Litcius/Paper detail

Press Disturbance Alters Community Structure and Assembly Mechanisms of Bacterial Taxa and Functional Genes in Mesocosm-Scale Bioreactors

Ezequiel Santillan, Florentin Constancias, Stefan Wuertz

2020mSystems36 citationsDOIOpen Access PDF

Abstract

Ecosystem management must be viewed in the context of increasing frequencies and magnitudes of various disturbances that occur at different scales. This work provides a glimpse of the changes in assembly mechanisms found in microbial communities exposed to sustained changes in their environment. These mechanisms, deterministic or stochastic, can cause communities to reach a similar or variable composition and function. For a comprehensive view, we use a joint evaluation of temporal dynamics in assembly mechanisms and community structure for both bacterial taxa and their functional genes at different abundance levels, in both disturbed and undisturbed states. We further reverted the disturbance state to contrast recovery of function with community structure. Our findings are relevant, as very few studies have employed such an approach, while there is a need to assess the relative importance of assembly mechanisms for microbial communities across different spatial and temporal scales, environmental gradients, and types of disturbance.

Topics & Concepts

BiologyMesocosmMetagenomicsCommunity structureMicrobial population biologyDisturbance (geology)EcologyTaxonContext (archaeology)MicrocosmEcosystemGammaproteobacteriaMicrobial ecology16S ribosomal RNAGeneBacteriaGeneticsPaleontologyMicrobial Community Ecology and PhysiologyGut microbiota and healthProtist diversity and phylogeny