Leaf breakdown and associated macroinvertebrates in alpine glacial streams

1. The relationship between macroinvertebrate assemblages and the breakdown of alder [Alnus viridis (Chaix), Dc.] leaves was examined by exposing leaf packs in four streams in an alpine glacial floodplain over 8 months. Although glacially fed, the four sites (pro‐glacial, glacial lake outlet, main channel, and a side‐channel with a mix of water sources) differed physically and contained different benthic communities. 2. Leaf breakdown and associated fungal properties differed widely among sites. Leaf decay rate varied by an order of magnitude ( k ranged from 0.0029 to 0.0305 day –1 ), and was fastest at the lake outlet (< 20% leaf mass remaining by day 45) and slowest at the pro‐glacial site (> 75% remaining on day 45). Rapid processing at the lake outlet was because of the presence of Acrophylax zerberus Brauer, a shredding caddisfly. 3. There were few macroinvertebrate taxa at the pro‐glacial site (two to four taxa present in packs) and leaf breakdown was attributed primarily to micro‐organisms. Leuctra abundance in leaf packs was strongly correlated with fungal biomass but not with the sporulation activity of any specific aquatic hyphomycete. Other taxa, such as Baetis and chironomids, showed no relationship with any leaf characteristic, suggesting that leaf packs were used mainly as a habitat and not as a food resource. 4. The predatory stonefly Isoperla was significantly associated with the abundance of macroinvertebrate prey ( Baetis , Chironomidae and Leuctra ) in leaf packs at the main and side‐channel sites. The results indicate that leaf breakdown can vary widely in alpine lotic environments, reflecting site‐specific differences in habitat characteristics, and in macroinvertebrate and fungal composition.