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Microbial drought resistance may destabilize soil carbon

Steven Allison

2023Trends in Microbiology78 citationsDOIOpen Access PDF

Abstract

Droughts are becoming more frequent and intense with climate change. As plants and microbes respond to drought, there may be consequences for the vast stocks of organic carbon stored in soils. If microbes sustain their activity under drought, soils could lose carbon, especially if inputs from plants decline. Empirical and theoretical studies reveal multiple mechanisms of microbial drought resistance, including tolerance and avoidance. Physiological responses allow microbes to acclimate to drought within minutes to days. Along with dispersal, shifts in community composition could allow microbiomes to maintain functioning despite drought. Microbes might also adapt to drier conditions through evolutionary processes. Together, these mechanisms could result in soil carbon losses larger than currently anticipated under climate change.

Topics & Concepts

BiologyClimate changeSoil waterBiological dispersalResistance (ecology)Microbial population biologyEcologySoil carbonCarbon cycleEcosystemBacteriaPopulationSociologyGeneticsDemographySoil Carbon and Nitrogen DynamicsEcology and Vegetation Dynamics StudiesMicrobial Community Ecology and Physiology
Microbial drought resistance may destabilize soil carbon | Litcius