Seasonality Has Greater Influence on Amphibian Cutaneous Mycobiome than Host Species

Seasonality Has Greater Influence on Amphibian Cutaneous Mycobiome than Host Species

Amphibians face severe threats from chytridiomycosis, and their skin microbiota plays a crucial role in pathogen defense. However, studies on their mycobiomes are limited. We hypothesized that amphibian cutaneous mycobiomes vary with seasonal variations and host species. To test this hypothesis, we...

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Bibliographic Details
Main Authors: Han Zhang, Kunyang Zhang, Hongying Ma, Jie Deng, Cheng Fang, Hu Zhao, Xiaoran An, Jianlu Zhang, Qijun Wang, Wei Jiang, Fei Kong
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Journal of Fungi
Subjects:
Qinling Mountains
amphibians
skin
mycobiomes
seasonal variation
host species difference
Online Access:https://www.mdpi.com/2309-608X/11/7/473
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Summary:Amphibians face severe threats from chytridiomycosis, and their skin microbiota plays a crucial role in pathogen defense. However, studies on their mycobiomes are limited. We hypothesized that amphibian cutaneous mycobiomes vary with seasonal variations and host species. To test this hypothesis, we used internal transcribed spacer (ITS) amplicon sequencing to identify the cutaneous fungal communities of two frogs from the Qinling Mountains of China, namely <i>Pelophylax nigromaculatus</i> and <i>Nanorana quadranus</i>. We also compared our ITS amplicon data with those of 30 known anti-Bd fungal ITS sequences to identify Bd-inhibiting fungi in the samples. The results showed that seasonal variation exerted a significantly stronger influence than host species on the fungal community structure (alpha diversity, beta diversity, species composition, abundance, and biomarkers). In the fungal community composition, intergroup consistency was significantly higher at the phylum level than at the genus level; however, one unidentified genus was present in samples from both frogs from different seasons. Anti-Bd fungi were detected in the skin fungal communities of <i>P. nigromaculatus</i> and <i>N. quadranus</i>, although their types and abundances varied seasonally and interspecifically. Overall, this study highlights seasonal dynamics and host-specific variations in amphibian cutaneous fungal ecology and identifies potential Bd-inhibiting fungal taxa.
ISSN:2309-608X

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