krzysztof, Haczkiewicz-Leśniak, Katarzyna, Daczewska, Małgorzata, and Migocka-Patrzałek, Marta

Published

2025

5. New diverse amphibian and reptile assemblages from the late Neogene of northern Greece provide novel insights into the emergence of extant herpetofaunas of the southern Balkans

Author

Georgios L. Georgalis, Andrea Villa, Martin Ivanov, and Massimo Delfino

Subjects

Anura, Urodela, Testudines, Squamata, Serpentes, Miocene, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

Abstract We here describe abundant new fossil material of amphibians and reptiles from different late Neogene localities of northern Greece: the Early Pliocene (MN 14) of Spilia 0, Spilia 1, and Spilia 2; the Early Pliocene (MN 15) of Spilia 3, Spilia 4, Spilia 5, and Vevi; and the Late Miocene or Pliocene of Chalicorrema and Rema Marmara. These new late Neogene herpetofaunas are highly diverse, documenting a considerably rich herpetofauna allowing the identification of at least two salamander, seven frog, two turtle, seven lizard, and eight snake taxa. Salamanders are represented by the salamandrid genera Ommatotriton and Ichthyosaura. Frogs are represented by the bombinatorid Bombina, the discoglossids Latonia cf. ragei and Latonia sp., the pelobatid Pelobates aff. praefuscus and Pelobates sp., the ranids Pelophylax and Rana cf. dalmatina, the hylid Hyla gr. arborea, and the bufonid Bufotes gr. viridis. Turtles are represented by the emydid Emys and an indeterminate geoemydid. Lizards are represented by the scincid Ophiomorus, two lacertids (one of which potentially pertaining to Lacerta), amphisbaenians, agamids, the anguid Pseudopus, and a potential varanid. Snakes are represented by the erycid Eryx, the natricid Natrix aff. rudabanyaensis, a small-sized elapid, an “Oriental viper”, the colubriforms Periergophis and Paraxenophis, as well as two further distinct but still indeterminate morphotypes of colubriforms. For the material from Spilia tentatively referred to Ommatotriton, this is only the third occurrence in the fossil record globally. The new material of Ichthyosaura and Bombina mark the first documentation of these genera in the Greek fossil record. Abundant cranial and postcranial material from Spilia is tentatively referred to Latonia ragei, a taxon previously known from the Early Miocene of Western Europe. The new record of Pelobates represents the oldest documented occurrences of the genus in the Greek fossil record. Interestingly, the Pelobates from Spilia bears much resemblance to an extinct taxon, Pelobates aff. praefuscus, which is otherwise known from the Late Miocene of the Caucasus, and not to the extant species that currently inhabits the area. The identification of Pelophylax and Rana adds to the rather poor Neogene record of ranids from Greece. Particularly for the case of Rana cf. dalmatina from Spilia 4, this corresponds to the only documented occurrence of this extant taxon in the Greek fossil record. Similarly, the identification of Hyla gr. arborea in Spilia 1, Spilia 3, and Spilia 4, marks only the third documented occurrence of this genus in the Greek fossil record. The Bufotes material from Spilia 1, Spilia 3, and Spilia 4 represents the first documented fossil occurrence of the extant Bufotes viridis complex in Greece. The material of Emys gr. orbicularis from Vevi marks the only known pre-Quaternary record of the genus in Greece and one of the only few Neogene members of the genus known from Europe. The scincid Ophiomorus is identified in Spilia 4, known from several cranial and postcranial remains, well outside the extant range of the genus. Practically, the Spilia Ophiomorus is only the fourth known fossil occurrence of this extant genus globally and also represents one of its oldest known occurrences. Material from Spilia 1 and Spilia 3 is tentatively referred to cf. Lacerta sp., and this would mark the first known occurrence of this emblematic extant genus in the Greek fossil record, denoting the presence of the genus since at least the Early Pliocene. The new amphisbaenian specimens from Spilia 4 add to the recently described single vertebra from the same locality, and represent the youngest occurrence of amphisbaenians from continental Eastern Europe. The new agamid material from Vevi and Chalicorrema add substantially to the record of this group, which was in Greece so far known exclusively from the latest Miocene/earliest Pliocene of Maramena. A similarly important addition is the record of Pseudopus from Spilia 4, as this genus had been known in the Greek fossil record only from a very few localities. The potential varanid from Spilia represents one of the few Pliocene occurrences of this group in Europe. We identify Natrix aff. rudabanyaensis among the material from Spilia 0, Spilia 4, and Vevi, adding to the previously known record of this taxon from Maramena, however, its precise species level assignment should await a revision of Neogene European Natrix spp. The find of a small elapid from Spilia 4 represents the youngest occurrence of a coral snake from Europe, extending their statigraphic range up to the Early Pliocene (MN 14). Periergophis and Paraxenophis, two bizarre snakes, so far exclusively known from their type locality in Maramena, could be also present here, even if tentatively identified. Most notably, the new material from these localities comprises forms that are now extinct (e.g., Periergophis and Paraxenophis) or extirpated from Europe (e.g., Latonia, Varanidae, Elapidae) but at the same time also loudly attests the emergence of the extant genera that dominate the extant herpetofaunas of Greece (Ichthyosaura, Bombina, Pelobates, Pelophylax, Rana, Hyla, Bufotes, Emys, Ophiomorus, Lacerta, Pseudopus, Eryx, and Natrix), for some of which their fossil record is documented here for the first time in the area.

Published

2024

6. New diverse amphibian and reptile assemblages from the late Neogene of northern Greece provide novel insights into the emergence of extant herpetofaunas of the southern Balkans.

Author

Georgalis, Georgios L., Villa, Andrea, Ivanov, Martin, and Delfino, Massimo

Subjects

FOSSIL reptiles, AMPHIBIANS, NEOGENE Period, HERPETOFAUNA

Abstract

We here describe abundant new fossil material of amphibians and reptiles from different late Neogene localities of northern Greece: the Early Pliocene (MN 14) of Spilia 0, Spilia 1, and Spilia 2; the Early Pliocene (MN 15) of Spilia 3, Spilia 4, Spilia 5, and Vevi; and the Late Miocene or Pliocene of Chalicorrema and Rema Marmara. These new late Neogene herpetofaunas are highly diverse, documenting a considerably rich herpetofauna allowing the identification of at least two salamander, seven frog, two turtle, seven lizard, and eight snake taxa. Salamanders are represented by the salamandrid genera Ommatotriton and Ichthyosaura. Frogs are represented by the bombinatorid Bombina, the discoglossids Latonia cf. ragei and Latonia sp., the pelobatid Pelobates aff. praefuscus and Pelobates sp., the ranids Pelophylax and Rana cf. dalmatina, the hylid Hyla gr. arborea, and the bufonid Bufotes gr. viridis. Turtles are represented by the emydid Emys and an indeterminate geoemydid. Lizards are represented by the scincid Ophiomorus, two lacertids (one of which potentially pertaining to Lacerta), amphisbaenians, agamids, the anguid Pseudopus, and a potential varanid. Snakes are represented by the erycid Eryx, the natricid Natrix aff. rudabanyaensis, a small-sized elapid, an "Oriental viper", the colubriforms Periergophis and Paraxenophis, as well as two further distinct but still indeterminate morphotypes of colubriforms. For the material from Spilia tentatively referred to Ommatotriton, this is only the third occurrence in the fossil record globally. The new material of Ichthyosaura and Bombina mark the first documentation of these genera in the Greek fossil record. Abundant cranial and postcranial material from Spilia is tentatively referred to Latonia ragei, a taxon previously known from the Early Miocene of Western Europe. The new record of Pelobates represents the oldest documented occurrences of the genus in the Greek fossil record. Interestingly, the Pelobates from Spilia bears much resemblance to an extinct taxon, Pelobates aff. praefuscus, which is otherwise known from the Late Miocene of the Caucasus, and not to the extant species that currently inhabits the area. The identification of Pelophylax and Rana adds to the rather poor Neogene record of ranids from Greece. Particularly for the case of Rana cf. dalmatina from Spilia 4, this corresponds to the only documented occurrence of this extant taxon in the Greek fossil record. Similarly, the identification of Hyla gr. arborea in Spilia 1, Spilia 3, and Spilia 4, marks only the third documented occurrence of this genus in the Greek fossil record. The Bufotes material from Spilia 1, Spilia 3, and Spilia 4 represents the first documented fossil occurrence of the extant Bufotes viridis complex in Greece. The material of Emys gr. orbicularis from Vevi marks the only known pre-Quaternary record of the genus in Greece and one of the only few Neogene members of the genus known from Europe. The scincid Ophiomorus is identified in Spilia 4, known from several cranial and postcranial remains, well outside the extant range of the genus. Practically, the Spilia Ophiomorus is only the fourth known fossil occurrence of this extant genus globally and also represents one of its oldest known occurrences. Material from Spilia 1 and Spilia 3 is tentatively referred to cf. Lacerta sp., and this would mark the first known occurrence of this emblematic extant genus in the Greek fossil record, denoting the presence of the genus since at least the Early Pliocene. The new amphisbaenian specimens from Spilia 4 add to the recently described single vertebra from the same locality, and represent the youngest occurrence of amphisbaenians from continental Eastern Europe. The new agamid material from Vevi and Chalicorrema add substantially to the record of this group, which was in Greece so far known exclusively from the latest Miocene/earliest Pliocene of Maramena. A similarly important addition is the record of Pseudopus from Spilia 4, as this genus had been known in the Greek fossil record only from a very few localities. The potential varanid from Spilia represents one of the few Pliocene occurrences of this group in Europe. We identify Natrix aff. rudabanyaensis among the material from Spilia 0, Spilia 4, and Vevi, adding to the previously known record of this taxon from Maramena, however, its precise species level assignment should await a revision of Neogene European Natrix spp. The find of a small elapid from Spilia 4 represents the youngest occurrence of a coral snake from Europe, extending their statigraphic range up to the Early Pliocene (MN 14). Periergophis and Paraxenophis, two bizarre snakes, so far exclusively known from their type locality in Maramena, could be also present here, even if tentatively identified. Most notably, the new material from these localities comprises forms that are now extinct (e.g., Periergophis and Paraxenophis) or extirpated from Europe (e.g., Latonia, Varanidae, Elapidae) but at the same time also loudly attests the emergence of the extant genera that dominate the extant herpetofaunas of Greece (Ichthyosaura, Bombina, Pelobates, Pelophylax, Rana, Hyla, Bufotes, Emys, Ophiomorus, Lacerta, Pseudopus, Eryx, and Natrix), for some of which their fossil record is documented here for the first time in the area. [ABSTRACT FROM AUTHOR]

Published

2024

7. The presence of microplastics in Baran's newt (Neurergus barani Öz, 1994) and the spotted newt (Neurergus strauchii Steindachner, 1887).

Author

Dursun, Cantekin, Karaoğlu, Kaan, Avcı, Aziz, Gül, Serkan, Özdemir, Nurhayat, Üzüm, Nazan, and Olgun, Kurtuluş

Subjects

SINGLE-use plastics, SALAMANDERS, POLYETHYLENE terephthalate, ENDEMIC species, WATER springs, PLASTIC marine debris

Abstract

Microplastics (MPs), tiny plastic particles less than 5 mm in size, have emerged as a common and worrying pollutant in marine, freshwater, and terrestrial environments worldwide. In this study, we revealed the microplastic exposure of two endemic newt species for Türkiye. We found that polyethylene terephthalate (PET) was the predominant microplastic polymer type in both species, with the blue fiber shape in particular. We also found that there was a negative correlation between microplastic size and gastrointestinal tract (GIT) weight, but there was no significant difference between body length and GIT weight of both species. Our findings might be surprising as the studied species live in natural spring waters in remote, high-altitude areas. However, the detection of water bottles in their habitats appears to be the reason for their exposure to microplastic pollution. Therefore, reducing the use of single-use plastics is predicted to contribute to the conservation of these endemic newts. [ABSTRACT FROM AUTHOR]

Published

2024

8. Hydrodynamics and Aquatic Vegetation Drive Spatial Patterns of Environmental DNA in Ponds

Author

Sandra R. Mayne, Jeffrey A. Manning, Stephen M. Henderson, Meghan B. Parsley, Katherine M. Strickler, Jeffrey R. Nielson, and Caren S. Goldberg

Subjects

environmental DNA, hydrodynamics, ponds, Urodela, water, wind, Environmental sciences, GE1-350, Microbial ecology, QR100-130

Abstract

ABSTRACT Environmental DNA (eDNA) sampling is a powerful method for detecting aquatic species at low densities. However, eDNA may remain close to the source in lentic systems, decreasing the effectiveness of eDNA surveys. We conducted cage experiments with salamanders and simultaneous detailed hydrologic and wind measurements to investigate the influence of the physical environment on detection patterns of eDNA in ponds. We found much higher detection rates in the surface layer than at depth, and that aquatic vegetation reduced detection of eDNA produced in open water by 80%–94%. Within the surface mixed layer, detection rates were highest close to the source in the direction of water flow in the bottom half of the layer, and detections farthest from the source occurred when velocities in this sublayer were high. Detections were near zero even close to the source when this sublayer was flowing fast and away from the sampling point. The direction of water flow in this lower half of the surface mixed layer was negatively correlated with wind direction for most of the study. These spatial and temporal dynamics indicate that eDNA transport processes in ponds are highly complex. Sampling away from aquatic vegetation, in the surface mixed layer, and upwind of potential sources, in addition to sampling at many locations within a pond and considering temporal patterns, may improve detection of rare pond species. This work contributes to a growing body of literature characterizing the variability of eDNA detection in lentic systems.

Published

2024

9. Host Identity Matters-Up to a Point: The Community Context of Batrachochytrium dendrobatidis Transmission.

Author

Daversa, David R, Bosch, Jaime, Manica, Andrea, Garner, Trenton WJ, and Fenton, Andy

Subjects

Zoology, Biological Sciences, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Life Below Water, Animals, Anura, Batrachochytrium, Bufonidae, Chytridiomycota, Larva, Urodela, disease ecology, multihost transmission, community ecology, chytridiomycosis, invasion biology, Ecology, Biological sciences

Abstract

AbstractThe level of detail on host communities needed to understand multihost parasite invasions is an unresolved issue in disease ecology. Coarse community metrics that ignore functional differences between hosts, such as host species richness, can be good predictors of invasion outcomes. Yet if host species vary in the extent to which they maintain and transmit infections, then explicitly accounting for those differences may be important. Through controlled mesocosm experiments and modeling, we show that interspecific differences between host species are important for community-wide infection dynamics of the multihost fungal parasite of amphibians (Batrachochytrium dendrobatidis [Bd]), but only up to a point. The most abundant host species in our system, fire salamander larvae (Salamandra salamandra), did not maintain or transmit infections. Rather, two less abundant "auxiliary" host species, Iberian tree frog (Hyla molleri) and spiny toad (Bufo spinosus) larvae, maintained and transmitted Bd. Frogs had the highest mean rates of Bd shedding, giving them the highest contributions to the basic reproduction number, R0. Toad contributions to R0 were substantial, however, and when examining community-level patterns of infection and transmission, the effects of frogs and toads were similar. Specifying more than just host species richness to distinguish salamanders from auxiliary host species was critical for predicting community-level Bd prevalence and transmission. Distinguishing frogs from toads, however, did not improve predictions. These findings demonstrate limitations to the importance of host species identities in multihost infection dynamics. Host species that exhibit different functional traits, such as susceptibility and infectiousness, may play similar epidemiological roles in the broader community.

Published

2022

10. Introduction to the Special Issue on the 8th Conference on the Biology of Plethodontid Salamanders.

Author

Staub, Nancy L., Peterman, William E., Bonett, Ronald, and Beachy, Christopher

Subjects

*LUNGLESS salamanders, *BIOLOGY, *LIFE sciences, *HERPETOLOGISTS, *SALAMANDERS

Abstract

In May 2023, herpetologists from six countries converged at the 8th Conference on the Biology of Plethodontid Salamanders in Hammond, Louisiana to share their latest cutting-edge research. The conference was hosted by the Department of Biological Sciences at Southeastern Louisiana University. Dr. Richard Bruce was the honoree. The presentations covered a diverse array of topics from gene expression to behavior to speciation, illustrating the value of plethodontid salamander biology to a range of disciplines. This special issue of Herpetologica includes 16 papers highlighting a range of research on plethodontids and encouraging new approaches to tackle old and new questions. [ABSTRACT FROM AUTHOR]

Published

2024

11. New Data on the Larval Stages of Leptophallus nigrovenosus (Digenea, Plagiorchiata).

Author

Poonlaphdecha, Srisupaph, Ribas, Alexis, Martínez-Silvestre, Albert, and Villa, Mercedes

Subjects

*DIGENEA, *AMPHIBIANS, *LIFE cycles (Biology), *SENSORY receptors, *SCANNING electron microscopy, *INFECTIOUS disease transmission, *CERCARIAE

Abstract

Simple Summary: Leptophallus nigrovenosus is a trematode parasite found in snakes that requires feeding on amphibians to acquire the parasite. Firstly, this study investigated, in detail, the sensory receptors on the cercariae of these parasites, shedding light on the adaptations that allow them to find their host species. Secondly, the metacercariae of Salamandra salamandra were studied using histology to examine inflammatory responses in the eyes and potential eye damage. This study involved collecting snails (Planorbius metidjensis) and observing the emergence of cercariae. Salamander larvae were then exposed to these cercariae, and the larvae were later examined for the presence of metacercariae. Notably, this study is the first to report the presence of L. nigrovenosus in the snail P. metidjensis, a previously unrecorded host. These findings revealed that members of the genus Salamandra can serve as secondary intermediate hosts for L. nigrovenosus. Such infections in amphibians can lead to various eye issues, including cloudiness, inflammation, and tissue damage, ultimately affecting their survival. This research highlights the need for further investigation into trematode infections in amphibian eyes, which would provide valuable insights into their prevalence, transmission dynamics, and impact on host populations. (1) Background: Leptophallus nigrovenosus, an esophageal parasite that primarily affects water snakes of the genus Natrix, has a known life cycle that involves snail and amphibian hosts. However, the biological aspects, chaetotaxic patterns, and pathogeny of this parasite in its hosts have not been fully elucidated. (2) Methods: Snails (Planorbarius metidjensis) were collected in Spain and examined for cercaria emergence. The larvae were used to experimentally infect Salamandra salamandra, and metacercariae were isolated. Their chaetotaxy was studied using microscopy and scanning electron microscopy. The eye histology was also examined. (3) Results: The cercariae displayed distinctive morphological characteristics. The results of this study revealed three types of ciliated sensory papillae on the cercarial teguments, suggesting an adaptation for host detection and orientation. The metacercariae isolated from subcutaneous tissues showed oval bodies covered in spines. The chaetotaxy patterns matched those of Leptophallinae species. This is the first report of the presence of L. nigrovenosus in the snail P. metidjensis. Additionally, this study detected metacercariae in the eyes of S. salamandra, emphasizing the need for further research on trematode infections in amphibian eyes. (4) Conclusions: Members of the genus Salamandra can serve as secondary intermediate hosts for L. nigrovenosus, and the presence of metacercariae in amphibian eyes may have implications for the survival and habitat management of these amphibians. Understanding this parasite's prevalence, transmission dynamics, and impacts on host populations is crucial for conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

12. Learning the native pond odor as one of the mechanisms of olfactory orientation in juvenile smooth newt Lissotriton vulgaris.

Author

Vyatkin, Yaroslav Aleksandrovich and Shakhparonov, Vladimir Vladimirovich

Subjects

*NEWTS, *BODIES of water, *MATING grounds, *PONDS, *AMPHIBIANS

Abstract

Olfaction is an important mechanism of orientation in amphibians toward the breeding site. It is known that anurans can memorize the odor of the native pond during larval development and prefer this odor prior to the beginning of dispersion. However, such a mechanism in urodeles has not been studied yet. We conducted experiments on recognition of the odor of a native water body in juveniles of the smooth newt Lissotriton vulgaris. One group of larvae were reared in pure water (control), the other group in water with morpholine (10–7 mol/L). A few days after metamorphosis, the newts were tested under paired-choice conditions in a T-maze. A total of 73 newts from the experimental group and 47 newts from the control group were tested. The results of the experiment show that the newts in the experimental group preferred the morpholine solution, whereas the individuals of the control group made the choice randomly. We conclude that newts can learn the odor of the environment in which they developed and use this memory for orientation in later stages of life. [ABSTRACT FROM AUTHOR]

Published

2024

13. First evidence of scavenging behaviour in Ichthyosaura alpestris (Laurenti, 1768).

Author

Daftsios, Thomas, Iakovidis, Dionisios, Gogolos, Nikolaos, and Sagonas, Kostas

Subjects

PREDATORY animals, COLLEMBOLA, DIPTERA, ISOPODA, GASTROPODA

Abstract

The alpine newt is an opportunistic predator whose diet consists predominantly of aquatic and terrestrial invertebrates with Crustacea, Plecoptera, Collembola, Diptera, Isopoda and Gastropoda being the predominant prey groups. Consumption of amphibian eggs and larvae are another common food source. Here, we report the first documented case of adult Ichthyosaura alpestris feeding on a rodent carcass, thus adding to its menu a prey item that belongs to the Class Mammalia, while showcasing the previously unknown scavenging behaviour. This finding suggests that rodent carcasses can serve as an important resource for nutrients in remote, high-altitude populations of the alpine newt. [ABSTRACT FROM AUTHOR]

Published

2024

14. First data on the consumed prey by Speleomantes italicus from the Republic of San Marino.

Author

CASALI, SANDRO, PAGLIARANI, MATTEO, COFANI, MARTINA, CIANFERONI, FABIO, and LUNGHI, ENRICO

Subjects

*GASTROINTESTINAL contents, *FOOD habits, *SPRING, *DRYWALL, *SALAMANDERS, *FISH morphology

Abstract

We here present the first study on the consumed prey by an epigean population of the Italian cave salamander (Speleomantes italicus) from the Republic of San Marino. Using the harmless technique of stomach flushing, we aimed to provide the first data on the diet and on the degree of individual specialization that characterizes the studied population. We performed two-night surveys (one in autumn 2022 and one in spring 2023) in which we opportunistically searched for salamanders in forested areas and dry walls. Captured salamanders were sexed, weighed, photographed, measured and stomach flushed. Overall, we inspected the stomach contents of 67 individuals, recognizing 1,018 prey items belonging to 28 different prey categories. The examined population was mainly composed by generalist individuals, and no differences in number and diversity of prey consumed were observed among salamanders. Contrarily to what has been observed in other Speleomantes species, flying prey provided a minor contribution to the diet of the investigated population. Our study produced the first information on the diet of Speleomantes italicus from the Republic of San Marino, representing the starting point for future assessments on the dietary habits of this specific population. [ABSTRACT FROM AUTHOR]

Published

2023

15. Identification and characterization of sperm motility‐initiating substance‐2 gene in internally fertilizing Cynops species.

Author

Furukawa, Haruka, Mito, Shinya, Nishio, Jun, Sato, Nozomi, Ando, Yoshihiro, Tominaga, Atsushi, Toyama, Fubito, Nakauchi, Yuni, Takayama‐Watanabe, Eriko, and Watanabe, Akihiko

Subjects

*SPERMATOZOA, *AMINO acid sequence, *COMPLEMENTARY DNA, *GENES, *ANIMAL species, *RNA sequencing

Abstract

Sperm motility‐initiating substance (SMIS) is an oviductal protein critical for internal fertilization in urodeles. It contributes to the establishment of various reproductive modes in amphibians and is thus a unique research model for the gene evolution of gamete‐recognizing ligands that have diversified among animal species. In this study, a paralogous SMIS gene, smis2, was identified via the RNA sequencing of the oviduct of the newt, Cynops pyrrhogaster. The base sequence of the smis2 gene was homologous (˃90%) to that of the original smis gene (smis1), and deduced amino acid sequences of both genes conserved six cysteine residues essential for the cysteine knot motif. Furthermore, smis2 complementary DNA was identified in the oviduct of Cynops ensicauda, and the base substitution patterns also suggested that the smis gene was duplicated in the Salamandridae. Nonsynonymous/synonymous substitution ratios of smis1 and smis2 genes were 0.79 and 2.6, respectively, suggesting that smis2 gene evolution was independently driven by positive selection. Amino acid substitutions were concentrated in the cysteine knot motif of SMIS2. The smis2 gene was expressed in some organs in addition to the oviduct; in contrast, SMIS1 was only expressed in the oviduct. The SMIS2 protein was suggested to be produced and secreted at least in the oviduct and redundantly act in sperm. These results suggest that smis1 plays the original role in the oviduct, whereas smis2 may undergo neofunctionalization, which rarely occurs in gene evolution. [ABSTRACT FROM AUTHOR]

Published

2023

16. Drug delivery and epimorphic salamander-type mouse regeneration: A full parts and labor plan

Author

Heber-Katz, Ellen and Messersmith, Phillip

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Regenerative Medicine, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Animals, Drug Delivery Systems, Hypoxia-Inducible Factor 1, alpha Subunit, Mice, Mice, Inbred MRL lpr, Prolyl-Hydroxylase Inhibitors, Regeneration, Urodela, Accumulation blastema, Aerobic glycolysis, HIF-1 alpha, MRL mouse, PEG-hydrogels, PHDs, Pluripotency markers, HIF-1α, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences

Abstract

The capacity to regenerate entire body parts, tissues, and organs had generally been thought to be lost in evolution with very few exceptions (e.g. the liver) surviving in mammals. The discovery of the MRL mouse and the elucidation of the underlying molecular pathway centering around hypoxia inducible factor, HIF-1α, has allowed a drug and materials approach to regeneration in mice and hopefully humans. The HIF-1α pathway is ancient and permitted the transition from unicellular to multicellular organisms. Furthermore, HIF-1α and its regulation by PHDs, important oxygen sensors in the cell, provides a perfect drug target. We review the historical background of regeneration biology, the discovery of the MRL mouse, and its underlying biology, and novel approaches to drugs, targets, and delivery systems (see Fig. 1).

Published

2018

17. Microhabitat use by Mediterranean ribbed newts: newts in highly fluctuating conditions?

Author

Escoriza, Daniel and Ben Hassine, Jihene

Subjects

*NEWTS, *ECOLOGICAL niche, *HABITATS, *ATMOSPHERIC temperature, *AMPHIBIANS, *HIGH temperatures

Abstract

Ribbed newts (genus Pleurodeles) are among the few species of amphibians present in open, dry and warm southern Mediterranean habitats. However, the factors that determine the presence of these species in such xeric environments remain poorly understood. We characterised the microhabitat niches of the three species of the genus (P. nebulosus, P. poireti and P. waltl). We used temperature–humidity probes and described the variation in the vegetative composition of their habitats. We found that the three species of this genus use sparsely vegetated habitats, exposed to high seasonal temperatures (above 35°C) and to broad intra-annual fluctuations in air temperature and humidity. The capacity of the three species to occupy microclimatically fluctuating environments explains why these urodeles are broadly distributed in disturbed landscapes in southern Mediterranean regions, where no other species of urodeles occur. Ribbed newts are highly adaptable to changing environments, which is advantageous under highly unstable Mediterranean hydrological regimes. [ABSTRACT FROM AUTHOR]

Published

2023

18. Survived the Glaciations, Will They Survive the Fish? Allochthonous Ichthyofauna and Alpine Endemic Newts: A Road Map for a Conservation Strategy.

Author

Bernabò, Ilaria, Iannella, Mattia, Cittadino, Viviana, Corapi, Anna, Romano, Antonio, Andreone, Franco, Biondi, Maurizio, Gallo Splendore, Marcellino, and Tripepi, Sandro

Subjects

*NEWTS, *ROAD maps, *GLACIATION, *BODY size, *HISTORIC sites, *WETLANDS

Abstract

Simple Summary: In Italy, there is a growing concern over the survival of an endemic subspecies of newt, Ichthyosaura alpestris inexpectata, commonly known as the Calabrian Alpine newt, due to the recent fish introduction and acclimatisation into three of the few localised lentic habitats where this glacial relict occurs. Results of a recent survey focused on this rare endemic taxon are presented. We provide updated information on the Calabrian Alpine newt distribution, adding two new localities, documenting local extinction at a few historical sites, providing a rough estimation of population size, and giving a description of breeding habitat features. The results of our pilot study will facilitate future research activities, conservation measures for the amphibian assemblage, and habitat management after fish introduction in the Natura 2000 site. We also pinpoint some actions useful to avoid the extinction of this remarkable taxon. The Calabrian Alpine newt (Ichthyosaura alpestris inexpectata) is a glacial relict with small and extremely localised populations in the Catena Costiera (Calabria, Southern Italy) and is considered to be "Endangered" by the Italian IUCN assessment. Climate-induced habitat loss and recent fish introductions in three lakes of the Special Area of Conservation (SAC) Laghi di Fagnano threaten the subspecies' survival in the core of its restricted range. Considering these challenges, understanding the distribution and abundance of this newt is crucial. We surveyed the spatially clustered wetlands in the SAC and neighbouring areas. First, we provide the updated distribution of this subspecies, highlighting fish-invaded and fishless sites historically known to host Calabrian Alpine newt populations and two new breeding sites that have been recently colonised. Then, we provide a rough estimate of the abundance, body size and body condition of breeding adults and habitat characteristics in fish-invaded and fishless ponds. We did not detect Calabrian Alpine newts at two historically known sites now invaded by fish. Our results indicate a reduction in occupied sites and small-size populations. These observations highlight the need for future strategies, such as fish removal, the creation of alternative breeding habitats and captive breeding, to preserve this endemic taxon. [ABSTRACT FROM AUTHOR]

Published

2023

19. Cryptic but direct costs of an epidemic caused by Batrachochytrium dendrobatidis in the endangered Sardinian newt Euproctus platycephalus (Amphibia, Caudata).

Author

Tessa, Giulia, Sotgiu, Giuseppe, Bovero, Stefano, Angelini, Claudio, Favelli, Marco, Gazzaniga, Enrico, Giacoma, Cristina, and Garner, Trenton W.J.

Subjects

*BATRACHOCHYTRIUM dendrobatidis, *AMPHIBIANS, *SALAMANDERS, *DIRECT costing, *NEWTS

Abstract

Parasites can directly affect host survival by causing cryptic costs that may occur in species when mortality does not take place or is less evident. Costs can be present in differently life history stages or age cohorts or cause age-dependent effects. Here we investigate the effects of chytridiomycete fungus Batrachochytrium dendrobatidis , (Bd), that causes one of the main infectious diseases implicated in numerous mass mortalities and population declines in the class of Amphibia, including in one of the rarest and most threatened salamander in Europe, the endemic Sardinian brook newt Euproctus platycephalus. This species is known to be infected by Bd since 2006, without evident direct cost or mass mortality events being observed. During 5 years of sampling (2007-2011), we captured 273 newts in the main infected area of the Limbara Mountain in the North of Sardinia, and, through epidemiological and age analyzes, we assess that Bd directly affected juvenile recruitment, and it is related to difficulties in the development of the species, with an impact on the females growth. [ABSTRACT FROM AUTHOR]

Published

2023

20. Salamanders reveal novel trajectories of amphibian MHC evolution.

Author

Minias, Piotr, Palomar, Gemma, Dudek, Katarzyna, and Babik, Wiesław

Subjects

*MAJOR histocompatibility complex, *T cell receptors, *SALAMANDERS, *LIFE history theory, *AMPHIBIANS, *SPECIES, *VERTEBRATES

Abstract

Genes of the major histocompatibility complex (MHC) code for immune proteins that are crucial for pathogen recognition in vertebrates. MHC research in nonmodel taxa has long been hampered by its genomic complexity that makes the locus‐specific genotyping challenging. The recent progress in sequencing and genotyping methodologies allows an extensive phylogenetic coverage in studies of MHC evolution. Here, we analyzed the peptide‐binding region of MHC class I (MHC‐I) in 30 species of salamanders from six families representative of Urodela phylogeny. This extensive dataset revealed an extreme diversity of MHC‐I in salamanders, both in terms of sequence diversity (about 3000 variants) and architecture (2–22 gene copies per species). The signal of positive selection was moderate and consistent between both peptide‐binding domains, but varied greatly between genera. Positions of positively selected sites mostly coincided with human peptide‐binding sites, suggesting similar structural properties of MHC‐I molecules across distant vertebrate lineages. Finally, we provided evidence for the common intraexonic recombination at MHC‐I and for the role of life history traits in the processes of MHC‐I expansion/contraction. Our study revealed novel evolutionary trajectories of amphibian MHC and it contributes to the understanding of the mechanisms that generated extraordinary MHC diversity throughout vertebrate evolution. [ABSTRACT FROM AUTHOR]

Published

2022

21. A new terrestrial species of Chiropterotriton (Caudata: Plethodontidae) from central Mexico.

Author

García-Castillo, Mirna G, Rovito, Sean M, Wake, David B, and Parra-Olea, Gabriela

Subjects

Animals, Urodela, DNA, Mitochondrial, Bayes Theorem, Phylogeny, Mexico, Reptilia, salamanders, bolitogossines, morphology, taxonomy, Hidalgo, salamanders, bolitogossines, morphology, taxonomy, Hidalgo, DNA, Mitochondrial, Reptilia, Zoology, Evolutionary Biology

Abstract

Chiropterotriton is a relatively small genus that comprises 15 species with great morphological and ecological diversity. In previous studies, molecular data provided evidence for a considerable number of species that remain undescribed. In this study, we describe one new species, Chiropterotriton chico sp. nov. based on molecular and morphological characters. We present mtDNA phylogenetic analyses using Bayesian inference and maximum likelihood that include all described and several undescribed species. Morphometric data from eight recognized species provide evidence for the distinctiveness of the new taxon. Description of this new species adds to the already high salamander diversity of the state of Hidalgo, which is an important area for the diversification of the genus.

Published

2017

22. Biogeographic history of Palearctic caudates revealed by a critical appraisal of their fossil record quality and spatio-temporal distribution

Author

Loredana Macaluso, Philip D. Mannion, Susan E. Evans, Giorgio Carnevale, Sara Monti, Domenico Marchitelli, and Massimo Delfino

Subjects

amphibians, sampling biases, Urodela, Eurasia, salamanders, Science

Abstract

The disjunct geographical range of many lineages of caudates points to a complex evolutionary and biogeographic history that cannot be disentangled by only considering the present-day distribution of salamander biodiversity. Here, we provide a critical reappraisal of the published fossil record of caudates from the Palearctic and quantitatively evaluate the quality of the group's fossil record. Stem-Urodela and Karauridae were widespread in the Palearctic in the Middle Jurassic, suggesting an earlier, unsampled diversification for this group. Cryptobranchidae reached Europe no later than the Oligocene, but this clade was subsequently extirpated from this continent, as well as from western and central Asia. The relatively recent appearance of hynobiids in the fossil record (Early Miocene) is most likely an artefact of a taphonomic bias against the preservation of high-mountain, stream-type environments which early members likely inhabited. Salamandroids first appear in Europe, expanding into Asia by the Miocene. The apparently enigmatic and disjunct distribution of extant caudate lineages is therefore explained by a wider past geographical range, as testified by the fossil record, which was fragmented during the late Cenozoic by a combination of tectonic (i.e. the uplift of the Tibetan Plateau) and climatic drivers, resulting in regional extirpations.

Published

2022

23. Miocene and Pliocene amphibians from Hambach (Germany) : New evidence for a late Neogene refuge in northwestern Europe

Author

Villa, Andrea, Macaluso, Loredana, Mörs, Thomas, Villa, Andrea, Macaluso, Loredana, and Mörs, Thomas

Abstract

The Hambach lignite mine in northwestern Germany is a renowned fossil locality, which has yielded remains of several vertebrates dated back to the Middle Miocene and the Late Pliocene. Among these is a recently-described and peculiar proteid urodele, Euronecturus grogu, currently known only from the Middle Miocene level in Hambach. Here, we provide detailed descriptions and identifications of the remaining fossil amphibians (both urodeles and anurans) from the Hambach mine, in total identifying at indet., Pelobatidae indet., Hyla sp., Pelophylax sp., Rana sp.) and at least nine Late Ranidae indet.). The high diversity of amphibians in both Miocene and Pliocene levels at Hambach supports a very humid climate persisting in the area for most of the Neogene, possibly originating a refugium for these animals in northwestern Europe that persisted until the Late Pliocene (and possibly even the Early Pleistocene). Urodeles such as Palaeoproteus and Mioproteus and anurans such as Latonia, the palaeobatrachids, and possibly Eopelobates are all significant occurrences in such a northern latitude at the end of the Pliocene, a period when southward withdrawal of thermophilic animals as well as the first effects of a deteriorizing climate ultimately leading to the Quaternary glaciation had already started in the European continent.

Published

2024

24. Enlarged Multilocus Data set Provides Surprisingly Younger Time of Origin for the Plethodontidae, the Largest Family of Salamanders

Author

Shen, Xing-Xing, Liang, Dan, Chen, Meng-Yun, Mao, Rong-Li, Wake, David B, and Zhang, Peng

Subjects

Clinical Research, Genetics, Animal Distribution, Animals, Molecular Sequence Data, North America, Phylogeny, Sequence Analysis, DNA, Time, Urodela, Dispersal, molecular dating, paleogeography, phylogenomics, species tree, timetree, Evolutionary Biology

Abstract

Deep phylogenetic relationships of the largest salamander family Plethodontidae have been difficult to resolve, probably reflecting a rapid diversification early in their evolutionary history. Here, data from 50 independent nuclear markers (total 48,582 bp) are used to reconstruct the phylogeny and divergence times for plethodontid salamanders, using both concatenation and coalescence-based species tree analyses. Our results robustly resolve the position of the enigmatic eastern North American four-toed salamander (Hemidactylium) as the sister taxon of Batrachoseps + Tribe Bolitoglossini, thus settling a long-standing question. Furthermore, we statistically reject sister taxon status of Karsenia and Hydromantes, the only plethodontids to occur outside the Americas, leading us to new biogeographic hypotheses. Contrary to previous long-standing arguments that plethodontid salamanders are an old lineage originating in the Cretaceous (more than 90 Ma), our analyses lead to the hypothesis that these salamanders are much younger, arising close to the K-T boundary (~66 Ma). These time estimates are highly stable using alternative calibration schemes and dating methods. Our data simulation highlights the potential risk of making strong arguments about phylogenetic timing based on inferences from a handful of nuclear genes, a common practice. Based on the newly obtained timetree and ancestral area reconstruction results, we argue that (i) the classic "Out of Appalachia" hypothesis of plethodontid origins is problematic; (ii) the common ancestor of extant plethodontids may have originated in northwestern North America in the early Paleocene; (iii) origins of Eurasian plethodontids likely result from two separate dispersal events from western North America via Beringia in the late Eocene (~42 Ma) and the early Miocene (~23 Ma), respectively.

Published

2016

25. The Arsenal of Bioactive Molecules in the Skin Secretion of Urodele Amphibians

Author

Ana L. A. N. Barros, Abdelaaty Hamed, Mariela Marani, Daniel C. Moreira, Peter Eaton, Alexandra Plácido, Massuo J. Kato, and José Roberto S. A. Leite

Subjects

amphibians, urodela, bioactive molecules, peptides, alkaloids, Therapeutics. Pharmacology, RM1-950

Abstract

Urodele amphibians (∼768 spp.), salamanders and newts, are a rich source of molecules with bioactive properties, especially those isolated from their skin secretions. These include pharmacological attributes, such as antimicrobial, antioxidant, vasoactive, immune system modulation, and dermal wound healing activities. Considering the high demand for new compounds to guide the discovery of new drugs to treat conventional and novel diseases, this review summarizes the characteristics of molecules identified in the skin of urodele amphibians. We describe urodele-derived peptides and alkaloids, with emphasis on their biological activities, which can be considered new scaffolds for the pharmaceutical industry. Although much more attention has been given to anurans, bioactive molecules produced by urodeles have the potential to be used for biotechnological purposes and stand as viable alternatives for the development of therapeutic agents.

Published

2022

26. Habitat Management of the Endemic and Critical Endangered Montseny Brook Newt (Calotriton arnoldi).

Author

Guinart, Daniel, Solórzano, Sònia, Amat, Fèlix, Grau, Jordina, Fernández-Guiberteau, Daniel, and Montori, Albert

Subjects

SCIENTIFIC knowledge, NEWTS, BIOSPHERE reserves, WATER withdrawals, FOREST restoration, SPECIES, ENDANGERED species

Abstract

Calotriton arnoldi is an endemic amphibian inhabiting Montseny Natural Park and Biosphere Reserve (PNRBM), listed as "critically endangered (CR)" by IUCN. At the end of 2016, the Life Tritó del Montseny (LIFETM) project (LIFE15 NAT/ES/000757) was launched. The aim of the project was to promote around fifty actions to ensure the conservation of C. arnoldi and its natural habitat, and this entailed five strategic lines: (1) Increasing the scientific and technical knowledge with regard to C. arnoldi's conservation status and its habitat management. (2) Expanding its geographic distribution. (3) Involving and engaging stakeholders in the conservation of the Montseny brook newt. (4) Eliminating or minimizing threats that exist in the riparian habitat. (5) Establishing proper legal coverage and defining long-term strategic planning. The successes and failures experienced throughout the process provide us with essential information that will enable us to develop an adaptive management of the habitat. In order to eliminate or minimize threats to the newt's habitat, some of the actions that are currently being carried out are: (a) Land acquisitions and land exchanges with private properties. (b) Land stewardship procedures, with two custody agreements being signed. (c) Reduction of water withdrawal with nine water catchments and distribution being remodeled. (d) Improvement of water treatments and storage by installing ecological wastewater treatment facilities. (e) Ensuring ecological connectivity and riparian forest restoration. Here, we present an evaluation of the actions carried out to improve the habitat of this species, including the necessary considerations for them to be implemented correctly and to be successful in a natural area, which is under public-private management. [ABSTRACT FROM AUTHOR]

Published

2022

27. The Arsenal of Bioactive Molecules in the Skin Secretion of Urodele Amphibians.

Author

Barros, Ana L. A. N., Hamed, Abdelaaty, Marani, Mariela, Moreira, Daniel C., Eaton, Peter, Plácido, Alexandra, Kato, Massuo J., and Leite, José Roberto S. A.

Subjects

AMPHIBIANS, MOLECULES, SECRETION, IMMUNOREGULATION, SALAMANDERS, WOUND healing, ISOQUINOLINE alkaloids

Abstract

Urodele amphibians (∼768 spp.), salamanders and newts, are a rich source of molecules with bioactive properties, especially those isolated from their skin secretions. These include pharmacological attributes, such as antimicrobial, antioxidant, vasoactive, immune system modulation, and dermal wound healing activities. Considering the high demand for new compounds to guide the discovery of new drugs to treat conventional and novel diseases, this review summarizes the characteristics of molecules identified in the skin of urodele amphibians. We describe urodele-derived peptides and alkaloids, with emphasis on their biological activities, which can be considered new scaffolds for the pharmaceutical industry. Although much more attention has been given to anurans, bioactive molecules produced by urodeles have the potential to be used for biotechnological purposes and stand as viable alternatives for the development of therapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2022

28. An integrative approach to phylogeography: investigating the effects of ancient seaways, climate, and historical geology on multi-locus phylogeographic boundaries of the Arboreal Salamander (Aneides lugubris)

Author

Reilly, Sean B, Corl, Ammon, and Wake, David B

Subjects

Life on Land, Animals, Biodiversity, Biological Evolution, California, Climate Change, DNA, Mitochondrial, Gene Flow, Genetic Variation, Geology, Phylogeography, Urodela, Amphibians, Biogeography, Mitochondrial DNA, Nuclear loci

Abstract

BackgroundPhylogeography is an important tool that can be used to reveal cryptic biodiversity and to better understand the processes that promote lineage diversification. We studied the phylogeographic history of the Arboreal Salamander (Aneides lugubris), a wide-ranging species endemic to the California floristic province. We used multi-locus data to reconstruct the evolutionary history of A. lugubris and to discover the geographic location of major genetic breaks within the species. We also used species distribution modeling and comparative phylogeography to better understand the environmental factors that have shaped the genetic history of A. lugubris.ResultsWe found six major mitochondrial clades in A. lugubris. Nuclear loci supported the existence of at least three genetically distinct groups, corresponding to populations north of the San Francisco Bay and in the Sierra Nevada, in the Santa Cruz Mountains, and in the central coast and southern California. All of the genetic breaks in mitochondrial and nuclear loci corresponded to regions where historical barriers to dispersal have been observed in other species. Geologic or water barriers likely were the most important factors restricting gene flow among clades. Climatic unsuitability during glacial maximum may have contributed to the isolation of the mitochondrial clades in the central coast and southern California. A projection of our species distribution model to a future scenario with a moderate amount of climate change suggests that most of the range of A. lugubris will remain climatically suitable, but climatic conditions in the Sierra Nevada and low elevation areas in Southern California are likely to deteriorate.ConclusionsAneides lugubris contains substantial cryptic genetic diversity as a result of historical isolation of populations. At least two (and perhaps three) evolutionarily significant units in A. lugubris merit protection; all six mitochondrial clades should be considered as management units within the species.

Published

2015

29. Averting a North American biodiversity crisis

Author

Yap, Tiffany A, Koo, Michelle S, Ambrose, Richard F, Wake, David B, and Vredenburg, Vance T

Subjects

Prevention, Infectious Diseases, Infection, Good Health and Well Being, Life on Land, Animals, Biodiversity, Chytridiomycota, Communicable Diseases, Emerging, Endangered Species, Extinction, Biological, Mycoses, United States, Urodela, Virulence, General Science & Technology

Abstract

A newly described pathogen poses a major threat to salamanders via trade

Published

2015

30. BIODIVERSITY. Averting a North American biodiversity crisis.

Author

Yap, Tiffany A, Koo, Michelle S, Ambrose, Richard F, Wake, David B, and Vredenburg, Vance T

Subjects

Animals, Urodela, Chytridiomycota, Communicable Diseases, Emerging, Mycoses, Biodiversity, Virulence, United States, Extinction, Biological, Endangered Species, Communicable Diseases, Emerging, Extinction, Biological, General Science & Technology

Published

2015

31. Inducing Vertebrate Limb Regeneration: A Review of Past Advances and Future Outlook

Author

Devon Davidian and Michael Levin

Subjects

Mammals, Life span, medicine.medical_treatment, Regeneration (biology), Vertebrate, Urodela, Extremities, Biology, Regenerative medicine, General Biochemistry, Genetics and Molecular Biology, Amputation, biology.animal, Vertebrates, medicine, Animals, Limb loss, Neuroscience

Abstract

Limb loss due to traumatic injury or amputation is a major biomedical burden. Many vertebrates exhibit the ability to form and pattern normal limbs during embryogenesis from amorphous clusters of precursor cells, hinting that this process could perhaps be activated later in life to rebuild missing or damaged limbs. Indeed, some animals, such as salamanders, are proficient regenerators of limbs throughout their life span. Thus, research over the last century has sought to stimulate regeneration in species that do not normally regenerate their appendages. Importantly, these efforts are not only a vital aspect of regenerative medicine, but also have fundamental implications for understanding evolution and the cellular control of growth and form throughout the body. Here we review major recent advances in augmenting limb regeneration, summarizing the degree of success that has been achieved to date in frog and mammalian models using genetic, biochemical, and bioelectrical interventions. While the degree of whole limb repair in rodent models has been modest to date, a number of new technologies and approaches comprise an exciting near-term road map for basic and clinical progress in regeneration.

Published

2024

32. Urodela

Author

Vonk, Jennifer, editor and Shackelford, Todd K., editor

Published

2022

33. Coevolution between MHC Class I and Antigen-Processing Genes in Salamanders.

Author

Palomar, Gemma, Dudek, Katarzyna, Migalska, Magdalena, Arntzen, J W, Ficetola, G Francesco, Jelić, Dušan, Jockusch, Elizabeth, Martínez-Solano, Inigo, Matsunami, Masatoshi, Shaffer, H Bradley, Vörös, Judit, Waldman, Bruce, Wielstra, Ben, and Babik, Wiesław

Subjects

ANTIGENS, MAJOR histocompatibility complex genetics, IMMUNOGENETICS, MAMMAL genetics

Abstract

Proteins encoded by antigen-processing genes (APGs) provide major histocompatibility complex (MHC) class I (MHC-I) with antigenic peptides. In mammals, polymorphic multigenic MHC-I family is served by monomorphic APGs, whereas in certain nonmammalian species both MHC-I and APGs are polymorphic and coevolve within stable haplotypes. Coevolution was suggested as an ancestral gnathostome feature, presumably enabling only a single highly expressed classical MHC-I gene. In this view coevolution, while optimizing some aspects of adaptive immunity, would also limit its flexibility by preventing the expansion of classical MHC-I into a multigene family. However, some nonmammalian taxa, such as salamanders, have multiple highly expressed MHC-I genes, suggesting either that coevolution is relaxed or that it does not prevent the establishment of multigene MHC-I. To distinguish between these two alternatives, we use salamanders (30 species from 16 genera representing six families) to test, within a comparative framework, a major prediction of the coevolution hypothesis: the positive correlation between MHC-I and APG diversity. We found that MHC-I diversity explained both within-individual and species-wide diversity of two APGs, TAP1 and TAP2 , supporting their coevolution with MHC-I , whereas no consistent effect was detected for the other three APGs (PSMB8 , PSMB9 , and TAPBP). Our results imply that although coevolution occurs in salamanders, it does not preclude the expansion of the MHC-I gene family. Contrary to the previous suggestions, nonmammalian vertebrates thus may be able to accommodate diverse selection pressures with flexibility granted by rapid expansion or contraction of the MHC-I family, while retaining the benefits of coevolution between MHC-I and TAPs. [ABSTRACT FROM AUTHOR]

Published

2021

34. Osteological Variation among Extreme Morphological Forms in the Mexican Salamander Genus Chiropterotriton (Amphibia: Plethodontidae): Morphological Evolution And Homoplasy.

Author

Darda, David M and Wake, David B

Subjects

Animals, Urodela, Genetic Variation, Biological Evolution, BRII recipient: Wake, General Science & Technology

Abstract

Osteological variation is recorded among and within four of the most distinctive species of the Mexican salamander genus Chiropterotriton. Analysis of the data is consistent with the monophyletic status of the genus and documents previously unrecorded intraspecific and interspecific variation. Most of the recorded variation involves qualitative and quantitative proportional differences, but four fixed differences constitute autapomorphic states that affirm and diagnose some species (C. dimidiatus, C. magnipes). Osteological variation in 15 characters is analyzed with respect to predictions generated from four hypotheses: 1) phylogeny, 2) adaptation to specific habitats (the four species include cave-dwelling, terrestrial, and arboreal forms), 3) size-free shape, and 4) size. High levels of intraspecific variation suggest that the characters studied are not subject to rigid functional constraints in salamanders, regardless of size. The pattern predicted by the hypothesis based on size differences seen among these four Chiropterotriton species matches most closely the observed pattern of relative skull robustness. Since size change and heterochrony are often associated in plethodontid evolution, it is likely that changes in developmental timing play a role in the morphological transitions among these morphologically diverse taxa. Webbed feet, miniaturization, body shape, and an unusual tarsal arrangement are morphologies exhibited in species of Chiropterotrition that are shown to be homoplastic with other clades of tropical plethodontids. Although extensive homoplasy in salamanders might be seen as a roadblock to unraveling phylogenetic hypotheses, the homologous developmental systems that appear to underlie such homoplasy may reveal common and consistent evolutionary processes at work.

Published

2015

35. Microbial community dynamics and effect of environmental microbial reservoirs on red-backed salamanders (Plethodon cinereus).

Author

Loudon, Andrew H, Woodhams, Douglas C, Parfrey, Laura Wegener, Archer, Holly, Knight, Rob, McKenzie, Valerie, and Harris, Reid N

Subjects

Skin, Animals, Urodela, Bacteria, Chytridiomycota, Mycoses, RNA, Ribosomal, 16S, Soil Microbiology, Biodiversity, Bacterial Physiological Phenomena, Microbial Interactions, amphibians, bacterial reservoirs, Batrachochytrium dendrobatidis, community dynamics, host-bacteria interactions, symbiosis, Microbiology, Environmental Sciences, Biological Sciences, Technology

Abstract

Beneficial cutaneous bacteria on amphibians can protect against the lethal disease chytridiomycosis, which has devastated many amphibian species and is caused by the fungus Batrachochytrium dendrobatidis. We describe the diversity of bacteria on red-backed salamanders (Plethodon cinereus) in the wild and the stability of these communities through time in captivity using culture-independent Illumina 16S rRNA gene sequencing. After field sampling, salamanders were housed with soil from the field or sterile media. The captive conditions led to different trajectories of bacterial communities. Eight OTUs present on >90% of salamanders in the field, through time, and in both treatments were defined as the core community, suggesting that some bacteria are closely associated with the host and are independent of an environmental reservoir. One of these taxa, a Pseudomonas sp., was previously cultured from amphibians and found to be antifungal. As all host-associated bacteria were found in the soil reservoir, environmental microbes strongly influence host-microbial diversity and likely regulate the core community. Using PICRUSt, an exploratory bioinformatics tool to predict gene functions, we found that core skin bacteria provided similar gene functions to the entire community. We suggest that future experiments focus on testing whether core bacteria on salamander skin contribute to the observed resistance to chytridiomycosis in this species even under hygenic captive conditions. For disease-susceptible hosts, providing an environmental reservoir with defensive bacteria in captive-rearing programs may improve outcomes by increasing bacterial diversity on threatened amphibians or increasing the likelihood that defensive bacteria are available for colonization.

Published

2014

36. Left–Right Specification in the Embryonic and Larval Development of Amphibians

Author

Toyoizumi, Ryuji, Mogi, Kazue, Asami, Takahiro, Series Editor, Kajihara, Hiroshi, Series Editor, Kobayashi, Kazuya, Series Editor, Koizumi, Osamu, Series Editor, Motokawa, Masaharu, Series Editor, Naruse, Kiyoshi, Series Editor, Satoh, Akiko, Series Editor, Takamune, Kazufumi, Series Editor, Takeuchi, Hideaki, Series Editor, Yoshikuni, Michiyasu, Series Editor, Kitano, Takeshi, editor, Iwao, Yasuhiro, editor, and Kondo, Mariko, editor

Published

2018

37. Ontogenetic Changes of the Aquatic Food Uptake Mode in the Danube Crested Newt (Triturus dobrogicus Kiritzescu 1903)

Author

Nikolay Natchev, Kristina Yordanova, Sebastian Topliceanu, Teodora Koynova, Dimitar Doichev, and Dan Cogălniceanu

Subjects

locomotion, feeding, coordination, larvae, water-land transition, urodela, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The study of the feeding mechanisms in vertebrates requires an integrative approach since the feeding event consists of a chain of behaviors. In the present study we investigated the food uptake behavior in different ontogenetic stages in the Danube crested newt (Triturus dobrogicus). We focused on the coordination in the kinematics of the elements of the locomotor and the feeding systems at the transition between the approach of the newt to the prey and the food uptake start. In the feeding strategy of the larvae of T. dobrogicus, the phase of food search is replaced by an initial “food detection phase.” In both larvae and adult specimens, the animals approached the food to a close distance by a precise positioning of the snout besides the food item. The larvae were able to reach food items offered at over 80° relative to the longitudinal midline of the head. When the food was offered at a large distance or laterally, the food uptake was either not successful or the coordination chain at the transition between food approach and food uptake was interrupted. In young larvae we detected an abrupt change in the activity of the locomotor system and the feeding system. The larvae approached the food by tail undulation and after reaching the final position of attack, no further activity of the locomotor apparatus was detectable. The larvae used a pure form of inertial suction to ingest food. In pre-metamorphic larvae and adults we registered an integrated activation of the locomotor apparatus (both limbs and tail) and the feeding apparatus during prey capture in the form of compensatory suction. The drastic change in the feeding mode of the pre-metamorphotic larvae and the adults compared to the younger larvae in T. dobrogicus may indicate the evolutionary development of a defined relation in the activity of the locomotor system and the control of the feeding apparatus. We propose that in newts, the interaction between the control execution in both systems switched from successive (body movement – feeding) into integrated (body movement – body movement and feeding) during the ontogeny. The main trigger for such a switch (at least in T. dobrogicus) is the formation of functional limbs during the late larval development.

Published

2021

38. Baculovirus Production and Infection in Axolotls

Author

Prayag, Murawala, Catarina R, Oliveira, Helena, Okulski, Maximina H, Yun, and Elly M, Tanaka

Subjects

Ambystoma mexicanum, Animals, Genetically Modified, Animals, Urodela, Baculoviridae

Abstract

Salamanders have served as an excellent model for developmental and tissue regeneration studies. While transgenic approaches are available for various salamander species, their long generation time and expensive maintenance have driven the development of alternative gene delivery methods for functional studies. We have previously developed pseudotyped baculovirus (BV) as a tool for gene delivery in the axolotl (Oliveira et al. Dev Biol 433(2):262-275, 2018). Since its initial conception, we have refined our protocol of BV production and usage in salamander models. In this chapter, we describe a detailed and versatile protocol for BV-mediated transduction in urodeles.

Published

2024

39. Comparative morphological analysis during larval development of three syntopic newt species (Urodela: Salamandridae)

Author

I. Bernabò and E. Brunelli

Subjects

Urodela, newt, larvae, normal development, staging tables, Zoology, QL1-991

Abstract

We provide comparative and updated staging tables for the larvae of three syntopic newt species – Triturus carnifex, Lissotriton italicus and Ichthyosaura alpestris inexpectatus –living in Calabria. A detailed description, stage by stage, of the full larval period until completion of metamorphosis is furnished, accompanied by photographic tables of the most important stages. The appearance of the most prominent and easily identifiable morphological features (i.e. development of gills, balancers and limbs; and body pigmentation), and length, have been used as staging criteria. Ontogenic development in the three considered species is compared with that of other Caudata species. For the three newt species, we also performed a comparative analysis of the developmental larval phases, emphasising the shared and species-specific features. The present descriptive study adds comparative information on distinctive morphological traits that may be useful for the recognition of newts during larval ontogeny and, in some cases, when sampling in the field.

Published

2019

40. On the distribution of Bolitoglossa altamazonica and B. peruviana (Caudata: Plethodontidae) in the Peruvian Amazon with observations on their ecology and conservation

Author

Axel Hernandez

Subjects

Bolitoglossa, conservation, cryptic biodiversity, ecology, Peruvian Amazon, Plethodontidae, South America, Urodela, Geography. Anthropology. Recreation

Abstract

We report ecological observations of Bolitoglossa altamazonica and B. peruviana in the Peruvian Amazon with suggestions on their conservation. Two localities are provided for both species in one protected area, Allpahuyo-Mishana National Reserve and in Puerto Almendra near the city of Iquitos, northern Peru. A different type of B. altamazonica was also discovered in Allpahuyo-Mishana. It is similar to B. madeira with a reddish coloration on the dorsal parts. Another «grey» type was also reported living between Puno and Madre de Dios departments at higher elevations. However, all the specimens found through their range in Peru have shown colour variation which complicates species identification. New taxonomic studies are needed to confirm their status. The Peruvian salamanders appear to be semi-arboreal species living in primary unflooded terra firme rainforests near water bodies where humidity is high at lower elevations as previously reported (96–118 m a.s.l.). Despite most of the Bolitoglossa species occur in protected areas, a deadly threat was recently reported in frogs (Batrachochytridium dendrobatidis) that may cause loss of salamanders in Peru. For example during our field surveys we were unable to observe B. digitigrada. New assessments are urgently needed for the protection and conservation of Peruvian salamanders. Data on biology, ecology and environmental parameters are also lacking to really protect their microhabitats, and to establish suitable ex situ keeping and breeding programs with the difficult perspective of subsequent reintroduction.

Published

2018

41. Photopigment quenching is Ca2+ dependent and controls response duration in salamander L-cone photoreceptors

Author

Matthews, Hugh R and Sampath, Alapakkam P

Subjects

Biological Sciences, Medical Physiology, Biomedical and Clinical Sciences, Eye Disease and Disorders of Vision, Neurosciences, Adaptation, Ocular, Animals, Calcium, Calcium Signaling, Cells, Cultured, Feedback, Physiological, Retinal Cone Photoreceptor Cells, Retinal Pigments, Urodela, Physiology, Biochemistry and cell biology, Zoology, Medical physiology

Abstract

The time scale of the photoresponse in photoreceptor cells is set by the slowest of the steps that quench the light-induced activity of the phototransduction cascade. In vertebrate photoreceptor cells, this rate-limiting reaction is thought to be either shutoff of catalytic activity in the photopigment or shutoff of the pigment's effector, the transducin-GTP-phosphodiesterase complex. In suction pipette recordings from isolated salamander L-cones, we found that preventing changes in internal [Ca(2+)] delayed the recovery of the light response and prolonged the dominant time constant for recovery. Evidence that the Ca(2+)-sensitive step involved the pigment itself was provided by the observation that removal of Cl(-) from the pigment's anion-binding site accelerated the dominant time constant for response recovery. Collectively, these observations indicate that in L-cones, unlike amphibian rods where the dominant time constant is insensitive to [Ca(2+)], pigment quenching rate limits recovery and provides an additional mechanism for modulating the cone response during light adaptation.

Published

2010

42. The post hoc measurement as a safe and reliable method to age and size plethodontid salamanders.

Author

Lunghi, Enrico, Giachello, Simone, Manenti, Raoul, Zhao, Yahui, Corti, Claudia, Ficetola, Gentile Francesco, and Bradley, Joseph Gavin

Subjects

*LUNGLESS salamanders, *WILDLIFE conservation, *RELIABILITY in engineering, *SALAMANDERS, *DATA quality, *AMPHIBIANS

Abstract

The worldwide biodiversity crisis with the resulting need to increase species protection has led researchers to pursue and select survey methods that guarantee the best quality of data and produce the least negative effects on wild animals. Plethodontids are the most diverse family of salamanders; all species are very sensitive to human handling and noninvasive, but accurate, measurement methods are needed to reduce researchers' impact. Here, we tested the reliability of a noninvasive post hoc method in estimating the snout–vent length (SVL) from photographs showing salamanders' dorsal view. The correlation between the estimated snout–vent length (SVLe) and the conventional SVL was high (R2m =.81), and no significant difference occurred between operators with different experience. Finally, we list the numerous advantages for the use of SVLe in terms of data quality and in reducing the stress caused to wild animals. [ABSTRACT FROM AUTHOR]

Published

2020

43. A review of the influence of beaver Castor fiber on amphibian assemblages in the floodplains of European temperate streams and rivers.

Author

Dalbeck, Lutz, Hachtel, Monika, and Campbell-Palmer, Róisín

Subjects

*EUROPEAN beaver, *AMPHIBIANS, *GEOGRAPHICAL distribution of amphibia, *FLOODPLAINS, *ANIMAL habitations, *ANIMAL species

Abstract

Once widespread throughout Eurasia and hunted nearly to extinction, the Eurasian beaver Castor fiber has returned to large parts of its former range, largely through active conservation measures. Beavers can substantially alter small, low order streams and their floodplains through dam construction, burrowing activities and tree felling. Therefore, it is presumed they can significantly influence amphibian distributions, species richness and numbers. We undertook a literature review to compare the available data addressing the effects of beaver dams on amphibians in streams of central temperate and boreal Europe. All 19 amphibian species occurring in the study region were found in beaver ponds, despite their distinctly different habitat requirements. Amphibian species acting as pioneers / early colonisers were under-represented in beaver ponds compared to typical forest species. Open country and ubiquitous species showed intermediate patterns. Beaver ponds in headwater streams often supported the entire spectrum of species occurring in the surrounding landscape, and species numbers in beaver modified headwater streams were comparable to those in floodplains of larger natural rivers. In small headwater streams, beavers tended to be the primary providers of essential habitat for amphibians. In contrast, beaver ponds in the floodplains of larger rivers appeared to have less effect and supported lower average species numbers compared to beaver ponds in headwater streams. We propose that beavers and their habitat creating activities are pivotal determinants of amphibian species richness in the headwater streams, which account for 60-80% of the water bodies in catchment areas in temperate Europe. By creating habitat for endangered amphibian species, beavers and their ability to modify habitats offer extensive opportunities to implement many aspects of the European Water Framework Directive across the continent and to restore amphibian habitats, contributing to their long-term conservation. [ABSTRACT FROM AUTHOR]

Published

2020

44. Finely tuned ciliary alignment and coordinated beating generate continuous water flow across the external gills in Pleurodeles waltl larvae.

Author

Ichikawa, Reico and Toyoizumi, Ryuji

Subjects

*HYDRAULICS, *GILLS, *CELL motility, *AMPHIBIAN larvae, *LARVAE

Abstract

Urodelan amphibian larvae develop three pairs of branching external gills on both sides of the pharyngeal region, and this study focuses on motile cilia on the gill surface. High-speed camera was used to observe ciliary strokes on the surface of the external gills of Pleurodeles waltl larvae. We found that the directionality of ciliary beating is position-dependent on the gill surface, and this rule is applicable to all the samples examined. For visualizing water flow around the external gills, we used bead suspensions. We revealed continuous anterior-to-posterior water flow generated by coordinated ciliary beating. Around the frontal surface of the gill stem (gill rachis), water flows countercurrent to the bloodstream beneath the gill epidermis. These results suggest that ciliary beating in each ciliated cell is coordinated, which cooperatively generates continuous and directional ciliary flow. We next visualized the overall distribution of ciliated cells on the gill surface by immunostaining of acetylated alpha-tubulin. Our results showed that the fine branches of external gills (fimbriae) have a circumferential distribution of cilia aligned orthogonal to the longitudinal axes of fimbriae, which facilitates water flow from proximal to the distal part of the fimbriae through the gills. This ciliary distribution pattern and directionality of cilia-driven flow are shared among five urodelan and two anuran species. Taken together, our findings suggest that the distribution and motility of ciliated cells on the surface of external gills is finely controlled, and this might support efficient respiration by the gills in urodeles. [ABSTRACT FROM AUTHOR]

Published

2020

45. Evolution of gigantism in amphiumid salamanders.

Author

Bonett, Ronald, Chippindale, Paul, Moler, Paul, Van Devender, R, and Wake, David

Subjects

Animals, Biological Evolution, Body Size, Genetic Variation, Geography, Likelihood Functions, Phylogeny, Time Factors, United States, Urodela

Abstract

The Amphiumidae contains three species of elongate, permanently aquatic salamanders with four diminutive limbs that append one, two, or three toes. Two of the species, Amphiuma means and A. tridactylum, are among the largest salamanders in the world, reaching lengths of more than one meter, whereas the third species (A. pholeter), extinct amphiumids, and closely related salamander families are relatively small. Amphiuma means and A. tridactylum are widespread species and live in a wide range of lowland aquatic habitats on the Coastal Plain of the southeastern United States, whereas A. pholeter is restricted to very specialized organic muck habitats and is syntopic with A. means. Here we present analyses of sequences of mitochondrial and nuclear loci from across the distribution of the three taxa to assess lineage diversity, relationships, and relative timing of divergence in amphiumid salamanders. In addition we analyze the evolution of gigantism in the clade. Our analyses indicate three lineages that have diverged since the late Miocene, that correspond to the three currently recognized species, but the two gigantic species are not each others closest relatives. Given that the most closely related salamander families and fossil amphiumids from the Upper Cretaceous and Paleocene are relatively small, our results suggest at least two extreme changes in body size within the Amphuimidae. Gigantic body size either evolved once as the ancestral condition of modern amphiumas, with a subsequent strong size reduction in A. pholeter, or gigantism independently evolved twice in the modern species, A. means and A. tridactylum. These patterns are concordant with differences in habitat breadth and range size among lineages, and have implications for reproductive isolation and diversification of amphiumid salamanders.

Published

2009

46. Habitat Management of the Endemic and Critical Endangered Montseny Brook Newt (Calotriton arnoldi)

Author

Daniel Guinart, Sònia Solórzano, Fèlix Amat, Jordina Grau, Daniel Fernández-Guiberteau, and Albert Montori

Subjects

urodela, salamandridae, caudata, biosphere reserve, habitat restoration, species management, Agriculture

Abstract

Calotriton arnoldi is an endemic amphibian inhabiting Montseny Natural Park and Biosphere Reserve (PNRBM), listed as “critically endangered (CR)” by IUCN. At the end of 2016, the Life Tritó del Montseny (LIFETM) project (LIFE15 NAT/ES/000757) was launched. The aim of the project was to promote around fifty actions to ensure the conservation of C. arnoldi and its natural habitat, and this entailed five strategic lines: (1) Increasing the scientific and technical knowledge with regard to C. arnoldi’s conservation status and its habitat management. (2) Expanding its geographic distribution. (3) Involving and engaging stakeholders in the conservation of the Montseny brook newt. (4) Eliminating or minimizing threats that exist in the riparian habitat. (5) Establishing proper legal coverage and defining long-term strategic planning. The successes and failures experienced throughout the process provide us with essential information that will enable us to develop an adaptive management of the habitat. In order to eliminate or minimize threats to the newt’s habitat, some of the actions that are currently being carried out are: (a) Land acquisitions and land exchanges with private properties. (b) Land stewardship procedures, with two custody agreements being signed. (c) Reduction of water withdrawal with nine water catchments and distribution being remodeled. (d) Improvement of water treatments and storage by installing ecological wastewater treatment facilities. (e) Ensuring ecological connectivity and riparian forest restoration. Here, we present an evaluation of the actions carried out to improve the habitat of this species, including the necessary considerations for them to be implemented correctly and to be successful in a natural area, which is under public-private management.

Published

2022

47. The dynamic range and domain-specific signals of intracellular calcium in photoreceptors.

Author

Szikra, T and Krizaj, D

Subjects

Animals, Antimycin A, Calcium, Calcium Channel Blockers, Calcium Channels, L-Type, Calcium Signaling, Calcium-Transporting ATPases, Cation Transport Proteins, Cones (Retina), Dose-Response Relationship, Drug, Drug Interactions, Extracellular Space, Immunohistochemistry, Models, Biological, Nifedipine, Photoreceptors, Plasma Membrane Calcium-Transporting ATPases, Potassium, Reaction Time, Rods (Retina), Urodela

Abstract

Vertebrate photoreceptors consist of strictly delimited subcellular domains: the outer segment, ellipsoid, cell body and synaptic terminal, each hosting crucial cellular functions, including phototransduction, oxidative metabolism, gene expression and transmitter release. We used optical imaging to explore the spatiotemporal dynamics of Ca2+ signaling in non-outer segment regions of rods and cones. Sustained depolarization, designed to emulate photoreceptor activation in the darkness, evoked a standing Ca2+ gradient in tiger salamander photoreceptors with spatially-averaged intracellular Ca2+ concentration within synaptic terminals of similar to 2 mu M and lower (similar to 750 nM) intracellular calcium concentration in the ellipsoid. Measurements from axotomized cell bodies and isolated ellipsoids showed that Ca2+ enters the two compartments via both local L-type Ca2+ channels and diffusion. The results from optical imaging studies were supported by immunostaining analysis. L-type voltage-operated Ca2+ channels and plasma membrane Ca2+ ATPases were highly expressed in synaptic terminals with progressively lower expression levels in the cell body and ellipsoid. These results show photoreceptor Ca2+ homeostasis is controlled in a region-specific manner by direct Ca2+ entry and diffusion as well as Ca2+ extrusion. Moreover, quantitative measurement of intracellular calcium concentration levels in different photoreceptor compartments indicates that the dynamic range of Ca2+ signaling in photoreceptors is approximately 40-fold, from similar to 50 nM in the light to similar to 2 mu M in darkness. (c) 2006 IBRO. Published by Elsevier Ltd. All rights reserved.

Published

2006

48. Environmentally Associated Variation in Dispersal Distance Affects Inbreeding Risk in a Stream Salamander

Author

Brett R, Addis and Winsor H, Lowe

Subjects

Reproduction, Animals, Urodela, Inbreeding, Ecology, Evolution, Behavior and Systematics

Abstract

Avoiding inbreeding is considered a key driver of dispersal evolution, and dispersal distances should be especially important in mediating inbreeding risk because the likelihood of mating with relatives decreases with dispersal distance. However, a lack of direct data on dispersal distances has limited empirical tests of this prediction, particularly in the context of the multiple selective forces that can influence dispersal. Using the headwater stream salamander

Published

2022

49. Cannabinoid CB1 receptors and ligands in vertebrate retina: Localization and function of an endogenous signaling system

Author

Straiker, Alex, Stella, Nephi, Piomelli, Daniele, Mackie, Ken, Karten, Harvey J, and Maguire, Greg

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Eye Disease and Disorders of Vision, Neurosciences, Animals, Calcium Channels, L-Type, Chickens, Ion Channel Gating, Macaca mulatta, Mice, Mice, Inbred C57BL, Photoreceptor Cells, Rats, Rats, Sprague-Dawley, Receptors, Cannabinoid, Receptors, Drug, Retina, Urodela

Abstract

CB1, a cannabinoid receptor enriched in neuronal tissue, was found in high concentration in retinas of rhesus monkey, mouse, rat, chick, goldfish, and tiger salamander by using a subtype-specific polyclonal antibody. Immunolabeling was detected in the two synaptic layers of the retina, the inner and outer plexiform layers, of all six species examined. In the outer plexiform layer, CB1 was located in and/or on cone pedicles and rod spherules. Labeling was detected in some amacrine cells of all species and in the ganglion cells and ganglion cell axons of all species except fish. In addition, sparse labeling was found in the inner and/or outer segments of the photoreceptors of monkey, mouse, rat, and chick. Using GC/MS to detect possible endogenous cannabinoids, we found 3 nmol of 2-arachidonylglycerol per g of tissue, but no anandamide was detectable. Cannabinoid receptor agonists induced a dramatic reduction in the amplitude of voltage-gated L-type calcium channel currents in identified retinal bipolar cells. The presence and distribution of the CB1 receptor, the large amounts of 2-arachidonylglycerol found, and the effects of cannabinoids on calcium channel activity in bipolar cells suggest a substantive role for an endogenous cannabinoid signaling system in retinal physiology, and perhaps vision in general.

Published

1999

50. Comparative morphological analysis during larval development of three syntopic newt species (Urodela: Salamandridae).

Author

Bernabò, I. and Brunelli, E.

Subjects

SALAMANDERS, SALAMANDRIDAE, NEWTS, COMPARATIVE studies, SPECIES, ONTOGENY

Abstract

We provide comparative and updated staging tables for the larvae of three syntopic newt species – Triturus carnifex, Lissotriton italicus and Ichthyosaura alpestris inexpectatus –living in Calabria. A detailed description, stage by stage, of the full larval period until completion of metamorphosis is furnished, accompanied by photographic tables of the most important stages. The appearance of the most prominent and easily identifiable morphological features (i.e. development of gills, balancers and limbs; and body pigmentation), and length, have been used as staging criteria. Ontogenic development in the three considered species is compared with that of other Caudata species. For the three newt species, we also performed a comparative analysis of the developmental larval phases, emphasising the shared and species-specific features. The present descriptive study adds comparative information on distinctive morphological traits that may be useful for the recognition of newts during larval ontogeny and, in some cases, when sampling in the field. [ABSTRACT FROM AUTHOR]

Published

2019