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Mineral–Enzyme Interactions Drive Soil Organic Carbon Accumulation and Stabilization in Permafrost

Junhao Zhu, Jannik Martens, Yakov Kuzyakov, Weidong Kong, Laodong Guo, M. Torre Jorgenson, И. Н. Семенков, Lin Shi, Cong‐Qiang Liu, Georg Guggenberger, Guanghui Yu

2025Environmental Science & Technology7 citationsDOIOpen Access PDF

Abstract

Constraining the stability and bioavailability of soil organic carbon (SOC) in permafrost regions is crucial to predicting future greenhouse gas emissions under global warming and permafrost thawing. Oxidative enzymes like peroxidases, often stabilized by minerals, play critical roles in degrading recalcitrant organic matter, yet their contribution to SOC persistence in soils from permafrost regions remains unexplored. Here, using amino sugar biomarkers, we assessed how peroxidase activity and minerals influence microbially processed SOC across two contrasting permafrost types: high-altitude Tibetan Plateau grasslands (warm permafrost) and high-latitude Alaskan tundra (cold permafrost). Tibetan soils contained 4-fold higher microbial residue-derived SOC than Alaskan soils, with fungal necromass three times higher than bacterial necromass, while fungal necromass in Alaskan soils exceeded bacterial necromass by an order of magnitude. In both regions, strong association of SOC and microbial necromass with short-range ordered minerals underscores the role of mineral–microbe interactions in SOC stabilization. Strikingly, peroxidase activity in Alaskan soils was 1 order of magnitude higher than in Tibetan soils and was tightly correlated with mineral-bound organic carbon. These findings suggest that peroxidase-driven H 2 O 2 reduction represents a previously unrecognized mechanism of SOC stabilization in Arctic permafrost, with important implications for carbon–climate feedbacks under warming.

Topics & Concepts

PermafrostSoil carbonSoil waterTundraEnvironmental scienceEnvironmental chemistryTotal organic carbonCarbon cycleGlobal warmingVegetation (pathology)Soil scienceGreenhouse gasClimate changeArcticCarbon fibersEarth scienceSoil organic matterPlateau (mathematics)ThermokarstCarbon fluxTopsoilBioavailabilitySoil classificationChemistryEcologyGlobal climateEcosystemClimate change and permafrostPolar Research and EcologySoil Carbon and Nitrogen Dynamics