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- Title
Nitrogen redistribution and seasonal trait fluctuation facilitate plant N conservation and ecosystem N retention.
- Authors
Zhao, Qingzhou; Wang, Peng; Smith, Gabriel Reuben; Hu, Lingyan; Liu, Xupeng; Tao, Tingting; Ma, Miaojun; Averill, Colin; Freschet, Grégoire T.; Crowther, Thomas W.; Hu, Shuijin
- Abstract
Low available soil nitrogen (N) limits plant productivity in alpine regions, and alpine plants thus resorb and reallocate N from senescing tissues to conserve this limited N during the non‐growing season. However, the destination and extent of N redistribution during plant senescence among above‐ and below‐ground organs, let alone other processes of translocation outside of plants and into the soil components, remain poorly understood.Utilizing 15N stable isotope as a tracer, we quantified N redistribution among above‐ and below‐ground plant organs and different soil components during senescence in an alpine meadow ecosystem, and explored the relationship between 15N partitioning among plant–soil N pools with seasonal fluctuations of plant functional traits.We found a substantial depletion of 15N in fine roots (−40% ± 2.8%) and above‐ground tissues (−51% ± 5.1%), and an enhanced 15N retention primarily in coarse roots (+79% ± 27%) and soil organic matter (+37% ± 10%) during plant senescence, indicating a dual role of roots with coarse roots acting as an N sink and fine roots as a source of N recycling during senescence. In parallel, we observed a temporal variation in plant functional traits, representing a shift from more acquisitive to more conservative strategies as the growing season ends, such as higher coarse root N and coarse root to fine root ratio. The seasonal trait variations were highly correlated with the 15N retention in coarse roots and soil organic matter. Particularly, 15N retention in particulate and mineral‐associated organic matter increased by 30% ± 12% and 24% ± 9%, respectively, suggesting a potential pathway through which fine root and microbial mortality contribute to 15N redistribution into soil N pools during senescence.Synthesis. N redistribution and seasonal plant trait fluctuation facilitate plant N conservation and ecosystem N retention in the alpine system. This study suggests a coupled above‐ground‐below‐ground N conservation strategy that may optimize the temporal coupling between plant N demand and ecosystem N supply in N‐limited alpine ecosystems.
- Subjects
PLANT conservation; MOUNTAIN ecology; STABLE isotope tracers; BOTANICAL gardens; MOUNTAIN meadows; MOUNTAIN plants; TUNDRAS
- Publication
Journal of Ecology, 2024, Vol 112, Issue 3, p501
- ISSN
0022-0477
- Publication type
Article
- DOI
10.1111/1365-2745.14246