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September 5, 2025Open Access

Microbial dispersal into surface soil is limited on a meter scale

Key Points

Microorganisms show limited dispersal into soil, with a significant meter-scale barrier affecting both bacteria and fungi.
Bacteria disperse at similar rates across ecosystems, but both bacteria and fungi demonstrate dispersal limitation at a meter scale.
This assessment used microbial traps across grassland and shrubland to measure dispersal distances and rates of microorganisms.
The findings highlight the highly heterogeneous nature of microbial dispersal, which may impact community dynamics and ecosystem function.

Abstract

Dispersal shapes microbial communities, yet it is largely unknown how fast or how far free-living microorganisms move in the environment. Here, we deployed microbial traps along transects spanning a grassland and neighboring shrubland to quantify the rate and distance at which microorganisms disperse into the soil surface. We found that bacteria disperse at a similar rate across the two ecosystems, and both bacteria and fungi exhibit a signature of dispersal limitation at a meter scale, indicating highly heterogeneous dispersal of microorganisms into soil.

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Authors

Kendra E. Walters

North Idaho College

Kristin M. Barbour

Scripps Institution of Oceanography

John M. Powers

University of North Carolina at Chapel Hill

Journals

The ISME Journal

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Institutions

University of California, Irvine

Reed College

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Microbial dispersal into surface soil is limited on a meter scale

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Abstract

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