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Elevated temperature and CO 2 strongly affect the growth strategies of soil bacteria.

Yang RuanYakov KuzyakovXiaoyu LiuXuhui ZhangQicheng XuJunjie GuoShiwei GuoQirong ShenYunfeng YangNing Ling
Published in: Nature communications (2023)
The trait-based strategies of microorganisms appear to be phylogenetically conserved, but acclimation to climate change may complicate the scenario. To study the roles of phylogeny and environment on bacterial responses to sudden moisture increases, we determine bacterial population-specific growth rates by 18 O-DNA quantitative stable isotope probing ( 18 O-qSIP) in soils subjected to a free-air CO 2 enrichment (FACE) combined with warming. We find that three growth strategies of bacterial taxa - rapid, intermediate and slow responders, defined by the timing of the peak growth rates - are phylogenetically conserved, even at the sub-phylum level. For example, members of class Bacilli and Sphingobacteriia are mainly rapid responders. Climate regimes, however, modify the growth strategies of over 90% of species, partly confounding the initial phylogenetic pattern. The growth of rapid bacterial responders is more influenced by phylogeny, whereas the variance for slow responders is primarily explained by environmental conditions. Overall, these results highlight the role of phylogenetic and environmental constraints in understanding and predicting the growth strategies of soil microorganisms under global change scenarios.
Keyphrases
  • climate change
  • gene expression
  • high resolution
  • mass spectrometry
  • risk assessment
  • quantum dots
  • circulating tumor cells
  • gram negative