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Microbiomes are major determinants of host growth, development and survival. In amphibians, host-associated bacteria in the skin can inhibit pathogen infection, but many processes can influence the structure and composition of the community. Here we quantified the shifts in skin-associated bacteria across developmental stages in the striped newt (Notophthalmus perstriatus), a threatened salamander species with a complex life history and vulnerable to infection by the amphibian chytrid fungusBatrachochytrium dendrobatidisand ranavirus. Our analyses show that pre-metamorphic larval and paedomorphic stages share similar bacterial compositions, and that the changes in the microbiome coincided with physiological restructuring during metamorphosis. Newts undergoing metamorphosis exhibited microbiome compositions that were intermediate between paedomorphic and post-metamorphic stages, further supporting the idea that metamorphosis is a major driver of host-associated microbes in amphibians. We did not find support for infection-related disruption of the microbiome, though infection replicates were small for each respective life stage.
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Micromanagement: conditions influencing antipathogen function of the skin microbiome in spotted salamanders, Ambystoma maculatum
The emerging fungal pathogenBatrachochytrium salamandrivorans(Bsal) threatens the diversity of amphibians, particularly in North America where it is projected to invade. Amphibian skin defenses include a mucosal layer containing microorganisms that can potentially modulate host response to pathogens such asBsal. In this study, we focused on the composition of the skin microbiome across life stages of spotted salamanders (Ambystoma maculatum). We also evaluated the stress hormone corticosterone and skin microbiome response to inoculations withBsaland probiotics at both the larval and juvenile developmental stages, and the response to different environmental conditions. Results indicated that both bacterial and fungal communities found on the skin significantly differed in structure and diversity between life stages ofA. maculatum. Exposure to three different probiotics (Bacillus thuringiensis,Chryseobacterium rhizoplanae, andPenicilliumsp.) andBsalevoked shifts in the microbiome of larvae and juveniles, and the metabolite profile of the larval mucosal layer ofA. maculatum. Despite changes in the microbiome, all tested probiotics andBsalwere unable to persist on the skin. Larval bacterial microbiomes shifted in response toBsalandB. thuringiensiswith no significant impacts on antifungal function or bacteria richness, however fungi strongly responded toBsalandB. thuringiensisapplication. This indicates that developmental shifts in the microbiome can be initiated by microbial applications such asB. thuringiensis, a widely used mosquito larvicide. Overall, experimental results indicate that life stage, growth and development, and environmental conditions appeared to be the main factors driving changes in the amphibian skin microbiome and potential anti-Batrachochytriumfunction.
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- Award ID(s):
- 2120084
- PAR ID:
- 10594525
- Publisher / Repository:
- Frontiers
- Date Published:
- Journal Name:
- Frontiers in Amphibian and Reptile Science
- Volume:
- 2
- ISSN:
- 2813-6780
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.3389/famrs.2024.1425570
