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Size Shapes the Active Microbiome of Methanogenic Granules, Corroborating a Biofilm Life Cycle

Anna Christine Trego, Sarah O’Sullivan, Christopher Quince, Simon Mills, Umer Zeeshan Ijaz, Gavin Collins

2020mSystems23 citationsDOIOpen Access PDF

Abstract

Biological wastewater conversion processes collectively constitute one of the single biggest worldwide applications of microbial communities. There is an obvious requirement, therefore, to study the microbial systems central to the success of such technologies. Methanogenic granules, in particular, are architecturally fascinating biofilms that facilitate highly organized cooperation within the metabolic network of the anaerobic digestion (AD) process and, thus, are especially intriguing model systems for microbial ecology. This study, in a way not previously reported, provoked syntrophic and methanogenic activity and the structure of the microbial community, using specific substrates targeting the key trophic groups in AD. Unexpectedly, granule size more strongly than substrate shaped the active portion of the microbial community. Importantly, the findings suggest the size, or age, of granules inherently shapes the active microbiome linked to a life cycle. This provides exciting insights into the function of, and the potential for additional modeling of biofilm development in, methanogenic granules.

Topics & Concepts

MethanogenesisArchaeaMethanobacteriumBiofilmMicrobial population biologyTrophic levelBiologyMethanosaetaSubstrate (aquarium)Food scienceChemistryMicrobiomeMicroorganismEnvironmental chemistryMethaneBacteriaBiochemistryEcologyGeneGeneticsBioinformaticsMicrobial Community Ecology and PhysiologyGut microbiota and healthWastewater Treatment and Nitrogen Removal
Size Shapes the Active Microbiome of Methanogenic Granules, Corroborating a Biofilm Life Cycle | Litcius