Environmental filtering is the main assembly rule of ground beetles in the forest and its edge but not in the adjacent grassland

• Published in: Insect science Vol. 26; no. 1; pp. 154 - 163
• Main Authors: Magura, Tibor, Lövei, Gábor L.
• Format: Journal Article
• Language: English
• Published: Australia Wiley Subscription Services, Inc 01.02.2019
• Subjects: Abundance; Animals; Assembly; asymmetrical species flow; Beetles; Biodiversity; Clustering; coexisting species; Coleoptera; Communities; Filtration; Forests; functional features; Grassland; Grasslands; Habitats; Hungary; Indoor environments; Information processing; Landscape; Phylogenetics; Phylogeny; random process; Species diversity; Species richness; traits; Hungary; random process; phylogeny; traits; coexisting species; functional features; asymmetrical species flow
• ISSN: 1672-9609; 1744-7917
• DOI: 10.1111/1744-7917.12504

In a fragmented landscape, transitional zones between neighboring habitats are common, and our understanding of community organizational forces across such habitats is important. Edge studies are numerous, but the majority of them utilize information on species richness and abundance. Abundance and taxonomic diversity, however, provide little information on the functioning and phylogeny of the co‐existing species. Combining the evaluation of their functional and phylogenetic relationships, we aimed to assess whether ground beetle assemblages are deterministically or stochastically structured along grassland–forest gradients. Our results showed different community assembly rules on opposite sides of the forest edge. In the grassland, co‐occurring species were functionally and phylogenetically not different from the random null model, indicating a random assembly process. Contrary to this, at the forest edge and the interior, co‐occurring species showed functional and phylogenetic clustering, thus environmental filtering was the likely process structuring carabid assemblages. Community assembly in the grassland was considerably affected by asymmetrical species flows (spillover) across the forest edge: more forest species penetrated into the grassland than open‐habitat and generalist species entered into the forest. This asymmetrical species flow underlines the importance of the filter function of forest edges. As unfavorable, human‐induced changes to the structure, composition and characteristics of forest edges may alter their filter function, edges have to be specifically considered during conservation management.