2012
DOI: 10.1038/ismej.2012.115
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Hydration dynamics promote bacterial coexistence on rough surfaces

Abstract: Identification of mechanisms that promote and maintain the immense microbial diversity found in soil is a central challenge for contemporary microbial ecology. Quantitative tools for systematic integration of complex biophysical and trophic processes at spatial scales, relevant for individual cell interactions, are essential for making progress. We report a modeling study of competing bacterial populations cohabiting soil surfaces subjected to highly dynamic hydration conditions. The model explicitly tracks gr… Show more

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Cited by 83 publications
(70 citation statements)
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“…The recovery of diversity reflects the role of aqueous habitat fragmentation. As the degree of connectivity in the aqueous phase decreased, microbial interactions are spatially limited31. Essentially, the observed dynamics of community composition and diversity are the outcome of simultaneous effects of the competition over dissolved substrates and the temporary dominance of anaerobic taxa due the transition from oxic to anoxic conditions in some parts of the wet soil.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The recovery of diversity reflects the role of aqueous habitat fragmentation. As the degree of connectivity in the aqueous phase decreased, microbial interactions are spatially limited31. Essentially, the observed dynamics of community composition and diversity are the outcome of simultaneous effects of the competition over dissolved substrates and the temporary dominance of anaerobic taxa due the transition from oxic to anoxic conditions in some parts of the wet soil.…”
Section: Resultsmentioning
confidence: 99%
“…The model focuses on the putative role of aqueous phase connectivity. Following soil wetting, the increased connectivity of habitats facilitates higher rates of substrate diffusion and larger ranges of cell dispersion as key mechanisms for the observed loss of diversity during wetting3134. Furthermore, the detailed account of water configuration dynamics in the soil profile and associated oxygen diffusion suggest the possibility of establishing anoxic conditions following wetting that may last a day or two within the soil volume.…”
Section: Discussionmentioning
confidence: 99%
“…Soil microorganisms are constrained to life in a fragmented and highly dynamic aqueous network in complex pore spaces that limit nutrient diffusion pathways, control cell dispersion rates, and shape interactions among microbial populations123456. The wide range of trophic interactions and the inherent variability of nutrient fluxes in soil give rise to the formation of microbial consortia that are considered important for maintaining stable ecological interactions within a complex and dynamic soil environment789.…”
mentioning
confidence: 99%
“…Other spatial soil or pore space models were directed at studying basic processes in microbial ecology (Dechesne et al 2010;Gharasoo et al 2012;Resat et al 2012;Wang and Or 2013;Wang and Or 2014). These models gave important insights into the microbial life in soils, for example showing how multiple strategies of resource utilization may reduce stochasticity in biofilm dynamics (Resat et al 2012), or how spatial segregation of cells is achieved either by temporal habitat fragmentation by varying hydration conditions (Wang and Or 2013) or simply by limits in chemotaxis that define a trophic interaction distance (Wang and Or 2014).…”
Section: Agent-based Models (Abms) and Adaptionsmentioning
confidence: 99%
“…These models gave important insights into the microbial life in soils, for example showing how multiple strategies of resource utilization may reduce stochasticity in biofilm dynamics (Resat et al 2012), or how spatial segregation of cells is achieved either by temporal habitat fragmentation by varying hydration conditions (Wang and Or 2013) or simply by limits in chemotaxis that define a trophic interaction distance (Wang and Or 2014). Models from spatial statistics have been used to reveal such interaction distances between bacteria on the leaf surface and between bacteria and leaf surface structures (Esser et al 2015).…”
Section: Agent-based Models (Abms) and Adaptionsmentioning
confidence: 99%