Your search keyword '"amphibian"' showing total 16,805 results

101. Polyphenism predicts actuarial senescence and lifespan in tiger salamanders.

Author

Cayuela, Hugo, Lackey, Alycia C. R., Ronget, Victor, Monod‐Broca, Benjamin, and Whiteman, Howard H.

Subjects

*AGING, *SALAMANDERS, *PHENOTYPIC plasticity, *SURVIVAL analysis (Biometry), *BIOLOGICAL fitness

Abstract

Actuarial senescence (called 'senescence' hereafter) often shows broad variation at the intraspecific level. Phenotypic plasticity likely plays a central role in among‐individual heterogeneity in senescence rate (i.e. the rate of increase in mortality with age), although our knowledge on this subject is still very fragmentary. Polyphenism—the unique sub‐type of phenotypic plasticity where several discrete phenotypes are produced by the same genotype—may provide excellent study systems to investigate if and how plasticity affects the rate of senescence in nature.In this study, we investigated whether facultative paedomorphosis influences the rate of senescence in a salamander, Ambystoma mavortium nebulosum. Facultative paedomorphosis, a unique form of polyphenism found in dozens of urodele species worldwide, leads to the production of two discrete, environmentally induced phenotypes: metamorphic and paedomorphic individuals. We leveraged an extensive set of capture–recapture data (8948 individuals, 24 years of monitoring) that were analysed using multistate capture–recapture models and Bayesian age‐dependent survival models.Multistate models revealed that paedomorphosis was the most common developmental pathway used by salamanders in our study system. Bayesian age‐dependent survival models then showed that paedomorphs have accelerated senescence in both sexes and shorter adult lifespan (in females only) compared to metamorphs. In paedomorphs, senescence rate and adult lifespan also varied among ponds and individuals. Females with good body condition and high lifetime reproductive success had slower senescence and longer lifespan. Late‐breeding females also lived longer but showed a senescence rate similar to that of early‐breeding females. Moreover, males with good condition had longer lifespan than males with poor body condition, although they had similar senescence rates. In addition, late‐breeding males lived longer but, unexpectedly, had higher senescence than early‐breeding males.Overall, our work provides one of the few empirical cases suggesting that environmentally cued polyphenism could affect the senescence of a vertebrate in nature, thus providing insights on the ecological and evolutionary consequences of developmental plasticity on ageing. [ABSTRACT FROM AUTHOR]

Published

2024

102. Molecular phylogeny of the family Rhabdiasidae (Nematoda: Rhabditida), with morphology, genetic characterization and mitochondrial genomes of Rhabdias kafunata and R. bufonis.

Author

Zeng, Jia-Lu, Chen, Hui-Xia, Ni, Xue-Feng, Kang, Jia-Yi, and Li, Liang

Subjects

*AMPHIBIANS, *MOLECULAR phylogeny, *RHABDITIDA, *MITOCHONDRIAL DNA, *TAPEWORMS, *NEMATODES, *AMINO acid sequence

Abstract

Background: The family Rhabdiasidae (Nematoda: Rhabditida) is a globally distributed group of nematode parasites, with over 110 species parasitic mainly in amphibians and reptiles. However, the systematic position of the family Rhabdiasidae in the order Rhabditida remains unsolved, and the evolutionary relationships among its genera are still unclear. Moreover, the present knowledge of the mitochondrial genomes of rhabdiasids remains limited. Methods: Two rhabdiasid species: Rhabdias kafunata Sata, Takeuchi & Nakano, 2020 and R. bufonis (Schrank, 1788) collected from the Asiatic toad Bufo gargarizans Cantor (Amphibia: Anura) in China, were identified based on morphology (light and scanning electron microscopy) and molecular characterization (sequencing of the nuclear 28S and ITS regions and mitochondrial cox1 and 12S genes). The complete mitochondrial genomes of R. kafunata and R. bufonis were also sequenced and annotated for the first time. Moreover, phylogenetic analyses based on the amino acid sequences of 12 protein-coding genes (PCGs) of the mitochondrial genomes were performed to clarify the systematic position of the family Rhabdiasidae in the order Rhabditida using maximum likelihood (ML) and Bayesian inference (BI). The phylogenetic analyses based on the 28S + ITS sequences, were also inferred to assess the evolutionary relationships among the genera within Rhabdiasidae. Results: The detailed morphology of the cephalic structures, vulva and eggs in R. kafunata and R. bufonis was revealed using scanning electron microscopy (SEM) for the first time. The characterization of 28S and ITS regions of R. kafunata was reported for the first time. The mitogenomes of R. kafunata and R. bufonis are 15,437 bp and 15,128 bp long, respectively, and both contain 36 genes, including 12 PCGs (missing atp8). Comparative mitogenomics revealed that the gene arrangement of R. kafunata and R. bufonis is different from all of the currently available mitogenomes of nematodes. Phylogenetic analyses based on the ITS + 28S data showed Neoentomelas and Kurilonema as sister lineages, and supported the monophyly of Entomelas, Pneumonema, Serpentirhabdias and Rhabdias. Mitochondrial phylogenomic results supported Rhabdiasidae as a member of the superfamily Rhabditoidea in the suborder Rhabditina, and its occurrance as sister to the family Rhabditidae. Conclusions: The complete mitochondrial genome of R. kafunata and R. bufonis were reported for the first time, and two new gene arrangements of mitogenomes in Nematoda were revealed. Mitogenomic phylogenetic results indicated that the family Rhabdiasidae is a member of Rhabditoidea in Rhabditina, and is closely related to Rhabditidae. Molecular phylogenies based on the ITS + 28S sequence data supported the validity of Kurilonema, and showed that Kurilonema is sister to Neoentomelas. The present phylogenetic results also indicated that the ancestors of rhabdiasids seem to have initially infected reptiles, then spreading to amphibians. [ABSTRACT FROM AUTHOR]

Published

2024

103. Pre‐loved home: Egg clutches of the striped marsh frog, Limnodynastes peronii, detected in water‐filled burrows created by the hunter hairy crayfish, Cherax setosus.

Author

Gould, John and Beranek, Chad

Subjects

*ANIMAL clutches, *CRAYFISH, *VERNAL pools, *FROGS, *PREDATORY aquatic animals, *BODIES of water

Abstract

Many animals create their own microhabitats that are not naturally present in the environment, such as nests and burrows, which are extended phenotypes that perform tasks related to survival and reproduction. Animals may be able to avoid the costs of implementing their own extended phenotypes by exploiting those already created by other species, including structures that are not actively in use or abandoned. Herein, we report on the striped marsh frog, Limnodynastes peronii, from Australia utilizing crayfish burrows for depositing their egg clutches. Field observations revealed large numbers of recently hatched L. peronii tadpoles in two flooded burrows likely created by the hunter hairy crayfish, Cherax setosus, near an ephemeral wetland pond on Kooragang Island, Australia that had partially dried. Our observations indicate that L. peronii may opportunistically exploit crayfish burrows which, when flooded, become suitable aquatic sites for breeding. These small waterbodies may provide fitness benefits to offspring, reducing exposure to aquatic predators found in naturally occurring aquatic systems but at the expense of increasing competition and cannibalism among confined siblings. These burrows may provide suitable microhabitat refuge during droughts, and breeding habitat for amphibians when other typical breeding habitats may not exist due to wetland drying. This is an example of an amphibian using an extended phenotype of a crustacean for the purposes of reproduction, revealing a unique interaction between these species that has not been reported. [ABSTRACT FROM AUTHOR]

Published

2024

104. Density-dependent performance of larval and juvenile toads: Implications for amphibian conservation.

Author

Weber, Tobias, Ozgul, Arpat, and Schmidt, Benedikt R.

Subjects

TADPOLES, AMPHIBIANS, LIFE history theory, TOADS, AMPHIBIAN populations, BUILDING design & construction, POPULATION dynamics, POPULATION viability analysis

Abstract

Density dependent carry-over effects from one life history stage to another can affect the dynamics of populations. Here we study such carry-over effects from the tadpole to the postmetamorphic juvenile stage in an endangered amphibian, the natterjack toad (Epidalea calamita). We raised tadpoles in outdoor aquatic mesocosms at four densities and assessed juvenile performance after metamorphosis in terrestrial mesocosms. High larval density reduced mass at metamorphosis by 50 % and doubled the length of the larval period. Survival was reduced at the high densities. Larger metamorphs had higher survival in terrestrial mesocosms and remained larger than cohort members at the end of the 30-day experiment. Because juvenile survival drives amphibian population dynamics, density-dependent carry-over effects to the juvenile stage are likely to affect population viability. We discuss the implications of the results for amphibian conservation practice, both pond construction programs and surveys of amphibian populations. [ABSTRACT FROM AUTHOR]

Published

2024

105. Informing the Conservation of Ephemerally Flooded Wetlands Using Hydrologic Regime and LiDAR-Based Habitat Assessments.

Author

Chandler, Houston C., McLaughlin, Daniel L., and Haas, Carola A.

Abstract

Integrated assessments of wetland hydrologic regimes and other environmental factors are key to understanding the ecology of species breeding in ephemerally flooded wetlands, and reproductive success is often directly linked to suitable flooding regimes, both temporally and spatially. We used high-resolution Light Detection and Ranging (LiDAR) data to develop bathymetric stage–flooded area relationships, predict spatial extent of flooding, and assess vegetation structure in 30 pine flatwoods wetlands. For a subset of wetlands with monitoring wells, we then integrated bathymetric and water level data to create multi-year time series of daily flooded areas. We then related the observed flooded areas to topographic and landscape metrics to develop models predicting flooded extents in wetlands without monitoring wells. We found that stage–area curves varied depending on wetland size and bathymetry, such that a one-cm increase in water depth could generate flooded area increases ranging from hundreds to thousands of square meters. Flooded areas frequently fragmented into discrete flooded patches as wetlands dried, and there was a weak positive correlation between hydroperiod and mean flooded area across multiple years (r = 0.32). To evaluate the utility of using LiDAR-derived data to support the conservation of wetland-breeding species, we combined metrics of flooding and vegetation to map potentially suitable habitat for the imperiled reticulated flatwoods salamander (Ambystoma bishopi). Overall, projects focusing on the ecology of wetland-breeding species could gain a broader understanding of habitat effects from coupled assessments of bathymetry, water level dynamics, and other wetland characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

106. The effects of two short-chain perfluoroalkyl carboxylic acids (PFCAs) on northern leopard frog (Rana pipiens) tadpole development.

Author

Rohonczy, Jillian, Robinson, Stacey A., Forbes, Mark R., De Silva, Amila O., Brinovcar, Cassandra, Bartlett, Adrienne J., and Gilroy, Ève A. M.

Subjects

TADPOLES, CARBOXYLIC acids, FLUOROALKYL compounds, FROGS, RANA, DIAGNOSTIC sex determination

Abstract

Short-chain perfluoroalkyl carboxylic acids (PFCAs) have been detected in the environment globally. The presence and persistence of these compounds in the environment may lead to chronic wildlife exposure. We used northern leopard frog (Rana pipiens) tadpoles to investigate the chronic toxicity and the bioconcentration of two short-chain PFCAs, perfluorobutanoic acid (PFBA) and perfluorohexanoic acid (PFHxA). We exposed Gosner stage 25 tadpoles to PFBA and PFHxA (as individual chemicals) at nominal concentrations of 0.1, 1, 10, 100, and 1000 µg/L for 43–46 days. Tadpoles exposed to 0.1 to 100 µg/L of PFBA and PFHxA had significantly higher mean snout-to-vent lengths, mean masses, and scaled mass indexes than control tadpoles. These results indicate that exposure to short-chain PFCAs influences tadpole growth. Further investigation into the mechanism(s) causing the observed changes in tadpole growth is warranted. We observed a significantly higher proportion of males in the PFBA 1 µg/L treatment group, however further histological analyses are required to confirm visual sex identification before making concrete conclusions on the effects of PFCAs on amphibian sex ratios. PFBA concentrations in tissues were higher than PFHxA concentrations; a pattern that contrasts with previously published studies using fish, suggesting potential differences between taxa in PFBA and PFHxA bioconcentration. Bioconcentration factors were <10 L/kg wet weight, indicating low bioconcentration potential in tadpoles. Our results suggest that PFBA and PFHxA may have effects at environmentally-relevant concentrations (0.1–10 µg/L) and further investigation is required before these compounds can be deemed a "safe" alternative to their long-chain counterparts. [ABSTRACT FROM AUTHOR]

Published

2024

107. The effects of preformed vitamin A and provitamin A carotenoid supplementation on tadpoles of the poison frog Phyllobates vittatus.

Author

Arkin, Rachel and Márquez, Roberto

Abstract

Understanding the nutritional requirements of captive animals is necessary for proper animal husbandry, however, the specific dietary requirements for many amphibian species commonly kept in captivity are unknown. Like most vertebrates, frogs cannot synthesize carotenoids and must therefore obtain these essential nutrients through diet. It is unclear if amphibians can cleave provitamin A carotenoids to form vitamin A metabolically within the body, so common practice is to supplement their captive diets with both preformed vitamin A and provitamin A carotenoids. We carried out a feeding experiment in tadpoles of Phyllobates vittatus, a commonly kept poison frog species, to test the effects of supplementing a fish flake diet with a provitamin A carotenoid (2.5 mg/g β‐carotene) and vitamin A (0.033–0.066 µg/mL retinyl acetate), both individually and in combination. Contrary to our expectations, supplementation had either no effect or adverse effects on tadpole growth and survivorship. Tadpoles reared under supplemented diets with vitamin A showed higher mortality rates, coupled with symptoms of hypervitaminosis A. Survivors had a smaller body size and mass at metamorphosis. β‐carotene supplementation alone had no detectable effect. The vitamin A and β‐carotene levels in our supplemented diet have been shown to be harmless or benefit tadpoles of other species, yet our results indicate that adding these amounts to what is found in a generalist fish flake mix can have detrimental effects on P. vittatus tadpoles. More broadly, this study highlights the importance of creating husbandry guidelines based on the specific physiological needs of the species (or species groups) being kept in captivity, rather than general ones for all amphibians, as is often done. [ABSTRACT FROM AUTHOR]

Published

2024

108. Does habitat modification impact morphology, performance, and inflammatory responses in an amphibian with limited dispersal capacity (Lisssotriton helveticus)?

Author

Soline Bettencourt‐Amarante, Robin Furet, Raphaëlle Abensur, and Anthony Herrel

Subjects

adaptation, amphibian, fragmentation, immunity, land‐use, locomotor performance, Ecology, QH540-549.5

Abstract

Abstract The environment of an organism exerts selective pressures that affect mobility, feeding, reproduction as well as predator–prey and conspecific interactions. Land use changes induced by human activities modify these selective pressures and may result in the adaptation of organisms. Amphibians are ectotherms that typically show a biphasic life cycle with an aquatic and terrestrial phase, which makes them particularly sensitive to environmental change. We studied the impact of habitat modifications on palmate newt populations in the Ile de France region across four types of habitats: urban, mixed, agricultural, and natural with at least two replicates for each habitat type. We measured the morphology of newts using callipers, quantified maximal running and swimming speed and acceleration using high‐speed video recordings, and quantified the swelling of the hind limb linked to an inflammatory reaction. Our results show that in urban habitats, newts are larger and heavier and have a better body condition. Females, moreover, have a larger head in natural habitats, possibly due to diet specialisation of females during the breeding season. In mixed and agricultural habitats, newts have longer limbs and show a tendency to run faster, possibly associated with the selective pressures on movement in mixed habitats. Differences in inflammatory responses were observed between sexes but not habitat types. Overall, our results show differences in morphology and trends for differences in performance in newts living in different habitats suggesting that animals are adapting to human‐induced changes in their environment.

Published

2024

109. Amphibians rise to flourishing under climate change on the Qinghai-Tibetan Plateau

Author

Fangfang He, Lu Liang, Huichun Wang, Aijing Li, Mencuo La, Yao Wang, Xiaoting Zhang, and Denglang Zou

Subjects

Amphibian, Climate change, Flourishing, Future distribution, The Qinghai-Tibetan Plateau, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Amphibian populations are declining globally due to climate change. However, the impacts on the geographic distribution of amphibians on the Qinghai-Tibetan Plateau (QTP), a global biodiversity hotspot with 112 species of amphibians that is sensitive to global climate change, remains unclear. In this study, MaxEnt and barycentre shift analyses were performed to reveal the impact of climate change on the potential future habitats of amphibians on the QTP using the BCC-CSM2-MR global climate model of the Coupled Model Intercomparison Projects Phase 6 (CMIP6) climate pattern with three shared socioeconomic pathways (SSP). In contrast to the widespread decline in the amphibian population, the future scenarios projected an increase in most amphibian habitats on the QTP, accompanied by migration to higher elevations or latitudes under three climatic projections (SSP 1–2.6, 3–7.0, and 5–8.5). Average annual precipitation was the most crucial environmental variable impacting the future distribution of amphibians. The findings indicate that amphibians would flourish under climate change on the QTP, which is of great significance for the protection of amphibians and biodiversity on the QTP.

Published

2024

110. First report of unusual case of parasitism by Amblyomma nodosum (Neumann, 1889) in a yellow cururu toad (Rhinella icterica) in the Northeastern Brazilian Caatinga

Author

Daniel Antônio Braga Lee, Darci Moraes Barros-Battesti, Paulo Vitor Cadina Arantes, Jovêncio Mateus Sada, Gustavo Seron Sanches, Marcos Rogério André, and Victor Fernando Santana Lima

Subjects

Tick, host, amphibian, Amblyomma nodosum, Animal culture, SF1-1100

Abstract

Abstract The Amblyomma genus (Arachnida: Ixodidae) is widely distributed in South America, with 34 species occurring in Brazil. Amblyomma nodosum Neumann 1889 is a species that predominantly feeds on Passeriformes during immature stages (larvae and nymphs) and anteaters (Myrmecophagidae) during adult stages. The aim of the present study is to report, for the first time, an unusual case of parasitism by adults of A. nodosum on a yellow cururu toad (Rhinella icterica) captured in the city of Nossa Senhora da Glória, Sergipe state (Northeastern Brazil) in the Caatinga biome, and also investigate the presence of DNA of Rickettsia in the collected material. DNA was extracted from all specimens collected (N=8) and subjected to PCR assays based on the tick 16S rRNA endogenous gene and gltA gene for Rickettsia sp. All samples (8/8; 100%) were positive for the 16S rRNA endogenous gene and two amplicons (obtained from one male and one female) were purified and sequenced. The BLASTn analysis of the sequences revealed a high degree of similarity (95-100%) with A. nodosum sequences previously deposited on GenBank, while the phylogenetic analysis clustered the sequences obtained in the same clade as A. nodosum sequences from Brazil.

Published

2024

111. Effects of traffic noise on calling activity of Aplastodiscus leucopygius (Anura, Hylidae)

Author

Beatriz Azevedo Cezila, Raoni Rebouças, and Cybele Sabino Lisboa

Subjects

Amphibian, Hylinae, anthropogenic noise, advertisement call, Atlantic Forest, Zoology, QL1-991

Abstract

Advertisement calls are the main communication form of anurans, and other individuals can use it to evaluate several aspects of the calling individual. In this context, environmental disturbances, such as traffic noise, can potentially affect this recognition. Therefore, this study aims to evaluate the response of Aplastodiscus leucopygius to traffic noise in a fragment of Atlantic Forest within the city of São Paulo. The experimentation consisted of recording the calling individual previously, during and after an exposure to urban noise. After that, individuals were measured to evaluate the Scaled Mass Index (SMI), and individual and environmental temperatures were taken. Also, considering that individuals of this species present harmonic shifting, we tried to evaluate which factors (individual, acoustic, or environmental) are associated with this phenomenon. We observed that the individuals showed an increase in call activity after exposure to traffic noise, but none of the evaluated aspects here could explain the harmonic shifting in their calls. Considering that this increasing on call activity also means an increasing of individual’s expense of energy, traffic noise is potentially harmful to the communication of A. leucopygius and, consequently, to its permanence in the site.

Published

2024

112. Pioneer access of the foam nest bacterial community of Leptodactylidae frogs and its biotechnological potential

Author

L. G. Z. Castro, M. R. Sousa, L. É. C. Pereira, D. V. Martins, F. A. S. Oliveira, S. G. S. Bezerra, V. M. M. Melo, and D. C. Hissa

Subjects

culturable, enzymes, prospection, Leptodactylus vastus, Physalaemus cuvieri, Adenomera hylaedactyla, amphibian, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Many anuran amphibians deposit their eggs in foam nests, biostructures that help protect the eggs and tadpoles from predators. Currently, there are no other identification and description studies of the cultivable microbiota role in the nests of the Leptodactylid frogs such as Physalaemus cuvieri, Leptodactylus vastus and Adenomera hylaedactyla. This study aimed to isolate and identify the culturable bacteria from these three anuran species' nests, as well as to prospect enzymes produced by this microbiota. Foam nests samples and environmental samples were diluted and viable cell count was determined. Bacterial morphotypes from foam nest samples were isolated through spread plate technique. Isolates’ DNAs were extracted followed by rRNA 16S gene amplification and Sanger sequencing. To evaluate their enzymatic potential, the isolates were cultured in ATGE medium supplemented with starch (0.1% w/v), gelatin (3% w/v) and skimmed milk (1% w/v), to verify amylase and protease activity. A total of 183 bacterial morphotypes were isolated, comprising 33 bacterial genera. Proteobacteria phylum was the most abundant in all the three nests (79%). The genera Pseudomonas and Aeromonas were the most abundant taxon in P. cuvieri and L. vastus. In A. Hylaedactyla, were Enterobacter and Bacillus. Regarding enzymatic activities, 130 isolates displayed protease activity and 45 isolates were positive for amylase activity. Our results provide unprecedented information concerning culturable bacterial microbiota of the foam nests of the Leptodactylid frogs, as well as their potential for biomolecules of biotechnological interest.

Published

2024

113. Scent of a frog: Can conservation detection dogs be used to locate endangered amphibians in the wild?

Author

Deon J. Gilbert, Michael J. L. Magrath, Luke Edwards, and Phillip G. Byrne

Subjects

amphibian, breeding, conservation, cryptic, detection, dog, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract In recent years, the potential to locate endangered animals using scent trained detection dogs (conservation detection dogs) has gained attention. Among vertebrates, conservation detection dogs have demonstrated a remarkable capacity to detect the scent of endangered mammals, reptiles, and birds, but their use in detecting amphibians is only beginning to be explored. A lack of work in this area is surprising given that amphibians are declining faster than any other vertebrate taxa. Moreover, amphibians are generally small, highly cryptic and breed in complex habitats, making them difficult to locate for the purpose of monitoring or establishing conservation breeding programs. This study aimed to provide a preliminary investigation into whether conservation detection dogs can be imprinted on the scent of the critically endangered Baw Baw frog (Philoria frosti) under captive conditions, and then effectively trained to locate wild frogs in their complex natural habitat. Two conservation detection dogs were trained to identify and locate P. frosti scent under controlled conditions before assessing their ability to locate wild P. frosti. Both conservation detection dogs were effective at locating P. frosti scent under controlled conditions, and also demonstrated an ability to detect live frogs under natural conditions. From an applied perspective, our findings provide new evidence that conservation detection dogs are capable of learning to detect the scent of small, cryptic anuran species. They also indicate that detection dogs are capable of locating frogs in highly complex forest habitat, confirming their untapped potential to aid in the management of imperiled species that have previously proven difficult to detect, monitor, and protect. We discuss the limitations of our approach and provide recommendations to help direct future amphibian conservation detection dog research.

Published

2024

114. Assessing the Impacts of Climate Change on the At-Risk Species Anaxyrus microscaphus (The Arizona Toad): A Local and Range-Wide Habitat Suitability Analysis

Author

Sam M. Driver, Cord B. Eversole, Daniel R. Unger, David L. Kulhavy, Christopher M. Schalk, and I-Kuai Hung

Subjects

amphibian, conservation, habitat suitability, landscape ecology, maximum entropy, species distribution modeling, Ecology, QH540-549.5

Abstract

Anaxyrus microscaphus (The Arizona Toad) is an at-risk species that is endemic to the southwestern United States. Despite conservation concerns, little is known about the ecological drivers of its distribution and habitat use. We investigated the potential distribution of A. microscaphus at the range-wide scale and local scales (i.e., Zion National Park), using MaxEnt to model habitat suitability under current and future climate scenarios. Our models incorporated 12 environmental variables, including climatic, geomorphological, and remotely sensed data. The results showed good model accuracy, with temperature and elevation being the top contributing variables. Currently, 42.6% of the park’s area provides a suitable habitat for A. microscaphus, but projections for 2050 and 2070 indicate a significant reduction in suitable habitat across its range. Temperature was the most influential variable, with habitat suitability decreasing as the annual mean temperatures exceeded 10 °C. Precipitation, vegetation, and topography variables also significantly contributed to the models. The most suitable habitat within Zion National Park occurred along sloped rivers and streams and in valleys with sandy soils, emphasizing the importance of riparian habitat conservation for A. microscaphus survival and persistence. As climate change progresses, the species’ habitat is expected to become increasingly constrained across local and range-wide scales. Our models demonstrated a shift in the suitable habitat towards major river systems, indicating a potential reliance on larger permanent river systems as smaller, more ephemeral habitats decrease in size and abundance. Future management strategies should prioritize conserving and enhancing the resilience of these habitats. MaxEnt models can guide population survey efforts and facilitate the identification of priority conservation areas, saving time and resources for species of concern such as A. microscaphus. Further research, including field surveys and large-scale analyses, is necessary to further refine our understanding of this species’ distribution and how it may be impacted by climate and habitat change.

Published

2023

115. New data on and the easternmost record of the Javan endemic Pearly Tree Frog, Nyctixalus margaritifer Boulenger, 1882 (Anura, Rhacophoridae)

Author

Berry Fakhry Hanifa, Luhur Septiadi, Muhammad Asmuni Hasyim, Muhammad Fathoni, Kartika Prabasari, Muhammad Prayogi Erfanda, Mahmuddin Rahmadana, Hendro Widjanarko, and Nia Kurniawan

Subjects

Amphibian, distribution, Indonesia, molecular phyl, Biology (General), QH301-705.5

Abstract

New locality records and a range extension of the Javan endemic Pearly Tree Frog, Nyctixalus margaritifer Boulenger, 1882 are reported from Central Java and East Java. Our new data include the easternmost record in Java, a record from the eastern edge of Bromo Tengger Semeru National Park, which is approximately 142 km west of the species’ type locality in Gunung Willis in East Java. This tree-frog species inhabits undisturbed rainforest with a dense canopy and vegetation at elevations up to 1,200 m a.s.l. Based on a morphometric analysis of newly collected specimens, we found observable differences in several morphological characters. However, more specimens are needed to confirm the taxonomic status of the rare, endemic, and poorly known N. margaritifer.

Published

2023

116. Bollard Pull and Self-Propulsion Performance of a Waterjet Propelled Tracked Amphibian

Author

Taehyung Kim, Donghyeon Yoon, Jeongil Seo, and Jihyeun Wang

Subjects

waterjet, amphibian, self-propulsion, bollard pull, cavitation, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

This paper describes the unique full-scale bollard pull and self-propulsion tests of a large amphibious tracked military vehicle with two waterjet propulsors. To provide a reference for the self-propulsion and cavitation performance, a series of sea trials and bollard pull tests were performed in a military sea bay and in a large test basin, respectively. Good overall agreement between the sea trial and the computation was observed in the speed–power relationship. The cavitation-induced breakdown phenomenon was further explored via numerical simulations. The results indicated that the uncertainties in the numerical results were dominated by the scales of vapor bubbles. The analysis showed that the selection of the vapor bubble scale factors of 1.0 for growth and 0.05 for collapse were in good agreement with the experimental results. Rapid performance breakdown occurred when sufficient suction side-attached cavities were extended into the blade mid-chord and tip-board regions.

Published

2024

117. We are what what we eat eats: the effects of prey diet on growth, development, behavior and survival of a secondary consumer

Author

Zamora-Camacho, Francisco Javier

Published

2024

118. Non-Lethal Assessment of Land Use Change Effects in Water and Soil of Algerian Riparian Areas along the Medjerda River through the Biosentinel Bufo spinosus Daudin.

Author

Napoletano, Pasquale, Guezgouz, Noureddine, Benradia, Imen, Benredjem, Sarra, Parisi, Costantino, Guerriero, Giulia, and De Marco, Anna

Subjects

RIPARIAN areas, LAND use, SOIL moisture, COPPER, SKIN biopsy, AGRICULTURE

Abstract

The land use change can negatively impact ecosystems, enriching water and soil with heavy metals (HMs). The fragile riparian areas along the Medjerda River of Northern Algeria are particularly affected by this phenomenon, and biological tools able to combine information about both matrices can be preferred in their monitoring. This research aimed to evaluate the suitability of the spiny toad (Bufo spinosus D.) as a biomonitor for assessing the impact of three different land uses (agricultural (AGR), urban (URB), and industrial (IND) managements) on soil and water for Cu, Fe, Pb, and Zn by using the non-lethal skin biopsy. The IND land use, followed by URB, mostly impacted soils for Cu and Pb, whereas management was not able to influence water differently despite worrying Pb levels. The cluster analysis allows to show that toad responds like soil in terms of land use and like water for HMs, as it is possibly related to the metal–chemical affinity. Although the single skin analyses do not display any difference among the managements, the bioaccumulation factor (BF > 1) shows that B. spinosus absorbs more HMs from water; skin accumulates Fe and Zn regardless of the land use, probably for both natural and anthropogenic assimilation and Pb and Cu for URB and IND, as it is related to their ionic forms and human impact. [ABSTRACT FROM AUTHOR]

Published

2024

119. Japanese Rice Frog Fejervarya kawamurai is Absent from Available Archaeological Faunal Assemblages of the Kinki District of Honshu, Japan.

Author

Nakamura, Yasuyuki

Subjects

*ARCHAEOLOGICAL assemblages, *FROGS, *ARCHAEOLOGICAL excavations, *AMPHIBIANS, *SPECIES

Abstract

Zooarchaeological studies of vertebrate remains from four lowland archaeological sites (consisting of 24 features) in the Kinki District, Honshu, have led to the reconstruction of certain components of local amphibian assemblages that existed in the past, ranging from a few centuries Before Common Era to the Eighth Century Common Era. However, the Japanese Rice Frog, Fejervarya kawamurai, a presently common and obligate lowland species with several biogeographic peculiarities, has been consistently absent from these reconstructions. The data presented here suggests that the major lowlands of this district (the Osaka and Wakayama plains and the Nara Basin) were devoid of this species until later times, and that the invasion was facilitated by human activities. This finding also supports a long-neglected view that the populations of this species in mainland Japan originated from an introduction. [ABSTRACT FROM AUTHOR]

Published

2024

120. A little on the nose: A mosquito targets the nostrils of tree frogs for a blood meal.

Author

Gould, John and Valdez, Jose W.

Subjects

*HYLIDAE, *BATRACHOCHYTRIUM dendrobatidis, *MOSQUITOES, *INSECTICIDE resistance, *BIOLOGICAL weed control, *INFECTIOUS disease transmission, *ANIMAL populations, *NOSE

Abstract

As the females of most mosquitoes require a blood meal to provision their eggs, they can be a vector of parasites and pathogens that have profound impacts on both animal and human populations. Understanding the interactions between mosquitoes and their hosts, including animal and feeding site preferences, could thus provide valuable insights into disease transmission. In this study, we present a highly specific feeding strategy observed in a mosquito from Australia (Mimomyia elegans). Over 3 years of fieldwork, we found this mosquito feeding exclusively on the nostrils when using several amphibian species as hosts. Mosquitoes were observed initially landing on the backs of hosts before walking towards the nostrils, potentially minimizing detection and mitigating the risk of predation or defensive responses. This remarkable level of feeding site specificity suggests strong selection pressures that are causing the nostril to be the optimal location for blood extraction on amphibians. Possible explanations include the presence of thinner, more accessible skin tissue or enhanced vascular properties in the nostril region. Understanding mosquito host preferences, points of contact and feeding site specificity could provide valuable insights into disease transmission among amphibians, as mosquitoes have been identified as potential vectors of pathogens like the amphibian chytrid fungus. [ABSTRACT FROM AUTHOR]

Published

2024

121. Individual growth rates and size at metamorphosis increase with watershed area in a stream salamander.

Author

Cochrane, Madaline M., Addis, Brett R., Swartz, Leah K., and Lowe, Winsor H.

Abstract

A fundamental goal of ecology is to understand how the physical environment influences intraspecific variability in life history and, consequently, fitness. In streams, discharge and associated habitat conditions change along a continuum from intermittency to permanence: Headwater streams typically have smaller watersheds and are thus more prone to drying than higher‐order streams with larger watersheds and more consistent discharge. However, few empirical studies have assessed life history and associated population responses to this continuum in aquatic organisms. We tested the prediction that individual growth, rate of development, and population growth increase with watershed area in the long‐lived stream salamander Gyrinophilus porphyriticus, where we use watershed area as a proxy for hydrologic intermittence. To address this hypothesis, we used 8 years of mark–recapture data from 53 reaches across 10 headwater streams in New Hampshire, USA. Individual growth rates and mean size at metamorphosis increased with watershed area for watersheds from 0.12 to 1.66 km2. Population growth rates increased with watershed area; however, this result was not statistically significant at our sample size. Mean age of metamorphosis did not vary across watershed areas. Lower individual growth rates and smaller sizes at metamorphosis likely contributed to reduced lifetime fecundity and population growth in reaches with the smallest watershed areas and highest vulnerability to drought. These responses suggest that as droughts increase due to climate change, headwater specialists in hydrologically intermittent environments will experience a reduction in fitness due to smaller body sizes or other growth‐related mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

122. Genomic evidence for climatic adaptation in Fejervarya multistriata.

Author

Lei, Zhaoxia, Yan, Chaochao, Jin, Long, Li, Jiatang, Yan, Chengzhi, and Liao, Wenbo

Subjects

*CLIMATE change adaptation, *NATURAL selection, *PHYSIOLOGICAL adaptation, *GENETIC variation, *INTERGLACIALS, *AMPHIBIAN populations, *COLD adaptation, *CLIMATE change

Abstract

Aim: Genetic diversity driven by natural selection contributes to population divergence in amphibians, thus facilitating local adaptation to climate change. Understanding the mechanisms of genetic adaptation is one of the important issues in evolutionary biology. This study set out to reveal drivers responsible for intraspecific divergence in Fejervarya multistriata and further investigate the potential involvement of selected genes in responding to climate challenges. Location: China. Method: To identify adaptive traits associated with climate change, we conducted genome RAD‐seq of 300 F. multistriata individuals from 15 locations across a bio‐geographical range with gradual climatic variation in China. Results: The results indicate a substantial genetic diversity among populations of F. multistriata and highlight specific genes and pathways that likely contribute to intraspecific divergence. The demographic history of F. multistriata can be traced back to the last interglacial period, during which elevated temperatures may have led to a significant decline in effective population size. The analysis of genome‐climate association identified five candidate genes (BMP2K, NRAP, ZW10, MYH1 and PLB1) potentially involved in local climate adaptation. Main Conclusions: Our findings have shed light on the genetic mechanisms of local adaptation to climate change in F. multistriata, thereby aiding in determining the possible fate of populations under future climate change. [ABSTRACT FROM AUTHOR]

Published

2024

123. Chemical cues of conspecific predation elicit distinct behavioural responses in cannibalistic poison frog tadpoles.

Author

Surber-Cunningham, Lisa L., Oza, Samta S., and Fischer, Eva K.

Subjects

*TADPOLES, *DENDROBATIDAE, *PREDATION, *INDIVIDUAL differences

Abstract

In cannibalistic species, conspecifics can be both predators and prey. As a result, conspecifics present a unique conflict at the intersection of predation, competition and nutritional resources in these species. To better understand how individuals respond to the complex information of conspecific chemical cues, we studied aggressive and cannibalistic tadpoles of the dyeing poison frog, Dendrobates tinctorius. We used a standardized open field test to compare behavioural responses to a positive cue (food), a negative cue (predator) and two conflicting cues (conspecific density and injured conspecifics). We specifically used chemical cues to understand how individuals respond in the absence of additional information that would disambiguate their status as conspecific predator versus prey. We found that the injured conspecific cue elicited a response distinct from either the food cue or the predator cue: tadpoles explored more relative to baseline and predator cues but spent less time moving compared to the food cue. We suggest that these patterns reflect cue-dependent behavioural strategies that maximize exploration while minimizing detection in the presence of conspecific cannibals. In addition to cue-specific changes in behaviour, we observed consistent differences in individuals' behaviour across environments and found that activity and exploratory behaviour were positively correlated across environments. Taken together, our results demonstrate that conspecific cues are interpreted as distinct from either food cues or predator cues in a cannibalistic species where they can represent both. • In cannibalistic species, conspecifics can be both predators and prey. • Therefore, chemical cues of conspecifics provide conflicting information. • Cannibalistic tadpoles exhibited distinct behavioural responses to conspecific cues. • Tadpoles also showed consistent individual differences across contexts. [ABSTRACT FROM AUTHOR]

Published

2024

124. Don't take my trees: Re‐evaluating the importance of trees when it comes to managing green and golden bell frog, Litoria aurea, habitat.

Author

Gould, John, Callen, Alex, Matthews, Lynne, Beranek, Chad, and McHenry, Colin

Subjects

*ARTIFICIAL habitats, *BATRACHOCHYTRIUM dendrobatidis, *HABITATS, *FROGS, *PREDATION, *ENDANGERED species

Abstract

It is vital to identify habitats used by each life stage of a species to formulate effective conservation management and restoration guidelines. For the threatened green and golden bell frog, Litoria aurea, it is currently recommended that, to prevent waterbody shading, managed or constructed habitat for the species should not include trees. Shading has been reported to prevent adults from sun basking, reduce breeding activity, and lower water temperatures, which may impede tadpole growth and development and provide optimum conditions for the amphibian chytrid pathogen, Batrachochytrium dendrobatidis. However, the complete exclusion of trees, which are naturally present in L. aurea habitat, warrants evidence that supports this recommendation. In the present study, we used a multi‐year dataset on an L. aurea population on Kooragang Island, NSW, Australia to determine the occurrence of tree use by post‐metamorphic individuals. These data included information on nearly 12 500 individuals captured from 86 waterbodies across 8 consecutive breeding seasons. We found that tree use by juveniles, adult males, and adult females was widespread and common, occurring both during the day and night, with more than one out of every 20 individuals captured in trees. Our findings suggest that trees are a potentially important attribute of the terrestrial component of wetland habitats occupied by L. aurea. We hypothesize that trees may (i) create microhabitat for foraging and/or increased diversity of prey species, (ii) provide refuge from predators, and (iii) allow sun basking off the ground, thereby offering protection against the chytrid fungus while removing them from chytrid‐prevalent environments such as water and moist soils. We call for the careful reconsideration of tree exclusion within L. aurea habitat and further research into the benefits of allowing trees to grow near waterbodies to accommodate the ecological needs of this threatened species. [ABSTRACT FROM AUTHOR]

Published

2024

125. Roles of Rice Paddies and Neighboring Biotopes with Different Hydroperiods in Providing Habitat for an Endangered Pond Frog Population in Japan.

Author

Naito, Risa S., Sakai, Masaru, Natuhara, Yosihiro, and Morimoto, Yukihiro

Abstract

The Nagoya Daruma pond frog Pelophylax porosus brevipodus (formerly Rana porosa brevipoda) requires a wet environment year-round, but such habitats have generally been lost due to improved rice paddy drainage such that the frog populations have been decreasing. There have been attempts to create permanent pools in rice paddy areas to help the populations recover, but the basic life history patterns and population dynamics in both environments have not been well studied. We captured frogs in rice paddies and adjacent biotopes. Using capture–mark–recapture data with 816 marked individuals, we compared frog demographics and population structure using a Jolly–Seber POPAN model. Constructed biotopes had conditions favoring long-term persistence. For example, biotopes had larger frogs of both sexes than rice paddies. The ratio of juveniles to adults was lower in biotopes than rice paddies. By contrast, rice paddies were an important habitat for breeding and producing new frogs. The two habitats complemented each other to support the local frog population. Because P. p. brevipodus is now exclusively distributed in rice paddy areas, the creation of permanent pools is a feasible way to improve habitat quality, especially in modernized rice paddy areas with few permanent lentic habitats. [ABSTRACT FROM AUTHOR]

Published

2024

126. Using eDNA to survey amphibians: Methods, applications, and challenges.

Author

Sun, Xiaoxuan, Guo, Ningning, Gao, Jianan, and Xiao, Nengwen

Abstract

In recent years, environmental DNA (eDNA) has received attention from biologists due to its sensitivity, convenience, labor and material efficiency, and lack of damage to organisms. The extensive application of eDNA has opened avenues for the monitoring and biodiversity assessment of amphibians, which are frequently small and difficult to observe in the field, in areas such as biodiversity survey assessment and detection of specific, rare and threatened, or alien invasive species. However, the accuracy of eDNA can be influenced by factors such as ambient temperature, pH, and false positives or false negatives, which makes eDNA an adjunctive tool rather than a replacement for traditional surveys. This review provides a concise overview of the eDNA method and its workflow, summarizes the differences between applying eDNA for detecting amphibians and other organisms, reviews the research progress in eDNA technology for amphibian monitoring, identifies factors influencing detection efficiency, and discusses the challenges and prospects of eDNA. It aims to serve as a reference for future research on the application of eDNA in amphibian detection. [ABSTRACT FROM AUTHOR]

Published

2024

127. Investigation of heavy metals in tissues and habitats of three edible frogs from Türkiye.

Author

Tatlı, Hale, Gedik, Kenan, and Altunışık, Abdullah

Subjects

HEAVY metals, FROGS, LEG muscles, HINDLIMB, COPPER

Abstract

The soil, water, and organisms have been contaminated by heavy metals due to human activities and industrialization, which has produced a major environmental problem that has a deleterious effect on human health and food quality. Frogs, one of the good bioindicators for environmental pollution, are also among the alternative essential protein sources for humans. In Türkiye, three of these frogs are edible: Pelophylax ridibundus, Pelophylax bedriagae, and Pelophylax caralitanus, also known as Anatolian water frogs. Hence, to assess the possible health risks that might result from consuming frog legs in addition aquatic habitat of Anatolian water frogs, the water, sediment, and frog tissue samples (muscle and liver) were obtained from 11 different provinces covering all regions of Türkiye and analyzed to determine Cd, Cu, Cr, Zn, Pb, and As concentrations. The results revealed considerable variations in heavy metal concentrations among frog tissues, influenced by the sampling sites and species (ANOVA: p < 0.05). The Estimated Daily Intake (EDI) values, calculated based on the average serving size, were also lower than the Provisional Tolerable Daily Intake (PTDI) levels for adult consumers. Furthermore, the study computed the Target Hazard Quotient (THQ) values for heavy metals, all of which were below the critical value of 1, indicating that consuming the hind leg muscles from these frog species would not pose an adverse health risk for humans. [ABSTRACT FROM AUTHOR]

Published

2024

128. Dietary carotenoid supplementation has long‐term and community‐wide effects on the amphibian skin microbiome.

Author

Risely, A., Byrne, Phillip G., Hoye, Bethany J., and Silla, Aimee J.

Subjects

*CAROTENOIDS, *DIETARY supplements, *BIOMES, *LEPTODACTYLIDAE, *CRITICALLY ill children, *LACTIC acid bacteria, *BATRACHOCHYTRIUM dendrobatidis, *MICRONUTRIENTS

Abstract

The amphibian skin microbiome plays a crucial role in host immunity and pathogen defence, yet we know little about the environmental drivers of skin microbial variation across host individuals. Inter‐individual variation in the availability of micro‐nutrients such as dietary carotenoids, which are involved in amphibian immunity, may be one factor that influences skin microbial assembly across different life history stages. We compared the effect of four carotenoid supplementation regimes during different life stages on the adult skin microbiome using a captive population of the critically endangered southern corroboree frog, Pseudophryne corroboree. We applied 16S rRNA sequencing paired with joint‐species distribution models to examine the effect of supplementation on taxon abundances. We found that carotenoid supplementation had subtle yet taxonomically widespread effects on the skin microbiome, even 4.5 years post supplementation. Supplementation during any life‐history stage tended to have a positive effect on the number of bacterial taxa detected, although explanatory power was low. Some genera were sensitive to supplementation pre‐metamorphosis, but most demonstrated either additive or dominant effects, whereby supplementation during one life history stage had intermediate or similar effects, respectively, to supplementation across life. Carotenoid supplementation increased abundances of taxa belonging to lactic acid bacteria, including Lactococcus and Enterococcus, a group of bacteria that have previously been linked to protection against the amphibian fungal pathogen Batrachochytrium dendrobatidis (Bd). While the fitness benefits of these microbial shifts require further study, these results suggest a fundamental relationship between nutrition and the amphibian skin microbiome which may be critical to amphibian health and the development of novel conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

129. Evolutionary and functional conservation of IRF7 in the Tibetan frog Nanorana parkeri.

Author

Wang, Qing, Li, Bo, Sun, Xin Na, and Gan, Zhen

Abstract

Background: The production of interferons (IFNs) is essential for the control of viral infections, and interferon regulatory factor 7 (IRF7) is considered as a vital regulator for the transcription of type I IFNs. Amphibians appear to possess a highly expanded type I IFN repertoire, consisting of intron-containing genes as observed in fish, and intronless genes as in other higher vertebrates. However, the knowledge on transcriptional regulatory mechanism of these two types of type I IFN genes is rather scarce in amphibians. Methods and results: A IRF7 gene named as Np-IRF7 was identified in Tibetan frog (Nanorana parkeri), and bioinformatic analysis revealed that the predicted protein of Np-IRF7 contains several important structural features known in IRF7. Expression analysis showed that Np-IRF7 gene was widely expressed and rapidly induced by poly(I:C) in different organs/tissues. Interestingly, luciferase reporter assay revealed that intronless IFN promoters were more effectively activated than intron-containing IFN promoter in Np-IRF7-transfected cells. Moreover, the overexpression of Np-IRF7 could induce the expression of ISGs and suppress the replication of FV3 in A6 cells. Conclusion: Np-IRF7 is indeed the ortholog of known IRF7, and IRF7 is structurally conserved in different lineages of vertebrates. Np-IRF7 played distinct roles in the activation of intron-containing and intronless type I IFN promoters, thus inducing the expression of interferon-stimulated antiviral effectors and providing a protection against ranavirus infection. The present research thus contributes to a better understanding of regulatory function of IRF7 in the IFN-mediated antiviral response of anuran amphibians. [ABSTRACT FROM AUTHOR]

Published

2024

130. Population dynamics of the threatened Oregon spotted frog before and after drought mitigation.

Author

Rowe, Jennifer C., Pearl, Christopher A., Duarte, Adam, McCreary, Brome, and Adams, Michael J.

Subjects

*POPULATION dynamics, *DROUGHTS, *WATER springs, *FROG populations, *FROGS, *WATERLOGGING (Soils)

Abstract

Amphibians are among the most sensitive taxa to climate change, and species inhabiting arid and semiarid landscapes at the extremes of their range are especially vulnerable to drought. The Jack Creek, Oregon, USA, population of Oregon spotted frogs (Rana pretiosa) faces unique challenges because it occupies the highest elevation site in the species' extant range and one that has been transformed by loss of American beavers (Castor canadensis), which historically maintained open water. We evaluated the effects of drought mitigation (addition of excavated ponds) on relationships between local and regional water availability, inactive legacy beaver dams, and Oregon spotted frog population dynamics in the Jack Creek system. We conducted egg mass surveys and capture‐mark‐recapture sampling at a treatment reach with excavated ponds and 3 reference reaches over 13 years; surveys spanned a period before and after pond excavation at the treatment and 1 primary comparison reference reach. We analyzed data using a combination of robust design capture‐mark‐recapture estimators and generalized linear mixed models to characterize population dynamics. Adult Oregon spotted frog survival was approximately 19.5% higher at the treatment reach than the primary reference reach during the study period. Annual survival was most strongly associated with late summer vegetation greenness, a proxy for water availability, and males had higher survival than females. Among the 4 study reaches, the treatment reach consistently had higher late summer vegetation greenness, and the hydrology functioned more independently of regional precipitation patterns relative to the reference reaches; however, these dynamics were not linked to pond excavation. Breeding was concentrated in 2 legacy beaver ponds that were deepened by excavation during the study compared to an unexcavated beaver pond, 2 excavated ponds without legacy beaver dams, and 9 reference ponds. These results point to the benefit of enhancing existing beaver structures and indicate that management actions aimed at maintaining surface water for breeding in spring and saturated soils and ponded water for adults in late summer would benefit this unique population of Oregon spotted frogs in the face of drought. [ABSTRACT FROM AUTHOR]

Published

2024

131. Skin microbiome disturbance linked to drought‐associated amphibian disease.

Author

Buttimer, Shannon, Moura‐Campos, Diego, Greenspan, Sasha E., Neely, Wesley J., Ferrante, Lucas, Toledo, Luís Felipe, and Becker, C. Guilherme

Subjects

*AMPHIBIAN diseases, *RAINFALL, *DROUGHT management, *CLIMATE change, *BATRACHOCHYTRIUM dendrobatidis, *WILDLIFE diseases, *DROUGHTS

Abstract

The onset of global climate change has led to abnormal rainfall patterns, disrupting associations between wildlife and their symbiotic microorganisms. We monitored a population of pumpkin toadlets and their skin bacteria in the Brazilian Atlantic Forest during a drought. Given the recognized ability of some amphibian skin bacteria to inhibit the widespread fungal pathogen Batrachochytrium dendrobatidis (Bd), we investigated links between skin microbiome health, susceptibility to Bd and host mortality during a die‐off event. We found that rainfall deficit was an indirect predictor of Bd loads through microbiome disruption, while its direct effect on Bd was weak. The microbiome was characterized by fewer putative Bd‐inhibitory bacteria following the drought, which points to a one‐month lagged effect of drought on the microbiome that may have increased toadlet susceptibility to Bd. Our study underscores the capacity of rainfall variability to disturb complex host–microbiome interactions and alter wildlife disease dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

132. Ultrastructural characteristics and morphological relationships of cardiomyocytes and telocytes in the myocardium of the bullfrog (Rana catesbeiana).

Author

Wang, Zifan, Xu, Yizhen, Huang, Ling, Zhao, Jiancheng, Ye, Yaqiong, Liu, Canying, Wang, Bingyun, Zhao, Haiquan, and Zhang, Hui

Subjects

*BULLFROG, *MYOCARDIUM, *SATELLITE cells, *INTERSTITIAL cells, *TIGHT junctions, *JOINTS (Engineering)

Abstract

Telocytes (TCs) are distinctive interstitial cells due to their characteristic structures and heterogeneity. They are suggested to participate in tissue repair/regeneration. TCs have been identified in many organs of various mammals. However, data on TCs in lower animals are still very limited. In this work, TCs were identified in the myocardium of the bullfrog (Rana catesbeiana) by light and transmission electron microscopy (TEM). The structural relationships between TCs and neighbouring cell types were measured using the ImageJ (FiJi) morphometric software. TCs with slender Tps (telepodes) were located around cardiomyocytes (CMC). TEM revealed TCs with long Tps in the stroma between CMC. The homocellular tight junctions were observed between the Tps. The Tps were also very close to the neighbouring CMC. The distance between Tps and CMC was 0.15 ± 0.08 μm. Notably, Tps were observed to adhere to the periphery of the satellite cells. The Tps and the satellite cells established heterocellular structural connections by tight junctions. Additionally, Tps were frequently observed in close proximity to mast cells (MCs). The distance between the Tps and the MCs was 0.19 ± 0.09 μm. These results confirmed that TCs are present in the myocardium of the bullfrog, and that TCs established structural relationships with neighbouring cell types, including satellite cells and MCs. These findings provide the anatomical evidence to support the note that TCs are involved in tissue regeneration. [ABSTRACT FROM AUTHOR]

Published

2024

133. A large brachyopoid from the Middle Triassic of northern Arizona and the diversity of brachyopoid temnospondyls from the Moenkopi Formation.

Author

So, Calvin and Mann, Arjan

Subjects

*LANDSCAPE changes, *PALEONTOLOGY, *PARSIMONIOUS models, *FOSSILS, *AMPHIBIANS

Abstract

Brachyopoids represent a diverse and late surviving temnospondyl group, lasting until the Early Cretaceous. Here, we report on brachyopoid material previously assigned to Hadrokkosaurus bradyi that represents a distinct brachyopoid taxon, characterised by a smaller number of large, robust mandibular teeth, a feature rarely observed in other temnospondyls. We also revisit an angular previously referred to Hadrokkosaurus potentially belonging to other temnospondyl taxa present in the Middle Triassic of North America. In light of the abundance of material of possible taxa distinct from Hadrokkosaurus, we express the need to re-examine previously collected specimens as new information changes the landscape of palaeontology. Parsimony analyses using exclusively mandibular characters recover the new brachyopoid taxon from the locality in a polytomy with Hadrokkosaurus and Vanastega at the base of Brachyopoidea, adding to a diversity of mandibular morphology of temnospondyls in the Middle Triassic of North America. [ABSTRACT FROM AUTHOR]

Published

2024

134. Seasonal population structure and size variation of the endangered Harlequin mantella from East Betsileo, Madagascar.

Author

Andriantsimanarilafy, Raphali R., Ramahefason, Andoniaina, Andriafidison, Daudet, De Roland, Lily-Arison R., and Raselimanana, Achille P.

Subjects

*AMPHIBIAN populations, *ENDANGERED species, *SEASONAL temperature variations, *WINTER

Abstract

We studied the harlequin mantella along 18 transects from Fohisokina and Soamasaka during three different seasons of the year. Transects were installed in three dominant habitats at both sites. In total, we encountered the target species 62 times from all of our surveys. Several encountered animals vary between sites and seasons. No frog was observed during the winter. However, frog size is significantly different between sexes which females are larger than males. [ABSTRACT FROM AUTHOR]

Published

2024

135. Stochastic metapopulation dynamics of a threatened amphibian to improve water delivery.

Author

Mathwin, Rupert, Wassens, Skye, Gibbs, Matthew S., Young, Jeanne, Ye, Qifeng, Saltré, Frédérik, and Bradshaw, Corey J. A.

Subjects

AMPHIBIAN declines, ENVIRONMENTAL risk, AMPHIBIANS, LEPTODACTYLIDAE, WETLANDS, POPULATION viability analysis, ENDANGERED species, WATER supply

Abstract

Water extraction and climate change are altering the availability of surface water globally, thereby contributing to amphibian population declines. The managed delivery of water to benefit environmental values (environmental watering) is a promising conservation technique that can support amphibian recruitment and maintain viable populations. Environmental water can be delivered in various spatial patterns and with different frequencies, but comparing the effectiveness of competing strategies is complicated by variable and interactive environmental processes. We built a spatially explicit, stochastic, hydroecological metapopulation model to compare the effects of five environmental‐watering scenarios on the probability of persistence of threatened southern bell frogs (Litoria raniformis) in a major river reach in southern Australia. We compared a no‐intervention control to two managed watering frequencies (moderate and frequent) delivered in two spatial designs (managed wetlands grouped or spread across the reach). More frequent water provision to intervention sites improved the reach‐wide (metapopulation) probability of persistence, and spreading intervention sites across the reach improved persistence more than grouping intervention sites together. When re‐examined under severe drought conditions, L. raniformis had a 0.04 probability of persistence without intervention, which improved to 0.56 with high watering frequency. Model‐guided environmental water provision can improve reach‐wide persistence of amphibian metapopulations by guiding spatial and temporal delivery patterns to reduce the risk of extinction. [ABSTRACT FROM AUTHOR]

Published

2024

136. Learning from past designs: improving amphibian fences using an adaptive management approach.

Author

Gould, John, Callen, Alex, Knibb, Gregory, Donelly, Rachael, Schmahl, Kate, Maynard, Cassandra, Sanders, Samantha, Lemckert, Frank, and McHenry, Colin

Abstract

Fences have been widely used to exclude, manage, or monitor both native and invasive amphibian populations. Given that fences are artificial barriers that impact animal movements within the landscape, it is critical they do not allow for unwanted movement or lead to unintended animal welfare risks. We have carried out a literature review to identify features that have been used for amphibian fences, as well as aspects of fence design, installation, and maintenance that have limited their effectiveness. We also describe our own application of adaptive management to amphibian exclusion fences, in which we detected flaws and improved features, and monitored the effectiveness of these changes. Based on an exploration of the literature and our experiences, we found several key attributes to fences that must be considered when created for amphibians, including height, lip barriers, underground barriers, support frameworks, gates, seams, clearance zones, and moisture refuges. We found that studies commonly do not detail all of these aspects of their fences, and that few openly describe flaws in the design, installation, and subsequent maintenance of their fences. This is potentially concerning because it may limit chances to make improvements to fence designs that are specific for amphibians. We subsequently provide considerations and recommendations for each key fence attribute, along with maintenance and monitoring advice. These take into account intended fence purpose, desired fence permeability, and project constraints for a variety of amphibian types, life histories, and developmental stages. They are intended to be used by managers to assist in designing an effective fence for their target species. Some of our recommendations to reduce animal welfare risks are to minimise the use of: (1) fence materials that could cause abrasion injuries, (2) dry substrates that could lead to desiccation, (3) geofabrics that could lead to entanglement, and (4) fence aprons that animals could easily become trapped under. This is likely to be a valuable guide for practitioners who are required to install amphibian fences and for policy makers who prescribe fences for mitigation. This guide is applicable for projects managing threatened native species, as well as invasive species, such as the cane toad (Rhinella marina). [ABSTRACT FROM AUTHOR]

Published

2024

137. FIRST RECORD OF BATRACHOCHYTRIUM DENDROBATIDIS IN THE NORTHERN NETHERLANDS.

Author

Mantzana-Oikonomaki, Vasiliki, Desreveaux, Anne, Preißler, Kathleen, Maan, Martine E., Spitzen-van der Sluijs, Annemarieke, and Sabino-Pinto, Joana

Subjects

BATRACHOCHYTRIUM dendrobatidis, AMPHIBIANS, CHYTRIDIOMYCOSIS

Abstract

Batrachochytrium dendrobatidis (Bd) infects amphibians and has been linked to the decline of hundreds of anuran amphibians all over the world. In the province of Groningen in the Netherlands, this fungal pathogen was not detected before this study. To determine whether Groningen was Bd-free, we surveyed 12 locations in this province in 2020 and 2021. Samples were then used to quantify the presence of Bd with a qPCR assay. In total, 2 out of 110 (∼0.02%) collected in 2020 and 11 out of 249 samples collected in 2021 tested positive for Bd. Infected amphibians were found in 4 out of the 12 sites, and the prevalence of Bd was estimated at 4% for both years combined. Our study provides the first record of Bd in Groningen, and we hypothesize that Bd is present throughout the Netherlands in regions currently considered "Bd-free." Furthermore, we warn scientists and policymakers to be apprehensive when calling a site free from Bd when sampling is limited or not recent. [ABSTRACT FROM AUTHOR]

Published

2024

138. When the host's away, the pathogen will play: the protective role of the skin microbiome during hibernation.

Author

Troitsky, T. S., Laine, V. N., and Lilley, T. M.

Subjects

WHITE-nose syndrome, HIBERNATION, BATRACHOCHYTRIUM dendrobatidis, PSEUDOGYMNOASCUS destructans, CAPTIVE wild animals, ECOSYSTEMS, MALASSEZIA, BIOMES

Abstract

The skin of animals is enveloped by a symbiotic microscopic ecosystem known as the microbiome. The host and microbiome exhibit a mutualistic relationship, collectively forming a single evolutionary unit sometimes referred to as a holobiont. Although the holobiome theory highlights the importance of the microbiome, little is known about how the skin microbiome contributes to protecting the host. Existing studies focus on humans or captive animals, but research in wild animals is in its infancy. Specifically, the protective role of the skin microbiome in hibernating animals remains almost entirely overlooked. This is surprising, considering the massive population declines in hibernating North American bats caused by the fungal pathogen Pseudogymnoascus destructans, which causes white-nose syndrome. Hibernation offers a unique setting in which to study the function of the microbiome because, during torpor, the host's immune system becomes suppressed, making it susceptible to infection. We conducted a systematic review of peer-reviewed literature on the protective role of the skin microbiome in non-human animals. We selected 230 publications that mentioned pathogen inhibition by microbes residing on the skin of the host animal. We found that the majority of studies were conducted in North America and focused on the bacterial microbiome of amphibians infected by the chytrid fungus. Despite mentioning pathogen inhibition by the skin microbiome, only 30.4% of studies experimentally tested the actual antimicrobial activity of symbionts. Additionally, only 7.8% of all publications studied defensive cutaneous symbionts during hibernation. With this review, we want to highlight the knowledge gap surrounding skin microbiome research in hibernating animals. For instance, research looking to mitigate the effects of white-nose syndrome in bats should focus on the antifungal microbiome of Palearctic bats, as they survive exposure to the Pseudogymnoascus destructans -pathogen during hibernation. We also recommend future studies prioritize lesser-known microbial symbionts, such as fungi, and investigate the effects of a combination of anti-pathogen microbes, as both areas of research show promise as probiotic treatments. By incorporating the protective skin microbiome into disease mitigation strategies, conservation efforts can be made more effective. [ABSTRACT FROM AUTHOR]

Published

2023

139. Host defence peptide LEAP2 contributes to antimicrobial activity in a mustache toad (Leptobrachium liui).

Author

Chen, Jie, Zhang, Chi-Ying, Chen, Jing-Yi, Seah, Rachel Wan Xin, Zhang, Le, Ma, Li, and Ding, Guo-Hua

Subjects

*CATHELICIDINS, *PEPTIDES, *ANTIMICROBIAL peptides, *ANTI-infective agents, *AMPHIBIANS, *BACTERIAL cell walls, *TOADS

Abstract

Background: The liver-expressed antimicrobial peptide 2 (LEAP2) is essential in host immunity against harmful pathogens and is only known to act as an extracellular modulator to regulate embryonic development in amphibians. However, there is a dearth of information on the antimicrobial function of amphibian LEAP2. Hence, a LEAP2 homologue from Leptobrachium liui was identified, characterized, and chemically synthesized, and its antibacterial activities and mechanisms were determined. Results: In this study, LEAP2 gene (Ll-LEAP2) cDNA was cloned and sequenced from the Chong'an Moustache Toad (Leptobrachium liui). The predicted amino acid sequence of Ll-LEAP2 comprises a signal peptide, a mature peptide, and a prodomain. From sequence analysis, it was revealed that Ll-LEAP2 belongs to the cluster of amphibian LEAP2 and displays high similarity to the Tropical Clawed Frog (Xenopus tropicalis)'s LEAP2. Our study revealed that LEAP2 protein was found in different tissues, with the highest concentration in the kidney and liver of L. liui; and Ll-LEAP2 mRNA transcripts were expressed in various tissues with the kidney having the highest mRNA expression level. As a result of Aeromonas hydrophila infection, Ll-LEAP2 underwent a noticeable up-regulation in the skin while it was down-regulated in the intestines. The chemically synthesized Ll-LEAP2 mature peptide was selective in its antimicrobial activity against several in vitro bacteria including both gram-positive and negative bacteria. Additionally, Ll-LEAP2 can kill specific bacteria by disrupting bacterial membrane and hydrolyzing bacterial gDNA. Conclusions: This study is the first report on the antibacterial activity and mechanism of amphibian LEAP2. With more to uncover, the immunomodulatory functions and wound-healing activities of Ll-LEAP2 holds great potential for future research. [ABSTRACT FROM AUTHOR]

Published

2023

140. Chondrocranium and internal oral anatomy of the tadpole of Pleurodema diplolister (Peters, 1870) (Anura: Leptodactylidae).

Author

Ferreira, João Lucas P., Costa, Claylton A., Uchôa, Lucas Rafael, Sousa, Brendo S., and Andrade, Etielle B.

Subjects

*TADPOLES, *ANURA, *LEPTODACTYLIDAE, *ANATOMY, *INFORMATION resources

Abstract

Pleurodema diplolister is a species of leptodactylid common throughout the Northeast of Brazil, also occurring in the Center-West and Southeast regions of Brazil. The larvae of this species have an oval body, rounded snout and ventrally located oral disc, in addition, they are exotrophic with benthic habits of lentic environments. The present study describes the internal oral anatomy, chondrocranium, and hyobranchial apparatus of P. diplolister larvae collected in the state of Piauí, Brazil, adding information about the taxonomy and systematics of the group. The tadpoles were collected in April 2021 in temporary ponds. Five stage 36 tadpoles were prepared and analyzed for the description of the internal oral anatomy and another five stage 36 tadpoles for the description of the chondrocranium. The internal oral anatomy and the chondrocranium of the tadpole of P. diplolister were, in general, similar to the previously described tadpoles of the genus. However, we found fundamental differences in terms of formats, quantity, and absence/presence of some structures, which are important for the taxonomy and systematics of Pleurodema. Thus, the larval traits described here demonstrate great importance as taxonomic predictors and for phylogenetic reconstructions, being an additional source of information for the genus Pleurodema. [ABSTRACT FROM AUTHOR]

Published

2023

141. MODELING SHIFTING GEOGRAPHICAL DISTRIBUTIONS OF LEAST CONCERN ASIAN BRACKISH FROG FEJERVARYA CANCRIVORA (GRAVENHORST, 1829) (ANURA: DICROGLOSSIDAE) IN WEST JAVA, INDONESIA RELATED TO CMIP 5 RCP 8.5 CLIMATE CHANGE SCENARIO.

Author

Wibowo, Andri, Basukriadi, Adi, Nurdin, Erwin, Meylani, Vita, and Nasution, Nana Suryana

Subjects

*GEOGRAPHICAL distribution of amphibia, *ANURA, *FROGS, *CLIMATE change

Abstract

Amphibians and their geographical distribution are threatened by climate change, including species in West Java, Indonesia. It is estimated that 300 amphibian species are threatened, including the family Dicroglossidae. At the same time, information on how climate change impacts amphibian species in Indonesia is very limited. This study aims to assess and model the suitable habitat for the least concern Asian brackish frog, Fejervarya cancrivora (Gravenhorst, 1829), under the CMIP 5 RCP 8.5 future climate change scenario by 2070, analyzed using Maximum Entropy (MaxEnt). The models developed with MaxEnt showed good predictivity, with an AUC value of 0.701. The models that inform the precipitation of the wettest month, isothermality, and mean diurnal range variables have significant contributions to make in shaping F. cancrivora geographical distributions. The models confirm that F. cancrivora had shifted its geographical distribution and had gained and lost habitats under a future climate change scenario by 2070. F. cancrivora will lose 4,428 km2 of its current habitat and will gain 2,673 km2 of new habitat. In total, climate change will cause F. cancrivora to lose its habitat by 1,755 km2. [ABSTRACT FROM AUTHOR]

Published

2023

142. Seasonal Variation in Thermal Biology and Water Balance in a Year-Round Active Neotropical Treefrog, Scinax fuscovarius.

Author

Maenaka, Beatriz M., Senzano, Luis M., and Andrade, Denis V.

Subjects

*AQUATIC biology, *GEOTHERMAL resources, *BODY temperature regulation, *SEASONS, *SKIN permeability, *ACCLIMATIZATION

Abstract

Because of ectothermy and the high permeability of their skin, the thermal biology and water balance of anuran amphibians are highly influenced by variations in environmental temperature and water availability. Seasonal variation in these climatic variables are often followed by concurrent adjustments in frogs' thermal biology and water balance. We investigated seasonal variation in the thermal biology and water balance of snouted treefrogs, Scinax fuscovarius (Anura, Hylidae), a midsize nocturnal treefrog with continuous activity throughout the year. We measured body temperature when active in the field (Tfield), thermal preference (Tpref) in a thermal gradient in the laboratory, and the minimum and maximum critical temperatures (CTmin and CTmax, respectively). Regarding water balance, we measured rates of evaporative water loss (EWL) and the skin resistance (Rs) to evaporation at three temperatures (15, 25, and 35°C), dehydration tolerance, and rates of water uptake (WU), both at 25°C. Measurements were carried out in the middle of the hot and wet spring–summer and the cold and dry autumn–winter. We found that Tfield, Tpref, dehydration tolerance, and WU were higher in the hot–wet compared to the cold–dry season. Evaporative water loss rates increased with experimental temperature but did not vary seasonally. There was no seasonal variation in thermal tolerance for either CTmax or CTmin. Our data show that S. fuscovarius experience seasonal adjustments in some parameters of their thermal biology and water balance, but not in others. This variation may reflect different levels of plasticity among the sampled variables and quite likely functional compromises between body temperature regulation and water balance. [ABSTRACT FROM AUTHOR]

Published

2023

143. Intramuscular Alfaxalone Effective Dose (ED) Determination and Cardiopulmonary Effects of ED99 in Sonoran Desert Toads (Incilius alvarius).

Author

Spitznagel, Katya, Sadar, Miranda J., Willis, Erin L., and Brandão, João

Subjects

*TOADS, *NONLINEAR regression, *VETERINARY medicine, *DESERTS, *AMPHIBIANS

Abstract

There is limited knowledge on amphibian sedation, and drug doses appear to be species-specific and affected by the administration route. Alfaxalone, a neuroactive steroid, has gained popularity in veterinary medicine and has been evaluated in some amphibian species. Previous studies in amphibians have demonstrated a sedative dose range of 10–30 mg/kg IM. No peer--reviewed publication has investigated this drug in Sonoran Desert toads (Incilius alvarius) specifically. Therefore, the purposes of this study were 1) to determine the effective dose 50 (ED50) of IM alfaxalone for sedation, and 2) to determine the cardiopulmonary effects of the effective dose 99 (ED99) in 13 Sonoran Desert toads. Using Dixon's up-and-down method, the ED50 was calculated as 9.02 mg/kg, and using a nonlinear regression, the calculated ED50 was 9.65 mg/kg, and the ED99 was 9.91 mg/kg. Based on these results, 10 mg/kg IM was administered, and its cardiovascular effects were determined for 120 min postinjection. The 10 mg/kg IM dose resulted in significant transient cardiorespiratory depression in all toads, with most toads (11/13) showing signs of sedation (recumbency and/or loss of righting reflex) within 30–40 min postinjection. There was no associated mortality with this study, and the side effects associated with this dosage (cardiorespiratory depression, ventral erythema, and dysphoric behavior such as rolling and head pressing) resolved in all toads prior to the end of the 120 min observation window. This study hopes to increase the understanding of the clinical application and limitations of this drug for sedation of Sonoran Desert toads. [ABSTRACT FROM AUTHOR]

Published

2023

144. Assessing the Impacts of Climate Change on the At-Risk Species Anaxyrus microscaphus (The Arizona Toad): A Local and Range-Wide Habitat Suitability Analysis.

Author

Driver, Sam M., Eversole, Cord B., Unger, Daniel R., Kulhavy, David L., Schalk, Christopher M., and Hung, I-Kuai

Subjects

ENDANGERED species, HABITAT conservation, HABITATS, WATERSHEDS, TOADS, CLIMATE change

Abstract

Anaxyrus microscaphus (The Arizona Toad) is an at-risk species that is endemic to the southwestern United States. Despite conservation concerns, little is known about the ecological drivers of its distribution and habitat use. We investigated the potential distribution of A. microscaphus at the range-wide scale and local scales (i.e., Zion National Park), using MaxEnt to model habitat suitability under current and future climate scenarios. Our models incorporated 12 environmental variables, including climatic, geomorphological, and remotely sensed data. The results showed good model accuracy, with temperature and elevation being the top contributing variables. Currently, 42.6% of the park's area provides a suitable habitat for A. microscaphus, but projections for 2050 and 2070 indicate a significant reduction in suitable habitat across its range. Temperature was the most influential variable, with habitat suitability decreasing as the annual mean temperatures exceeded 10 °C. Precipitation, vegetation, and topography variables also significantly contributed to the models. The most suitable habitat within Zion National Park occurred along sloped rivers and streams and in valleys with sandy soils, emphasizing the importance of riparian habitat conservation for A. microscaphus survival and persistence. As climate change progresses, the species' habitat is expected to become increasingly constrained across local and range-wide scales. Our models demonstrated a shift in the suitable habitat towards major river systems, indicating a potential reliance on larger permanent river systems as smaller, more ephemeral habitats decrease in size and abundance. Future management strategies should prioritize conserving and enhancing the resilience of these habitats. MaxEnt models can guide population survey efforts and facilitate the identification of priority conservation areas, saving time and resources for species of concern such as A. microscaphus. Further research, including field surveys and large-scale analyses, is necessary to further refine our understanding of this species' distribution and how it may be impacted by climate and habitat change. [ABSTRACT FROM AUTHOR]

Published

2023

145. Influence of Natural Gas Pipeline Right-of-Ways on Eastern Red-Backed Salamander Occurrence in the Northern Appalachians.

Author

Brown, Donald J., Knopka, Samuel C., Grushecky, Shawn T., Owen, Sheldon F., and Edwards, John W.

Subjects

NATURAL gas pipelines, SALAMANDERS, NATURAL gas extraction, AMPHIBIANS, REPTILES, NATURAL gas, RIGHT of way

Abstract

Road and pipeline infrastructure development for natural gas extraction often results in forest fragmentation, which could negatively influence habitat quality for many amphibian species. We investigated occurrence dynamics of the eastern red-backed salamander Plethodon cinereus in relation to natural gas pipeline rights-of-way (ROWs) and forest structure characteristics in northern Pennsylvania, USA. We sampled 80 sites across two study areas by using coverboards, with each site containing sampling plots at the center of the ROW, the edge of the ROW, and 10 m and 30 m into the adjacent forest. We assessed the influence of ROW age, ROW width, distance from ROW, and five forest structure characteristics on plot occupancy probability. Eastern red-backed salamander occupancy probability decreased with ROW age and increased with distance from ROW. Our results indicate that eastern red-backed salamanders are negatively influenced by forest fragmentation for natural gas ROWs. Moreover, responses were time dependent, with occupancy probability declining with ROW age. Due to low detections, we were unable to analyze data for the other amphibians and reptiles encountered during the study. Our capture data indicate that ROWs could improve habitat quality for some snake species, but additional research is needed to better understand the influence of ROWs on reptile species. To reduce future forest fragmentation and impacts on eastern red-backed salamander populations, managers could consider placing pipelines along existing linear clearings and enhancing the habitat quality of ROWs for salamanders. [ABSTRACT FROM AUTHOR]

Published

2023

146. Cytotoxicity of the field lampricide 3-trifluoromethyl-4-nitrophenol (TFM) in tadpole cell lines from North American frogs.

Author

Vo, Nguyen T. K. and DeWitte-Orr, Stephanie J.

Abstract

The common field lampricide, 3-trifluoromethyl-4-nitrophenol (TFM), is used to treat streams and creeks infested with highly invasive and destructive sea lamprey (Petromyzon marinus) in the tributaries of the Great Lakes. Unfortunately, amphibian deaths have been reported following stream treatments with TFM. Larval amphibians (tadpoles) are more susceptible to TFM toxicity than adult amphibians. The aim of this study was to test the toxicity of TFM in eight new tadpole cell lines from the green frog (Lithobates clamitans), wood frog (Lithobates sylvaticus), and American toad (Anaxyrus americanus). A cell viability bioassay using two fluorescent dyes, Alamar Blue and CFDA-AM, was performed following 24-h and 72-h exposures to a range of TFM concentrations. In general, TFM exposure reduced Alamar Blue fluorescence more rapidly than CFDA-AM fluorescence in tadpole cells, suggesting that Alamar Blue is perhaps a better diagnostic indicator of cell health for acute TFM cytotoxicity. At present, the in vivo 96-h LC50s of TFM are only available for L. clamitans and they correlated well with the in vitro EC50 values for the green frog tadpole cell lines in this study. The eight tadpole cell lines with different relative sensitivities to TFM cytotoxicity could prove to be useful tools in assessing next-generation lampricides in high-throughput bioassays to ensure safety in frogs before their sea lamprey-targeted application in the field. [ABSTRACT FROM AUTHOR]

Published

2023

147. It's not easy being green: Comparing typical skin colouration among amphibians with colour abnormalities associated with chromatophore deficits

Author

John Gould and Colin McHenry

Subjects

amphibian, axanthism, colour mutation, hypomelanism, iridophore, melanophore, Ecology, QH540-549.5

Abstract

Abstract Amphibians can obtain their colour from a combination of several different pigment and light reflecting cell types called chromatophores, with defects in one or several of the cells leading to colour abnormalities. There is a need for better recording of colour abnormalities within wild amphibian populations, as this may provide baseline data that can be used to determine changes in environmental conditions and population dynamics, such as inbreeding. In this study, we provide records of several types of chromatophore deficiencies, including those involving iridophores, xanthophores and melanophores, among two Australian tree frog species; the green and golden bell frog, Litoria aurea, and the eastern dwarf tree frog, L. fallax. We explore these colour abnormalities in terms of the chromatophores that have likely been affected and associated with their expression, in combination with typical colour phenotypes, colour variations and colour changes for these species. We intend for our photographs to be used as a visual guide that addresses the need for more accessible information regarding the physical manifestation of different chromatophore defects among amphibians.

Published

2024

148. Editorial: Amphibian and reptile road ecology

Author

Cheryl S. Brehme, Silviu O. Petrovan, Viorel D. Popescu, Thomas Edward S. Langton, Kimberly M. Andrews, and Robert Nathan Fisher

Subjects

road, amphibian, reptile, ecopassage, tunnel, road mortality, Evolution, QH359-425, Ecology, QH540-549.5

Published

2024

149. Transport from the wild rapidly alters the diversity and composition of skin microbial communities and antifungal taxa in spring peeper frogs

Author

Lauren P. Kane, William G. Van Bonn, Francis J. Oliaro, Christian F. Edwardson, Malissa Smith, and Lee J. Pinnell

Subjects

amphibian, microbiome, skin, antifungal taxa, managed environment, Microbial ecology, QR100-130

Abstract

Amphibians are routinely collected from the wild and added into managed care and public display facilities; however, there is a gap in understanding how these practices might alter the diversity and composition of skin microbial communities on these animals. The aim of this study was to evaluate and compare skin microbial communities of spring peeper frogs (Pseudacris crucifer) from acquisition in the wild through the end of their quarantine period and identify microbial taxa with antifungal properties. From an original group of seventy-six frogs, cohorts of ten were swabbed when acquired in the wild, upon transport from the wild, and swabbed throughout a 9-week quarantine period while under managed care. An immediate loss of microbial richness and diversity was evident upon transfer of the frogs from their original environment and continued throughout subsequent sampling time-points during quarantine. Importantly, antifungal taxa comprised significantly more of the overall skin community after the frogs were moved from the wild, largely due to members of the family Moraxellaceae. Overall, our findings demonstrate that amphibian skin microbiome changes immediately on removal from the wild, and that these changes persist throughout quarantine while being housed under managed care. This may play a pivotal role in the development of dermatological disease and have implications in the health and immune function of amphibians.

Published

2024

150. Microplastics as an emerging threat to amphibians: Current status and future perspectives

Author

Md Mizanur Rahman, Eung-Sam Kim, and Ha-Cheol Sung

Subjects

Microplastic, Amphibian, Bioaccumulation, Conservation, Population decline, Trophic transfer, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Given their pervasiveness in the environment, particularly in aquatic ecosystems, plastics are posing a growing concern worldwide. Many vertebrates and invertebrates in marine, freshwater, and terrestrial ecosystems exhibit microplastic (MP) uptake and accumulation. Some studies have indicated the fatal impacts of MPs on animals and their possible transfer through food chains. Thus, it is crucial to study MP pollution and its impacts on environment-sensitive and globally threatened animal groups, such as amphibians, which also play an important role in the energy transfer between ecosystems. Unfortunately, research in this field is lacking and sources of organized information are also scarce. Hence, we systematically reviewed published literature on MPs in amphibians to fill the existing knowledge gap. Our review revealed that most of the previous studies have focused on MP bioaccumulation in amphibians, whereas, only a few research highlighted its impacts. We found that more than 80% of the studied species exhibited MP accumulation. MPs were reported to persist in different organs for a long time and get transferred to other trophic levels. They can also exhibit cytotoxic and mutagenic effects and may have fatal impacts. Moreover, they can increase the disease susceptibility of amphibians. Our study concludes the MPs as a potential threat to amphibians and urges increasing the scope and frequency of research on MP pollution and its impacts on this vulnerable animal group. We also provide a generalized method for studying MPs in amphibians with future perspectives and research directions. Our study is significant for extending the knowledge of MPs and their impacts on amphibians and guiding prospective research.

Published

2024