Frontiers in Plant Science (Nov 2023)

Climate change reshapes plant trait spectrum to explain biomass dynamics in an old-growth subtropical forest

  • Anchi Wu,
  • Anchi Wu,
  • Xin Xiong,
  • Xin Xiong,
  • Roy González-M,
  • Roy González-M,
  • Ronghua Li,
  • Andi Li,
  • Juxiu Liu,
  • Xuli Tang,
  • Qianmei Zhang

DOI
https://doi.org/10.3389/fpls.2023.1260707
Journal volume & issue
Vol. 14

Abstract

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Climate change leads to novel species interactions and continues to reshuffle ecological communities, which significantly declines carbon accumulation rates in mature forests. Still, little is known about the potential influence of multiple global change factors on long-term biomass dynamics and functional trait combinations. We used temporal demographic records spanning 26 years and extensive databases of functional traits to assess how old-growth subtropical forest biomass dynamics respond to various climatic change scenarios (extreme drought, subsequent drought, warming, elevated CO2 concentrations, and windstorm). We found that the initial severe drought, subsequent drought and windstorm events increased biomass loss due to tree mortality, which exceeded the biomass gain produced by survivors and recruits, ultimately resulting in more negative net biomass balances. These drought and windstorm events caused massive biomass loss due to tree mortality that tended towards acquisition species with high hydraulic efficiency, whereas biomass growth from survivors and recruits tended to consist of acquisition species with high hydraulic safety. Compensatory growth in this natural forest provided good explanation for the increase in biomass growth after drought and windstorm events. Notably, these dominant-species transitions reduced carbon storage and residence time, forming a positive carbon-climate feedback loop. Our findings suggest that climate changes could alter functional strategies and cause shifts in new dominant species, which could greatly reduce ecological functions and carbon gains of old-growth subtropical forests.

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