Effects of dispersal and geomorphology on riparian seed banks and vegetation in a boreal stream

Question Riparian vegetation and seed banks are the foundation of functional riparian zones, yet insight in the processes that explain their composition is limited. We tested three theories fundamental to dispersal and environmental filtering of riparian seed banks and vegetation. Combining these theories, we expected hydrochory to lead to increased species richness downstream in both soil seed bank and vegetation with accumulation restarting after a lake section, and geomorphological filtering to lead to higher similarity of seed bank and vegetation composition locally and within lakes, slow‐flowing sections and rapids, respectively, than between them. Location Svartån, a free‐flowing river in central Sweden. Methods We surveyed riparian vegetation and conducted a germination experiment on riparian soil seed bank cores from lakes, slow‐flowing sections and rapids. We combined these with trait data on seed dispersal syndromes, floating capacity of seeds and seed longevity. We analysed differences throughout the system with linear models and between process domains with Kruskal–Wallis tests and similarity in community composition with the Horn–Morisita similarity index. Results Our results indicated that species richness did not increase downstream and was relatively similar throughout lakes, slow‐flowing sections and rapids for both riparian seed banks and vegetation. Seed floating capacity was similar throughout these river sections, too, and seed longevity was higher in seed banks than in vegetation. Conclusions Geomorphology and hydrochory were not as important drivers in this area for riparian seed bank and vegetation composition as expected. In the area and on the scale studied here, other local and regional environmental factors and dispersal syndromes are more likely to be determinants of riparian dynamics and composition. Continued studies of riparian seed banks can help improve our understanding of riparian composition and functioning in the future. We studied the effects of hydrology and geomorphology for seed dispersal and environmental filtering on riparian vegetation. Riparian seed bank and vegetation contained different species, but we found no clear effect of hydrochory. Geomorphologically different sections (lakes, slow‐flowing and rapid sections) were more similar to each other than expected, and differences in trait composition of seed bank and vegetation were mostly based on seed longevity.