Density-dependent species interactions modulate alpine treeline shifts

  • J. Julio Camarero (Contributor)
  • Xiangyu Zheng (Contributor)
  • Xiaoxia Li (Contributor)
  • Lu Xiaoming (Contributor)
  • Eryuan Liang (Contributor)
  • Flurin Babst (Contributor)
  • Sigdel Shree Ram (Contributor)

Dataset

Description

Species interactions such as facilitation and competition play a crucial role in driving species range shifts. However, density-dependence as a key feature of these processes has received little attention in both empirical and modelling studies. Herein, we used a novel, individual-based treeline model informed by rich in-situ observations to quantify the contribution of density-dependent species interactions to alpine treeline dynamics, an iconic biome boundary recognized as an indicator of global warming. We found that competition and facilitation dominate in dense versus sparse vegetation scenarios, respectively. The optimal balance between these two effects was identified at an intermediate vegetation thickness where the treeline elevation was the highest. Further, treeline shift rates decreased sharply with vegetation thickness and the associated transition from positive to negative species interactions. We thus postulate that vegetation density must be considered when modeling species range dynamics to avoid inadequate predictions of its responses to climate warming.
Date made availableFeb 28 2024
PublisherZENODO

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