Experimental inoculation trial to determine the effects of temperature and humidity on White-nose Syndrome in hibernating bats

Disease results from interactions among the host, pathogen, and environment. Inoculation trials can quantify interactions among these players and explain aspects of disease ecology to inform management in variable and dynamic natural environments. White-nose Syndrome, a disease caused by the fungal...

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Bibliographic Details
Published in:Scientific reports 2022-01, Vol.12 (1), p.971-971, Article 971
Main Authors: Frick, Winifred F., Johnson, Emily, Cheng, Tina L., Lankton, Julia S., Warne, Robin, Dallas, Jason, Parise, Katy L., Foster, Jeffrey T., Boyles, Justin G., McGuire, Liam P.
Format: Article
Language:English
Subjects:
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Animal diseases
Animals
Ascomycota - physiology
Body Composition
Chiroptera
Chiroptera - metabolism
Chiroptera - microbiology
Disease
Experimental infection
Female
Hibernation
Host-Parasite Interactions
Host-pathogen interactions
Humanities and Social Sciences
Humidity
Hydrocortisone - metabolism
Infections
Inoculation
Male
Microclimate
multidisciplinary
Natural environment
Pathogens
Population decline
Science
Science (multidisciplinary)
Temperature
Temperature effects
White-nose syndrome
Wildlife
Wildlife management
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Summary:Disease results from interactions among the host, pathogen, and environment. Inoculation trials can quantify interactions among these players and explain aspects of disease ecology to inform management in variable and dynamic natural environments. White-nose Syndrome, a disease caused by the fungal pathogen, Pseudogymnoascus destructans ( Pd ), has caused severe population declines of several bat species in North America. We conducted the first experimental infection trial on the tri-colored bat, Perimyotis subflavus , to test the effect of temperature and humidity on disease severity. We also tested the effects of temperature and humidity on fungal growth and persistence on substrates. Unexpectedly, only 37% (35/95) of bats experimentally inoculated with Pd at the start of the experiment showed any infection response or disease symptoms after 83 days of captive hibernation. There was no evidence that temperature or humidity influenced infection response. Temperature had a strong effect on fungal growth on media plates, but the influence of humidity was more variable and uncertain. Designing laboratory studies to maximize research outcomes would be beneficial given the high costs of such efforts and potential for unexpected outcomes. Understanding the influence of microclimates on host–pathogen interactions remains an important consideration for managing wildlife diseases, particularly in variable environments.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-022-04965-x