Abstract
The temporal changes in extracellular enzyme activities in freshwater microbial biofilms were examined in two contrasting river sites in North Wales over a 12 month period. Sites were a first order, unshaded oligotrophic upland stream (Nant Waen) and a fourth order, mildly eutrophic river with riparian tree cover (River Clywedog). When algal populations were low, biofilms of the more eutrophic site supported greater enzyme activities and higher population densities than the oligotrophic site. Composition, concentration and origin of substrates available to the respective biofilm communities influenced extracellular processing patterns. Reduction in algal populations depressed total and extracellular activities in biofilms from the first order site, suggesting that biofilm communities here were maintained by in situ primary production. Biofilms from Nant Waen were often found to contain higher extracellular activities per cell than the more eutrophic River Clywedog biofilms, which might represent the enhanced ability of an oligotrophic biofilm to accumulate extracellular enzymes. In contrast, light and darkgrown River Clywedog biofilms were not enzymatically distinct, inferring a less important role for biofilm phototrophs. Some evidence was found for increased reliance on allochthonous substrates in the River Clywedog for biofilm maintenance.
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Jones, S.E., Lock, M.A. Seasonal determinations of extracellular hydrolytic activities in heterotrophic and mixed heterotrophic/autotrophic biofilms from two contrasting rivers. Hydrobiologia 257, 1–16 (1993). https://doi.org/10.1007/BF00013991
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DOI: https://doi.org/10.1007/BF00013991