Site- and individual-level contamination affects infection prevalence of an emerging infectious disease of amphibians

Abstract/Summary

Emerging infectious disease outbreaks are one of multiple stressors responsible for amphibian declines globally. In the northeastern United States, ranaviral diseases are prevalent in amphibians and other ectothermic species, but there is still uncertainty as to whether their presence is leading to population level effects. Further, there is also uncertainty surrounding the potential interactions among disease infection prevalence in free-ranging animals and habitat degradation (co-occurrence of chemical stressors). The current study was designed to provide field-based estimates of the relationship between amphibian disease and chemical stressors. We visited 40 wetlands across three protected areas, estimated the prevalence of ranavirus among populations of larval wood frogs and spotted salamanders, and assessed chemical and biological stressors in wetland habitats and larval amphibians using a suite of selected bioassays, screening tools and chemical analyses. Estimated ranavirus occupancy varied among the three protected areas and ranged from https://0.27 to https://0.55 with considerable variation within protected area. Of the stressors evaluated, ranavirus prevalence was strongly and positively related to concentrations of metalloestrogens (metals with the potential to bind to estrogen receptors) and total metals in wetland sediments and weakly and negatively related to total pesticide concentrations in larval amphibians. These results can be used by land managers to refine habitat assessments to include such environmental factors with the potential to influence disease susceptibility.

Publication details
Published Date: 2022-01-09
Outlet/Publisher: Environmental Toxicology and Chemistry
Media Format: URL

ARMI Organizational Units:
Northeast - Water
Topics:
Disease; Invasive Species; Stressors
Place Names:
Assabett River and Oxbow National NWR; Chesapeake and Ohio Canal NHP; Patuxent Research Refuge
Keywords:
amphibians; ARMI; disease; estrogenicity; metals; microsystins; pesticides; Ranavirus
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