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Depth dependence of climatic controls on soil microbial community activity and composition

Nicholas C. Dove, Morgan Barnes, Kimber Moreland, Robert C. Graham, Asmeret Asefaw Berhe, Stephen C. Hart

2021ISME Communications58 citationsDOIOpen Access PDF

Abstract

Subsoil microbiomes play important roles in soil carbon and nutrient cycling, yet our understanding of the controls on subsoil microbial communities is limited. Here, we investigated the direct (mean annual temperature and precipitation) and indirect (soil chemistry) effects of climate on microbiome composition and extracellular enzyme activity throughout the soil profile across two elevation-bioclimatic gradients in central California, USA. We found that microbiome composition changes and activity decreases with depth. Across these sites, the direct influence of climate on microbiome composition and activity was relatively lower at depth. Furthermore, we found that certain microbial taxa change in relative abundance over large temperature and precipitation gradients only in specific soil horizons, highlighting the depth dependence of the climatic controls on microbiome composition. Our finding that the direct impacts of climate are muted at depth suggests that deep soil microbiomes may lag in their acclimation to new temperatures with a changing climate.

Topics & Concepts

SubsoilClimate changeMicrobiomeEnvironmental scienceAbundance (ecology)EcologyMicrobial population biologyPrecipitationEcosystemSoil carbonSoil waterRelative species abundanceComposition (language)Nutrient cycleBiologySoil scienceGeographyMeteorologyPhilosophyBioinformaticsGeneticsBacteriaLinguisticsMicrobial Community Ecology and PhysiologyPolar Research and EcologySoil Carbon and Nitrogen Dynamics
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