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Response to nitrogen addition reveals metabolic and ecological strategies of soil bacteria.

Md Sainur SamadCharlotte JohnsKarl G RichardsGary J LaniganCecile A M de KleinTimothy J CloughSergio E Morales
Published in: Molecular ecology (2017)
The nitrogen (N) cycle represents one of the most well-studied systems, yet the taxonomic diversity of the organisms that contribute to it is mostly unknown, or linked to poorly characterized microbial groups. While new information has allowed functional groups to be refined, they still rely on a priori knowledge of enzymes involved and the assumption of functional conservation, with little connection to the role the transformations, plays for specific organisms. Here, we use soil microcosms to test the impact of N deposition on prokaryotic communities. By combining chemical, genomic and transcriptomic analysis, we are able to identify and link changes in community structure to specific organisms catalysing given chemical reactions. Urea deposition led to a decrease in prokaryotic richness, and a shift in community composition. This was driven by replacement of stable native populations, which utilize energy from N-linked redox reactions for physiological maintenance, with fast responding populations that use this energy for growth. This model can be used to predict response to N disturbances and allows us to identify putative life strategies of different functional and taxonomic groups, thus providing insights into how they persist in ecosystems by niche differentiation.
Keyphrases
  • healthcare
  • gram negative
  • climate change
  • microbial community
  • mental health
  • gene expression
  • copy number
  • risk assessment
  • genetic diversity
  • human health
  • dna methylation
  • genome wide
  • plant growth