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Elevational pattern of soil organic carbon release in a Tibetan alpine grassland: Consequence of quality but not quantity of initial soil organic carbon

Meng Guo, Bo Zhao, Yangxue Wen, Jingjing Hu, Amin Dou, Zhiwei Zhang, Junpeng Rui, Wenjin Li, Qiang Wang, Jianxiao Zhu

2022Geoderma26 citationsDOIOpen Access PDF

Abstract

Soil organic carbon (SOC) dynamics along elevational gradients are highly uncertain due to our limited knowledge of the underlying mechanisms that determine SOC release. By combining field investigation and laboratory aerobic incubation with multiple soil analytical approaches, we explored the determinants of SOC release along an elevational gradient (3200–4200 m) in the Tibetan alpine grassland. We illustrated that the SOC quantity (i.e., the initial standing SOC stock) and SOC quality (i.e., chemical recalcitrance, physico-chemical protection and biological recalcitrant fraction) increased gradually with elevation, reaching a maximum value at the middle altitude (∼3600 m), while an opposite unimodal distribution pattern was observed in CO2–C release. Our results also showed that SOC quality explained more variance in CO2–C release than did SOC quantity and soil properties. The proportion of stable SOC fractions in larger initial SOC stocks is higher, especially the recalcitrant SOC pool and mineral-associated OC fractions, which could be the potential mechanism behind high initial SOC stocks leading to lower soil CO2–C release. Collectively, our results provide compelling evidence that SOC quality plays a primary role in the elevational pattern of CO2–C release in Tibetan alpine grassland. Our findings highlight the importance of SOC quality in predicting SOC dynamics in the Tibetan alpine grassland under climate change scenarios.

Topics & Concepts

Soil carbonGrasslandCyclingEnvironmental scienceSoil qualityTotal organic carbonSoil scienceAltitude (triangle)Carbon cycleSoil waterEcosystemChemistryEcologyEnvironmental chemistryForestryGeographyBiologyMathematicsGeometrySoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Water Nutrient Dynamics