AI Article Synopsis
- In 2022, researchers observed gray bats with notable fur loss (alopecia), indicating potential health issues related to reproductive stages and other stress factors.
- In 2023, an experiment was conducted to assess alopecia's prevalence, severity, and associated ectoparasites in gray bats, with findings revealing no mites causing fur loss and different prevalence rates between genders.
- The study showed that lactating female bats tend to experience more severe alopecia compared to males, and no significant body condition difference was found between bats with and without fur loss, suggesting the need for further research on stress and nutritional support for these bats.
Article Abstract
We observed multiple gray bats (Myotis grisescens) in 2022 with large patches of fur loss (i.e., alopecia) on the dorsal surface of their body. Alopecia in wildlife has been linked to multiple possible factors and often is a sign of suboptimal health. In 2023, we designed an experiment to compare prevalence of alopecia in gray bats across various reproductive stages, characterize the severity of alopecia lesions, and determine the ectoparasites and microbiota present on the regions of fur loss. We harp-trapped four summer gray bat roosts 2-3 times between 11 April-30 August 2023 and collected skin swabs and scrapes from each bat with alopecia. We determined the severity of the alopecia lesions on a scale 0-7 by summing the degree of redness (0-2), skin condition (0-1), and percentage of fur loss (0-4). We cultured the skin swabs for fungal and bacterial growth and examined skin scrapes under a microscope to determine the presence of subcutaneous mites. We found no evidence that subcutaneous mites cause the fur loss. We determined that prevalence of alopecia in M. grisescens varies throughout the summer. Prevalence is highest for female bats that are or recently were lactating, reaching an average of 6% ± 6 SD (0-15% range) of captured females exhibiting fur loss during the pup rearing period. Alopecia is most prevalent in male bats in early summer (1% ± 2 SD; 0-4% range). Lactating females had more severe cases than males and were often associated with skin redness due to unknown causes. Bats with alopecia did not differ in body condition, determined from body mass, from bats without alopecia. Future studies could investigate the role of stress in possible autoimmune responses contributing to alopecia. Conservation strategies aimed at reducing stress and supporting nutritional requirements during the summer are likely beneficial to M. grisescens.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11611138 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0314009 | PLOS |
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