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Neighbourhood species richness and drought-tolerance traits modulate tree growth and δ13C responses to drought

Schnabel Florian, Barry Kathryn E., Eckhardt S., Guillemot Joannès, Geilmann H., Kahl A., Moossen H., Bauhus Jürgen, Wirth Christian. 2024. Neighbourhood species richness and drought-tolerance traits modulate tree growth and δ13C responses to drought. Plant Biology, 26 (2) : 330-345.

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Url - jeu de données - Entrepôt autre : https://data.botanik.uni-halle.de/bef-china

Résumé : Mixed-species forests are promoted as a forest management strategy for climate change adaptation, but whether they are more resistant to drought than monospecific forests remains contested. In particular, the trait-based mechanisms driving the role of tree diversity under drought remain elusive. Using tree cores from a large-scale biodiversity experiment, we investigated tree growth and physiological stress responses (i.e. increase in wood carbon isotopic ratio; δ13C) to changes in climate-induced water availability (wet to dry years) along gradients in neighbourhood tree species richness and drought-tolerance traits. We hypothesized that neighbourhood species richness increases growth and decreases δ13C and that these relationships are modulated by the abiotic (i.e. climatic conditions) and the biotic context. We characterised the biotic context using drought-tolerance traits of focal trees and their neighbours. These traits are related to cavitation resistance versus resource acquisition and stomatal control. Tree growth increased with neighbourhood species richness. However, we did not observe a universal relief of water stress in species-rich neighbourhoods. The effects of neighbourhood species richness and climate on growth and δ13C were modulated by the traits of focal trees and the traits of their neighbours. At either end of each drought-tolerance gradient, species responded in opposing directions during dry and wet years. We show that species' drought-tolerance traits can explain the strength and nature of biodiversity–ecosystem functioning relationships in experimental tree communities experiencing drought. Mixing tree species can increase growth but may not universally relieve drought stress.

Mots-clés Agrovoc : changement climatique, résistance à la sécheresse, adaptation aux changements climatiques, croissance de la plante, sécheresse, bois, carbonisation du bois, arbre forestier, biodiversité, forêt, accroissement du diamètre, accroissement forestier, stress dû à la sécheresse, forêt tropicale humide, facteur climatique

Mots-clés libres : Biodiversity–ecosystem functioning, Carbon isotopes, Climate Change, Functional traits, Mixed-species forest, Plant–plant interactions, Tree rings

Classification Agris : F62 - Physiologie végétale - Croissance et développement
F40 - Écologie végétale
K01 - Foresterie - Considérations générales

Champ stratégique Cirad : CTS 2 (2019-) - Transitions agroécologiques

Agences de financement hors UE : Deutsche Forschungsgemeinschaft, University of Chinese Academy of Sciences

Auteurs et affiliations

  • Schnabel Florian, Universität Freiburg (DEU) - auteur correspondant
  • Barry Kathryn E., Utrecht University (NLD)
  • Eckhardt S., University of Leipzig (DEU)
  • Guillemot Joannès, CIRAD-PERSYST-UMR Eco&Sols (FRA) ORCID: 0000-0003-4385-7656
  • Geilmann H., Max Planck Institute for Biogeochemistry (DEU)
  • Kahl A., University of Leipzig (DEU)
  • Moossen H., Max Planck Institute for Biogeochemistry (DEU)
  • Bauhus Jürgen, Universität Freiburg (DEU)
  • Wirth Christian, University of Leipzig (DEU)

Source : Cirad-Agritrop (https://agritrop.cirad.fr/607806/)

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