Pathogenic microbes in soils can cause public health threat (representational image - CDC PHIL) 
Medicine

Pathogenic microbes in soils can cause public health threat

Research on soil fungal communities in the southwestern United States suggests that the proliferation of spore-producing fungi in increasingly dry soils

MedBound Times

Soil-borne pathogens are resilient to stressful conditions, and may be more likely than non-pathogenic microbes to survive the prolonged dry spells that are projected to persist regionally across many parts of the globe.

Research on soil fungal communities in the southwestern United States suggests that the proliferation of spore-producing fungi in increasingly dry soils could represent a future threat to public health. Pathogenic fungi release spores that spread easily through airborne dispersal, and these species may be able to endure dust storms and droughts that non-pathogenic species are unable to tolerate.

Research on soil fungal communities in the southwestern United States suggests that the proliferation of spore-producing fungi in increasingly dry soils could represent a future threat to public health. Pathogenic fungi release spores that spread easily through airborne dispersal, and these species may be able to endure dust storms and droughts that non-pathogenic species are unable to tolerate (representational image - Unsplash)

Adriana Romero-Olivares, an assistant professor at New Mexico State University, will present her research on the complex relationships between global change, soil fungi and potential public health threats during a symposium at the Ecological Society of America’s 2022 Annual Meeting in Montreal, Quebec.

Romero-Olivares and a team from ETH Zürich, the U.S. Geological Survey and New Mexico State University extracted fungal DNA from vegetated and bare soils, comparing the effects of local conditions on microbial communities.

Their work is being used to inform policy makers on the public health threat potential that climate change has on soil fungal communities in the U.S. Southwest.

Romero-Olivares and a team from ETH Zürich, the U.S. Geological Survey and New Mexico State University extracted fungal DNA from vegetated and bare soils, comparing the effects of local conditions on microbial communities (representational image - Unsplash)

“It’s not only about the fungi that we know are pathogenic, but also about the fungi that have the potential to become pathogenic. We have no idea if global climate change may trigger pathogenicity and we really need to start looking into that to prevent future pandemics,” said Romero-Olivares.

Her presentation, on Thursday, August 18, at 2:30 PM EDT, is part of a session on Broadening perspectives to increase impact of applied ecology research in an era of rapid global socioenvironmental change. This session includes additional talks on:

  • The interdependence of biological and cultural diversity – Erika Zavaleta, UC Santa Cruz

  • Growing communities: socioecological constructions of community in urban gardens – Theresa Ong, Dartmouth College

  • Promoting urban water management practices that enhance conservation and community health – Na'Taki Osborne Jelks, Spelman College (SP/Newswise)

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