Environmental Research Letters (Jan 2021)

Nitrogen accumulation, rather than carbon: nitrogen stoichiometric variation, underlies carbon storage during forest succession

  • Junliang Zou,
  • Juying Wu,
  • Bruce Osborne,
  • Brian Tobin,
  • Yiqi Luo

DOI
https://doi.org/10.1088/1748-9326/abe06e
Journal volume & issue
Vol. 16, no. 2
p. 024055

Abstract

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Forest ecosystems play an important role in regulating global temperatures through their capability to take up and store CO _2 from the atmosphere, but the magnitude and sustainability of this carbon ( C ) sink is critically dependent on the availability of nutrients, particularly nitrogen ( N ). However, the extent to which the absolute amount of N or modifications in plant and soil C:N ratios controls long-term forest carbon sequestration (C _seq ) remains uncertain. To assess this, we analyzed the results of 135 global field studies that investigated the dynamics of C and N availability during forest succession. The results showed that the accumulation of C and N in plant (including above- and below-ground vegetation) and litter pools decreased with forest age and approached an equilibrium value in the latter stages of stand development. Plant and litter C:N ratios increased during the first 10–20 years and remained relatively stable thereafter. The analysis further showed that the relative importance of a change in the total amount of N or modifications in the C:N ratio, to increases in C _seq , varied with forest age. Whilst the relative importance of a change in the total amount of N increased with forest age, the relative importance of a varied C:N stoichiometry decreased with forest age. Overall, a change in the total amount of N was the more important factor contributing to C storage during forest stand development and the C stored in vegetation dominated the total ecosystem C pool. These results show that ecosystem N availability is a key factor supporting long-term forest C _seq during forest succession. As most of the C is found in above-ground vegetation, this pool is particularly susceptible to abiotic or biotic factors and anthropogenically-related disturbances.

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