Assessing Habitat Suitability for Native and Alien Freshwater Mussels in the River Waal (the Netherlands), Using Hydroacoustics and Species Sensitivity Distributions

Longitudinal training dams (LTDs) in the river Waal are novel river training structures that protect the littoral zone from the adverse effects of navigation providing new habitats for riverine macroinvertebrates. In order to inform river management and to better understand their ecological value fo...

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Bibliographic Details
Published in:Environmental modeling & assessment 2022-02, Vol.27 (1), p.187-204
Main Authors: Flores, N. Y., Collas, F. P. L., Mehler, K., Schoor, M. M., Feld, C. K., Leuven, R. S. E. W.
Format: Article
Language:English
Subjects:
Applications of Mathematics
Channels
Earth and Environmental Science
Environment
Flow velocity
Fresh water
Habitats
Indigenous species
Invasive species
Littoral environments
Littoral zone
Macroinvertebrates
Math. Appl. in Environmental Science
Mathematical Modeling and Industrial Mathematics
Mollusks
Mussels
Operations Research/Decision Theory
Rivers
Sensitivity
Shells
Substrates
Surveys
Training
Underwater acoustics
Velocity
Water depth
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Summary:Longitudinal training dams (LTDs) in the river Waal are novel river training structures that protect the littoral zone from the adverse effects of navigation providing new habitats for riverine macroinvertebrates. In order to inform river management and to better understand their ecological value for native and alien mussel species, it is important to assess the habitat suitability of the protected LTD shore channels. We applied spatial hydroacoustics surveys consisting of side-scan sonar (SSS) and acoustic Doppler current profiler (ADCP) of the substrate type, water depth and flow velocity in three shore channels in combination with species sensitivity distributions (SSDs) to predict habitat suitability for native and alien mussel species. SSDs allowed for the prediction of habitat suitability as a potentially occurring fraction (POF) of a species pool. High substrate type, water depth, and near-bottom flow velocity POFs were found for ≥ 70%, 100%, and 4–51% of the total shore channel area, respectively, suggesting that shore channels provide suitable habitat for both native and alien mussel species. To enhance the shore channels as habitat for native mussel species, we recommend increasing shallow areas dominated by fine (silt/clay) and sand substrate types with low near-bottom flow velocities (near 0 m/s). In contrast, the total area of hard substrate (e.g., boulders) in the shore channels should be reduced as it strongly favored invasive alien mussel species in our study. Future research should include additional abiotic parameters to enhance the habitat suitability predictions and compare the results for different riverine habitats.
ISSN:1420-2026
1573-2967
DOI:10.1007/s10666-021-09776-4