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Microbial Nitrogen Transformation Potential in Sediments of Two Contrasting Lakes Is Spatially Structured but Seasonally Stable

Kathrin Baumann, Raoul Thoma, Cameron M. Callbeck, Robert Niederdorfer, Carsten J. Schubert, Beat Müller, Mark A. Lever, Helmut Bürgmann

2022mSphere37 citationsDOIOpen Access PDF

Abstract

through microbial denitrification or anammox. The rates and distributions of these microbial processes are affected by factors such as the amount and quality of settling organic material and nitrate concentrations. However, the microbial communities mediating these N transformation processes in freshwater lake sediments remain largely unknown. We provide the first seasonally and spatially resolved metagenomic analysis of the N cycle in sediments of two lakes with different trophic states. We show that lakes with different trophic states select for distinct communities of N-cycling microorganisms with contrasting functional potentials for N transformation.

Topics & Concepts

EutrophicationBiogeochemical cycleDenitrificationEnvironmental scienceNitrogen cycleTrophic levelNitrificationEcologyDenitrifying bacteriaEcosystemEnvironmental chemistryLake ecosystemAquatic ecosystemAmmonia monooxygenaseTrophic state indexFreshwater ecosystemNutrientBiologyNitrogenChemistryOrganic chemistryWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and PhysiologySoil and Water Nutrient Dynamics
Microbial Nitrogen Transformation Potential in Sediments of Two Contrasting Lakes Is Spatially Structured but Seasonally Stable | Litcius