Litcius/Paper detail

Deadwood-Inhabiting Bacteria Show Adaptations to Changing Carbon and Nitrogen Availability During Decomposition

Vojtěch Tláskal, Petr Baldrián

2021Frontiers in Microbiology51 citationsDOIOpen Access PDF

Abstract

Deadwood decomposition is responsible for a significant amount of carbon (C) turnover in natural forests. While fresh deadwood contains mainly plant compounds and is extremely low in nitrogen (N), fungal biomass and N content increase during decomposition. Here, we examined 18 genome-sequenced bacterial strains representing the dominant deadwood taxa to assess their adaptations to C and N utilization in deadwood. Diverse gene sets for the efficient decomposition of plant and fungal cell wall biopolymers were found in Acidobacteria, Bacteroidetes , and Actinobacteria . In contrast to these groups, Alphaproteobacteria and Gammaproteobacteria contained fewer carbohydrate-active enzymes and depended either on low-molecular-mass C sources or on mycophagy. This group, however, showed rich gene complements for N 2 fixation and nitrate/nitrite reduction—key assimilatory and dissimilatory steps in the deadwood N cycle. We show that N 2 fixers can obtain C independently from either plant biopolymers or fungal biomass. The succession of bacteria on decomposing deadwood reflects their ability to cope with the changing quality of C-containing compounds and increasing N content.

Topics & Concepts

GammaproteobacteriaAlphaproteobacteriaActinobacteriaBiologyAcidobacteriaNitrogen fixationBacteriaBotanyBiomass (ecology)MicroorganismEcology16S ribosomal RNAGeneticsForest Ecology and Biodiversity StudiesMycorrhizal Fungi and Plant InteractionsEnvironmental DNA in Biodiversity Studies