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Ernst, Raffael; Keller, Alexander; Landburg, Gwendolyn; Grafe, T. Ulmar; Linsenmair, K. Eduard; Rödel, Mark-Oliver; Dziock, Frank

Common ancestry or environmental trait filters: cross-continental comparisons of trait—habitat relationships in tropical anuran amphibian assemblages

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  • Medientyp: E-Artikel
  • Titel: Common ancestry or environmental trait filters: cross-continental comparisons of trait—habitat relationships in tropical anuran amphibian assemblages
  • Beteiligte: Ernst, Raffael; Keller, Alexander; Landburg, Gwendolyn; Grafe, T. Ulmar; Linsenmair, K. Eduard; Rödel, Mark-Oliver; Dziock, Frank
  • Erschienen: Blackwell Publishing, 2012
  • Erschienen in: Global Ecology and Biogeography
  • Sprache: Englisch
  • DOI: 10.1111/j.1466-8238.2011.00719.x
  • ISSN: 1466-822X
  • Entstehung:
  • Anmerkungen:
  • Beschreibung: <p>Aim: To investigate whether trait—habitat relations in biological communities converge across three global regions. The goal is to assess the role of habitat templets in shaping trait assemblages when different assembly mechanisms are operating and to test whether trait—habitat relations reflect a common evolutionary history or environmental trait filters. Location: Guiana Shield, South America; Upper Guinea Forest Block, West Africa; Borneo rain forests, Southeast Asia. Methods: We compared large anuran amphibian data sets at both the regional and cross-continental scale. We applied a combination of three-table ordinations (RLQ) and permutation model-based multivariate fourth-corner statistics to test for trait—habitat relationships at both scales and used phylogenetic comparative methods to quantify phylogenetic signal in traits that enter these analyses. Results: Despite the existence of significant trait—habitat links and congruent trait patterns, we did not find evidence for the existence of a universal trait—habitat relationship at the assemblage level and no clear sign for cross-continental convergence of trait—habitat relations. Patterns rather varied between continents. Despite the fact that a number of traits were conserved across phylogenies, the phylogenetic signal varied between regions. Trait—habitat relations therefore not only reflect a common evolutionary history, but also more recently operating environmental trait filters that ultimately determine the trait composition in regional assemblages. Main conclusions: Integrating trait—habitat links into analyses of biological assemblages can enhance the predictive power and general application of species assembly rules in community and macroecology, particularly when phylogenetic comparative methods are simultaneously applied. However, in order to predict trait composition based on habitat templets, trait—habitat links cannot be assumed to be universal but rather have to be individually established in different regions prior to model building. Only then can direct trait-based approaches be useful tools for predicting fundamental community patterns.</p>