Aqueous habitats and carbon inputs shape the microscale geography and interaction ranges of soil bacteria
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2023-03-25
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Journal Article
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Abstract
Earth’s diverse soil microbiomes host bacteria within dynamic and fragmented aqueous habitats that occupy complex pore spaces and restrict the spatial range of ecological interactions. Yet, the spatial distributions of bacterial cells in soil communities remain underexplored. Here, we propose a modelling framework representing submillimeter-scale distributions of soil bacteria based on physical constraints supported by individual-based model results and direct observations. The spatial distribution of bacterial cell clusters modulates various metabolic interactions and soil microbiome functioning. Dry soils with long diffusion times limit localized interactions of the sparse communities. Frequently wet soils enable long-range trophic interactions between dense cell clusters through connected aqueous pathways. Biomes with high carbon inputs promote large and dense cell clusters where anoxic microsites form even in aerated soils. Micro-geographic considerations of difficult-to-observe microbial processes can improve the interpretation of data from bulk soil samples.
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published
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6 (1)
Pages / Article No.
322
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Springer
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320499 - The Hidden Frontier: Quantitative Exploration of Physical and Ecological Origins of Microbial Diversity in Soil (EC)