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Carbon substrate selects for different lineages of N2O reducing communities in soils under anoxic conditions

Arpita Maheshwari, Christopher M. Jones, Maren Tiemann, Sara Hallin

2022Soil Biology and Biochemistry23 citationsDOIOpen Access PDF

Abstract

Agricultural soils are a main source of nitrous oxide (N2O), a potent greenhouse gas and the dominant ozone-depleting substance emitted to the atmosphere. The only known sink of N2O in soil is the microbial reduction of N2O to N2. Carbon (C) availability is a key factor in determining microbial community composition in soil. However, its role in shaping the structure of N2O reducing communities in soil is unexplored. In this study, a microcosm experiment was set up in which two arable soils with contrasting edaphic properties were incubated anaerobically for 83 days with four different C substrates: glucose, acetate, hydroxyethylcellulose (HEC) and mixture of the three. We show that the effect of C addition on the abundance and diversity of clade I and clade II nosZ genes, encoding different variants of the N2O reductase, varies across the different C substrates differently in contrasting soil types, yet still plays an important role in selecting specific taxa of N2O reducers under denitrifying conditions. We observed an increase of betaproteobacterial clade I and II N2O reducing species with addition of HEC, whereas alphaproteobacterial clade I species and clade II species within other Proteobacteria and Bacteriodetes were associated with glucose and acetate. These results show that specific C-substrates select for certain lineages of nitrous oxide reducers and influence patterns of niche partitioning within clades of N2O reducers, whereas other soil factors drive differences between clade I and II nosZ communities.

Topics & Concepts

Denitrifying bacteriaNitrous-oxide reductaseBiologyAnoxic watersEdaphicSoil waterNiche differentiationCladeEcologyEnvironmental chemistryDenitrificationNicheNitrogenChemistryPhylogeneticsOrganic chemistryGeneBiochemistryMicrobial Community Ecology and PhysiologyGenomics and Phylogenetic StudiesSoil Carbon and Nitrogen Dynamics
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