Bruce D. Pauli scite author profile

Glyphosate-based herbicides are among the most widely used pesticides in the world. We compared the acute toxicity of the glyphosate end-use formulation Roundup Original to four North American amphibian species (Rana clamitans, R. pipiens, R. sylvatica, and Bufo americanus) and the toxicity of glyphosate technical, the polyethoxylated tallowamine surfactant (POEA) commonly used in glyphosate-based herbicides, and five newer glyphosate formulations to R. clamitans. For R. clamitans, acute toxicity values in order of decreasing toxicity were POEA > Roundup Original > Roundup Transorb > Glyfos AU; no significant acute toxicity was observed with glyphosate technical material or the glyphosate formulations Roundup Biactive, Touchdown, or Glyfos BIO. Comparisons between the four amphibian species showed that the toxicity of Roundup Original varied with species and developmental stage. Rana pipiens tadpoles chronically exposed to environmentally relevant concentrations of POEA or glyphosate formulations containing POEA showed decreased snout-vent length at metamorphosis and increased time to metamorphosis, tail damage, and gonadal abnormalities. These effects may be caused, in some part, by disruption of hormone signaling, because thyroid hormone receptor beta mRNA transcript levels were elevated by exposure to formulations containing glyphosate and POEA. Taken together, the data suggest that surfactant composition must be considered in the evaluation of toxicity of glyphosate-based herbicides.

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Historical Evidence of Widespread Chytrid Infection in North American Amphibian Populations

Ouellet¹,

Mikaelian²,

Pauli³

et al. 2005

Conservation Biology

195

191

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Emerging infectious diseases may be contributing to the global decline of amphibian populations. In particular, chytridiomycosis, a cutaneous fungal infection of amphibians caused by the chytrid Batrachochytrium dendrobatidis, gained attention in the 1990s as an apparently new pathogen. This fungus has been implicated as the causative agent of widespread mortalities among wild amphibians in geographically disparate parts of the world. To investigate the global distribution, historical occurrence, and infectiousness of this pathogen, we examined 3371 postmetamorphic and adult amphibians collected between 1895 and 2001 from 25 countries for the presence of chytrid fungi in the epidermis. Cutaneous chytrid infection was diagnosed in 383 of 2931 (13.1%) specimens of 12 common amphibian species from five Canadian provinces and seven American states, including 30 of 69 locations examined in the St. Lawrence River Valley of Québec. Chytrids were observed in 7.0% (46/655) of the adults collected in the 1960s, the earliest cases being two green frogs ( Rana clamitans) collected in 1961 from Saint-Pierre-de-Wakefield, Québec. In recent studies, morbidity and mortality attributable to chytridiomycosis were not observed in infected amphibians from Québec despite a 17.8% (302/1698) prevalence of chytrid infection during the period 1990-2001. The prevalence of infection during this latter period was not statistically different when compared with the period 1960-1969. Epidermal chytrid infections were not observed in 440 amphibians examined from 23 other countries. In light of the fact that infection by B. dendrobatidis is widely distributed and apparently enzootic in seemingly healthy amphibians from eastern North America, lethal outbreaks of chytridiomycosis among amphibian populations appear to have complex causes and may be the result of underlying predisposing factors. Resumen: Las enfermedades infecciosas emergentes pueden estar contribuyendo a la declinación global de poblaciones de anfibios. En particular, la quitridiomicosis, una infección fungosa cutánea en anfibios provocada por el quitridio Batrachochytrium dendrobatidis, atrajo la atención en la década de 1990 como un patógeno aparentemente nuevo. Este hongo ha sido implicado como el agente causal de extensas mortalidades en anfibios silvestres en sitios geográficamente dispares en el mundo. Para investigar la distribución global, la ocurrencia histórica y el nivel infeccioso de este patógeno, examinamos a 3371 anfibios postmetamórficos y adultos, recolectados entre 1895 y 2001 en 25 países, para detectar la presencia de hongos quitridios en la epidermis. Diagnosticamos quitridiomicosis cutánea en 383 de 2931 (13.1%) de especimenes de especies comunes de anfibios de cinco provincias Canadienses y siete estados de E. U. A., incluyendo 30 de 69 1432 Chytrid Infection in Wild Amphibians Ouellet et al. examinadas en el Valle del Río San Lorenzo de Québec. Observamos quitridios en 7.0% (46/655) de los adultos recolectados en la década de 1960, los primeros casos corresp...

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Toxicity of Endosulfan to Aquatic Stages of Anuran Amphibians

Berrill¹,

Coulson²,

McGillivray³

et al. 1998

Environ Toxicol Chem

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Gonadal differentiation in frogs exposed to estrogenic and antiestrogenic compounds

Mackenzie

Berrill

Metcalfe

et al. 2003

Enviro Toxic and Chemistry

100

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Exposure of amphibians to endocrine disrupting compounds (EDCs) may alter differentiation of gonads, especially when exposures begin during early life stages. Gonadal differentiation was observed in leopard frogs (Rana pipiens) and wood frogs (Rana sylvatica) exposed as tadpoles to estrogenic (estradiol, ethinylestradiol, nonylphenol) and antiestrogenic compounds (an aromatase inhibitor, flavone, and an antiestrogen, ICI 182780). Exposure to all compounds at micrograms/L concentrations altered gonadal differentiation in some animals by inducing either complete feminization or an intersex condition, and altered testicular tubule morphology, increased germ cell maturation (vitellogenesis), and oocyte atresia. Comparisons between the two species indicate that R. pipiens are more susceptible to sex reversal and development of intersex gonads. However, R. sylvatica also showed alterations to testicular morphology, germ cell maturation, and ooctye atresia. These laboratory results indicate that amphibians could be susceptible to altered gonadal differentiation and development when exposed to estrogenic and antiestrogenic compounds in aquatic environments, such as those impacted by agricultural, industrial, and municipal runoff.

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Frog Virus 3-Like Infections in Aquatic Amphibian Communities

Duffus

Pauli

Wozney

et al. 2008

Journal of Wildlife Diseases

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ABSTRACT: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.

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Bruce D. Pauli

Toxicity of glyphosate‐based pesticides to four North American frog species

Historical Evidence of Widespread Chytrid Infection in North American Amphibian Populations

Toxicity of Endosulfan to Aquatic Stages of Anuran Amphibians

Gonadal differentiation in frogs exposed to estrogenic and antiestrogenic compounds

Frog Virus 3-Like Infections in Aquatic Amphibian Communities

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