Research Keyword: Pseudogymnoascus destructans

Inhibitory and synergistic effects of volatile organic compounds from bat caves against Pseudogymnoascus destructans in vitro

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Researchers discovered that two natural compounds found in bat cave environments—isovaleric acid and ethyl methyl carbonate—can effectively kill the fungus that causes white-nose syndrome in bats. When used together, these compounds work even better than alone, disrupting the fungus’s cell membranes, causing it to produce too many reactive molecules (free radicals), and triggering cell death. This discovery offers hope for developing new treatments to protect bat populations that have been devastated by this disease in North America.

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Insight into the Skin Mycobiota of Myotis myotis: How Age, Sex, and Biometric Traits Correlate with Fungal Diversity

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Researchers studied fungal colonies living on the skin of Greater mouse-eared bats in autumn, discovering 39 different fungal species. Wing membranes had more fungal diversity than tail membranes, with males carrying more fungi than females. Interestingly, older male bats accumulated more fungal species, while older female bats showed less fungal diversity. The study found no trace of the fungus that causes white-nose syndrome, suggesting caves rather than bats may be the main source of this disease.

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Presence of white-nose syndrome in bats from Southern Mexico

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Researchers found evidence that white-nose syndrome, a deadly fungal disease affecting bats, has reached southern Mexico. The fungus was detected in bat samples from a cave in Oaxaca, confirming earlier predictions about its spread from North America. The fungus can survive at temperatures ranging from cold to tropical heat, making it a significant threat to bat populations across diverse habitats in Mexico and beyond.

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