Abstract
Environmental change can disturb natural associations between wildlife and microbial symbionts, in many cases to the detriment of host health. We used a North American terrestrial salamander system to assess how the skin microbiota of amphibians responds to wildfires. In northern California's redwood/oak forests, we assessed how recent wildfires affected the skin microbiota of three different salamander species (Taricha sp., Batrachoseps attenuatus, and Ensatina eschscholtzii) over two different sampling seasons in 2018 and 2021. We found species-specific responses to wildfire disturbance on the alpha diversity of the skin microbiota of terrestrial salamanders, although burning in general altered the composition of the skin microbiota. The effect of burning on alpha diversities and body condition indices varied by sampling season, suggesting an additional effect of annual climatic conditions on body condition and skin microbiota response. We tested all salamanders for Batrachochytrium dendrobatidis and found four infected individuals in 2018 and none in 2021. Our study documents correlations in the skin microbiota response to an increasing source of disturbance in western North American ecosystems. In addition, our results highlight the need to consider the effects of increased wildfire regimes/intensities and longitudinal effects on wildlife-associated microbiota and animal health.
| Original language | American English |
|---|---|
| Pages (from-to) | 2203-2215 |
| Number of pages | 13 |
| Journal | Default journal |
| Volume | 25 |
| Issue number | 11 |
| DOIs | |
| State | Published - Jun 20 2023 |
Funding
We thank the three anonymous reviewers for their constructive comments. We are grateful to Alison White, Tatiana Rodriguez, Elijah Costly-Tigueros, Madison Giannetto, Natalie De La Cruz, Xitlaly Santos, Hailey Garcia, Fernanda Galo, Reuben Oumnov, Shannon Buttimer, Nora Hawkins, Dr. Max Lambert, and Dr. Lauren Kennedy for their help in the field and/or laboratory. We express our gratitude to the biologists and park rangers of Pepperwood Preserve and the United States National Park Service (NPS) for their help in the selection of safe field sampling sites. Fieldwork was performed using the California Fish and Wildlife Scientific Collection Permit 13819, NPS scientific collection permit PORE-2018-SCI-29, and with written permission from representatives of Pepperwood Preserve. All animal handling was performed in accordance with an animal care and use protocol (PORE-183) approved by NPS. This research is funded by Dominican University of California. We thank the three anonymous reviewers for their constructive comments. We are grateful to Alison White, Tatiana Rodriguez, Elijah Costly‐Tigueros, Madison Giannetto, Natalie De La Cruz, Xitlaly Santos, Hailey Garcia, Fernanda Galo, Reuben Oumnov, Shannon Buttimer, Nora Hawkins, Dr. Max Lambert, and Dr. Lauren Kennedy for their help in the field and/or laboratory. We express our gratitude to the biologists and park rangers of Pepperwood Preserve and the United States National Park Service (NPS) for their help in the selection of safe field sampling sites. Fieldwork was performed using the California Fish and Wildlife Scientific Collection Permit 13819, NPS scientific collection permit PORE‐2018‐SCI‐29, and with written permission from representatives of Pepperwood Preserve. All animal handling was performed in accordance with an animal care and use protocol (PORE‐183) approved by NPS. This research is funded by Dominican University of California.
| Funders | Funder number |
|---|---|
| National Park Service | PORE-2018-SCI-29, 13819, PORE-183 |
Keywords
- Salamander
- Climate Change
- Wildfires
- Ecosystems
Disciplines
- Environmental Indicators and Impact Assessment
- Life Sciences
- Microbiology