Agrochemicals increase trematode infections in a declining amphibian species

Global amphibian declines have often been attributed to disease, but ignorance of the relative importance and mode of action of potential drivers of infection has made it difficult to develop effective remediation. In a field study, here we show that the widely used herbicide, atrazine, was the best...

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Bibliographic Details
Published in:Nature 2008-10, Vol.455 (7217), p.1235-1239
Main Authors: Rohr, Jason R, Scotthoefer, Anna M, Raffel, Thomas R, Carrick, Hunter J, Halstead, Neal, Hoverman, Jason T, Johnson, Catherine M, Johnson, Lucinda B, Lieske, Camilla, Piwoni, Marvin D, Schoff, Patrick K, Beasley, Val R
Format: Article
Language:English
Subjects:
Aggregates
Agrochemicals
Agrochemicals - pharmacology
Algae
Amphibians
Animal, plant and microbial ecology
Animals
Applied ecology
Atrazine
Atrazine - pharmacology
Biodiversity
Biological and medical sciences
developmental stages
Disease Susceptibility - chemically induced
Disease Susceptibility - veterinary
Ecotoxicology, biological effects of pollution
Effects of pollution and side effects of pesticides on vertebrates
environmental exposure
Fundamental and applied biological sciences. Psychology
Health risks
herbicide residues
Herbicides
Herbicides - pharmacology
Humanities and Social Sciences
Larva - drug effects
Larva - physiology
larvae
letter
Marine
Mode of action
Mortality
multidisciplinary
phosphates
Phosphates - pharmacology
Population Density
Rana pipiens
Rana pipiens - immunology
Rana pipiens - parasitology
Rana pipiens - physiology
Reptilia. Amphibia
Risk factors
Sample size
Science
Science (multidisciplinary)
Sorghum
Studies
Trematoda - drug effects
Trematoda - growth & development
Trematoda - physiology
trematode infections
Trematode Infections - chemically induced
Trematode Infections - parasitology
Trematode Infections - veterinary
Variables
water pollution
Wetlands
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Summary:Global amphibian declines have often been attributed to disease, but ignorance of the relative importance and mode of action of potential drivers of infection has made it difficult to develop effective remediation. In a field study, here we show that the widely used herbicide, atrazine, was the best predictor (out of more than 240 plausible candidates) of the abundance of larval trematodes (parasitic flatworms) in the declining northern leopard frog Rana pipiens. The effects of atrazine were consistent across trematode taxa. The combination of atrazine and phosphate-principal agrochemicals in global corn and sorghum production-accounted for 74% of the variation in the abundance of these often debilitating larval trematodes (atrazine alone accounted for 51%). Analysis of field data supported a causal mechanism whereby both agrochemicals increase exposure and susceptibility to larval trematodes by augmenting snail intermediate hosts and suppressing amphibian immunity. A mesocosm experiment demonstrated that, relative to control tanks, atrazine tanks had immunosuppressed tadpoles, had significantly more attached algae and snails, and had tadpoles with elevated trematode loads, further supporting a causal relationship between atrazine and elevated trematode infections in amphibians. These results raise concerns about the role of atrazine and phosphate in amphibian declines, and illustrate the value of quantifying the relative importance of several possible drivers of disease risk while determining the mechanisms by which they facilitate disease emergence.
ISSN:0028-0836
1476-4687
1476-4679
DOI:10.1038/nature07281