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Temperature sensitivity of SOM decomposition governed by aggregate protection and microbial communities.


ABSTRACT: Temperature sensitivity (Q 10) of soil organic matter (SOM) decomposition is a crucial parameter for predicting the fate of soil carbon (C) under global warming. However, our understanding of its regulatory mechanisms remains inadequate, which constrains its accurate parameterization in Earth system models and induces large uncertainties in predicting terrestrial C-climate feedback. Here, we conducted a long-term laboratory incubation combined with a two-pool model and manipulative experiments to examine potential mechanisms underlying the depth-associated Q 10 variations in active and slow soil C pools. We found that lower microbial abundance and stronger aggregate protection were coexisting mechanisms underlying the lower Q 10 in the subsoil. Of them, microbial communities were the main determinant of Q 10 in the active pool, whereas aggregate protection exerted more important control in the slow pool. These results highlight the crucial role of soil C stabilization mechanisms in regulating temperature response of SOM decomposition, potentially attenuating the terrestrial C-climate feedback.

SUBMITTER: Qin S 

PROVIDER: S-EPMC6620099 | biostudies-literature |

REPOSITORIES: biostudies-literature

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