The dominant microorganisms vary with aggregates sizes in promoting soil carbon accumulation under straw application
2021
Lu, Jinjing | Li, Shengping | Wu, X. | Liang, G. | Gao, C. | Li, J. | Jin, D. | Wang, B. | Zhang, M. | Zheng, F. | Degré, Aurore
Inglés. peer reviewed
Mostrar más [+] Menos [-]Inglés. Unraveling the influence of microbes on C content at aggregate scale is pivotal for promoting soil C accumulation. Previous studies were based mainly on the mutual transformation process between aggregates, the links between the microorganisms in initial aggregates and inner C content and aggregate sizes were still unclear. In this study, the classified aggregates (> 5 mm, 2–5 mm, 1–2 mm, 0.25–1 mm, and < 0.25 mm) were individually incubated for 10 months under 13C-labeled maize straw application to analyze the relationship between microbial community structure in independent aggregates and inner C accumulation under straw addition. The results show that the SOC content increased in independent aggregates under straw addition, with higher stable C accumulation in < 0.25 mm than in > 2 mm aggregates. Aggregates of > 5 mm were more capable of improving unstable C accumulation and C derived from straw (Cstraw) than smaller aggregates. Fungi and Gram-negative bacteria (G-) were more important to increasing C accumulation in > 2 mm aggregates, whereas Gram-positive (G+) bacteria dominated in < 2 mm aggregates. The results indicate that the contribution of microorganisms within aggregates to inner C accumulation was associated with aggregate sizes. © 2021 Informa UK Limited, trading as Taylor & Francis Group.
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