Abstract
Metapopulation theory developed in terrestrial ecology provides applicable frameworks for interpreting the role of local and regional processes in shaping species distribution patterns. Yet, empirical testing of metapopulation models on microbial communities is essentially lacking. We determined regional bacterioplankton dynamics from monthly transect sampling in the Baltic Sea Proper using 16S rRNA gene sequencing. A strong positive trend was found between local relative abundance and occupancy of populations. Notably, the occupancy-frequency distributions were significantly bimodal with a satellite mode of rare endemic populations and a core mode of abundant cosmopolitan populations (e.g. Synechococcus, SAR11 and SAR86 clade members). Temporal changes in population distributions supported several theoretical frameworks. Still, bimodality was found among bacterioplankton communities across the entire Baltic Sea, and was also frequent in globally distributed datasets. Datasets spanning waters with widely different physicochemical characteristics or environmental gradients typically lacked significant bimodal patterns. When such datasets were divided into subsets with coherent environmental conditions, bimodal patterns emerged, highlighting the importance of positive feedbacks between local abundance and occupancy within specific biomes. Thus, metapopulation theory applied to microbial biogeography can provide novel insights into the mechanisms governing shifts in biodiversity resulting from natural or anthropogenically induced changes in the environment.
Highlights
Marine microorganisms regulate ecosystem services through their influence on fluxes of matter and energy in the ocean (Falkowski et al, 2008)
We investigated bacterioplankton population dynamics to elucidate the role of regional as compared with local dynamics in shaping biogeographical patterns (Supporting Information Fig. S2)
Samples of bacterioplankton community composition in the grid of 16 stations in the Baltic Sea Proper over two years (2010-2011) clustered according to season, with a tendency towards differentiation between coastal and offshore sites (Supporting Information Fig. S4). This agreed with the recognized importance of spatiotemporal shifts in environmental conditions for shaping community composition of marine bacteria in the Baltic Sea and elsewhere (Fuhrman et al, 2006; Gilbert et al, 2012; Lindh et al, 2015; Bunse et al, 2016)
Summary
Marine microorganisms regulate ecosystem services through their influence on fluxes of matter and energy in the ocean (Falkowski et al, 2008). These fluxes are ever dynamic due to the pronounced potential of microbial communities to rapidly respond to environmental change, both through adjustments in species composition and metabolic activity (Allison and Martiny, 2008; GomezConsarnau et al, 2012; Logue et al, 2015). Local communities have been regarded as independent ecological units with individual integrity, determined by local interactions among coexisting species and environmental factors (Lawton, 1999).
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