Litcius/Paper detail

Stressor Combinations Shift Soil Microbial Communities From Rare to Unknown Taxa and Alter Genomic Strategies

Shuxun Cheng, Xianjin Tang, Xing Huang, Y Li, Shuyi Huang, Yanfeng He, Eduardo Moreno‐Jiménez, Jianming Xu, Matthias C. Rillig, Zhongmin Dai, Manuel Delgado‐Baquerizo

2026Global Change Biology5 citationsDOI

Abstract

Soil microorganisms constitute the largest portion of Earth's biodiversity. However, soil microorganisms are also highly sensitive to on-going global change, and the influence of an increasing number of stressors on common, rare, and unknown taxa across large environmental gradients remains virtually unknown. Here, we combined a large-scale spatial field survey across multiple different ecosystems and found that the diversity and abundance of soil rare taxa were significantly reduced under high environmental stressor number (i.e., a high number of stressors passing a 75% stressor threshold). Strikingly, the abundance of unknown soil taxa and unknown genes increased with increasing environmental stress number. We further identified the metagenome-assembled genomes (MAGs) that were considered as relatively common taxa using metagenomics. Compared to 9% of negative responders, 32% of common MAGs were resistant or positively responsive to multiple stress, displaying a reduced potential for cellular processes and an enhanced potential for environmental, genetic, and metabolic processes. Our study suggests that as stress increases, we would have less rare, but more unknown microorganisms and unique genomes of resistant common taxa, suggesting major changes in the soil microbiome in a world subjected to multiple global change stressors.

Topics & Concepts

BiologyStressorEcologyTaxonEcosystemAbundance (ecology)MicrobiomeMicroorganismEnvironmental changeBiodiversitySoil microbiologyMicrobial ecologyRelative species abundanceExtreme environmentGlobal changeSoil waterMetagenomicsSoil biologyMicrobial population biologyTerrestrial ecosystemResistance (ecology)Soil ecologyMicrobial Community Ecology and PhysiologyPolar Research and EcologySoil Carbon and Nitrogen Dynamics