Abstract
ABSTRACTIslands provide ideal model systems to examine the factors influencing biodiversity, yet knowledge of microbial biodiversity on islands remains scarce. We collected a dataset from 101 rock pools along a freshwater to brackish water transition on islands of the Baltic Sea and investigated the patterns and drivers of community composition and species richness of diatoms, cyanobacteria and non-cyanobacteria bacteria among islands. We also examined whether environmental heterogeneity increased beta diversity and species richness within islands. Among islands, the patterns in community composition were concordant among the microbial groups, with distinct changes along the freshwater–brackish gradient. The patterns in species richness were context-dependent for each microbial group. In general, richness patterns were most strongly associated with nutrient concentrations or the distances to potential sources of immigrants, whereas no positive relationships between ecosystem size and richness were found. Within islands, environmental heterogeneity was positively correlated with the beta diversity of each microbial group, but not species richness. Our findings provide novel insights into the factors influencing microbial biodiversity. The results suggest that island microbial biodiversity patterns are influenced by species sorting and dispersal-related mechanisms and highlight the importance of environmental heterogeneity for beta diversity.
Highlights
Islands have long served as ideal model systems to examine the mechanisms underlying biodiversity patterns and island studies have contributed enormously to ecological and evolutionary theories (MacArthur and Wilson 1967; Warren et al 2015)
We collected a dataset from 101 rock pools along a freshwater to brackish water transition on islands of the Baltic Sea and investigated the patterns and drivers of community composition and species richness of diatoms, cyanobacteria and non-cyanobacteria bacteria among islands
We examined whether environmental heterogeneity increased beta diversity and species richness within islands
Summary
Islands have long served as ideal model systems to examine the mechanisms underlying biodiversity patterns and island studies have contributed enormously to ecological and evolutionary theories (MacArthur and Wilson 1967; Warren et al 2015). Islands are valuable for the variety of life on Earth as they host high numbers of endemic species and collectively contribute to global biodiversity disproportionately to their area (Whittaker and Fernandez-Palacios 2007). Given that microorganisms have indispensable roles in ecosystem functioning and biogeochemical cycles (Falkowski, Fenchel and Delong 2008; Hope, Paterson and Thrush 2020), increased understanding of the factors shaping their biodiversity is essential
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