Embracing plant-plant interactions-Rethinking predictions of species range shifts

Pieter Sanczuk, Dries Landuyt, Emiel De Lombaerde, Jonathan Lenoir, Eline Lorer, Miska Luoto, Koenraad Van Meerbeek, Florian Zellweger, Pieter De Frenne

Research output: Contribution to journalA1: Web of Science-articlepeer-review

Abstract

Interactions among plants are changing across the globe resulting from a multitude of changes in the environment. Obtaining accurate predictions of plant species' range dynamics requires us to account for plant-plant interactions, but this remains challenging using the existing species distribution modelling (SDM) techniques. Advanced SDM techniques facilitate the integration of plant species interactions based on species-to-species associations. However, for uncharted environmental conditions in which the formerly derived species' correlations potentially no longer hold, a more process-based alternative is expected to become increasingly relevant. We first review the most common SDM techniques that integrate plant-plant interactions and then present the concept for a novel map product: a spatial plant-plant interaction index (PII) depicting the link between a focal species' performance and the trait signature of the interacting vegetation. The latest developments in remote sensing and the increasing availability of vegetation plot data facilitate PII mapping based on vegetation trait-environment relationships. Synthesis: PII mapping holds the potential to advance next-generation biogeographical analyses as it can serve as a pivotal missing covariate layer necessary for the integration of plant-plant interactions into SDM applications. This data product adds flexibility to the ecologists' toolbox to analyse species range shifts and the formation of novel communities as a response to multiple environmental changes. Concept summary and flowchart of data to calculate a Plant-plant Interaction Index (PII) map Here, the PII is mapped for the forest herb Geum urbanum based on the realized impact of the competitive generalist herb Urtica dioica, while accounting for the effects of ambient plant interaction with other resident herb species. This PII map product may be integrated into SDMs to account for biotic interaction (competition) effects brought about by Urtica on the habitat suitability of Geum. Knowing the link between Geum performance and the percentage cover of Urtica, it is for instance possible to assess the impacts of changes in tree cover density on the percentage cover of Urtica, and how this affects the PII, to ultimately analyse to what extent these biotic changes propagate up to biogeographical range shifts of Geum. This way, PII mapping is a powerful and flexible tool that effectively leverages the strengths of both experimental research and correlative SDMs.image
Original languageEnglish
JournalJournal of Ecology
Volume112
Issue number12
ISSN0022-0477
DOIs
Publication statusPublished - 1-Dec-2024

Thematic List 2020

  • Flora & fauna
  • Forest

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