Litcius/Paper detail

Higher tree diversity increases soil microbial resistance to drought

Lauren Gillespie, Nathalie Fromin, Alexandru Milcu, Bruno Buatois, Clovis Pontoizeau, Stephan Hättenschwiler

2020Communications Biology47 citationsDOIOpen Access PDF

Abstract

Predicted increases in drought frequency and severity may change soil microbial functioning. Microbial resistance and recovery to drought depend on plant community characteristics, among other factors, yet how changes in plant diversity modify microbial drought responses is uncertain. Here, we assessed how repeated drying-rewetting cycles affect soil microbial functioning and whether tree species diversity modifies these effects with a microcosm experiment using soils from different European forests. Our results show that microbial aerobic respiration and denitrification decline under drought but are similar in single and mixed tree species forests. However, microbial communities from mixed forests resist drought better than those from mono-specific forests. This positive tree species mixture effect is robust across forests differing in environmental conditions and species composition. Our data show that mixed forests mitigate drought effects on soil microbial processes, suggesting greater stability of biogeochemical cycling in mixed forests should drought frequency increase in the future.

Topics & Concepts

MicrocosmBiogeochemical cycleSoil waterMicrobial population biologyEcologyEnvironmental scienceCyclingResistance (ecology)Soil respirationBiologyAgronomyGeographyForestryGeneticsBacteriaPlant Water Relations and Carbon DynamicsSoil Carbon and Nitrogen DynamicsSoil erosion and sediment transport