2023
DOI: 10.1002/eco.2530
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Applying a two‐dimensional hydrodynamic model to estimate fish stranding risk downstream from a hydropeaking hydroelectric station

Abstract: Fish stranding is of global concern with increasing hydropower operations using hydropeaking to respond to fluctuating energy demand. Determining the effects hydropeaking has on fish communities is challenging because fish stranding is dependent on riverscape features, such as topography, bathymetry and substrate. By using a combination of physical habitat assessments, hydrodynamic modelling and empirical data on fish stranding, we estimated the number of fish stranding over a 5-month period for three model ye… Show more

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Cited by 3 publications
(2 citation statements)
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“…This model could also test the influence of stranding of the temporal and spatial variations in habitat suitability for the different taxa close to stranding microstructures (Bätz et al, 2022). Recently developed methods could also be used to identify the disconnected microstructures and quantify their associated stranding risk (Larrieu et al, 2021) or to estimate fish stranding risk on a large scale using a combination of physical habitat assessments, hydrodynamic modeling, and empirical data (Glowa, Kneale, et al, 2023). Moreover, the longitudinal effects of peaking intensity parameters (Hauer et al, 2017) could be assessed with the help of a longitudinal model of hydropeaking waves calibrated with multiple hydrological gauges (Greimel et al, 2023).…”
Section: Perspectivesmentioning
confidence: 99%
“…This model could also test the influence of stranding of the temporal and spatial variations in habitat suitability for the different taxa close to stranding microstructures (Bätz et al, 2022). Recently developed methods could also be used to identify the disconnected microstructures and quantify their associated stranding risk (Larrieu et al, 2021) or to estimate fish stranding risk on a large scale using a combination of physical habitat assessments, hydrodynamic modeling, and empirical data (Glowa, Kneale, et al, 2023). Moreover, the longitudinal effects of peaking intensity parameters (Hauer et al, 2017) could be assessed with the help of a longitudinal model of hydropeaking waves calibrated with multiple hydrological gauges (Greimel et al, 2023).…”
Section: Perspectivesmentioning
confidence: 99%
“…A hydropeaking dam upstream can affect the biodiversity of the downstream ecosystem through hydrologic alterations (Bürgler et al, 2023; Meile et al, 2011; Moreira et al, 2019; Ray & Sarma, 2011; Wang et al, 2019). Artificial flow fluctuations due to hydropeaking can hinder the sustenance rate of aquatic organisms (Glowa et al, 2023; Greimel et al, 2018; Hedger et al, 2023). Thus, to protect the ecosystem and to acquire the maximum benefit of electricity generation, there is a need for an integrated water resources management of regulated rivers (Widén et al, 2022).…”
Section: Introductionmentioning
confidence: 99%