Inhibition of Pseudogymnoascus destructans Growth from Conidia and Mycelial Extension by Bacterially Produced Volatile Organic Compounds

The recently identified causative agent of white-nose syndrome (WNS), Pseudogymnoascus destructans , has been implicated in the mortality of an estimated 5.5 million North American bats since its initial documentation in 2006 (Frick et al. in Science 329:679–682, 2010 ). In an effort to identify pot...

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Bibliographic Details
Published in:Mycopathologia (1975) 2014-02, Vol.177 (1-2), p.1-10
Main Authors: Cornelison, Christopher T., Gabriel, Kyle T., Barlament, Courtney, Crow, Sidney A.
Format: Article
Language:English
Subjects:
Aldehydes - pharmacology
Animals
Antifungal Agents - pharmacology
Ascomycota - drug effects
Ascomycota - growth & development
Bacillus - metabolism
Bacteria
Bats
Benzaldehydes - pharmacology
Benzothiazoles - pharmacology
Biomedical and Life Sciences
Chiroptera - microbiology
Eukaryotic Microbiology
Growth
Health aspects
Hexanols - pharmacology
Life Sciences
Medical Microbiology
Microbial Ecology
Microbial Sensitivity Tests
Microbiology
Mortality
Mycelium - growth & development
Mycoses - drug therapy
Mycoses - veterinary
Plant Sciences
Pseudomonas - metabolism
Spores, Fungal - growth & development
VOCs
Volatile organic compounds
Volatile Organic Compounds - pharmacology
Wildlife management
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Summary:The recently identified causative agent of white-nose syndrome (WNS), Pseudogymnoascus destructans , has been implicated in the mortality of an estimated 5.5 million North American bats since its initial documentation in 2006 (Frick et al. in Science 329:679–682, 2010 ). In an effort to identify potential biological and chemical control options for WNS, 6 previously described bacterially produced volatile organic compounds (VOCs) were screened for anti- P. destructans activity. The compounds include decanal; 2-ethyl-1-hexanol; nonanal; benzothiazole; benzaldehyde; and N , N -dimethyloctylamine. P. destructans conidia and mycelial plugs were exposed to the VOCs in a closed air space at 15 and 4 °C and then evaluated for growth inhibition. All VOCs inhibited growth from conidia as well as inhibiting radial mycelial extension, with the greatest effect at 4 °C. Studies of the ecology of fungistatic soils and the natural abundance of the fungistatic VOCs present in these environments suggest a synergistic activity of select VOCs may occur. The evaluation of formulations of two or three VOCs at equivalent concentrations was supportive of synergistic activity in several cases. The identification of bacterially produced VOCs with anti- P. destructans activity indicates disease-suppressive and fungistatic soils as a potentially significant reservoir of biological and chemical control options for WNS and provides wildlife management personnel with tools to combat this devastating disease.
ISSN:0301-486X
1573-0832
DOI:10.1007/s11046-013-9716-2