Host pathogen metapopulation dynamics suggest high elevation refugia for boreal toads

Authors: Brittany A Mosher; Larissa L Bailey; Erin Muths; Kathryn P Huyvaert
Contribution Number: 613
Abstract/Summary

Emerging infectious diseases are an increasingly common threat to wildlife. Chytridiomycosis, caused by the fungal pathogen Batrachochytrium dendrobatidis (Bd), is an emerging infectious disease that has been linked to amphibian declines around the world. Few studies exist that explore amphibian-Bd dynamics at the landscape scale, limiting our ability to identify which factors are associated with variation in population susceptibility and to develop effective in situ disease management. Declines of boreal toads (Anaxyrus boreas boreas) in the Southern Rocky Mountains are largely attributed to chytridiomycosis but variation exists in local extinction of boreal toads across this metapopulation. Using a large-scale historic dataset, we explored several potential factors influencing disease dynamics in the boreal toad-Bd system: geographic isolation of populations, amphibian community richness, elevational differences, and habitat permanence. We found evidence that boreal toad extinction risk was lowest at high elevations where temperatures may be sub-optimal for Bd growth and where small boreal toad populations may be below the threshold needed for efficient pathogen transmission. In addition, boreal toads were more likely to recolonize high elevation sites after local extinction, again suggesting that high elevations may provide refuge from disease for boreal toads. We illustrate a modeling framework that will be useful to natural resource managers striving to make decisions in amphibian-Bd systems.

Publication details
Published Date: 2018
Outlet/Publisher: Ecological Applications
Media Format: .PDF

ARMI Organizational Units:
Rocky Mountains, Southern - Biology
Topics:
Disease; Monitoring and Population Ecology; Water
Place Names:
Colorado; Rocky Mountain National Park
Keywords:
amphibians; Bd; chytrid fungus; climate; colonization; demographics; disease; PCR; population
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