info:eu-repo/semantics/article
Trait-Based Assessments of Climate-Change Impacts on Interacting Species
Fecha
2020-01-24Registro en:
Schleuning, Matthias; Neuschulz, Eike Lena; Albrecht, Jörg; Bender, Irene Maria Antoinetta; Bowler, Diana E.; et al.; Trait-Based Assessments of Climate-Change Impacts on Interacting Species; Elsevier Science London; Trends In Ecology And Evolution - Tree; 35; 4; 24-1-2020; 319-328
0169-5347
CONICET Digital
CONICET
Autor
Schleuning, Matthias
Neuschulz, Eike Lena
Albrecht, Jörg
Bender, Irene Maria Antoinetta
Bowler, Diana E.
Dehling, D. Matthias
Fritz, Susanne A.
Hof, Christian
Mueller, Thomas
Nowak, Larissa
Sorensen, Marjorie C.
Böhning Gaese, Katrin
Kissling, W. Daniel
Resumen
Plant–animal interactions are fundamentally important in ecosystems, but have often been ignored by studies of climate-change impacts on biodiversity. Here, we present a trait-based framework for predicting the responses of interacting plants and animals to climate change. We distinguish three pathways along which climate change can impact interacting species in ecological communities: (i) spatial and temporal mismatches in the occurrence and abundance of species, (ii) the formation of novel interactions and secondary extinctions, and (iii) alterations of the dispersal ability of plants. These pathways are mediated by three kinds of functional traits: response traits, matching traits, and dispersal traits. We propose that incorporating these traits into predictive models will improve assessments of the responses of interacting species to climate change.