Litcius/Paper detail

Beta diversity of stream insects differs between boreal and subtropical regions, but land use does not generally cause biotic homogenization

Danielle Katharine Petsch, Victor S. Saito, Victor Lemes Landeiro, Thiago Sanna Freire Silva, Luis Maurício Bini, Jani Heino, Janne Soininen, Kimmo Tolonen, Jenny Jyrkänkallio‐Mikkola, Virpi Pajunen, Tadeu Siqueira, Adriano S. Melo

2020Freshwater Science39 citationsDOIOpen Access PDF

Abstract

Previous studies have found mixed results regarding the relationship between beta diversity and latitude. In addition, by influencing local environmental heterogeneity, land use may modify spatial taxonomic and functional variability among communities causing biotic differentiation or homogenization. We tested 1) whether taxonomic and functional beta diversities among streams within watersheds differ between subtropical and boreal regions and 2) whether land use is related to taxonomic and functional beta diversities in both regions. We sampled aquatic insects in 100 subtropical (Brazil) and 100 boreal (Finland) streams across a wide gradient of land use, including agriculture and exotic planted, secondary, and native forests. We calculated beta diversity at the watershed scale (among 5 streams in each watershed). We found higher taxonomic beta diversity among subtropical than among boreal streams, whereas functional beta diversity was similar between the 2 regions. Total land use was positively correlated with taxonomic and functional beta diversity among subtropical streams, while local environmental heterogeneity was positively correlated with beta diversity among boreal streams. We suggest that different types and intensities of land use may increase among-stream heterogeneity, promoting distinct insect assemblage compositions among streams. Our findings also suggest that beta diversity patterns and their underlying determinants are highly context dependent.

Topics & Concepts

Beta diversityEcologySTREAMSAlpha diversityGamma diversitySubtropicsBorealEcosystemWatershedTaxonomic rankBiodiversityTaigaBiologyLand useHomogenization (climate)GeographyComputer scienceTaxonComputer networkMachine learningFreshwater macroinvertebrate diversity and ecologySpecies Distribution and Climate ChangeEnvironmental Toxicology and Ecotoxicology