David McCormick & Simon Harrison Direct and indirect effects of riparian canopy on juvenile stream-dwelling salmonids in south-west Ireland David McCormick & Simon Harrison School of Biological, Earth and Environmental Sciences, University College Cork
Introduction Potential multiple benefits of protected riparian zones: -Trap nutrient and sediment runoff - Enhance bank stability - Prevent excessive sediment input from grazing stock - Increase aquatic and terrestrial biodiversity Increase in riparian tree growth within protected zones is assumed/hoped to be beneficial to stream biota Wisconsin
Effects of riparian canopy on salmonid habitat Direct effects: Cover from avian predators Decrease in primary productivity but increase in organic matter input Effects on water temperature Indirect effects: Impact on macroinvertebrate communities Distribution and abundance of aquatic macrophytes
Best riparian management strategy? Majority of research conducted in other ecoregions. Considerable variation reported in riparian canopy effects in Ireland. - Positive, neutral and negative effect on density - Positive effects as cover - Complex effects on diet and behaviour It may be difficult therefore to predict the local effect of broad-scale management.
Role of instream macrophytes Many Irish streams have abundant submerged or floating-leaved vegetation. Significant contributor to habitat heterogeneity and system productivity. Influenced by water chemistry, benthic substrate, flow conditions and riparian shade.
Study design Paired multi-stream study with open and shaded stretches on each stream. 30-50m stretches electro-fished 3 times (May, August and September). Gut contents of captured fish taken for diet analysis. Macroinvertebrate samples were taken from gravel and macrophytes (where present).
Results Mean (±SE) estimated densities of salmon and trout in open (□) and shaded (■) stretches on the seven study rivers. Streams are arranged in ascending order of macrophyte density. Significantly greater numbers of 0+ salmon were found in open, unshaded, streams stretches. 0+ salmon found in the open stretches were also significantly longer than those found in the shade.
Macroinvertebrate density (A) Comparison between the gravel surbers in the open (□) and shaded stretch (■) of each pair. (B) Comparison between the gravel surbers (□) and the macrophyte surbers (■) within the open stretches. Macroinvertebrate density was significantly greater in the open stretches. Within the open stretches, macroinvertebrate density was significantly greater in the macrophyte patches than in the gravel benthos.
Salmonid diet ■=Chironomidae, ▒=Simuliidae, ■=Baetidae, □=Other. Mean abundance of dominant prey items in the stomachs of 0+ salmon in the open (O) and shaded (S) stretches ■=Chironomidae, ▒=Simuliidae, ■=Baetidae, □=Other. Trend towards more food in the stomachs of 0+ salmon in the open stretches Significant positive correlation between total gut contents of 0+ salmon and macrophyte density in the stream Composition of the diet of 0+ salmon showed a greater similarity to the macroinvertebrate community of the macrophytes than of the gravel
Rank abundance curves for total gut contents of salmonids for all rivers combined. Open stretches Shaded stretches Gut contents were significantly less equitable for salmon in the open, macrophyte-dominated stream sections: a few salmon ate a lot more!
Conclusions Variation in the effect of riparian canopy on juvenile salmon densities and growth may be mediated by macrophytes. Macrophytes are an important source of potential invertebrate prey (Simuliidae, Chironomidae and Baetidae) for juvenile salmon. Macrophytes also provide highly suitable foraging habitat for juvenile salmon. High macrophyte densities likely benefits populations of juvenile salmon, providing they are not accompanied by deleterious habitat quality. Implications for riparian management…