Deforestation, host community structure, and amphibian disease risk

Habitat disturbances and the emergence of the chytrid fungus Batrachochytrium dendrobatidis (Bd) are linked to accelerated amphibian declines. Deforestation can directly alter amphibian community structure through abiotic and biotic mechanisms including shifts in local microclimates and species inte...

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Bibliographic Details
Published in:Basic and applied ecology 2016-02, Vol.17 (1), p.72-80
Main Authors: Becker, C. Guilherme, Rodriguez, David, Longo, Ana V., Toledo, L. Felipe, Lambertini, Carolina, Leite, Domingos S., Haddad, Célio F.B., Zamudio, Kelly R.
Format: Article
Language:English
Subjects:
Acquired resistance
Amphibia
Amphibian declines
amphibians
Batrachochytrium dendrobatidis
biomass
Communities
community structure
Conservation
Deforestation
Density
Density-dependent transmission
Exposure
forests
fungi
habitats
hosts
microclimate
Microclimates
pathogens
Risk
Species diversity
Wildlife diseases
zoospores
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Summary:Habitat disturbances and the emergence of the chytrid fungus Batrachochytrium dendrobatidis (Bd) are linked to accelerated amphibian declines. Deforestation can directly alter amphibian community structure through abiotic and biotic mechanisms including shifts in local microclimates and species interactions. Changes in amphibian community attributes, in turn, potentially impact Bd transmission dynamics, and thus also have an indirect role in biodiversity persistence. Here, we tested whether deforestation influences Bd infections through shifts in amphibian community structure, including species richness, community composition, total host density, and host biomass. We surveyed 22 temperate and tropical amphibian communities across gradients of deforestation in the U.S. and Brazil, and we experimentally exposed a representative subsample of each amphibian community to standardized Bd zoospore loads in mesocosms under controlled microclimate. We found that denser temperate amphibian communities commonly found at pristine sites showed higher Bd loads when microclimates were held constant. In contrast, tropical amphibian communities found at pristine forest sites carried lower Bd infection loads in the absence of variable microclimates, likely due to their host species composition. Previous host exposure to the pathogen in tropical communities also played an important role in determining infection loads; we identified a negative association between Bd infection loads observed in the wild and in the laboratory. Our results highlight that deforestation can have cascading biotic effects on disease risk, and that quantifying the net contribution of host community attributes to Bd infections will help us identify specific drivers of disease and inform conservation strategies. Störungen des Lebensraumes und das Auftreten des Chytridpilzes, Batrachochytrium dendrobatidis (Bd), stehen mit dem beschleunigten Rückgang der Amphibien in Verbindung. Entwaldung kann die Struktur einer Amphibiengemeinschaft direkt durch abiotische (lokales Mikroklima) oder biotische (interspezifische Interaktionen) Mechanismen verändern. Diese Veränderungen der Amphibiengemeinschaft könnten ihrerseits die Bd-Übertragungsdynamik beeinflussen und so eine indirekte Rolle für den Erhalt der Biodiversität spielen. Wir untersuchten, ob Entwaldung über Änderungen der Struktur von Amphibiengemeinschaften die Bd-Infektionen beeinflusste. Wir erfassten dazu Artenreichtum, Artenzusammensetzung, gesamte
ISSN:1439-1791
DOI:10.1016/j.baae.2015.08.004