Experimental shading alters leaf litter breakdown in streams of contrasting riparian canopy cover |
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| Authors: | CLEMENT LAGRUE JOHN S KOMINOSKI MICHAEL DANGER JEAN‐MARC BAUDOIN SYLVAIN LAMOTHE DIDIER LAMBRIGOT ANTOINE LECERF |
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| Institution: | 1. EcoLab CNRS UMR 5245 (Laboratoire d’écologie fonctionnelle), University of Toulouse, Toulouse, France;2. Odum School of Ecology, University of Georgia, Athens, GA, U.S.A.;3. LIEBE CNRS UMR 7146 (Laboratoire des Interactions Ecotoxicologie, Biodiversité, Ecosystèmes), University of Metz, Metz, France;4. Office National de l’Eau et des Milieux Aquatiques, Direction de l’action scientifique et technique, Vincennes, France |
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| Abstract: | 1. Headwater stream ecosystems are primarily heterotrophic, with allochthonous organic matter being the dominant energy. However, sunlight indirectly influences ecosystem structure and functioning, affecting microbial and invertebrate consumers and, ultimately, leaf litter breakdown. We tested the effects of artificial shading on litter breakdown rates in an open‐canopy stream (high ambient light) and a closed‐canopy stream (low ambient light). We further examined the responses of invertebrate shredders and aquatic hyphomycetes to shading to disentangle the underlying effects of light availability on litter breakdown. 2. Litter breakdown was substantially slower for both fast‐decomposing (alder, Alnus glutinosa) and slow‐decomposing (beech, Fagus sylvatica) leaf litters in artificially shaded stream reaches relative to control (no artificial shading) reaches, regardless of stream type (open or closed canopy). 3. Shredder densities were higher on A. glutinosa than on F. sylvatica litter, and shading had a greater effect on reducing shredder densities associated with A. glutinosa than those associated with F. sylvatica litter in both stream types. Fungal biomass was also negatively affected by shading. Results suggest that the effects of light availability on litter breakdown rates are mediated by resource quality and consumer density. 4. Results from feeding experiments, where A. glutinosa litter incubated under ambient light or artificial shade was offered to the shredder Gammarus fossarum, suggest that experimental shading and riparian canopy openness influenced litter palatability interactively. Rates of litter consumption by G. fossarum were decreased by experimental shading in the open‐canopy stream only. 5. The results suggest that even small variations in light availability in streams can mediate substantial within‐stream heterogeneity in litter breakdown. This study provides further evidence that changes in riparian vegetation, and thus light availability, influence organic matter processing in heterotrophic stream ecosystems through multiple trophic levels. |
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| Keywords: | aquatic hyphomycetes experimental shading litter decomposition riparian forest shredders |
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