Global Ecology and Conservation (Jun 2023)

Nitrogen deposition drives the intricate changes of fine root traits

  • Wuchao Gao,
  • Dongming Chen,
  • Xingpeng Hu,
  • Xuemei Fang,
  • Qi Li,
  • Qian Huang,
  • Feida Sun,
  • Jiqiong Zhou,
  • Yanfu Bai,
  • Jian Zhang,
  • Zhou Li,
  • Junming Zhao,
  • Dagang Yuan,
  • Xinlei Cui,
  • Lin Liu

Journal volume & issue
Vol. 43
p. e02443

Abstract

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Increase in nitrogen (N) deposition will cause changes of root morphological and functional traits, thus deeply affecting ecosystem carbon (C) and N cycles. However, the influence of N deposition to root traits under different climatic conditions, and with different N deposition rate and durations were still unclear. Here, a meta-analysis was conducted to evaluate the effects of simulated increase in N deposition on 11 root traits under different conditions. In general, N addition significantly increased root/shoot ratio, fine root diameter, total root biomass, fine root production, fine root turnover rate, root respiration, fine root N concentration, while decreased fine root C/N at the global scale. Under N addition, the increased extents of fine root biomass and total root biomass were significantly greater in grassland ecosystems, while the increased extent of fine root turnover was greater in forests. N addition significantly increased fine root production in snow climate zone where forests with ectomycorrhizae. A pattern may be inferred that with increases in mean annual temperature (MAT) and mean annual precipitation (MAP), N addition decreased fine root N concentration and fine root C/N, while increased fine root turnover at the high-MAT and high-MAP areas. In addition, it may be ascertained that fine roots became shorter in the low-rate and short-term N addition experiments, while roots became longer in the high-rate and long-term N addition experiments. Our study indicates that increase in N deposition will cause intricate changes of root traits due to the diversity of climatic conditions and the uncertainty of increase rate and duration of N deposition in future.

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