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- Title
Leguminous plants significantly increase soil nitrogen cycling across global climates and ecosystem types.
- Authors
Gou, Xiaomei; Reich, Peter B.; Qiu, Liping; Shao, Mingan; Wei, Gehong; Wang, Jingjing; Wei, Xiaorong
- Abstract
Leguminous plants are an important component of terrestrial ecosystems and significantly increase soil nitrogen (N) cycling and availability, which affects productivity in most ecosystems. Clarifying whether the effects of legumes on N cycling vary with contrasting ecosystem types and climatic regions is crucial for understanding and predicting ecosystem processes, but these effects are currently unknown. By conducting a global meta‐analysis, we revealed that legumes increased the soil net N mineralization rate (Rmin) by 67%, which was greater than the recently reported increase associated with N deposition (25%). This effect was similar for tropical (53%) and temperate regions (81%) but was significantly greater in grasslands (151%) and forests (74%) than in croplands (−3%) and was greater in in situ incubation (101%) or short‐term experiments (112%) than in laboratory incubation (55%) or long‐term experiments (37%). Legumes significantly influenced the dependence of Rmin on N fertilization and experimental factors. The Rmin was significantly increased by N fertilization in the nonlegume soils, but not in the legume soils. In addition, the effects of mean annual temperature, soil nutrients and experimental duration on Rmin were smaller in the legume soils than in the nonlegume soils. Collectively, our results highlighted the significant positive effects of legumes on soil N cycling, and indicated that the effects of legumes should be elucidated when addressing the response of soils to plants.
- Subjects
NITROGEN cycle; NITROGEN in soils; LEGUMES; ECOSYSTEMS; PLANT-soil relationships; GRASSLANDS
- Publication
Global Change Biology, 2023, Vol 29, Issue 14, p4028
- ISSN
1354-1013
- Publication type
Article
- DOI
10.1111/gcb.16742