Litcius/Paper detail

Soil Bacterial Communities Exhibit Strong Biogeographic Patterns at Fine Taxonomic Resolution

Sean K. Bay, Mélodie A. McGeoch, Osnat Gillor, Nimrod Wieler, David J. Palmer, D. James Baker, Steven L. Chown, Chris Greening

2020mSystems56 citationsDOIOpen Access PDF

Abstract

It is commonly thought that bacterial distributions show lower spatial variation than for multicellular organisms. In this article, we present evidence that these inferences are artifacts caused by methodological limitations. Through leveraging innovations in sampling design, sequence processing, and diversity analysis, we provide multifaceted evidence that bacterial communities in fact exhibit strong distribution patterns. This is driven by selection due to factors such as local soil characteristics. Altogether, these findings suggest that the processes underpinning diversity patterns are more unified across all domains of life than previously thought, which has broad implications for the understanding and management of soil biodiversity.

Topics & Concepts

BiodiversityDiversity (politics)EcologySelection (genetic algorithm)Sampling (signal processing)UnderpinningMulticellular organismVariation (astronomy)BiologyGeographyEvolutionary biologyComputer scienceSociologyGeologyBiochemistryGeneArtificial intelligencePhysicsComputer visionFilter (signal processing)AstrophysicsAnthropologyGeotechnical engineeringMicrobial Community Ecology and PhysiologyEnvironmental DNA in Biodiversity StudiesGenomics and Phylogenetic Studies