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Multi-omics reveals nitrogen dynamics associated with soil microbial blooms during snowmelt

Patrick O. Sorensen, Ulaş Karaöz, Harry R. Beller, Markus Bill, Nicholas J. Bouskill, Jillian F. Banfied, Rosalie K. Chu, David W. Hoyt, Elizabeth Eder, Emiley Eloe-Fadrosh, Allison Sharrar, Malak Tfaily, Jason Toyoda, Nikola Tolic, Shi Wang, Allison R. Wong, Kenneth H. Williams, Yangquanwei Zhong, Eoin L. Brodie

2026Nature Microbiology6 citationsDOIOpen Access PDF

Abstract

Snowmelt triggers a soil microbial bloom and crash that affects nitrogen (N) export in high-elevation watersheds. The mechanisms underlying these microbial dynamics are uncertain, making soil nitrogen processes difficult to predict as snowpack declines globally. Here, integration of genome-resolved metagenomics, metatranscriptomics and metabolomics in a high-elevation watershed revealed ecologically distinct soil microorganisms linked across the snowmelt time-period by their unique nitrogen cycling capacities. The molecular properties and transformations of dissolved organic N suggested that degradation or recycling of microbial biomass provided N for biosynthesis during the microbial bloom. Winter-adapted Bradyrhizobia spp. oxidized amino acids anaerobically and had the highest gene expression for denitrification during the microbial bloom. A pulse of nitrate was driven by spring-adapted Nitrososphaerales after snowmelt, but dissimilatory nitrate reduction to ammonia (DNRA) gene expression indicated significant nitrate retention potential. These findings inform our understanding of nitrogen cycling in environments sensitive to snowpack decline due to global change. Soil microbial populations bloom and then die-off in ecosystems with seasonal snowpack. This study showed that distinct taxa utilize different N sources for growth or energy during the microbial bloom and alter the fate of N after snowmelt.

Topics & Concepts

SnowmeltNitrateNitrogen cycleEnvironmental chemistryDenitrificationNitrogenEnvironmental scienceBiogeochemical cycleBiomass (ecology)MicroorganismCyclingMicrobial population biologyDissolved organic carbonNitrificationCarbon cycleEcologyAgronomyNitrogen fixationChemistryBloomSnowpackSoil microbiologyMicrobial metabolismNitrogen deficiencyHeterotrophMicrobial biodegradationBiofilmMicrobial ecologySoil Carbon and Nitrogen DynamicsMicrobial Community Ecology and PhysiologyPolar Research and Ecology
Multi-omics reveals nitrogen dynamics associated with soil microbial blooms during snowmelt | Litcius