Characterizing the Soil Microbial Community Associated with the Fungal Pathogen <i>Coccidioides immitis</i>

Characterizing the Soil Microbial Community Associated with the Fungal Pathogen <i>Coccidioides immitis</i>

Coccidioidomycosis is a fungal disease affecting humans and other mammals caused by environmental pathogens of the genus <i>Coccidioides</i>. Human exposure to the pathogen occurs via inhalation of spores aerosolized from soil. Thus, understanding the ecological factors that shape the di...

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Bibliographic Details
Main Authors: Molly Radosevich, Jennifer Head, Lisa Couper, Amanda Weaver, Simon Camponuri, Liliam Montoya, John W. Taylor, Justin Remais
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Journal of Fungi
Subjects:
<i>Coccidioides</i>
coccidioidomycosis
Valley fever
soil
microbial communities
pathogen
Online Access:https://www.mdpi.com/2309-608X/11/4/309
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Summary:Coccidioidomycosis is a fungal disease affecting humans and other mammals caused by environmental pathogens of the genus <i>Coccidioides</i>. Human exposure to the pathogen occurs via inhalation of spores aerosolized from soil. Thus, understanding the ecological factors that shape the distribution of <i>Coccidioides</i> in soils is important for minimizing the risk of human exposure, though this task remains challenging due to the pathogen’s highly variable spatial distribution. Here, we examined the associations between the soil microbial community and <i>Coccidioides immitis</i>’ presence within the Carrizo Plain National Monument, a minimally disturbed grassland ecosystem, and the site of a longitudinal study examining the effects of rodents and their burrows on <i>C. immitis</i>’ presence in soils. Using internal transcribed spacer 2 (ITS2) and 16S amplicon sequencing to characterize the soil fungal and bacterial communities, we found over 30 fungal species, including several other members of the Onygenales order, that co-occurred with <i>C. immitis</i> more frequently than would be expected by chance. <i>Coccidioides</i>-positive samples were significantly higher in fungal and bacterial diversity than negative samples, an association partly driven by higher <i>Coccidioides</i> presence within rodent burrows compared to surface soils. Soil source (i.e., rodent burrow versus surface soil) explained the largest amount of variation in bacterial and fungal community diversity and composition, with soils collected from rodent burrows having higher fungal and bacterial diversity than those collected from adjacent surface soils. While prior evidence is mixed regarding the relationship between the presence of <i>Coccidioides</i> and microbial diversity, we find that favorable microhabitats, such as rodent burrows, lead to a positive association between soil microbial diversity and <i>Coccidioides</i> presence, particularly in otherwise resource-limited natural environments.
ISSN:2309-608X

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