Root exudates with low C/N ratios accelerate CO₂ emissions from paddy soil

Abstract: Root exudates can significantly modify microbial activity and soil organic matter (SOM) mineralization. However, how root exudates and their C/N stoichiometric ratios control rice field (paddy) soil C mineralization is poorly understood. This study used a mixture of glucose, oxalic acid, and alanine as root exudate mimics for three C/N stoichiometric ratios (CN6, CN10, and CN80) to explore the underlying mechanisms involved in SOM mineralization. The input of root exudates enhanced CO2 emissions by 1.8–2.3‐fol… Show more

“…S4). The NAG activity is positively in uenced by the Cto-N ratio, as nitrogen de ciency (a higher C-to-N ratio) can stimulate microbial degradation activity to AS for nitrogen acquisition (Cai et al, 2022). This has been consistently identi ed in the present work (Fig.…”

Distinct contributions of microbial and plant residues to SOC during ecosystem primary succession in a Tibetan glacier foreland

“…S4). The NAG activity is positively in uenced by the Cto-N ratio, as nitrogen de ciency (a higher C-to-N ratio) can stimulate microbial degradation activity to AS for nitrogen acquisition (Cai et al, 2022). This has been consistently identi ed in the present work (Fig.…”

Distinct contributions of microbial and plant residues to SOC during ecosystem primary succession in a Tibetan glacier foreland

Global research trends in Rhizodeposition-mediated soil carbon cycle: A bibliometric analysis

Microbial and thermal indices of organic matter stability in lowland soils with variable texture