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Flow-through stable isotope probing (Flow-SIP) minimizes cross-feeding in complex microbial communities

Maria Mooshammer, Katharina Kitzinger, Arno Schintlmeister, Soeren Ahmerkamp, Jeppe Lund Nielsen, Per Halkjær Nielsen, Michael Wagner

2020The ISME Journal23 citationsDOIOpen Access PDF

Abstract

Abstract Stable isotope probing (SIP) is a key tool for identifying the microorganisms catalyzing the turnover of specific substrates in the environment and to quantify their relative contributions to biogeochemical processes. However, SIP-based studies are subject to the uncertainties posed by cross-feeding, where microorganisms release isotopically labeled products, which are then used by other microorganisms, instead of incorporating the added tracer directly. Here, we introduce a SIP approach that has the potential to strongly reduce cross-feeding in complex microbial communities. In this approach, the microbial cells are exposed on a membrane filter to a continuous flow of medium containing isotopically labeled substrate. Thereby, metabolites and degradation products are constantly removed, preventing consumption of these secondary substrates. A nanoSIMS-based proof-of-concept experiment using nitrifiers in activated sludge and 13C-bicarbonate as an activity tracer showed that Flow-SIP significantly reduces cross-feeding and thus allows distinguishing primary consumers from other members of microbial food webs.

Topics & Concepts

BiologyFlow (mathematics)Microbial ecologyIsotopeStable isotope ratioEcologyBacteriaPaleontologyMechanicsPhysicsQuantum mechanicsMicrobial Community Ecology and PhysiologyIsotope Analysis in EcologyWastewater Treatment and Nitrogen Removal
Flow-through stable isotope probing (Flow-SIP) minimizes cross-feeding in complex microbial communities | Litcius