Variation in hydropeaking‐induced stranding of Barbus barbus L. and Chondrostoma nasus L. larvae: Assessing the impact of daytime and down‐ramping rates

Unnatural changes in river flow patterns resulting from peak‐operating hydropower plants adversely impact freshwater ecosystems. In particular, the rapid dewatering of shoreline habitats during artificial flow down‐ramping puts early fish life stages at a high risk of becoming stranded if they fail...

Full description

Saved in:
Bibliographic Details
Published in:Ecohydrology 2024-03, Vol.17 (2), p.n/a
Main Authors: Führer, Simon, Auer, Stefan, Coudrais‐Duhamel, Anna, Olejarz, Antonin, Stoisser, Felix, Schmutz, Stefan, Hayes, Daniel S.
Format: Article
Language:English
Subjects:
Aquatic ecosystems
Barbus barbus
Chondrostoma nasus
Cyprinidae
Developmental stages
Dewatering
Ecosystems
Environmental restoration
experimental flumes
Fish
Flow distribution
Flow pattern
Freshwater
Freshwater ecosystems
freshwater fish
Freshwater plants
Habitats
Hydroelectric plants
Hydroelectric power
Hydroelectric power plants
hydropower
hydro‐peaking
Inland water environment
Larvae
Larval development
Larval stage
Mitigation
Night
River flow
river restoration
Stranding
Time of use
Water levels
Water temperature
young‐of‐the‐year
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Unnatural changes in river flow patterns resulting from peak‐operating hydropower plants adversely impact freshwater ecosystems. In particular, the rapid dewatering of shoreline habitats during artificial flow down‐ramping puts early fish life stages at a high risk of becoming stranded if they fail to follow receding water levels in time. While extensive research has been conducted on the effects of hydropeaking on salmonid species, there is limited knowledge on the diverse cyprinid family, particularly on vulnerable early life stages. Hence, this study aims to compare the larval stranding of two cyprinid species, the common barbel (Barbus barbus L.) and common nase (Chondrostoma nasus L.), in response to bank dewatering. We conducted larvae experiments in near‐natural mesocosms, simulating single flow down‐ramping events with varying down‐ramping rates (0.3–1.8 cm·min−1) during the day and at night to quantify stranding rates, also including water temperature and fish development. Our results reveal distinct diurnal patterns for both species, with higher stranding rates during the night than during the day in all experimental scenarios. The data also show higher stranding rates at faster down‐ramping, with interaction effects between down‐ramping rates and time of day. The stranding rates between the two species are similar across most of the scenarios. Scenarios with colder water temperatures show that nase larvae tend to strand more frequently than with warmer temperatures. In conclusion, the study results contribute to the ongoing discourse on hydropeaking mitigation by providing new perspectives on flow‐reduction effects on early cyprinid life stages. Mitigation measures should prioritize the periods during early larval development and factor in prevailing water temperatures. Lowering down‐ramping rates, especially during nighttime, will help minimizing negative impacts on aquatic ecosystems, particularly when combining flow rules and habitat restoration measures.
ISSN:1936-0584
1936-0592
DOI:10.1002/eco.2626