Synergistic impacts of sediment contamination and dam presence on river functioning
Article first published online: 23 NOV 2012
© 2012 Blackwell Publishing Ltd
Volume 58, Issue 2, pages 320–336, February 2013
How to Cite
COLAS, F., BAUDOIN, J.-M., DANGER, M., USSEGLIO-POLATERA, P., WAGNER, P. and DEVIN, S. (2013), Synergistic impacts of sediment contamination and dam presence on river functioning. Freshwater Biology, 58: 320–336. doi: 10.1111/fwb.12060
- Issue published online: 7 JAN 2013
- Article first published online: 23 NOV 2012
- (Manuscript accepted 16 October 2012)
- breakdown rates;
- ecological continuity;
- multiple stressors
1. Dam presence is commonly associated with strong accumulation of polluted sediments. In spite of this context of multiple stressors, physical effects are often solely considered in the ecological assessment of the dam impacts.
2. We studied four ‘reservoir/downstream reach’ systems differing in levels of sediment contamination in reservoirs. Using assemblages and biotrait (i.e. ecological or biological attribute) responses of macroinvertebrate communities and leaf litter breakdown, we examined the individual effects and potential interactions between sediment contamination and dam presence along the gradient of ecotoxic pressure.
3. Leaf breakdown rates ranged from 0.0044° per day in the most contaminated reservoir to 0.0120° per day in the reference reservoir. Comparisons of community trait profiles among reservoirs highlighted a gradient of trait responses to sediment contamination.
4. In the absence of toxic contamination, the dam-induced modifications in biotraits of invertebrate assemblages were not related to a reduction of leaf litter breakdown. Conversely, contaminated sediment in reservoir induced strong functional disturbances (i.e. bioecological shifts and reduction of leaf litter breakdown) downstream of dams.
5. Key biotrait categories positively related to leaf litter breakdown rate have been identified. They corresponded mainly to shredders and/or small-sized (<0.5 cm) insects, using aquatic (e.g. crawlers) or aerial (e.g. fliers) active dispersal strategies. In addition, trait categories positively correlated to contamination level have been considered as ‘response’ traits. They corresponded to large-sized (>4 cm) species, having several generations per year (polyvoltin), using asexual reproduction and/or disseminating by drift (aquatic, passive).
6. In the current context of ecological continuity restoration, this study has identified the risks associated with the presence of historical contamination in the run-of-river reservoirs for downstream ecosystem health.