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Oxygen-nanobubble-loaded biochar increases soil carbon sequestration in rice paddies

Yiyu Lan, Qingnan Chu, Xiangyu Liu, Shuhan Xu, Detian Li, Chengming Zhang, Ping He, Feng Xu, Hanlin Zhang, Zhimin Sha

2025Soil & Environmental Health8 citationsDOIOpen Access PDF

Abstract

Enhancing soil carbon sequestration in flooded agroecosystems is critical for promoting soil health, improving crop productivity, and mitigating climate change. This study evaluated the role of oxygen nanobubble (ONB)-loaded biochar, an emerging oxygenation and carbon management tool, in modulating soil organic carbon (SOC) dynamics and microbial activity in rice paddy soil. A pot experiment was conducted with treatments involving biochar, ONB-loaded biochar, and iron plaque induction. The results showed that ONB-loaded biochar increased SOC by 11–19% compared to the control groups. This enhancement was attributed to two primary mechanisms: (1) suppression of hydrolase activity, including β-glucosidase and acid phosphatase, resulting in reduced decomposition of labile organic matter; and (2) increased oxidase activity, which facilitated the oxidation of phenolic compounds and promoted the formation of recalcitrant carbon-iron complexes. Additionally, enzyme stoichiometry and vector analysis revealed stronger microbial carbon limitation and phosphorus limitation in ONB-loaded biochar treatments, particularly during the tillering and maturing stages. The formation of iron plaques on roots further modulated these effects by altering redox conditions and nutrient availability. These findings highlight ONB-loaded biochar as a sustainable soil amendment that strengthens long-term SOC storage, modulates microbial nutrient dynamics, and enhances soil biogeochemical functioning in rice agroecosystems. This approach offers promising implications for advancing climate-smart and environmentally sound soil management strategies.

Topics & Concepts

BiocharCarbon sequestrationOxygenPaddy fieldCarbon fibersEnvironmental scienceSoil carbonAgronomySoil scienceSoil waterMaterials scienceCarbon dioxideChemistryChemical engineeringComposite materialBiologyEngineeringPyrolysisComposite numberOrganic chemistryGeochemistry and Elemental AnalysisSoil Carbon and Nitrogen Dynamics