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- Title
Higher response of terrestrial plant growth to ammonium than nitrate addition.
- Authors
Liming Yan; Xiaoni Xu; Jianyang Xia
- Abstract
Terrestrial plant growth and ecosystem productivity are strongly limited by availability of nitrogen (N). Atmospheric deposition of wet N as nitrate and ammonium has been rapidly increased since the industrial revolution, associated with a high spatial variation of changes in the ammonium- to nitrate-N ratio (i.e., NH4+-N / NO3--N). However, whether and how terrestrial plants respond differently to NH4+-N and NO3--N addition have never been quantitatively synthesized. Here, we first did a literature survey and analysis on the model projections of future changes in NH4+-N / NO3--N in atmospheric N deposition. Most models predicted an increase in the global average of NH4+-N / NO3--N ratio, but decreasing trends in western Europe and eastern China. Then, a meta-analysis was applied to compare the different growth responses of 402 plant species to NH4+-N and NO3--N addition from 217 N fertilization studies. In general, a greater response of plant growth to NH4+-N (+6.3 % g-1 N) than NO3--N (+1.0 % g-1 N) addition was detected across all species. The larger sensitivity of plant growth to NH4+- than NO3--N was found in all plant functional types except for grasses. In addition, the NO3--N addition promoted terrestrial plants to allocate more biomass to above-ground, whereas NH4+-N addition significantly enhanced below- but not above-ground growth. These results imply that the global accelerating N deposition could stimulate plant growth more in regions with increasing (e.g., North America) than decreasing (e.g., eastern China) NH4+-N / NO3--N ratio. The findings suggest future assessments and predictions on the vegetation response to atmospheric N enrichment could benefit from a better understanding of plant strategies for acquiring different forms of N.
- Subjects
PLANT growth; ECOSYSTEMS; ATMOSPHERIC deposition; SPATIAL variation; NITROGEN in agriculture
- Publication
Biogeosciences Discussions, 2018, p1
- ISSN
1810-6277
- Publication type
Article
- DOI
10.5194/bg-2018-124