Small mammals and their burrows shape the distribution of<i>Coccidioides</i>in soils: a long-term ecological experiment

Head, Jennifer R.; Camponuri, Simon K.; Weaver, Amanda K.; Montoya, Lilliam; Lee, Erika; Radosevich, Molly; Jones, Isabel; Wagner, Robert; Bhattachan, Abinash; Campbell, Grace; Keeney, Nicole; Collender, Philip A.; Heaney, Alexandra K.; Couper, Lisa; Colvin, Kate A.; Larios, Loralee; Bean, William T.; Taylor, John; Remais, Justin V.

doi:10.1101/2024.09.21.613892

2024

DOI: 10.1101/2024.09.21.613892

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Small mammals and their burrows shape the distribution ofCoccidioidesin soils: a long-term ecological experiment

Jennifer R. Head,

Simon K. Camponuri,

Amanda K. Weaver

et al.

Abstract: Background For nearly all human fungal pathogens, the environmental constraints on their distributions remain poorly understood, hindering disease management. Here, we investigated the role of zoonotic host presence, soil conditions, and their interaction on the presence of Coccidioides immitis, an emerging fungal pathogen and causative agent of coccidioidomycosis. Methods A long-term experimental study initiated in 2007 in the Carrizo Plain National Monument, California excluded rodents from certain areas (20… Show more

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Cited by 2 publications

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Characterizing the soil microbial community associated with the fungal pathogenCoccidioides immitis

Radosevich,

Head,

Couper

et al. 2024

Preprint

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Coccidioidomycosis is a fungal disease affecting humans and other mammals, caused by environmental pathogens of the genusCoccidioides. Understanding the ecological factors that shape the distribution ofCoccidioidesin soils is important for minimizing the risk of human exposure, though this remains challenging due to the pathogen's highly variable spatial distribution. Here, we examined associations between the soil microbial community andCoccidioides immitispresence 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 onC. immitispresence in soils. Using internal transcribed spacer 2 (ITS2) and 16S 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 withCoccidioidesmore frequently than expected by chance.Coccidioides-positive samples were significantly higher in microbial diversity than negative samples, an association partly driven by higherCoccidioidespresence 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 microbial diversity than those collected from adjacent surface soils. While prior evidence is mixed regarding associations betweenCoccidioidesand microbial diversity, our study suggests that favorable microhabitats such as rodent burrows can lead to a positive association between soil diversity andCoccidioidespresence, particularly in otherwise resource-limited natural environments.

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Characterizing the soil microbial community associated with the fungal pathogenCoccidioides immitis

Radosevich,

Head,

Couper

et al. 2024

Preprint

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Detection of airborneCoccidioidesspores using lightweight portable air samplers affixed to uncrewed aircraft systems in California’s Central Valley

Radosevich,

Dobson,

Weaver

et al. 2024

Preprint

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Coccidioidomycosis is an emerging fungal infection caused by inhalation ofCoccidioidesspp. spores. While airborne dispersal is critical toCoccidioidestransmission, limited recovery of the pathogen from air has hindered understanding of the aerosolization and transport of spores. Here, we examine uncrewed aircraft systems (UAS) with portable, active air samplers as a novel means of capturing aerosolizedCoccidioidesand characterizing emissions and exposure risk. We sampled in September 2023 in eastern San Luis Obispo County, California, in an area with confirmedCoccidioides immitisin soils. We completed 41 20-minute flights across 14 sites using UAS equipped with an 8 L/min bioaerosol sampler and a low-cost particulate matter sensor. We sampled source soils and air under ambient conditions using one UAS at 1-10 m altitude, and under a simulated high-dust event using two UAS, one at <2 m altitude and one at 5-12 m. We detectedCoccidioidesDNA in two of 41 air samples (4.9%), both under ambient conditions at 8 m altitude, representing the highest known altitude of airborneCoccidioidesdetection. Spatially explicit UAS-based sampling could enhance understanding ofCoccidioidesaerobiology and enable detection in hard-to-reach or hazardous air masses, including dust storms and wildland fire smoke.

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Small mammals and their burrows shape the distribution ofCoccidioidesin soils: a long-term ecological experiment

Cited by 2 publications

References 50 publications

Characterizing the soil microbial community associated with the fungal pathogenCoccidioides immitis

Characterizing the soil microbial community associated with the fungal pathogenCoccidioides immitis

Detection of airborneCoccidioidesspores using lightweight portable air samplers affixed to uncrewed aircraft systems in California’s Central Valley

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