Fundamental Research (Mar 2023)

Whole-soil warming shifts species composition without affecting diversity, biomass and productivity of the plant community in an alpine meadow

  • Wenkuan Qin,
  • Ying Chen,
  • Xudong Wang,
  • Hongyang Zhao,
  • Yanhui Hou,
  • Qiufang Zhang,
  • Xiaowei Guo,
  • Zhenhua Zhang,
  • Biao Zhu

Journal volume & issue
Vol. 3, no. 2
pp. 160 – 169

Abstract

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The structure and function of plant communities in alpine meadow ecosystems are potentially susceptible to climate warming. Here, we utilized a unique field manipulation experiment in an alpine meadow on the Qinghai-Tibetan Plateau and investigated the responses of plant species diversity, composition, biomass, and net primary productivity (NPP) at both community and functional group levels to whole-soil-profile warming (3–4 °C across 0–100 cm) during 2018–2021. Plant species diversity, biomass and NPP (both above- and belowground) at the community level showed remarkable resistance to warming. However, plant community composition gradually shifted over time. Over the whole experimental warming period, aboveground biomass of legumes significantly decreased by 45%. Conversely, warming significantly stimulated aboveground biomass of forbs by 84%, likely because of better growth and competitive advantages from the warming-induced stimulation of soil water and other variables. However, warming showed minor effects on aboveground biomass of grasses and sedges. Overall, we emphasize that experimental warming may significantly affect plant community composition in a short term by triggering adjustments in plant interspecific competition or survival strategies, which may cause potential changes in plant productivity over a more extended period and lead to changes in carbon source-sink dynamics in the alpine meadow ecosystem.

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