Small and impoverished regional species pools constrain colonisation of restored river reaches by fishes
Article first published online: 12 DEC 2012
© 2012 Blackwell Publishing Ltd
Volume 58, Issue 4, pages 664–674, April 2013
How to Cite
STOLL, S., SUNDERMANN, A., LORENZ, A. W., KAIL, J. and HAASE, P. (2013), Small and impoverished regional species pools constrain colonisation of restored river reaches by fishes. Freshwater Biology, 58: 664–674. doi: 10.1111/fwb.12068
- Issue published online: 12 MAR 2013
- Article first published online: 12 DEC 2012
- (Manuscript accepted 31 October 2012)
- maximum successful colonisation distance;
- natural fish assemblage;
- reach-scale restoration;
- species richness;
- stream fish
1. Using an extensive data set from 18 river restoration projects in the lower mountain ranges of Germany and 5462 river reaches in their surroundings, we estimated the spatial extent of the regional fish species pool from which restored river reaches are colonised.
2. Restoration resulted in a marginally significant increase in fish species richness; however, restored reaches still deviated markedly from natural reference conditions. Nearly all (96.6%) species occurring in restored reaches were present in reaches within a distance of 5 km up- or downstream of the restored reach.
3. Species richness in restored reaches was correlated with species richness within a 5-km species pool. This relationship was more pronounced for common than for rare fishes and applied to both the total number of fish species at the restored reach and the number of additional fish species that were not present at unrestored conditions.
4. The richness of the regional species pools was greatly impoverished. On average, only 50% of all species considered to represent natural reference assemblages were present. The limited success in establishing natural fish assemblages in restored reaches was attributed to spatial limitation (e.g. due to fragmentation) and an impoverished regional species pools from which restored reaches recruit.
5. We recommend that integrated river restoration management should consider not only the abiotic prerequisites of successful restorations, but also the structure and quality of the regional species pool.