Abstract

The causative agent of White-nose Syndrome (WNS), Pseudogymnoascus destructans, has been shown to be fatal to several species of bats in North America. To date, no compounds or chemical control measures have been developed which eliminates the growth of the fungus in the environment or in affected animals. In the current study, we evaluated the activity of cold-pressed, terpeneless orange oil (CPT) against multiple isolates of P. destructans in vitro. For all assays, a modified Kirby-Bauer disk diffusion assay was used. Standardized spore suspensions were prepared, adjusted to a specific optical density, and used to plate fungal lawns. Plates were incubated at either 15°C or 4°C for up to 6 months and checked at regular intervals for growth. Once controls had grown, zones of inhibition were measured (mm) on test plates and compared to those obtained using current antifungal drugs. All P. destructans isolates were completely inhibited by 100% CPT (10 μL) at 1 month of incubation regardless of temperature (4°C and 15°C). Complete inhibition persisted up to 6 months following a single exposure at this concentration. Of the standard antifungals, only amphotericin B demonstrated any activity, resulting in zone diameters ranging from 58 mm to 74 mm. CPT, at the highest concentration tested (100%), had no significant effect against a variety of other environmental organisms including various filamentous fungi, bacteria and aerobic actinomycetes. Given that CPT is relatively non-toxic, the possibility exists that the all-natural, mixture could be used as an environmental pre-treatment to eradicate P. destructans from bat habitats. Additional studies are needed to assess any undesirable effects of CPT on bat behavior and health and overall impacts on other members of the interconnected ecosystem(s).

Highlights

  • White-nose syndrome (WNS) is a lethal disease in bats caused by a psychrophilic fungus, Pseudogymnoascus destructans

  • We evaluated the activity of CPT against P. destructans isolates recovered from bats in diverse geographic locations within the continental US and a number of other commonly encountered environmental organisms including various filamentous fungi, bacteria, and aerobic actinomycetes

  • All P. destructans isolates tested were completely inhibited by 10 μL of 100% CPT at 1 month of incubation at both 15°C and 4°C

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Summary

Introduction

White-nose syndrome (WNS) is a lethal disease in bats caused by a psychrophilic (coldadapted) fungus, Pseudogymnoascus destructans (synonym: Geomyces destructans). To date, this fungus has killed an estimated 7 million bats in North America since first being identified from a solitary New York cave system in 2006 [1,2,3,4,5,6,7,8]. Due to the current and potentially devastating ecological impact and severity posed by this pathogen, organizations from every level of government and private environmental conservation groups have come together to develop strategies for controlling WNS infection and spread, including the U.S Fish and Wildlife Service, the National Park Service, the Department of Agriculture, and Bat Conservation International to name a select few [16, 17]. We evaluated the activity of CPT against P. destructans isolates recovered from bats in diverse geographic locations within the continental US and a number of other commonly encountered environmental organisms including various filamentous fungi, bacteria, and aerobic actinomycetes

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