Login / Signup

Carbon and nitrogen allocation shifts in plants and soils along aridity and fertility gradients in grasslands of China.

Wentao LuoMai-He LiJordi SardansXiao-Tao LüChao WangJosep PeñuelasZhengwen WangXing-Guo HanYong Jiang
Published in: Ecology and evolution (2017)
Plant carbon (C) and nitrogen (N) stoichiometry play an important role in the maintenance of ecosystem structure and function. To decipher the influence of changing environment on plant C and N stoichiometry at the subcontinental scale, we studied the shoot and root C and N stoichiometry in two widely distributed and dominant genera along a 2,200-km climatic gradient in China's grasslands. Relationships between C and N concentrations and soil climatic variables factors were studied. In contrast to previous theory, plant C concentration and C:N ratios in both shoots and roots increased with increasing soil fertility and decreased with increasing aridity. Relative N allocation shifted from soils to plants and from roots to shoots with increasing aridity. Changes in the C:N ratio were associated with changes in N concentration. Dynamics of plant C concentration and C:N ratios were mainly caused by biomass reallocation and a nutrient dilution effect in the plant-soil system. Our results suggest that the shifted allocation of C and N to different ecosystem compartments under a changing environment may change the overall use of these elements by the plant-soil system.
Keyphrases
  • plant growth
  • human health
  • climate change
  • heavy metals
  • cell wall
  • magnetic resonance
  • risk assessment
  • magnetic resonance imaging
  • neural network
  • solid state