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Dehydration in Southern Toads (Anaxyrus terrestris): Metabolic Costs and Effects of Temperature SelectionForster, Claire E 01 January 2013 (has links)
Southern toads (Anaxyrus terrestris) are ectothermic terrestrial amphibians. As such they are sensitive to thermal and hydric variability. The interactive effect of hydration state and body temperature is not well understood. The aim of this study is to determine if the costs of dehydration vary at different temperatures and if so, whether toads will select different temperatures to minimize these costs. Costs of dehydration were evaluated by measuring metabolic rate at 100% and 85% hydration state, at 30 and 20 oC. Temperature selection of toads at 100% and 85% hydration state was measured using a thermal gradient. Body temperature, but not hydration state, was determined to have a significant effect on metabolic rate. No significant difference in temperature selection was found between toads at 100% and 85% hydration state. Thus, thermoregulatory behavior as influenced by hydration state could not be predicted in Anaxyrus terrestris.
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Participação dos núcleos da rafe nas respostas cardiorespiratórias à hipóxia e hipercarbia em sapos / Role of the raphe nuclei in the ventilatory and cardiovascular response to hypoxia and hipercarbia in toadsCarolina Ribeiro Noronha de Souza 23 February 2010 (has links)
Os núcleos da rafe são agrupamentos celulares cujo principal tipo é o serotoninérgico. Em anuros adultos a estimulação elétrica e química da rafe bulbar não causa alteração na ventilação, enquanto que em mamíferos, dependendo da localização exata desta estimulação, a ventilação pode ser inibida ou estimulada. Ainda em mamíferos, os núcleos bulbares da rafe participam da resposta cardiorrespiratória à hipóxia (5% O2) e hipercarbia (5% CO2), enquanto que em anfíbios isto ainda não foi investigado. Portanto, o objetivo do presente trabalho foi investigar a participação dos núcleos da rafe nas respostas cardiorrespiratórias à hipóxia e hipercarbia em sapos (Rhinella schneideri). Para isso, primeiramente os núcleos da rafe foram localizados e identificados na espécie estudada. Imunorreatividade para proteínas Fosrelacionadas foi utilizada para verificar se estes núcleos são ativados ou inibidos durante o estímulo hipóxico e hipercárbico, e, adicionalmente, o papel dos núcleos magno e pontino da rafe nas respostas cardiorrespiratórias à hipóxia e hipercarbia foi investigado por meio da lesão nãoseletiva com ácido ibotênico. A ventilação pulmonar foi medida diretamente pelo método pneumotacográfico e a pressão arterial por canulação da artéria femoral. Os resultados demonstram que os núcleos bulbares da rafe são inibidos após o estímulo hipóxico e hipercárbico. A hipóxia causou aumento da ventilação pulmonar e da frequência cardíaca nos grupos veículo e lesado. A hipercarbia causou aumento da ventilação pulmonar em ambos os grupos. A lesão nãoseletiva dos núcleos magno e pontino da rafe não teve efeito na ventilação basal (durante normóxia normocárbica) e nas respostas cardiorrespiratórias à hipóxia e hipercarbia, sugerindo que estes núcleos não participam do controle da ventilação em condições basais ou durante a hipóxia e hipercarbia em sapos. / The raphe nuclei are brainstem cell groups and the main cell type is serotonergic. In adult anurans electrical or chemical stimulation of the medullary raphe has no effect on ventilation, whereas in mammals depending on the specific site of stimulation, an excitatory or inhibitory response is elicited. In mammals the medullary raphe participate in the ventilatory and cardiovascular response to hypoxia and hipercarbia while in amphibians there are no data available. Thus the present study was designed to investigate whether the raphe nuclei of toads (Rhinella schneideri) participate in the ventilatory and cardiovascular response to hypoxia (5% O2) and hipercarbia (5% CO2). First the raphe nuclei were located and identified. Fosrelated immunoreactivity was used to verify whether the raphe nuclei are activated or inhibited by hypoxia or hypercarbia. In addition, the role of raphe magnus and pontis in the respiratory and cardiovascular responses to hypoxia and hypercarbia were investigated by nonselective lesioning with ibotenic acid. Pulmonary ventilation was directly measured by pneumotachographic method and the arterial pressure by a femoral catheter. The results indicate that the medullary raphe nuclei are inhibited after hypoxic and hypercarbic stimulus (2,5h). Hypoxia caused hyperventilation and increase in the cardiac frequency in the vehicle and lesioned groups. Hypercarbia caused hyperventilation in both groups. Chemical lesions in the raphe magnus and pontis did not affect ventilatory or cardiovascular variables under resting conditions (normoxic normocárbica) or during the response to hypoxia or hipercarbia.
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Participação dos núcleos da rafe nas respostas cardiorespiratórias à hipóxia e hipercarbia em sapos / Role of the raphe nuclei in the ventilatory and cardiovascular response to hypoxia and hipercarbia in toadsSouza, Carolina Ribeiro Noronha de 23 February 2010 (has links)
Os núcleos da rafe são agrupamentos celulares cujo principal tipo é o serotoninérgico. Em anuros adultos a estimulação elétrica e química da rafe bulbar não causa alteração na ventilação, enquanto que em mamíferos, dependendo da localização exata desta estimulação, a ventilação pode ser inibida ou estimulada. Ainda em mamíferos, os núcleos bulbares da rafe participam da resposta cardiorrespiratória à hipóxia (5% O2) e hipercarbia (5% CO2), enquanto que em anfíbios isto ainda não foi investigado. Portanto, o objetivo do presente trabalho foi investigar a participação dos núcleos da rafe nas respostas cardiorrespiratórias à hipóxia e hipercarbia em sapos (Rhinella schneideri). Para isso, primeiramente os núcleos da rafe foram localizados e identificados na espécie estudada. Imunorreatividade para proteínas Fosrelacionadas foi utilizada para verificar se estes núcleos são ativados ou inibidos durante o estímulo hipóxico e hipercárbico, e, adicionalmente, o papel dos núcleos magno e pontino da rafe nas respostas cardiorrespiratórias à hipóxia e hipercarbia foi investigado por meio da lesão nãoseletiva com ácido ibotênico. A ventilação pulmonar foi medida diretamente pelo método pneumotacográfico e a pressão arterial por canulação da artéria femoral. Os resultados demonstram que os núcleos bulbares da rafe são inibidos após o estímulo hipóxico e hipercárbico. A hipóxia causou aumento da ventilação pulmonar e da frequência cardíaca nos grupos veículo e lesado. A hipercarbia causou aumento da ventilação pulmonar em ambos os grupos. A lesão nãoseletiva dos núcleos magno e pontino da rafe não teve efeito na ventilação basal (durante normóxia normocárbica) e nas respostas cardiorrespiratórias à hipóxia e hipercarbia, sugerindo que estes núcleos não participam do controle da ventilação em condições basais ou durante a hipóxia e hipercarbia em sapos. / The raphe nuclei are brainstem cell groups and the main cell type is serotonergic. In adult anurans electrical or chemical stimulation of the medullary raphe has no effect on ventilation, whereas in mammals depending on the specific site of stimulation, an excitatory or inhibitory response is elicited. In mammals the medullary raphe participate in the ventilatory and cardiovascular response to hypoxia and hipercarbia while in amphibians there are no data available. Thus the present study was designed to investigate whether the raphe nuclei of toads (Rhinella schneideri) participate in the ventilatory and cardiovascular response to hypoxia (5% O2) and hipercarbia (5% CO2). First the raphe nuclei were located and identified. Fosrelated immunoreactivity was used to verify whether the raphe nuclei are activated or inhibited by hypoxia or hypercarbia. In addition, the role of raphe magnus and pontis in the respiratory and cardiovascular responses to hypoxia and hypercarbia were investigated by nonselective lesioning with ibotenic acid. Pulmonary ventilation was directly measured by pneumotachographic method and the arterial pressure by a femoral catheter. The results indicate that the medullary raphe nuclei are inhibited after hypoxic and hypercarbic stimulus (2,5h). Hypoxia caused hyperventilation and increase in the cardiac frequency in the vehicle and lesioned groups. Hypercarbia caused hyperventilation in both groups. Chemical lesions in the raphe magnus and pontis did not affect ventilatory or cardiovascular variables under resting conditions (normoxic normocárbica) or during the response to hypoxia or hipercarbia.
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THE FUNCTION OF FINE-SCALE SIGNAL TIMING STRATEGIES: SYNCHRONIZED CALLING IN STREAM BREEDING TREE FROGSHenry D Legett (8803115) 06 May 2020 (has links)
In dense mating
aggregations, such as insect and anuran choruses, signals produced at the same
time can overlap and interfere with one another, reducing the ability of
receivers to discriminate between individual signals. Thus, evolution by sexual
selection is expected to result in mating signal timing strategies that avoid
overlap. Patterns of signal alternation between competing males are commonly
observed in leks and choruses across taxa. In some species, however, signalers
instead deliberately overlap, or ‘synchronize’, their mating signals with
neighboring conspecifics. Given the assumed high cost of reduced mate
attraction when signals overlap, mating signal synchronization has remained an
evolutionary puzzle. Synchronization may be beneficial, however, if overlapping
signals reduce the attraction of nontarget receivers (predator avoidance
hypothesis). Synchronized signals could also constructively interfere,
increasing female attraction to the mating aggregation (the beacon effect
hypothesis). I investigate these functions of synchronized signaling in two
species of tree frogs that synchronize their mating calls: the pug-nosed tree
frog (<i>Smilisca sila</i>) and the Ryukyu Kajika frog (<i>Buergeria japonica</i>).
To examine the trade-offs imposed by call synchronization in each species, I
conduct a series of field and laboratory playback experiments on target (female
frogs) and nontarget (eavesdropping predators) receivers of frog calls. Results
from these experiments support both hypotheses, suggesting that synchronized
frog calls can reduce the attraction of predators and attract mates to the
chorus. In addition, I found reduced preferences for fine-scale call timings in
female <i>S. sila</i> and <i>B. japonica</i>, deviating from the expected
preferences observed in many other anuran and non-anuran species. Thus, while
males may enjoy multiple benefits from synchronized mating signals, relaxed
sexual selection for non-synchronous signals may be key to the evolution and
maintenance of mating signal synchrony.
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Anuran Community Occupancy Dynamics in Wayne National Forest in Southeast OhioConnolly, Andrew 15 June 2022 (has links)
No description available.
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HOW ECOLOGY AND EVOLUTION SHAPE SPECIES DISTRIBUTIONS AND ECOLOGICAL INTERACTIONS ACROSS TIME AND SPACEGherghel, Iulian 22 January 2021 (has links)
No description available.
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<strong>EVALUATING EFFECTS OF PERFLUORINATED ALKYL SUBSTANCES (PFAS) ON ANURAN LIPID HOMEOSTASIS THROUGH </strong><em><strong>XENOPUS LAEVIS </strong></em><strong>BODY & HEPATIC CONDITION</strong>Anna Grace Bushong (16612647) 18 July 2023 (has links)
<p> Per- and polyfluoroalkyl substances (PFAS) are a class of persistent environmental contaminants that have become ubiquitous, resulting in widespread exposure among humans and wildlife. Amphibians are regularly exposed in the field, making them susceptible to sublethal effects of PFAS exposure. In amphibians exposed to PFAS, deleterious effects have been observed, including reduction in body condition measured using the scaled mass index (SMI) and degraded hepatic condition, among others. PFAS may dysregulate lipid metabolism by altering signaling cascades regulated by peroxisome proliferator activated receptors (PPAR), but whether changes in energy stores can explain changes in amphibian SMI and/or hepatic condition remain underexplored. Since lipids are a critical energy reserve for anurans, understanding whether lipid metabolism is being perturbed is critical. The central objective of this thesis was to investigate the effect of PFAS on lipid homeostasis in <em>Xenopus laevis </em>tadpoles within the context of a PPAR mechanism of action (MOA), considering apical, molecular, and lipidomic endpoints. I conducted three studies: (a) a study to characterize SMI and the relative expression of the hepatic xPPARα/β/γ during metamorphosis, (b) a pharmaceutical exposure to assess the <em>in vivo</em> effects of xPPARα/β/γ agonism on hepatic gene expression for select downstream targets (<em>apoa5, fabp1, acox1, pck1</em>), and (c) a chronic PFAS exposure to investigate the effects of environmentally relevant concentrations (PFOS, PFHxS, PFOA, PFHxA at 0.5 ppb; binary mixture of PFOS:PFHxS at 1 ppb) on lipid homeostasis through apical endpoints (mass, snout vent length, SMI, hepatic condition), relative hepatic gene expression, and Multiple Reaction Monitoring (MRM) profiling of the hepatic lipidome for changes in relative class abundance. In study (a), I identified SMI and hepatic expression of <em>xPPARα/β/γ</em> is dynamic during late metamorphosis, indicating the potential for heightened susceptibility. However, in study (b), pharmaceutical agonists had no effect on <em>X. laevis</em> at high doses. For study (c), I did not observe effects on a majority of apical endpoints, including SMI, but detected a significant sex-specific reduction in hepatic condition for male<em> X. laevis</em> tadpoles exposed to single-chemical perfluorosulfonic acid (PFSA) treatments. For gene expression, I observed a transient downregulation for apolipoprotein-V (<em>apoa5</em>) at Nieuwkoop and Faber (NF) stage 62 for <em>X. laevis</em> tadpoles exposed to single-chemical perfluorocarboxylic acid (PFCA) treatments. Lipid profiling detected transient dysregulation of predominantly membrane lipids in-response to short-chain PFAS treatments at NF 58. Overall, our findings indicate PFAS may exert toxicity during anuran metamorphosis through multiple mechanisms of action (MOA) with sex-specific and developmental-stage specific outcomes.</p>
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