Distinct Growth Responses of Tundra Soil Bacteria to Short-Term and Long-Term Warming
Jeffrey Propster, Egbert Schwartz, Michaela Hayer, Samantha Miller, Victoria Monsaint-Queeney, Benjamin J. Koch, Ember M. Morrissey, Michelle C. Mack, Bruce A. Hungate
Abstract
Soil carbon stocks in the tundra and underlying permafrost have become increasingly vulnerable to microbial decomposition due to climate change. The microbial responses to Arctic warming must be understood in order to predict the effects of future microbial activity on carbon balance in a warming Arctic. In response to our warming treatments, tundra soil bacteria grew faster, consistent with increased rates of decomposition and carbon flux to the atmosphere. Our findings suggest that bacterial growth rates may continue to increase in the coming decades as faster growth is driven by the accumulated effects of long-term warming. Observed phylogenetic organization of bacterial growth rates may also permit taxonomy-based predictions of bacterial responses to climate change and inclusion into ecosystem models.