Hylid Tadpoles Research Articles

Predators Induce Morphological Changes in Tadpoles of Hyla andersonii

Predators can affect the development, fitness, and behavior of prey species in myriad ways. In response to the threat of predation, tadpoles can alter growth rate, morphology, and foraging behavior. Changes to tadpole development have the potential to alter life history characteristics and are therefore of interest in species of conservation concern. Using experimental mesocosms, we explored how non-lethal predators affected the larval development of the Pine Barrens Treefrog, Hyla andersonii, a near-threatened species in the United States. We found that caged dragonflies (Anax junius) induced darker tail coloration and deeper tail fins in tadpoles of H. andersonii, but the dragonflies did not affect tadpole behavior, survival, or size at metamorphosis. Non-lethal predator presence also induced greater within population variation in the tail color trait compared to populations without predators. This result suggests that there may be underlying genetic variation in the ability to express phenotypically plastic traits, a concept that should be explored further because it has implications for the evolution of inducible defenses. These findings support the existence of an adaptive syndrome among hylid tadpoles, where tadpoles develop conspicuous tail morphology in response to larval dragonfly predators.

The mechanics of air breathing in gray tree frog tadpoles, Hyla versicolor (Anura: Hylidae).

We describe air-breathing mechanics in gray tree frog tadpoles (Hyla versicolor). We found that H. versicolor tadpoles breathe by 'bubble-sucking', a breathing mode typically employed by tadpoles too small to break the water's surface tension, in which a bubble is drawn into the buccal cavity and compressed into the lungs. In most tadpoles, bubble-sucking is replaced by breach breathing (breaking the surface to access air) at larger body sizes. In contrast, H. versicolor tadpoles bubble-suck throughout the larval period, despite reaching body sizes at which breaching is possible. Hyla versicolor tadpoles exhibit two bubble-sucking behaviors: 'single bubble-sucking', previously described in other tadpole species, is characterized by a single suction event followed by a compression phase to fill the lungs; 'double bubble-sucking' is a novel, apparently derived form of bubble-sucking that adds a second suction event. Hyla versicolor tadpoles transition from single bubble-sucking to double bubble-sucking at approximately 5.7 mm snout-vent length (SVL), which corresponds to a period of rapid lung maturation when they transition from low to high vascularization (6.0 mm SVL). Functional, behavioral and morphological evidence suggests that double bubble-sucking increases the efficiency of pulmonary gas exchange by separating expired, deoxygenated air from freshly inspired air to prevent mixing. Hyla versicolor, and possibly other hylid tadpoles, may have specialized for bubble-sucking in order to take advantage of this increased efficiency. Single and double bubble-sucking represent two- and four-stroke ventilation systems, which we discuss in the context of other anamniote air-breathing mechanisms.

Reproductive Plasticity in the Nematode Gyrinicola batrachiensis: Does an Intermediate Reproductive Strategy Exist in Sexually Reproducing, Didelphic Pinworms?

Phenotypic plasticity is a process in which multiple phenotypes arise from 1 genotype because of environmental selection pressures. Gyrinicola batrachiensis has a heterogeneous reproductive strategy such that females reproduce either via parthogenesis with thick-shelled eggs in a single uterus or sexual reproduction with thick- and thin-shelled eggs in separate uterine horns. No evidence exists that strains of G. batrachiensis are able to switch between parthenogenetic and sexual reproduction. Thin-shelled eggs are autoinfective, and thick-shelled eggs act as transmission agents once shed into the aquatic environment. Our primary goal was to determine whether dioecious, didelphic pinworms that infect Rana sphenocephala, a slow-developing tadpole, and Osteopilus septentrionalis, a quick-developing tadpole, display reproductive plasticity with concern to thick- and thin-egg development. We performed experimental cross-infections in aquatic mesocosms to determine if dioecious, didelphic worms vary (based on tadpole host) in their ability to produce thin-shelled eggs: O. septentrionalis (hylid) egg masses were exposed to infected R. sphenocephala (ranid) tadpoles, ranid egg masses to infected hylid tadpoles, and a fully crossed infection that exposed ranid and hylid egg masses to infected tadpoles of both anuran families. Results indicated that worms reproduced via didelphic haplodiploidy in experimental ranid and hylid hosts, but that worms from hylids produced only thick-shelled eggs, which supports an intermediate reproductive strategy in O. septentrionalis. There was a significant difference in the mean intensities of ranid and hylid hosts, supporting our assertion that females infecting ranids are capable of producing autoinfective, thin-shelled eggs, and females infecting hylids do not produce such thin-shelled, autoinfective eggs because of the host microenvironment.

The tadpoles of the hylid frogs (Anura: Hylidae: Hypsiboas and Osteopilus) of Hispaniola

Hispaniolan hylid frogs are represented by four endemic species: Hypsiboas heilprini, Osteopilus dominicensis, O. pulchrilineatus and O. vastus. There are two tadpole ecomorphs represented in the hylid frogs of Hispaniola: lentic (O. dominicensis and O. pulchrilineatus) and lotic (H. heilprini and O. vastus). Tadpoles of the four species may be found sympatrically, but in different microhabitats. Hispaniolan hylid tadpoles reach a moderate size (up to 57 mm in total length is recorded in H. heilprini), and differ from those of Peltophryne, Rhinella, Leptodactylus and Lithobates (the other genera with free-living larvae present on the island), by having the oral discs not emarginated and, from the first three taxa, by a dextral vent opening. Oral deformities observed in most tadpoles of H. heilprini from Ébano Verde, Cordillera Central, were caused by the chytrid fungus Batrachochytrium dendrobatidis. An identification key is also provided.

Hylid Tadpoles from the Caribbean Island of Hispaniola: Ontogeny, Description and Comparison of External Morphology

Abstract The island of Hispaniola (Dominican Republic and Haiti) is home to four endemic species of treefrogs: Hypsiboas heilprini, Osteopilus dominicensis, O. pulchrilineatus and O. vastus. These species occur sympatrically over large areas below 1,850 m elevation and are commonly encountered together. We redescribe the external larval morphology of O. dominicensis, O. vastus, and Hybsiboas heilprini, and describe the tadpole of O. pulchrilineatus for the first time based on laboratory-reared specimens representing stages from early—late metamorphosis. Some tadpoles were raised to adults in order to confirm species identity. We document intraspecific variation in labial tooth-rows formulas, report ontogenetic changes in coloration, compare tadpoles of related species, and provide an identification key to the hylid tadpoles of Hispaniola. Hispaniolan hylid tadpoles inhabit fast-running streams or pools. Whereas the lotic larvae of O. vastus and H. heilprini exhibit characteristics commonly associated with...

Interspecific Differences in the Direct and Indirect Effects of Two Neotropical Hylid Tadpoles on Primary Producers and Zooplankton

AbstractHerbivores can both consume and facilitate primary producers with important consequences for community structure. How differences in herbivore foraging ecology alter the relative importance of such effects is not well understood, especially in tropical lentic systems. To address this issue, we manipulated the density of two herbivores with different foraging strategies to evaluate their effects on primary producers and other consumers. Specifically, we examined the effects of the tadpoles of two common Neotropical hylid frogs at two densities on conspecific growth, periphyton and phytoplankton, and zooplankton. We found that the tadpoles of the pantless treefrog, Dendropsophus ebraccatus, reduced periphyton and increased phytoplankton abundances, whereas they had no affect on zooplankton. The red‐eyed treefrog, Agalychnis callidryas, also reduced periphyton and increased phytoplankton, but to a greater extent, and they also had strong impacts on zooplankton by altering the composition, size structure, and total abundances of the zooplankton community. Differences between both species' impacts on these food webs were independent of tadpole biomass, as size‐selective filter feeding and nutrient cycling seems to drive the impacts of A. callidryas on phytoplankton and zooplankton, while the role of D. ebraccatus is more limited. Species level differences in the strength and direction of top‐down and bottom‐up effects on food webs suggest that the ecological roles of tadpoles may be diverse and important to aquatic communities.

Comparative feeding kinematics of tropical hylid tadpoles

Anuran larvae, which are otherwise simple in shape, typically have complex keratinized mouthparts (i.e. labial teeth and jaw sheaths) that allow them to graze upon surfaces. The diversity in these structures among species presumably reflects specializations that allow for maximal feeding efficiency on different types of food. However, we lack a general understanding of how these oral structures function during feeding. We used high-speed digital imaging (500 Hz) to observe tadpoles of six species from the anuran family Hylidae grazing on a standardized food-covered substrate. Tadpoles of these species vary in the number of labial tooth rows, belong to two different feeding guilds (benthic and nektonic), and inhabit ponds and streams. We confirmed that the labial teeth in these species serve two functions: anchoring the mouth to the substrate and raking material off of the substrate. In general, tadpoles with a larger maximum gape or those with fewer labial tooth rows opened and closed their mouths slower than tadpoles with smaller gape or more tooth rows. Nektonic feeding tadpoles released each of their tooth rows proportionally earlier in the gape cycle compared with benthic feeding tadpoles. Lastly, we found some support for the idea that deformation of the jaw sheaths during a feeding cycle is predictable based on tadpole feeding guild. Collectively, our data show that anatomical (e.g. number of labial teeth) and ecological features (e.g. feeding guild) of tadpoles significantly influence how tadpoles open and close their mouths during feeding.

Interactions Between Competition and Predation Shape Early Growth and Survival of Two Neotropical Hylid Tadpoles

Experimental studies in temperate regions have revealed that competition and predation interact to shape aquatic communities. Predators typically reduce the effect of competition on growth and competitors provide alternative prey subjects, which may also alter predation. Here, we examine the independent and combined effects of competition and predation on the survival and growth of hatchling tadpoles of two widespread co-occurring Neotropical hylid frogs (Agalychnis callidryas and Dendropsophus ebraccatus). Using 400 L mesocosms, we used a 2 × 3 factorial substitutive design, which crossed tadpole species composition with the presence or absence of a free-roaming predator (Anax amazili dragonfly larva). Dragonflies were effective predators of both species, but had larger effects on A. callidryas survival. Both species had similar growth rates when alone, whereas A. callidryas grew 30 percent faster than D. ebraccatus when they co-occurred, suggesting interspecific rather than intraspecific competition had relatively stronger effects on D. ebraccatus growth, while the opposite was true for A. callidryas. Predator presence dramatically reduced growth rates of both species and erased this asymmetry. Results suggest that the effects of predator induction (i.e., nonconsumptive effects) on growth were larger than both consumptive and competitive effects. Our study demonstrates that predators have strong effects on both survival and growth of prey, highlighting the potential importance of predators in shaping prey populations and tropical aquatic food web interactions. Abstract in Spanish is available at http://www.blackwell-synergy.com/loi/btp. Estudios experimentales en regiones templados han demostrado que la competencia y la depredación interactúan durante la formación de comunidades acuáticas. Sin embargo, investigaciones experimentales sobre la depredación y la competencia en sistemas acuáticos tropicales son pocas. Aquí, examinamos los efectos de la competencia y la depredación, independientemente y en combinación, sobre la supervivencia y el crecimiento de renacuajos de dos especies hylidas neotropicales recurrentes (Agalychnis callidryas y Dendropsophus ebraccatus). Usando mesocosmos de 400 L, involucramos un diseño sustitutivo factorial en cual cruzamos la composición de especies con la presencia o ausencia de un predador suelto (una larva de libélula, Anax amazili). Las libélulas fueron predadores eficaces de las dos especies, pero tuvieron un efecto mas grande sobre la supervivencia de A. callidryas. Estando solas, cada especie mantuvo un aumento de crecimiento similar, pero cuando ocurrieron juntos, A. callidryas creció 30 por ciento más rápido que D. ebraccatus, sugiriendo que la competencia interespecifica tuvo efectos relativamente más grandes que la competencia intraespecifica sobre el crecimiento de D. ebraccatus y que lo contrario fue verdad para A. callydrias. La presencia de predadores redució el aumento de crecimiento dramaticamente en las dos especies, borrando esa asimetría. Nuestros resultados sugieren que los efectos sobre el crecimiento inducidos por predadores fueron más grandes que los efectos letales y efectos competitivos. Esta investigación demuestra que predadores pueden afectar el crecimiento tanto como la supervivencia de su presa, iluminando la importancia de predadores en el desarrollo de interacciones tróficas en comunidades acuáticas tropicales.

Gyrinicola chabaudi Araujo & Artigas, 1982 (Nematoda: Pharyngodonidae) in tadpoles of Scinax nasicus (Cope, 1862) (Anura: Hylidae) from Corrientes, Argentina

<p><em>Gyrinicola chabaudi</em> (Pharyngodonidae) represents a new record for the country and is reported for the first time from hylid tadpoles of <em>Scinax nasicus</em>. Fifteen anurans were collected in a pond located 30 km from Corrientes City, province of Corrientes, Argentina (27°28’S - 58°50’W) in May 2000. The nematode infection was detected in 66 % of tadpoles.</p>

FROG VIRUS 3-LIKE INFECTIONS IN AQUATIC AMPHIBIAN COMMUNITIES

Frog virus 3 (FV3) and FV3-like viruses, are members of the genus Ranavirus (family Iridoviridae), and they have been associated with infectious diseases that may be contributing to amphibian population declines. We examined the mode of transmission of an FV3-like virus, and potential hosts and reservoirs of the virus in a local amphibian community. Using the polymerase chain reaction to detect infected animals, we found an FV3-like virus in south-central Ontario, Canada, amphibian communities, where it infects sympatric amphibian species, including ranid and hylid tadpoles (Rana sylvatica, Hyla versicolor, and Pseudacris spp.), larval salamanders (Ambystoma spp.), and adult eastern-spotted newts (Notophthalmus viridescens). The high prevalence of FV3-like infections in caudate larvae suggests that salamanders are likely to be both hosts and reservoirs. In laboratory FV3 challenges of R. sylvatica, the rate of infection was dependent on the amount of virus to which the animals were exposed. In addition, although vertical transmission was suspected, horizontal transmission through exposure to infected pond water is the most likely route of infection in tadpoles. Based on our observations, a simple model of FV3/FV3-like virus transmission postulates that, in aquatic amphibian communities, transmission of the virus occurs between anuran and urodele species, with ambystomatid salamanders the most likely reservoir for the ranavirus in our study.

Interaction of pH, density, and priority effects on the survivorship and growth of two species of hylid tadpoles.

We examined the interactions of an abiotic factor (pH) and a biotic factor (density) on the survival and growth of two species of anuran larvae (Hyla gratiosa and Hyla femoralis) in outdoor tanks. Three levels of pH (4.3, 4.6, or 6.0) and three levels of density (0, 30 or 60 embryos) were arranged in a blocked design and replicated three times for Hyla gratiosa. At the end of this experiment the effects of pH (4.3, 4.6, or 6.0), density of H. femoralis (30 or 60), and prior use by H. gratiosa (at 0, 30, or 60 larvae per tank) on the survival and growth of H. femoralis, were examined. Higher density increased larval period and decreased size at metamorphosis of H. gratiosa. Lower pH decreased survival rate and also decreased size at metamorphosis. Body sodium concentrations were lowest at the low pH values. Lower pH increased the susceptibility of H. gratiosa tadpoles to the adverse effects of higher densities. For H. femoralis higher density decreased survival, increased larval period and decreased size at metamorphosis. Hyla femoralis also had lower survivorship at low pH and exhibited decreased size at metamorphosis. However, unlike the results with Hyla gratiosa, there were no interactive effects between pH and density for any of the life-history traits studied. The effect of previous colonization by H. gratiosa on H. femoralis survival was facilitative. Body sodium concentrations of H. femoralis were lowest at the highest pH value. Metamorphs of the same size had much lower levels of sodium in H. femoralis than H. gratiosa. In general, H. femoralis was less affected by pH variation than H. gratiosa. These results demonstrate that abiotic factors can interact strongly with biotic effects such as density and they suggest that interspecific interactions can be strongly modulated by the background abiotic environment.

Phenotypic Variation and the Outcome of Interspecific Competition in Hylid Tadpoles

Phenotypic Variation and the Outcome of Interspecific Competition in Hylid Tadpoles

Population Density and Age Structure of Three Species of Hylid Tadpoles

Estimates of the population densities of the tadpoles of Acris gryllus, Hyla avivoca, and Hyla cinerea in a small pond (ca. 4000 m2 surface area) in east-central Mississippi were made during one summer. Acris constituted about 95.7 per cent of the population, with H. cinerea (3.5 per cent), and H. avivoca (0.8 per cent) following in sequence. At the peak population level, there were ca. 26,000 tadpoles (660 g dry weight) in the pond that provided ca. 13.7 X 106 kcal for consumption by predators. Age structure of Acris tadpoles reflected breeding surges stimulated by rainy periods. A bomb calorimetry sample of gutted Acris tadpoles yielded 5489 kcal/g body weight. * * *

Predation on peridomestic mosquitoes by hylid tadpoles on Grand Bahama Island.

In order to determine whether tadpoles of Hyla septentrionalis are effective predators of larval peridomestic mosquitoes, larvae were exposed to tadpoles and the association between larvae and tadpoles in nature was recorded. Tadpoles were cannibalistic, eating egg masses of their own species, as well as a variety of material of both plant and animal origin. Tadpoles captured and ate more than 13 larval Culex pipiens per day. In natural breeding sites on Grand Bahama Island, larval C. pipiens were never abundant in sites that contained tadpoles and when tadpoles were introduced into vessels that contained mosquitoes, these containers soon became free of mosquitoes. The habitat of H. septentrionalis tadpoles in the study area seemed identical to that of larval C. pipiens and more than half of apparently suitable sites contained tadpoles. Thus, the presence of these frogs appeared to limit the abundance of C. pipiens.

Reduced Survival of Young Etheostomatine Fishes and Hylid Tadpoles Due to Ammonia Fumes Produced by a Rodent Colony

Reduced Survival of Young Etheostomatine Fishes and Hylid Tadpoles Due to Ammonia Fumes Produced by a Rodent Colony

Notes on some hylid tadpoles in Louisiana

Notes on some hylid tadpoles in Louisiana