We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Environmental filtering and habitat (mis)matching of riverine invertebrate metacommunities.
- Authors
Murray‐Stoker, David; Murray‐Stoker, Kelly M.; Kong, Fan Peng; Amanat, Fathima
- Abstract
Aim: Metacommunities are assembled through a combination of local and regional processes, with the relative importance of the drivers of assembly depending on ecological context. Global change can alter community assembly at both local and regional levels, potentially shifting communities into disequilibrium with their local environmental conditions. We evaluated the spatial variation in environmental filtering and habitat matching of 1078 riverine macroinvertebrate communities distributed across nine ecoregions. Location: Conterminous United States. Taxon: Freshwater macroinvertebrates. Methods: Patterns in environmental filtering, habitat matching and functional trait diversity were compared among ecoregions. Boosted regression trees were used to identify (1) functional trait predictors of environmental filtering and habitat matching and (2) environmental, landscape and network variables that predict functional trait abundances. Results: Environmental filtering but not habitat matching varied strongly by ecoregion. Functional trait diversity varied by ecoregion, but not as strongly as the signatures of environmental filtering. Functional trait predictors of environmental filtering and habitat matching were not consistent, with trait predictors instead varying by individual traits, trait categories and ecoregions. Notwithstanding inconsistent trait predictors, environmental filtering was primarily influenced by habitat preference traits, whereas habitat matching was primarily influenced by both habitat preference and dispersal traits. Predictors of functional traits also varied by trait category and ecoregion, with habitat preference and dispersal traits primarily influenced by network variables. Main conclusions: Our study demonstrates the contingent patterns and drivers of environmental filtering and habitat matching on a macroecological scale. We provide the foundation on which trait–environment relationships can be further quantified and causal explanations established in the context of community disequilibrium and applied to conservation and management of freshwater systems.
- Subjects
UNITED States; HABITATS; HABITAT selection; COMMUNITIES; REGRESSION trees; ECOLOGICAL regions; SPATIAL variation
- Publication
Journal of Biogeography, 2022, Vol 49, Issue 12, p2105
- ISSN
0305-0270
- Publication type
Article
- DOI
10.1111/jbi.14501