The relationships between discharge alterations due to the intermittent discharge of turbinated water downstream of hydropower plants (hydropeaking) and drift of zoobenthos were investigated through the simulation of two different flow increases in artificial flumes, i.e. one similar to natural high-flow events (stepwise increase in discharge 2x), and one to hydropeaking (abrupt increase in discharge 7x). The effects on zoobenthos detected with the artificial flumes were compared with those of a field study of an hydropeaking wave in an alpine stream, in order to assess the validity of the artificial flumes to simulate natural streams in hydraulic manipulation experiments. The research was conducted in the Adige River catchment. The experi...
Water abstraction by small hydropower plants is a growing human pressure on Alpine stream ecosystems...
As the global demand for renewable electricity grows, hydropower development of river basins increas...
In earlier studies, changes have been detected in the composition of the lotic benthic macroinverteb...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
We assessed the effects of repeated hydropeaking over five consecutive days on the zoobenthic commun...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
The assessment of the ecological impacts of anthropic alteration of stream ecosystems is often diffi...
Der Betrieb von Speicherkraftwerken führt zu häufigen Abflussschwankungen (Schwall) in Flussabschn...
Daily changes in physical and chemical water parameters (i.e., ecopeaking) can arise seasonally in n...
Rivers downstream of the water release point from hydropower plants often exhibit rapidly fluctuatin...
Water abstraction by small hydropower plants is a growing human pressure on Alpine stream ecosystems...
As the global demand for renewable electricity grows, hydropower development of river basins increas...
In earlier studies, changes have been detected in the composition of the lotic benthic macroinverteb...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
We assessed the effects of repeated hydropeaking over five consecutive days on the zoobenthic commun...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
The assessment of the ecological impacts of anthropic alteration of stream ecosystems is often diffi...
Der Betrieb von Speicherkraftwerken führt zu häufigen Abflussschwankungen (Schwall) in Flussabschn...
Daily changes in physical and chemical water parameters (i.e., ecopeaking) can arise seasonally in n...
Rivers downstream of the water release point from hydropower plants often exhibit rapidly fluctuatin...
Water abstraction by small hydropower plants is a growing human pressure on Alpine stream ecosystems...
As the global demand for renewable electricity grows, hydropower development of river basins increas...
In earlier studies, changes have been detected in the composition of the lotic benthic macroinverteb...