Inter- and intraspecific variation in specific root length drives aboveground biodiversity effects in young experimental forest stands

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Wensheng Bu - , Jiangxi Agricultural University (Author)
  • Bernhard Schmid - , University of Zurich (Author)
  • Xiaojuan Liu - , CAS - Institute of Botany (Author)
  • Ying Li - , Leuphana University of Lüneburg (Author)
  • Werner Härdtle - , Leuphana University of Lüneburg (Author)
  • Goddert von Oheimb - , Chair of Biodiversity and Nature Conservation (Author)
  • Yu Liang - , CAS - Institute of Botany (Author)
  • Zhenkai Sun - , Chinese Academy of Forestry (Author)
  • Yuanyuan Huang - , University of Zurich (Author)
  • Helge Bruelheide - , Martin Luther University Halle-Wittenberg, German Centre for Integrative Biodiversity Research (iDiv) Halle—Jena—Leipzig (Author)
  • Keping Ma - , CAS - Institute of Botany (Author)

Abstract

Aims
Although the net biodiversity effect (NE) can be statistically partitioned into complementarity and selection effects (CE and SE), there are different underlying mechanisms that can cause a certain partitioning. Our objective was to assess the role of resource partitioning and species interactions as two important mechanisms that can bring about CEs by interspecific and intraspecific trait variation.

Methods
We measured tree height of 2493 living individuals in 57 plots and specific root length (SRL) on first-order roots of 368 of these individuals across different species richness levels (1, 2, 4, 8 species) in a large-scale forest biodiversity and ecosystem functioning experiment in subtropical China (BEF-China) established in 2009. We describe the effects of resource partitioning between species by a fixed component of interspecific functional diversity (RaoQ) and further effects of species interactions by variable components of interspecific and intraspecific functional diversity (community weighted trait similarity and trait dissimilarity, CWS and CWD). Finally, we examined the relationships between biodiversity effects on stand-level tree height and functional diversity (RaoQ, CWS and CWD) in SRL using linear regression and assessed the relative importance of these three components of functional diversity in explaining the diversity effects.

Important Findings
Our results show that species richness significantly affected SRL in five and tree height in ten out of 16 species. A positive NE was generally brought about by a positive CE on stand-level tree height and related to high values of RaoQ and CWS in SRL. A positive CE was related to high values of all three components of root functional diversity (RaoQ, CWS and CWD). Our study suggests that both resource partitioning and species interactions are the underlying mechanisms of biodiversity effects on stand-level tree growth in subtropical forest.

Details

Original languageEnglish
Pages (from-to)158 - 169
JournalJournal of Plant Ecology
Volume10
Issue number1
Publication statusPublished - 2017
Peer-reviewedYes

External IDs

ORCID /0000-0001-7408-425X/work/147141722
Scopus 85014520249

Keywords