Conference proceeding
Tree diversity and functional traits as predictors of stand productivity
Book of Abstracts: Forests and Society Towards 2050, pp.1825-1826
XXVI IUFRO 2024 World Congress: Forests and Society Towards 2050 (Stockholm, Sweden, 23/06/2024–29/06/2024)
2024
Abstract
Forests need to be resilient and adaptive in the face of global environmental change and mixed species forestry is a critical strategy for achieving this goal. It has been shown in many studies that mixed species forests can be more productive, more resilient to stress and disturbance while also providing a broader range of ecosystem services relative to mono-specific forests, yet the underlying mechanisms are not clear. Contrasting inter-specific functional trait expression and increased structural heterogeneity in mixtures may enhance community resource utilization, which could help explain synergistic effects on tree growth. Here, we conducted a meta-analysis of data from 21 tree diversity experiments across 5 continents to determine the extent to which mixed forestry can promote increased growth as measured by stand-level basal area and height mean annual increment. We then used structural-equation modeling to quantify the strength of linkages between species diversity and growth via vertical and horizontal structural heterogeneity, functional trait diversity, and functional stand composition. We will discuss our findings in terms of general growth trends identified, and potential mechanistic diversity-productivity pathways in tree species mixtures. The results can contribute to informing policy-makers and forest managers about the overall effectiveness of mixed forestry.
Details
- Title
- Tree diversity and functional traits as predictors of stand productivity
- Authors/Creators
- Joel Jensen - Swedish University of Agricultural SciencesCarolyn Glynn - Swedish University of Agricultural SciencesPetra Fransson - Swedish University of Agricultural SciencesChristel Baum - University of RostockQuentin Ponette - Pontifícia Universidade Católica de São PauloBart Muys - KU LeuvenKris Verheyen - Ghent UniversityHaben Blondeel - Ghent UniversityLander Baeten - Ghent UniversityJürgen Bauhus - University of FreiburgFriderike Beyer - University of FreiburgHernán Serrano-León - University of FreiburgMichael Scherer-Lorenzen - University of FreiburgPeter Hajek - University of FreiburgTobias Gebauer - University of FreiburgCharles A. Nock - University of FreiburgRebecca A. Montgomery - University of MinnesotaNico Eisenhauer - German Centre for Integrative Biodiversity ResearchOlga Ferlian - German Centre for Integrative Biodiversity ResearchBill Parker - Ministry of Natural Resources and ForestryNadia Barsoum - Forest ResearchMichael P. Perring - The University of Western AustraliaSebastian Fiedler - University of GöttingenHervé Jactel - Université de BordeauxCéline Meredieu - Université de BordeauxJoannès Guillemot - AgroAgnès Robin - AgroJohn D. Parker - Smithsonian Environmental Research CenterDouglas L. Godbold - Mendel University in BrnoRachel Standish - Murdoch UniversityDirk Hölscher - University of GöttingenHolger Kreft - University of GöttingenGustavo B. Paterno - University of GöttingenPeter B. Reich - University of GöttingenRaimundo Bermudez - University of MinnesotaArtur Stefanski - University of MinnesotaHarald Auge - German Centre for Integrative Biodiversity ResearchPedro H.S. Brancalion - Universidade de São PauloJeannine Cavender-Bares - University of MinnesotaCatherine Potvin - McGill UniversityMartin Weih - Swedish University of Agricultural Sciences
- Publication Details
- Book of Abstracts: Forests and Society Towards 2050, pp.1825-1826
- Conference
- XXVI IUFRO 2024 World Congress: Forests and Society Towards 2050 (Stockholm, Sweden, 23/06/2024–29/06/2024)
- Publisher
- IUFRO
- Identifiers
- 991005797762707891
- Murdoch Affiliation
- Centre for Terrestrial Ecosystem Science and Sustainability; School of Environmental and Conservation Sciences
- Language
- English
- Resource Type
- Conference proceeding
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